abstracts - Organization for Human Brain Mapping
abstracts - Organization for Human Brain Mapping
abstracts - Organization for Human Brain Mapping
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HBM 2011<br />
17 th Annual Meeting<br />
of the <strong>Organization</strong> on <strong>Human</strong> <strong>Brain</strong> <strong>Mapping</strong><br />
Centre des Congrès de Québec<br />
June 26-30, 2011<br />
<strong>abstracts</strong><br />
Québec City, Canada<br />
www.humanbrainmapping.org/hbm2011
poster key<br />
All posters will be displayed <strong>for</strong> 2 days, either Monday/<br />
Tuesday or Wednesday/Thursday.<br />
For Monday and Tuesday posters, even numbered posters<br />
will stand-by on Monday, June 27 and odd numbered<br />
posters will stand-by on Tuesday, June 28.<br />
For Wednesday and Thursday posters, even numbered<br />
posters will stand-by on Wednesday, June 29 and odd<br />
numbered posters will stand-by on Thursday, June 30.<br />
Monday and Tuesday Posters<br />
CaTegory/SuB-CaTegory PoSTer NumBerS<br />
<strong>Brain</strong> Stimulation methods<br />
Deep <strong>Brain</strong> Stimulation 1-6<br />
Direct Electrical/Optogenetic Stimulation 7-8<br />
TDCS 9-14<br />
TMS 15-33<br />
____________________________________________________<br />
Disorders of the Nervous System<br />
Alzheimer’s Disease and Other Dementias 34-96<br />
Autism 97-127<br />
Developmental Disorders 128-173<br />
Epilepsy 174-219<br />
Mood and Anxiety Disorders 220-296<br />
Traumatic <strong>Brain</strong> Injury 297-318<br />
____________________________________________________<br />
emotion and motivation<br />
Reward and Punishment 319-353<br />
Sexual Behavior 354-356<br />
____________________________________________________<br />
Higher Cognitive Functions<br />
Executive Function 357-413<br />
Imagery 414-429<br />
Music 430-443<br />
____________________________________________________<br />
Imaging methods<br />
Anatomical MRI 444-471<br />
BOLD fMRI 472-554<br />
Diffusion MRI 555-607<br />
Non-BOLD fMRI 608-614<br />
____________________________________________________<br />
Daily Poster Stand-By Session Times:<br />
Monday, June 27: 13:00 – 15:30 (even numbers)<br />
Tuesday, June 28: 13:15 – 15:45 (odd numbers)<br />
Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
Thursday, June 30: 10:30 – 13:00 (odd numbers)<br />
All Monday and Tuesday presenters are invited to attend<br />
a poster reception on Tuesday evening from 18:00 – 19:30.<br />
All Wednesday and Thursday presenters are invited to<br />
attend a poster reception on Thursday evening from<br />
17:00 – 18:30.<br />
CaTegory/SuB-CaTegory PoSTer NumBerS<br />
modeling and analysis methods<br />
Image Registration and<br />
Computational Anatomy 615-636<br />
Motion Correction and Preprocessing 637-645<br />
Multivariate Modeling 646-668<br />
PET Modeling and Analysis 669-670<br />
Segmentation and Parcellation 671-699<br />
Task-Independent and<br />
Resting-State Analysis 700-759<br />
Univariate Modeling 760-767<br />
Other Methods 768-797<br />
____________________________________________________<br />
Language<br />
Language Acquisition 798-804<br />
Language Comprehension and Semantics 805-840<br />
____________________________________________________<br />
Learning and memory<br />
Implicit Memory 841-842<br />
Long-Term Memory (Episodic and Semantic) 843-863<br />
Neural Plasticity and Recovery of Function 864-874<br />
____________________________________________________<br />
Lifespan Development<br />
Aging 875-923<br />
____________________________________________________<br />
Neuroanatomy<br />
Anatomy and Function 924-944<br />
White Matter Anatomy, Fiber Pathways<br />
and Connectivity 945-983<br />
____________________________________________________<br />
Perception and attention<br />
Attention: Auditory/Tactile/Motor 984-989<br />
Attention: Visual 990-1013<br />
Chemical Senses: Olfaction, Taste 1014-1015<br />
Consciousness and Awareness 1016-1028<br />
Sleep and Wakefulness 1029-1038<br />
____________________________________________________<br />
HBM 2011 >> <strong>abstracts</strong> 3
Monday and Tuesday Posters, continued<br />
CaTegory/SuB-CaTegory PoSTer NumBerS<br />
Physiology, metabolism and Neurotransmission<br />
Cerebral Metabolism and Hemodynamics 1039-1046<br />
Neurophysiology of Imaging Signals 1047-1052<br />
Pharmacology and Neurotransmission 1053-1059<br />
____________________________________________________<br />
Wednesday and Thursday Posters<br />
CaTegory/SuB-CaTegory PoSTer NumBerS<br />
Disorders of the Nervous System<br />
Addictions 1-29<br />
Obsessive-Compulsive Disorder and<br />
Tourette Syndrome 30-42<br />
Parkinson’s Disease and<br />
Movement Disorders 43-77<br />
Schizophrenia and Psychotic Disorders 78-153<br />
Sleep Disorders 154-158<br />
Stroke 159-183<br />
Other Disorders 184-226<br />
____________________________________________________<br />
emotion and motivation<br />
Emotional Learning 227-235<br />
Emotional Perception 236-293<br />
____________________________________________________<br />
genetics<br />
Genetic Association Studies 294-313<br />
Genetic Modeling and Analysis Methods 314-325<br />
Neurogenetic Syndromes 326-334<br />
____________________________________________________<br />
In<strong>for</strong>matics<br />
Atlases 335-340<br />
Databasing and Data Sharing 341-358<br />
Pipelines 359-365<br />
____________________________________________________<br />
Higher Cognitive Functions<br />
Decision Making 366-402<br />
Reasoning and Problem Solving 403-411<br />
Space, Time and Number Coding 412-423<br />
____________________________________________________<br />
Imaging methods<br />
EEG 424-444<br />
MEG 445-461<br />
MR Spectroscopy 462-467<br />
Multi-Modal Imaging 468-499<br />
Optical Imaging/NIRS 500-532<br />
PET 533-537<br />
____________________________________________________<br />
4 HBM 2011 >> <strong>abstracts</strong><br />
CaTegory/SuB-CaTegory PoSTer NumBerS<br />
Social Neuroscience<br />
Self Processes 1060-1069<br />
Social Cognition 1070-1099<br />
Social Interaction 1100-1117<br />
____________________________________________________<br />
CaTegory/SuB-CaTegory PoSTer NumBerS<br />
modeling and analysis methods<br />
Bayesian Modeling 538-544<br />
Classification and Predictive Modeling 545-592<br />
Diffusion MRI Modeling and Analysis 593-624, 645<br />
EEG/MEG Modeling and Analysis 625-665<br />
Exploratory Modeling and Artifact Removal 666-677<br />
fMRI Connectivity and Network Modeling 678-774<br />
Segmentation and Parcellation 601<br />
____________________________________________________<br />
Language<br />
Reading and Writing 775-792<br />
Speech Perception 793-815<br />
Speech Production 816-828<br />
____________________________________________________<br />
Learning and memory<br />
Skill Learning 829-841<br />
Working Memory 842-862<br />
____________________________________________________<br />
Lifespan Development<br />
Normal <strong>Brain</strong> Development:<br />
Fetus to Adolescence 863-898<br />
____________________________________________________<br />
motor Behavior<br />
Basal Ganglia/<strong>Brain</strong>stem/<br />
Spinal Cord Function 899-900<br />
<strong>Brain</strong>-Machine Interface 901-910<br />
Cerebellar Function 911-913<br />
Eye Movements/<br />
Visuomotor System Function 914-918<br />
Motor-Premotor Cortical Functions 919-952<br />
____________________________________________________<br />
Neuroanatomy<br />
<strong>Brain</strong> Networks 953-981, 1115<br />
Cortical Anatomy and Segregation 982-993<br />
Subcortical Structures 994-1003<br />
____________________________________________________<br />
Perception and attention<br />
Perception: Auditory/ Vestibular 1004-1020<br />
Perception: Multisensory and Crossmodal 1021-1038<br />
Perception: Pain and Visceral 1039-1067<br />
Perception: Tactile/Somatosensory 1068-1081<br />
Perception: Visual 1082-1114<br />
____________________________________________________
Schedule of Poster Presentations<br />
Monday, June 27, 2011 and Tuesday, June 28, 2011<br />
* Indicates poster will also be presented during an Oral Session. The Oral Session number is indicated in parantheses after the poster title.<br />
** Indicates poster will also be presented as an I-Poster. Please check the Program Book <strong>for</strong> I-Poster presentation times.<br />
In<strong>for</strong>mation listed, including author affiliations, appear as submitted.<br />
<strong>Brain</strong> Stimulation<br />
Deep <strong>Brain</strong> Stimulation<br />
1 High Frequency Oscillations - a Neurophysiological<br />
Marker of the Motor State in Parkinson’s Disease<br />
Markus Butz1,2 , Tolga Özkurt1 , Melanie Homburger1 , Saskia<br />
Elben1 , Jan Vesper3 , Lars Wojtecki1 , Alfons Schnitzler1 1Institute of Clinical Neuroscience and Medical Psychology,<br />
Heinrich-Heine-University, Düsseldorf, Germany, 2Institute of Neurology, University College London, London, United<br />
Kingdom, 3Department of Neurosurgery, Heinrich-Heine-<br />
University, Düsseldorf, Germany<br />
2<br />
3<br />
4<br />
5<br />
6<br />
Clinical efficacy of subthalamic stimulation <strong>for</strong><br />
Parkinson’s disease : location of electrodes<br />
NEUVILLE Jérôme 1,2,3 , BREFEL-COURBON Christine 4 ,<br />
ARBUS Christophe 5 , MOYSE Emmanuel 4 , ORY Fabienne 4 ,<br />
BERRY Isabelle 4 , LOTTERIE Jean-Albert 4 ,<br />
SIMONETTA-MOREAU Marion 4 , CHAYNES Patrick 4<br />
1 CHU Toulouse Pôle Neurosciences, Toulouse, France,<br />
2 Université Paul Sabatier, Toulouse, France, 3 LERISM,<br />
Toulouse, France, 4 CHU Toulouse, Pôle neurosciences,<br />
Toulouse, France, 5 CHU Toulouse, Service psychiatrie,<br />
Toulouse, France<br />
Abnormalities of Thalamic Anatomy in Pain:<br />
Implications <strong>for</strong> Deep <strong>Brain</strong> Stimulation Surgery<br />
Patrick Schweder 1 , Alexander Green 2 , Peter Hansen 3 ,<br />
Liz Moir 2 , Tipu Aziz 2<br />
1 University Of Ox<strong>for</strong>d, Department Of Neurosurgery,<br />
Ox<strong>for</strong>d, United Kingdom, 2 University of Ox<strong>for</strong>d, Department<br />
of Neurosurgery, Ox<strong>for</strong>d, United Kingdom, 3 University of<br />
Ox<strong>for</strong>d, Department of Physiology, Anatomy and Genetics,<br />
Ox<strong>for</strong>d, United Kingdom<br />
An Anatomical and Diffusion Analysis of the Nucleus<br />
Accumbens<br />
Patrick Schweder 1 , Sameer Sheth 2 , Peter Hansen 3 ,<br />
Alexander Green 4 , Tipu Aziz 4<br />
1 University Of Ox<strong>for</strong>d, Department Of Neurosurgery,<br />
United Kingdom, 2 Massachusetts General Hospital,<br />
Chestnut Hill, MA, 3 University of Ox<strong>for</strong>d, Department<br />
of Physiology, Anatomy and Genetics, Ox<strong>for</strong>d, United<br />
Kingdom, 4 University of Ox<strong>for</strong>d, Department of<br />
Neurosurgery, Ox<strong>for</strong>d, United Kingdom<br />
The role of connectivity to motor networks in<br />
successful VIM stimulation<br />
Johannes Klein 1 , Michael Barbe 2 , Carola Oberschmidt 1 ,<br />
Simon Baudrexel 1 , Lutz Weise 1 , Matthias Runge 2 ,<br />
Mohammad Maarouf 2 , Thomas Gasser 3 , Lars<br />
Timmermann 2 , Rüdiger Hilker 1<br />
1 Goethe-University of Frankfurt, Frankfurt, Germany,<br />
2 University of Cologne, Cologne, Germany,<br />
3 University Hospital Essen, Essen, Germany<br />
Synchronization of multiple chaotic FitzHugh-Nagumo<br />
neurons under external electric stimulation<br />
Muhammad Rehan 1 , Keum-Shik Hong 1<br />
1 Pusan National University, Busan, Korea, Republic of<br />
<strong>Brain</strong> Stimulation<br />
Direct Electrical/Optogenetic Stimulation<br />
7 MRI-based Finite Element Modeling of Transcranial<br />
Electrical Stimulation<br />
Michael Russell1 , Bennett Groshong2 , David Wiley3 1 2 Aaken Laboratories, Aaken Laboratories, Davis, CA,<br />
3Stratovan Corp., Woodland, CA<br />
8<br />
Successful simultaneous four-point cortical<br />
stimulation monitoring in a hemiparetic patient<br />
Yoshinobu Kamio 1 , Hiroaki Kenmochi 1 , Hirokazu<br />
Nakatogawa 1 , Ayataka Fujimoto 1 , Chikanori Inenaga 1 ,<br />
Takamichi Yamamoto 1 , Tsuneo Sakai 1 , Hiroki Namba 2 ,<br />
Tokutaro Tanaka 1<br />
1 Seirei Hamamatsu General Hospital, Hamamatsu,<br />
Shizuoka, Japan, 2 Hamamatsu University School of<br />
Medicine, Hamamatsu, Shizuoka, Japan<br />
<strong>Brain</strong> Stimulation<br />
TDCS<br />
9 Modulation the Cortical Activity by Prefrontal tDCS in<br />
Patients with Stroke<br />
Yun-Hee Kim1 , Won Hyuk Chang2 , Ji Sung Yoo2 ,<br />
Ah-Hee Lee2 , Ji-Young Park2 , Alvaro Pascual-Leone3 1Samsung Medical Center, Sungkyunkwan University<br />
School of Medicine, Seoul, Rep. of Korea, 2Sungkyunkwan University School of Medicine, Seoul, Korea, Republic of,<br />
3Beth Israel Deaconess Medical Center, Harvard Medical<br />
School, Boston, MA<br />
10<br />
11<br />
12<br />
13<br />
Structural Differences in BA6 Account <strong>for</strong> Variability<br />
of Cerebellar TDCS Effects on Working Memory<br />
Andreas Boehringer 1 , Katja Macher 1 , Juergen Dukart 1 ,<br />
Arno Villringer 1,2,3 , Burkhard Pleger 4,2,3<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Berlin School of Mind&<strong>Brain</strong>,<br />
Berlin, Germany, 3 Dept of Cognitive Neurology, University<br />
Hospital Leipzig, Leipzig, Germany, 4 Max-Planck-Institute<br />
<strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong> Science, Leipzig, Germany<br />
Can fMRI be useful to detect changes induced by tDCS<br />
in a case of obsessive compulsive disorder?<br />
Chiara Volpato 1 , Francesco Piccione 1 , Marianna Cavinato 1 ,<br />
Davide Duzzi 2 , Luciano Foscolo 1 , Annalena Venneri 3,1<br />
1 IRCCS San Camillo, Venice, Italy, 2 University of Modena<br />
and Reggio Emilia, Modena, Italy, 3 University of Hull,<br />
Hull, United Kingdom<br />
Anterograde diffusivity changes in corticospinal<br />
tracts of stroke patients undergoing tDCS<br />
Robert Lindenberg 1 , Felix Betzler 1 , Lin Zhu 1 ,<br />
Gottfried Schlaug 1<br />
1 BIDMC / Harvard Medical School, Boston, MA<br />
Effective connectivity estimation from somatosensory<br />
MEG data: a study of the tDCS effect<br />
Sergey Plis 1<br />
1 The Mind Research Network<br />
HBM 2011 >> <strong>abstracts</strong> 5<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
<strong>Brain</strong> Stimulation<br />
TDCS, continued<br />
14<br />
effects of tDCS on behaviour and electrophysiology<br />
of lanuage production<br />
Miranka Wirth 1 , Thomas Dierks 2 , Helge Horn 2 , Janina<br />
Kuenecke 3 , Rasha Abdel Rahman 3 , Werner Sommer 3 ,<br />
Thomas Koenig 4<br />
1 University of Cali<strong>for</strong>nia, Berkeley, CA, 2 Department of<br />
Psychiatric Neurophysiology, Bern, Switzerland,<br />
3 Humboldt University, Berlin, Germany, 4 Department<br />
of Psychiatric Neurophysiology, University Hospital of<br />
Psychiatry, Bern, Switzerland<br />
<strong>Brain</strong> Stimulation<br />
TMS<br />
15** Baboon Validations of the Cortical Column Cosine<br />
aiming model of TmS Induced <strong>Brain</strong> activations<br />
Felipe Salinas1 , Shalini Narayana1 , Wei Zhang1 , Lisa<br />
Jones2 , M. Michelle Leland2 , Jack Lancaster1 , Peter Fox1 1Research Imaging Institute, UTHSCSA, San Antonio, TX,<br />
United States, 2Dept. Lab Animal Resources, UTHSCSA,<br />
San Antonio, TX, United States<br />
16**<br />
17*<br />
18<br />
19<br />
20<br />
FmrI and Concurrent Paired Pulse TmS at m1<br />
Carsten Schmidt-Samoa 1 , Juergen Baudewig 2 ,<br />
Peter Dechent 1<br />
1 MR-Research in Neurology and Psychiatry, University<br />
Medical Center Goettingen, Goettingen, Germany,<br />
2 D.I.N.E, Freie Universitaet Berlin, Berlin, Germany<br />
How do gyral orientation and White matter anisotropy<br />
affect the electric Field Induced by TmS?, (o-W4)<br />
Alexander Opitz 1 , Mirko Windhoff 1 , Robin Heidemann 2 ,<br />
Robert Turner 2 , Axel Thielscher 1<br />
1 Max Planck Institute For Biological Cybernetics,<br />
Tuebingen, Germany, 2 Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
rhythmic TmS of parietal cortex causes the local<br />
entrainment of oscillatory signatures of attention<br />
Gregor Thut 1 , Domenica Veniero 2 , Vincenzo Romei 3 ,<br />
Carlo Miniussi 2 , Philippe Schyns 1 , Joachim Gross 1<br />
1 Centre <strong>for</strong> Cognitive Neuroimaging, University of Glasgow,<br />
United Kingdom, 2 National Institute of Neuroscience,<br />
University of Brescia, Italy, 3 Institute of Cognitive<br />
Neuroscience, UCL, United Kingdom<br />
Where does Transcranial magnetic Stimulation<br />
stimulate?<br />
Janine Bijsterbosch 1 , Anthony Barker 2 , Kwang-Hyuk Lee 1 ,<br />
Peter Woodruff 1<br />
1 ScanLab, Academic Clinical Psychiatry, University of<br />
Sheffield, Sheffield, United Kingdom, 2 Department of<br />
Medical Physics and Clinical Engineering, University<br />
of Sheffield, Sheffield, United Kingdom<br />
The effects of Theta-burst (TBS) rTmS on locally<br />
measured cortical response to somatosensory stimuli<br />
Sébastien Thomas 1 , Ajay Venkateswaran 1 ,<br />
Sujaya Neupane 1 , Amir Shmuel 1<br />
1 Montreal Neurological Institute, Montreal, Quebec<br />
6 HBM 2011 >> <strong>abstracts</strong><br />
21<br />
22<br />
23<br />
24<br />
25<br />
26<br />
27<br />
Dynamic probe of brain plasticity helps best predict<br />
functional gain following robotic therapy<br />
Marie-Helene Milot 1 , Vicky Chan 1 , Steven Spencer 1 ,<br />
James Allington 1 , Julius Klein 1 , James Bobrow 1 ,<br />
David Reinkensmeyer 1 , Steven Cramer 1<br />
1 University of Cali<strong>for</strong>nia, Irvine, United States<br />
Cortical control of resting state condition in humans:<br />
a rTmS-eeg study<br />
paolo capotosto 1 , claudio babiloni 2 , Gian Luca Romani 1 ,<br />
maurizio corbetta 3<br />
1 ITAB- Department of Neuroscience and<br />
Imaging- G.D’Annunzio University Of Chieti, Chieti, Italy,<br />
2 Dip. Scienze Biomediche, Univ. di Foggia, Foggia,<br />
Italy, 3 Department of Neurology, Radiology, Anatomy &<br />
Neurobiology, Washington University School of Medicine,<br />
St.Louis, MO<br />
Interhemispheric connectivity influences TmS-induced<br />
modulation during auditory processing<br />
Jamila Andoh 1,2 , Robert Zatorre 1,2<br />
1 Montreal Neurological Institute, McGill University, Montreal,<br />
Quebec, Canada, 2 International laboratory <strong>for</strong> <strong>Brain</strong>, Music,<br />
and Sound Research (BRAMS), Montreal, Quebec, Canada<br />
rTmS modulates functional connectivity of dl prefrontal<br />
cortex and hippocampus during working memory<br />
Edda Bilek1 , Christine Esslinger2 , Urs Braun3 ,<br />
Elisabeth Ochs3 , Carina Sauer3 , Dagmar Gass3 ,<br />
Heike Tost4 , Thomas Schulze3 , Marcella Rietschel3 ,<br />
Peter Kirsch3 , Andreas Meyer-Lindenberg5 1Central Institute of Mental Health, Mannheim, Germany,<br />
2 3 Mannheim, Germany, Central Institute of Mental Health,<br />
Mannheim, Germany, 4Central Institute of Mental Health<br />
(CIMH) Mannheim, Germany, Mannheim, Germany,<br />
5Central Institute of Mental Health (CIMH) Mannheim,<br />
Mannheim, Germany<br />
Inhibition of Prefrontal Cortex oxygenation Following<br />
Continuous Theta Burst Stimulation<br />
Sara Tupak 1 , Meike Badewien 1 , Thomas Dresler 1 ,<br />
Tim Hahn 1 , Lena Ernst 2 , Ann-Christine Ehlis 2 , Martin<br />
Herrmann 1 , Jürgen Deckert 1 , Andreas Fallgatter 2<br />
1 Department of Psychiatry, University of Wuerzburg,<br />
Wuerzburg, Germany, 2 Department of Psychiatry,<br />
University of Tuebingen, Tuebingen, Germany<br />
Influence of the amount of use on hand motor<br />
representation: effect of immobilization vs. training<br />
Suzy Ngomo 1<br />
1 Centre Interdisciplinaire de Recherche en Réadaptation<br />
et Intégration Sociale, Université Laval, Québec, Canada<br />
Low frequency rTmS of the cerebellum has remote<br />
effects within the cerebral cortex<br />
Traian Popa 1 , Cécile Gallea 1 , Romain Valabregue 1 ,<br />
Sabine Meunier 1 , Stéphane Lehéricy 1<br />
1 Centre de Recherche de l’Institut du Cerveau et<br />
de la Moelle épinière (CR-ICM), Paris, France
<strong>Brain</strong> Stimulation<br />
TMS, continued<br />
28<br />
29<br />
30<br />
31<br />
32<br />
33<br />
The role of the right parietal cortex in sound<br />
localization: a chronometric single-pulse TmS study<br />
Ayse At1 , Lucas Spierer2 , Stephanie Clarke2 1 2 CHUV, Lausanne,Switzerland, CHUV, Lausanne,<br />
Switzerland<br />
Daily rTmS to primary motor cortex augments slow<br />
motor learning: Behavioral and Imaging findings<br />
Shalini Narayana 1 , Wei Zhang 1 , William Rogers 1 ,<br />
Casey Strickland 1 , Crystal Franklin 1 , Jack Lancaster 1 ,<br />
Peter Fox 1<br />
1 Research Imaging Institute, University of Texas Health<br />
Science Center at San Antonio, San Antonio, TX,<br />
United States<br />
Cortical Inhibition and Cognitive Fatigue in<br />
multiple Sclerosis<br />
Afiqah Yusuf 1 , Rebecca Sussex 1 , Benjamin Whatley 1 ,<br />
Avinash Vaidya 1 , Lisa Koski 1<br />
1 McGill University, Montreal, Quebec, Canada<br />
motor plasticity induced by theta burst stimulation:<br />
correlated measures of mePs and eeg<br />
Marine Vernet 1 , Shahid Bashir 1 , Jennifer Perez 1 ,<br />
Umer Najib 1 , Alvaro Pascual-Leone 1<br />
1 Beth Israel Deaconess Medical Center, Harvard<br />
Medical School, Boston, MA<br />
rTmS over right Inferior Parietal Cortex Induces<br />
Decrement of Spatial Sustained attention<br />
Je Yeon Lee 1 , Kiwan Han 2 , Jinsik Park 3 , Yohan Son 3 ,<br />
Hyeongrae Lee 3 , Kyung Ran Kim 4 , Jeonghun Ku 5 ,<br />
Eun Lee 6 , Sun I. Kim 7<br />
1 Department of Biomedical Engineering, Hanyang Univ.,<br />
Seoul, Korea, Republic of, 2 Severance Biomedical<br />
Science Institute, Yonsei University College of Medicine,<br />
Seoul, Korea, Republic of, 3 Department of Biomedical<br />
Engineering, Hanyang University, Seoul, Korea, Republic<br />
of, 4 Department of Psychiatry, Yonsei University College of<br />
Medicine, Seoul, Republic Of Korea, 5 Keimung University,<br />
Daeku, Korea, Republic of, 6 Yonsei University College of<br />
Medicine, Seoul, Korea, Republic of, 7 Hanyang University,<br />
Seoul, Korea, Republic of<br />
Noninvasive, Physiologic Characterization of Cortical<br />
Plasticity after mild TBI Injury in <strong>Human</strong>s<br />
Shahid Bashir1 , Marine Vernet2 , Yoo Woo-Kyoung2 ,<br />
Mizrahi Ilan2 , Hugo Théoret3 , Alvaro Pascual-Leone4 1Harvard Medical School - Berenson-Allen Center <strong>for</strong><br />
Noninvasive <strong>Brain</strong> Stimulation, Boston, MA, 2Harvard Medical School - Berenson-Allen Center <strong>for</strong> Noninvasive<br />
<strong>Brain</strong> Stimulation, Boston, United States, 3Département de<br />
psychologie, Université de Montréal, Montréal , Canada,<br />
4Beth Israel Deaconess Medical Center, Harvard Medical<br />
School, Boston, MA<br />
34*<br />
35<br />
Disorders of the Nervous System<br />
Alzheimer’s Disease and Other Dementias<br />
36**<br />
37**<br />
38<br />
39<br />
Insulin resistance impacts brain and cognition and is<br />
modulated by Tomm40 in middle-aged adults, (o-Th1)<br />
Auriel Willette 1 , Barbara Bendlin 1 , Guofan Xu 1 , Erik<br />
Kastman 1 , Erin Jonaitis 2 , Rebecca Koscik 2 , Asenath La<br />
Rue 2 , Bruce Hermann 2 , Mark Sager 2 , Sterling Johnson 1<br />
1 Wisconsin Alzheimer’s Disease Research Center,<br />
Department of Medicine, University of Wisconsin,<br />
Madison, WI, 2 Wisconsin Alzheimer’s Institute,<br />
University of Wisconsin-Madison, Madison, WI<br />
Structural and Functional Differences Precede<br />
Development of mCI in those at genetic risk <strong>for</strong> aD<br />
Susan Bassett 1 , Guillermo Verduzco 2 , Catherine Bakker 2<br />
1 Johns Hopkins University, 2 Johns Hopkins University,<br />
Baltimore, United States<br />
Concurrent analysis of structural mrI and proteomics<br />
data using parallel ICa in alzheimer’s Disease<br />
Habib Ganjgahi 1,2 , Arash Nazeri 3,4 , Tina Roostaei 5,4<br />
Arman Eshaghi 6,4 , Mohammad Ali Oghabian 7<br />
1 Iranian National Center For Addiction Studies, Iran, Islamic<br />
Republic Of, 2 Neroimaging and Analysis Team, Research<br />
Center <strong>for</strong> Science and Technology in Medicine, Tehran<br />
University of Medical Sciences, Tehran, Iran, Islamic<br />
Replblic of, 3 Interdisciplinary Neuroscience Research<br />
Program, Tehran University of Medical Sciences, Tehran,<br />
Iran, Islamic Replblic of, 4 Multiple Sclerosis Research<br />
Center, Sina Hospital, Tehran, Iran, Islamic Replblic of,<br />
5 Interdisciplinary Neuroscience Research Program, Tehran<br />
University of Medical Sciences, Tehran, Iran, Islamic<br />
Replblic of, 6 Interdisciplinary Neuroscience Research<br />
Program, Tehran University of Medical Sciences, Tehran,<br />
Iran, Islamic Replblic of, 7 Research Center <strong>for</strong> Science<br />
and Technologies, Tehran University of Medical Sciences,<br />
Tehran, Iran, Islamic Replblic of<br />
Superior Per<strong>for</strong>mance of a multi-Stage PeT Classifier<br />
<strong>for</strong> the alzheimer’s Disease Cascade<br />
Stephen Strother 1,2 , Dawn Matthews 3 , Ana Lukic 2 ,<br />
Randolph Andrews 3 , Miles Wernick 4,2<br />
1 Rotman Research Institute, Baycrest, Toronto, Canada,<br />
2 Predictek, Inc., Chicago, IL, 3 Abiant, Inc., Chicago, IL,<br />
4 Illinois Institute of Technology, Chicago, IL<br />
asymmetry of myelination of association fibers in<br />
normal aging and alzheimer’s disease<br />
Eleonora Fornari 1 , Philippe Maeder 2 , Reto Meuli 2 ,<br />
Maria Knyazeva 3,4<br />
1 CIBM-CHUV unit, Radiology Dept., CHUV and University<br />
of Lausanne, Lausanne, Switzerland, 2 Radiology Dept.,<br />
CHUV and University of Lausanne, Lausanne, Switzerland,<br />
3 Radiology Dept., CHUV and University of Lausanne,<br />
Lausanne, Switzerland, 4 LREN, Clinical Neuroscience<br />
Dept., CHUV and University of Lausanne, Lausanne,<br />
Switzerland<br />
multi modal mrI reveals early life brain changes in<br />
human apoe-ε4 carriers<br />
Ory Levy 1 , Anat Bar-Shira 2 , Avi Orr-Urtreger 2,1 , Yaniv Assaf 1<br />
1 Tel Aviv University, Tel Aviv, Israel, 2 The Genetic Institute,<br />
Tel-Aviv Sourasky Medical Center, Tel-Aviv, Israel<br />
HBM 2011 >> <strong>abstracts</strong> 7<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Alzheimer’s Disease and Other Dementias, continued<br />
40<br />
41<br />
42<br />
43<br />
44<br />
grey matter and white matter degeneration in the<br />
evolution of alzheimer’s disease<br />
Kun-Hsien Chou 1 , Wei-Ta Chen 2 , Ker-Neng Lin 3 ,<br />
Jiing-Feng Lirng 2 , Pei-Ning Wang 2 , Ching-Po Lin 4<br />
1 National Yang Ming University, Taiwan- Republic Of China,<br />
2 Taipei Veterans General Hospital, Taipei, Taiwan, Republic<br />
of China, 3 National Yang-Ming University, Taipei, Taiwan,<br />
Republic of China, 4 National Yang-Ming University, Taipei,<br />
Taiwan- Republic Of China<br />
amyloid demonstrates differential relationship<br />
with DmN function in normal elderly versus mCI<br />
Andrew Ward 1,2 , Aaron Schultz 3 , Donald McLaren 4 ,<br />
Caroline Sullivan 1,2 , J. Alex Becker 5 , Keith Johnson 6,5,3 ,<br />
Vince Calhoun 7 , Reisa Sperling 6,2,3<br />
1 Department of Psychiatry, Massachusetts General<br />
Hospital, Boston, MA, 2 Department of Neurology,<br />
Brigham and Women’s Hosptial, Boston, MA, 3 Department<br />
of Neurology, Massachusetts General Hospital, Boston,<br />
MA, 4 Massachusetts General Hospital, Boston, MA,<br />
5 Department of Radiology, Massachusetts General<br />
Hospital, Harvard Medical School, Boston, MA, 6 Center<br />
<strong>for</strong> Alzheimer Research and Treatment, Department of<br />
Neurology, Brigham and Women’s Hospital, Boston, MA,<br />
7 Mind Research Network, Albuquerque, NM<br />
White matter Diffusivity is Higher among Healthy elders<br />
at Increased risk <strong>for</strong> alzheimer’s Disease<br />
Sally Durgerian 1 , Melissa Lancaster 2 , Michael Seidenberg 2 ,<br />
Kristy Nielson 3 , John Woodard 4 , J Carson Smith 5 , Monica<br />
Matthews 2 , Alissa Butts 3 , Nathan Hantke 3 , Stephen Rao 6<br />
1 Medical College of Wisconsin, Milwaukee, United States,<br />
2 Rosalind Franklin University of Medicine and Science,<br />
North Chicago, IL, 3 Marquette University, Milwaukee,<br />
WI, 4 Wayne State University, Detroit, MI, 5 University of<br />
Wisconsin - Milwaukee, Milwaukee, WI, 6 Cleveland Clinic,<br />
Cleveland, OH<br />
Declines of metabotropic glutamate receptor type<br />
five availability in mCI individuals<br />
Pedro Rosa 1 , Jared Rowley 2 , Dorothee Schoemaker 3 ,<br />
Sara Mohades 2 , Jean-Paul Soucy 4 , Vladimir Fonov 4 ,<br />
Serge Gauthier 5<br />
1 McGill University, 2 Translational Neuroimaging Laboratory,<br />
Douglas Hospital, McGill University, Montreal, QC,<br />
3 Translational neuroimaging laboratory, Montreal, quebec,<br />
4 Montreal Neurological Institute, Montreal, Canada,<br />
5 McGill Centre <strong>for</strong> Studies in Aging (MCSA), Montreal, QC<br />
resting state networks in tauopathies<br />
Timothy Rittman 1 , Boyd Ghosh 1 , James Rowe 1<br />
1 Department of Clinical Neuroscience,<br />
University of Cambridge, Cambridge, United Kingdom<br />
8 HBM 2011 >> <strong>abstracts</strong><br />
45<br />
46<br />
47<br />
48<br />
Nonlinear analysis of eeg <strong>for</strong> early Detection of<br />
Cognitive Decline<br />
Nancy Munro 1 , Thibaut De Bock 2 , Satyajit Das 2 ,<br />
Lee Hively 1 , Juan Li 3 , Lucas Broster 4 , Charles Smith 5,6 ,<br />
Greg Jicha 5,6 , Yang Jiang 4,6<br />
1 Oak Ridge National Laboratory, Oak Ridge, TN, United<br />
States, 2 University of Tennessee, Knoxville, TN, United<br />
States, 3 Chinese Academy of Sciences, Beijing, China,<br />
4 University of Kentucky, Department of Behavioral Science,<br />
Lexington, KY, United States, 5 University of Kentucky,<br />
Department of Neurology, Lexington, KY, United States,<br />
6 Sanders-Brown Center on Aging, University of Kentucky<br />
College of Medicine, Lexington, KY, United States<br />
memory activation changes of amCI subjects in the<br />
subregions of medial temporal lobe<br />
Mingwu Jin 1,2 , Victoria Pelak 3 , Tim Curran 4 , Rajesh Nandy 5 ,<br />
Dietmar Cordes 6<br />
1 University of Texas at Arlington, Arlington, TX, 2 University<br />
of Colorado Dever, Aurora, CO, 3 University of Colorado<br />
Denver, Aurora, CO, 4 University of Colorado at Boulder,<br />
Boulder, CO, 5 University of Cali<strong>for</strong>nia Los Angeles, Los<br />
Angeles, CA, 6 University Of Colorado Denver, Aurora, CO<br />
age Correction in Dementia – matching to a<br />
Healthy <strong>Brain</strong><br />
Juergen Dukart 1 , Matthias Schroeter 2 , Karsten Mueller 2<br />
1 Leipzig, Germany, 2 Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
Homocysteine levels are associated with regional<br />
brain volumes in 732 elderly subjects<br />
Priya Rajagopalan 1 , Xue Hua 2 , Arthur Toga 3 ,<br />
Paul Thompson 4 , the Alzheimer’s Disease Neuroimaging<br />
Initiative (ADNI) ,5<br />
1 Laboratory of Neuro Imaging, Department of Neurology,<br />
UCLA School of Medicine, Los Angeles, CA, 2 Laboratory<br />
Of Neuro Imaging, Department Of Neurology, UCLA School<br />
Of Medicine, United States, 3 Laboratory of Neuro Imaging,<br />
UCLA, Los Angeles, CA, 4 Laboratory of Neuro Imaging,<br />
Dept. of Neurology, UCLA School of Medicine, Los<br />
Angeles, United States, 5 NIA ADEAR Center, Bathesda, MD
Disorders of the Nervous System<br />
Alzheimer’s Disease and Other Dementias, continued<br />
49<br />
50<br />
51<br />
Folate gene associated with brain volumes: replication<br />
in aDNI (N=740) and Queensland Twins (N=577)<br />
Priya Rajagopalan 1 , Neda Jahanshad 2 , Ming-Chang<br />
Chiang 3 , Jason Stein 4 , Derrek Hibar 4 , ARTHUR TOGA 5 ,<br />
Paul Thompson 6 , Michael Weiner 7 , Clif<strong>for</strong>d Jack Jr 8 , Andrew<br />
Saykin 9 , Katie McMahon 10 , Greig de Zubicaray 11 , Nicholas<br />
Martin 12 , Margaret Wright 12 , the Alzheimer’s Disease<br />
Neuroimaging Initiative (ADNI) ,13 , April Ryles 14<br />
1 Laboratory of Neuro Imaging, Department of Neurology,<br />
UCLA School of Medicine, Los Angeles, CA, 2 Laboratory<br />
of Neuro Imaging, Dept. of Neurology, UCLA School<br />
of Medicine, Los Angeles, United States, 3 Laboratory<br />
of Neuro Imaging, Dept. of Neurology, UCLA School of<br />
Medicine, 4 Laboratory of Neuro Imaging, UCLA, Los<br />
Angeles, CA, 5 UCLA SCHOOL OF MEDICINE, LOS<br />
ANGELES, United States, 6 Laboratory of Neuro Imaging<br />
- UCLA School of Medicine, Los Angeles, CA, 7 UC San<br />
Francisco, Department of Veterans Affairs Medical Center,<br />
San Fransisco, CA, 8 Mayo Clinic, Rochester, MN, 9 Indiana<br />
University School of Medicine, Indianapolis, United States,<br />
10 University of Queensland, Centre <strong>for</strong> Advanced Imaging,<br />
Brisbane, Australia, 11 University Of Queensland, St.<br />
Lucia, Brisbane, QLD, 12 Queensland Institute of Medical<br />
Research, Brisbane, Australia, 13 NIA ADEAR Center,<br />
Bathesda, MD, 14 UCLA, Los Angeles, United States<br />
Comparison between anatomically and probabilistic<br />
driven VoIs <strong>for</strong> detecting hypometabolism in mCI<br />
Ricardo Soder 1 , Jean-Paul Soucy 2 , Serge Gauthier 3 ,<br />
Pedro Rosa-Neto 4<br />
1 Translational Neuroimaging Laboratory, Douglas Hospital,<br />
McGill University, Montreal, QC, 2 Montreal Neurological<br />
Institute, Montreal, Canada, 3 McGill Centre <strong>for</strong> Studies in<br />
Aging (MCSA), Montreal, QC, 4 Translational Neuroimaging<br />
Laboratory, Montreal, Canada<br />
an event-based model <strong>for</strong> disease progression<br />
and its application to familial alzheimer’s disease<br />
Hubert Fonteijn 1 , Marc Modat 1 , Matt Clarkson 1 ,<br />
Josephine Barnes 2 , Manja Lehmann 2 , Sebastien Ourselin 3 ,<br />
Nick Fox 2 , Daniel Alexander 1<br />
1 Centre <strong>for</strong> Medical Image Computing, University College<br />
London, London, United Kingdom, 2 Dementia Research<br />
Centre, UCL Institute of Neurology, University College<br />
London, London, United Kingdom, 3 Centre <strong>for</strong> Medical<br />
Image Computing, London, United Kingdom<br />
52<br />
53<br />
54<br />
55<br />
56<br />
57<br />
Impact of aPoe4 on brain activation during semantic<br />
verbal fluency in young healthy subjects<br />
Valentin Markov 1 , Axel Krug 2 , Sören Krach 3 ,<br />
Andreas Jansen 4 , Thomas Eggermann 5 , Klaus Zerres 5 ,<br />
Tony Stöcker 6 , Nadim Shah 7 , Klaus Mathiak 1 , Kircher Tilo 2<br />
1 Department of Psychiatry, Psychotherapy and<br />
Psychosomatics, RWTH Aachen University, Aachen,<br />
Germany, 2 Department of Psychiatry and Psychotherapy,<br />
Philipps-University Marburg, Marburg, Germany,<br />
3 Department of Psychiatry, Section of <strong>Brain</strong>Imaging,<br />
University of Marburg, Marburg, Germany, 4 Department of<br />
Psychiatry and Psychotherapy, Section of <strong>Brain</strong>Imaging,<br />
University of Marburg, Marburg, Germany, 5 Institute of<br />
<strong>Human</strong> Genetics, RWTH Aachen University, Aachen,<br />
Germany, 6 Institute of Neuroscience and Biophysics<br />
3 – Medicine, Research Center Jülich, Jülich, Germany,<br />
7 Institute of Neuroscience and Medicine, INM-4, Research<br />
Centre Julich, Julich, Germany<br />
Structural correlates of memory per<strong>for</strong>mance in<br />
amnestic mild cognitive impairment: a DTI study<br />
Andrea King 1 , Anke Lorenz 1 , Julia Linke 1 , Patric Meyer 1 ,<br />
Frank Hentschel 1 , Lutz Frölich 1 , Michèle Wessa 1<br />
1 Central Institute of Mental Health, Mannheim, Germany<br />
Cognitive training normalizes brain activation patterns<br />
in subjects with mild cognitive impairment<br />
David Prvulovic 1 , David Linden 2 , Corinna Haenschel 3 ,<br />
Harald Hampel 4<br />
1 Department of Psychiatry, Psychosomatic Medicine<br />
and Psychotherapy, University of Frankfurt, Frankfurt,<br />
Germany, 2 School of Psychology, Cardiff, United Kingdom,<br />
3 3The University of Bangor, Welsh Institute of Cognitive<br />
Neuroscience, School of Psychology, Bangor, United<br />
Kingdom, 4 Frankfurt University, Department of Psychiatry,<br />
psychosomatics and psychotherapy, Frankfurt, Germany<br />
alzheimer’s Disease Weakens the Structural and<br />
Functional Connections in the Default-mode Network<br />
David Zhu 1 , Shantanu Majumdar 1 , Kevin Berger 1 ,<br />
Igor Korolev 1 , Sarah Kiel 1 , Holly Nieusma 1 , Andrea Bozoki 1<br />
1 Michigan State University, East Lansing, MI<br />
alterations in multiple measures of White matter<br />
Integrity in amnestic mild Cognitive Impairment<br />
Brian Gold 1 , Yang Jiang 1 , Greg Jicha 1 , David Powell 1<br />
1 University of Kentucky, Lexington, KY<br />
Nucleus accumbens atrophy in early- and late-onset<br />
alzheimer’s disease<br />
Michela Pievani 1 , Martina Bocchetta 1 , Marina Boccardi 1 ,<br />
Samantha Galluzzi 1 , Matteo Bonetti 2 , Paul Thompson 3 ,<br />
Giovanni Frisoni 1<br />
1 LENITEM, IRCCS Centro San Giovanni di Dio - FBF,<br />
Brescia, Italy, 2 Service of Neuroradiology, Istituto Clinico<br />
Citta’ di Brescia, Brescia, Italy, 3 Laboratory of Neuro<br />
Imaging, Dept. of Neurology, UCLA School of Medicine,<br />
Los Angeles, United States<br />
HBM 2011 >> <strong>abstracts</strong> 9<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Alzheimer’s Disease and Other Dementias, continued<br />
58<br />
59<br />
60<br />
61<br />
62<br />
63<br />
Interhemispheric efficency in healthy aging, mild<br />
cognitive impairment and alzheimer’s disease<br />
Jennyfer Ansado 1 , Louis Collins 2 , Oury Monchi 3 ,<br />
Vladimir Fonov 2 , Sven Joubert 4 , Sylvane Faure 5 ,<br />
Francesco Tomaiuolo 6 , Michael Petrides 7 , Yves Joanette 8<br />
1 Université de Montréal, Canada, 2 McConnell <strong>Brain</strong><br />
Imaging Centre, Montreal, Canada, 3 University of Montreal,<br />
Montreal, Canada, 4 Université de Montréal, Montreal,<br />
Canada, 5 Université de Nice-Sophia Antipolis, Nice,<br />
France, 6 Centro Clinico di Riabilitazione Multispecialistico,<br />
Volterra, Italy, 7 Montreal Neurological Institute, Montreal,<br />
Canada, 8 Faculty of medicine, Université de Montréal,<br />
Montreal, Canada<br />
morphological <strong>Brain</strong> Connectivity in alzheimer’s<br />
disease<br />
Gretel Sanabria-Diaz 1 , Lester Melie-García 1 , Yasser<br />
Iturria-Medina 1 , Yasser Alemán-Gómez 2 , Marlis<br />
Ontivero-Ortega 1 , Eduardo Martínez-Montes 1<br />
1 Cuban Neuroscience Center, Havana, Cuba,<br />
2 Unidad de Medicina y Cirugía Experimental Hospital<br />
General Universitario Gregorio Marañón, Madrid, Spain<br />
Selective white matter degradation associated with<br />
selective impairment of paired associate learning<br />
Erin Boespflug 1 , Judd Storrs 2 , Marcelle Shidler 3 ,<br />
Sara Sadat-Hossieny 3 , Robert Krikorian 3<br />
1 University of Cincinnati College of Medicine, Cincinnati,<br />
OH, 2 University of Cincinnati Center <strong>for</strong> Imaging Research,<br />
Cincinnati , OH, 3 University of Cincinnati Department of<br />
Psychiatry, Cincinnati , OH<br />
Towards a cognitive neuropsychiatry of<br />
frontotemporal dementia<br />
Matthias Schroeter 1 , Caroline Chwiesko 1 ,<br />
Christine Deuschl 2 , Else Schneider 1 , Jane Neumann 2<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany,<br />
Leipzig, Germany<br />
Critical network epicenters and connectivity-based<br />
vulnerability in neurodegenerative disease<br />
Juan Zhou 1,2,3 , Efstathios Gennatas 1 , Joel Kramer 1 ,<br />
Bruce Miller 1 , William Seeley 1<br />
1 University of Cali<strong>for</strong>nia, San Francisco, San Francisco, CA,<br />
United States, 2 Phyllis Green and Randolph Cowen Institute<br />
<strong>for</strong> Pediatric Neuroscience, NYU Langone Medical Center,<br />
New York, NY, United States, 3 Natha S. Kline Institute <strong>for</strong><br />
Psychiatric Research, Orangeburg, NY,<br />
United States<br />
regional CBF measured by aSL mrI Predicts Cognitive<br />
Per<strong>for</strong>mance Difficulty in alzheimer’s Disease<br />
Ze Wang 1 , Zhengjun Li 2 , Aniseh Kadivar 3 , John Dunlop 4 ,<br />
John Detre 3 , Murray Grossman 3 , David Wolk 3<br />
1 University of Pennsylvania, Philadelphia, USA, 2 Shanghai<br />
Jiao Tong University, Shanghai, China, 3 University of<br />
Pennsylvania, Philadelphia, PA, 4 Pfizer Inc., Princeton, NJ<br />
10 HBM 2011 >> <strong>abstracts</strong><br />
64<br />
65<br />
66<br />
67<br />
68<br />
69<br />
meta-analyses-based SVm classification on FDg-PeT<br />
and mrI improves detection of alzheimer’s disease<br />
Juergen Dukart1 , Karsten Mueller2 , Henryk Barthel3 ,<br />
Arno Villringer2 , Osama Sabri3 , Matthias Schroeter2 1 2 Leipzig, Germany, Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany,<br />
3Department of Nuclear Medicine, University of Leipzig,<br />
Leipzig, Germany<br />
mrI and PeT combined analysis in the diagnosis<br />
of early and prodromal alzheimer’s disease<br />
Andrea Chincarini1 , Paolo Bosco1 , Mario Esposito1 ,<br />
Gianluca Gemme1 , Flavio Nobili2 , Luca Rei1 1 2 INFN, Genova, Italy, Azienda Ospedale S. Martino,<br />
Genov, Italy<br />
grey and white matter differences can be found<br />
between mCI converters and non-converters at baseline<br />
Gwenaelle Douaud 1 , Ricarda Menke 2 , Achim Gass 3 ,<br />
Andreas Monsch 3 , Marc Sollberger 3 , Anil Rao 4 , Brandon<br />
Whitcher 4 , Paul Matthews 5 , Stephen Smith 1<br />
1 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 2 University of Ox<strong>for</strong>d, FMRIB Centre, Ox<strong>for</strong>d,<br />
United Kingdom, 3 University Hospital Basel, Basel,<br />
Switzerland, 4 GlaxoSmithKline, London, United Kingdom,<br />
5 Imperial College London, London, United Kingdom<br />
Structure from motion perception in healthy ageing<br />
and mCI: Studying behaviour and fmrI activation<br />
Britta Graewe 1,2 , Raquel Lemos 3 , Reza Farivar 4 ,<br />
Carlos Ferreira 2 , Isabel Santana 3 , Peter de Weerd 1 ,<br />
Miguel Castelo-Branco 2<br />
1 Department of Cognitive Neuroscience, Faculty of<br />
Psychology & Neuroscience, Maastricht University,<br />
Maastricht, Netherlands, 2 Visual Neuroscience Lab, IBILI,<br />
University of Coimbra, Coimbra, Portugal, 3 Neurology<br />
Department, Coimbra University Hospital, Coimbra,<br />
Portugal, 4 Department of Psychology, McGill University,<br />
Montreal, Canada<br />
Impairment and compensation coexist in resting state<br />
executive control network in patients with amCI<br />
Liyong Wu 1,2 , Ricardo Soder 1,2,3 , Felix Carbonnell 3 ,<br />
dorothee schoemaker 1,2 , Jared Rowley 1,2 , Sara Mohades 1,2 ,<br />
Viviane Sziklas 4 , Vladmir Fonov 3 , Pierre Bellec 3 , Alain<br />
Dagher 3 , Amir Shmuel 3 , Serge Gauthier 2,1 , Pedro Neto 1,2,3<br />
1 Translational Neuroimaging Laboratory, Douglas<br />
Hospital, McGill University, Montreal, Canada, 2 McGill<br />
Centre <strong>for</strong> Studies in Aging (MCSA), Montreal, Canada,<br />
3 McConnell <strong>Brain</strong> Imaging Centre, Montreal Neurological<br />
Institute, Montreal, Canada, 4 Department of Psychology,<br />
Neuropsychology Unit, McGill University, Montreal, Canada<br />
Hyper- or hypo-activation with the alzheimer’s disease?<br />
Comparison between random- and mixed-effects<br />
Junghoe Kim 1 , Jong-Hwan Lee 1<br />
1 Dept. of <strong>Brain</strong> and Cognitive Engineering,<br />
Korea University, Seoul, Korea, Republic of
Disorders of the Nervous System<br />
Alzheimer’s Disease and Other Dementias, continued<br />
70<br />
71<br />
72<br />
73<br />
74<br />
automated diagnostic classifiers using imaging,<br />
genotyping, and gene expression data<br />
Liana Apostolova 1 , Giovanni Copolla 2 , Jeffrey Cummings 3 ,<br />
Fying Gao 2 , Kristy Hwang 2 , Omid Kohannim 4 ,<br />
Paul Thompson 5<br />
1 UCLA, Los Angeles, United States, 2 UCLA, Los Angeles,<br />
CA, 3 Lou Ruvo Institute, Las Vegas, NV, 4 Laboratory of<br />
Neuro Imaging, UCLA, Los Angeles, CA, 5 Laboratory of<br />
Neuro Imaging, Dept. of Neurology, UCLA School<br />
of Medicine, Los Angeles, United States<br />
association between Fornix Fractional anisotropy<br />
and Hippocampal Volume changes in amCI<br />
Sara Mohades 1 , Jared Rowley 1 , Pedro Rosa-Neto 1 ,<br />
Dorothee Schoemaker 1 , Vladmir Fonov 2 , Alain Dagher 2 ,<br />
Ricardo Bernardi 1 , Serge Gauthier 3 , Amir Schmuel 2 ,<br />
Viviane Sziklas 4<br />
1 Translational Neuroimaging Laboratory, Douglas<br />
Hospital, McGill University, Montreal, Canada, 2 McConnell<br />
<strong>Brain</strong> Imaging Centre, Montreal Neurological Institute,<br />
Montreal, Canada, 3 McGill Centre <strong>for</strong> Studies in Aging<br />
(MCSA), Montreal, Canada, 4 Department of Psychology,<br />
Neuropsychology Unit, McGill University, Montreal, Canada<br />
Spectrum of white matter changes in amnestic mild<br />
cognitive impairment<br />
Jared Rowley 1 , Dorothee Schoemaker 1 , Sara Mohades 1 ,<br />
Vladimir Fonov 2 , Alain Dagher 2 , Amir Shmuel 2 , Ricardo<br />
Bernardi Soder 1 , Serge Gauthier 3 , Pedro Rosa-Neto 1<br />
1 Translational Neuroimaging Laboratory, McGill University,<br />
Montreal, Qc, 2 McConnell <strong>Brain</strong> Imaging Centre, Montreal<br />
Neurological Institute, Montreal, Qc, 3 McGill Centre <strong>for</strong><br />
Studies in Aging, Montreal, Qc<br />
regional cerebral blood flow and Wechsler memory<br />
Scale-revised in the elderly<br />
Fumitoshi Niwa 1 , Masaki Kondo 1 , Masanori Nakagawa 2 ,<br />
Jiro Imanishi 3<br />
1 Kyoto Prefectural University of Medicine, Kyoto, Japan,<br />
2 Kyoto Prefectural University of Medicine, kyoto, Japan,<br />
3 Center <strong>for</strong> Integrative Meidicine, Meiji Univesity of<br />
Integrative Medicine, Kyoto, Japan<br />
Baseline CSF Biomarkers in Cognitively Healthy adults<br />
Predict <strong>Brain</strong> atrophy: a TBm study<br />
Aparna Sodhi 1,2 , Erik Kastman 1,2 , Auriel Willette 1 ,<br />
Guofan Xu 1,2 , Nancy Davenport 1,2 , Andrew Alexander 3,4,5 ,<br />
Howard Rowley 6 , Sterling Johnson 1,2 , Sanjay Asthana 1,2 ,<br />
Mark Sager 1,2 , Cynthia Carlsson 1,2 , Barbara Bendlin 1,2<br />
1 Wisconsin Alzheimer’s Disease Research Center,<br />
Department of Medicine, University of Wisconsin, Madison,<br />
WI, 2 Geriatric Research Education and Clinical Center,<br />
William S. Middleton Memorial Veteran’s Hospital, Madison,<br />
WI, 3 University of Wisconsin School of Medicine and Public<br />
Health, Department of Medical Physics, Madison, WI,<br />
4 University of Wisconsin School of Medicine and Public<br />
Health, Department of Psychiatry, Madison, WI, 5 Waisman<br />
Laboratory <strong>for</strong> <strong>Brain</strong> Imaging and Behavior, Madison, WI,<br />
6 University of Wisconsin School of Medicine and Public<br />
Health, Department of Radiology, Madison, WI<br />
75<br />
76<br />
77<br />
78<br />
79<br />
80<br />
Discriminative analysis of resting-state functional<br />
connectivity of early alzheimer’s disease<br />
Zhengjia Dai 1 , Chaogan Yan 1 , Zhiqun Wang 2 ,<br />
Jinhui Wang 1 , Kuncheng Li 2,3 , Yong He 1<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing, China,<br />
2 Department of Radiology, Xuanwu Hospital of Capital<br />
Medical University, Beijing, China, 3 Key Laboratory <strong>for</strong><br />
Neurodegenerative Diseases, Capital Medical University,<br />
Ministry of Education, Beijing, China<br />
Neural correlates of strategic cognitive training in<br />
patients with mild cognitive impairment<br />
Joana Balardin 1 , Marcelo Batistuzzo 2 , Maria da Graça<br />
Martin 2 , Jerusa Smid 3 , Claudia Porto 3 , Ricardo Nitrini 2 ,<br />
Cary Savage 4 , Edson Amaro 5 , Eliane Miotto 2<br />
1 University of São Paulo, Sao Paulo, SP, 2 University of<br />
Sao Paulo, Sao Paulo, SP, 3 HCFMUSP, Sao Paulo, SP,<br />
4 University of Kansas, Kansas City, KS, 5 University of<br />
Sao Paulo, Sao Paulo, SP, Brazil<br />
Two limb apraxia patient profiles in Corticobasal<br />
Syndrome with distinct SPeCT perfusion rates<br />
Vessela Stamenova 1 , Eric Roy 2 , Sandra Black 3<br />
1 Unviersity of Toronto, Toronto, ON, 2 University of Waterloo,<br />
Waterloo, Ontario, 3 Sunnybrook Health Sciences Centre,<br />
Toronto, Canada<br />
Changes in Vascular Cognitive Impairment<br />
No Dementia: a Combined VBm and resting-State<br />
fmrI Study<br />
Yi Liye 1,2 , Wang Jinhui 3 , Liu Pengfei 4 , Yong He 3 ,<br />
Jiang Chuanlu 2 , Han Ying 1<br />
1 Xuanwu Hospital, Capital Medical University, Beijing,<br />
China, 2 The Second Clinical College of Harbin Medical<br />
University, Harbin, China, 3 State Key Laboratory of<br />
Cognitive Neuroscience and Learning, Beijing Normal<br />
University, Beijing, China, 4 The First Clinical College of<br />
Harbin Medical University, Harbin, China<br />
alzheimer’s disease affects the landscape of source<br />
eeg synchronization<br />
Cristian Carmeli 1 , Richard Frackowiak 1 , Maria Knyazeva 2<br />
1 Department of Clinical Neuroscience, Centre Hospitalier<br />
Universitaire Vaudois (CHUV), Lausanne, Switzerland,<br />
2 Department of Clinical Neuroscience, Centre Hospitalier<br />
Universitaire Vaudois (CHUV), Lausanne, Vaud<br />
altered Spontaneous <strong>Brain</strong> activity in alzheimer’s<br />
disease and mild Cognitive Impairment<br />
Zengqiang Zhang 1 , Haitao Dai 1 , Yong Liu 2 , Yixuan Niu 1 ,<br />
Pan Wang 3 , Xi Zhang 1 , Bo Zhou 3 , Luning Wang 3<br />
1 Department of Neurology, Institute of Geriatrics and<br />
Gerontology, Chinese PLA General Hospital, Beijing,<br />
China, 2 CCM, NLPR, Institute of Automation, Beijing, China,<br />
3 Department of Neurology, Institute of Geriatrics and<br />
Gerontology, China PLA General Hospital, Beijing, China<br />
HBM 2011 >> <strong>abstracts</strong> 11<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Alzheimer’s Disease and Other Dementias, continued<br />
81<br />
82<br />
83<br />
84<br />
Functional networks connectivity in patients with<br />
alzheimer’s disease and mild Cognitive Impairment<br />
Michela Pievani 1,2 , Federica Agosta 2 , Samantha Galluzzi 1 ,<br />
Massimo Filippi 2 , Giovanni Frisoni 1<br />
1 LENITEM, IRCCS Centro San Giovanni di Dio - FBF,<br />
Brescia, Italy, 2 Neuroimaging Research Unit, Scientific<br />
Institute and University Hospital San Raffaele, Milan, Italy<br />
Neural Substrates of Semantic Deficits in amnestic mild<br />
Cognitive Impairment : evidence from meg<br />
Jessica Pineault 1 , Stephan Grimault 1,2 , Jacinthe Lacombe 1,3 ,<br />
Yann Potiez 1 , Pierre Jolicoeur 1 , Sven Joubert 1,3<br />
1 Département de psychologie et CERNEC, Université de<br />
Montréal, Montréal, QC, Canada, 2 CNRS, Marseille, France,<br />
3 Centre de Recherche de l’Institut Universitaire<br />
de Gériatrie de Montréal, Montréal, QC, Canada<br />
Distinct default mode connectivity in apoe4 carriers<br />
independent of Tomm40 poly-T repeat length<br />
Jessica Damoiseaux 1 , Juan Zhou 2 , William Seeley 3 ,<br />
Bruce Miller 4 , Joel Kramer 4 , Michael Greicius 5<br />
1 Stan<strong>for</strong>d University School of Medicine, Stan<strong>for</strong>d,<br />
United States, 2 Memory and Aging Center, Department<br />
of Neurology, University of Cali<strong>for</strong>nia San Francisco,<br />
San Francisco, CA, 3 UC San Francisco, San Francisco,<br />
United States, 4 UCSF, San Francisco, CA, 5 Stan<strong>for</strong>d<br />
University Medical Center, Stan<strong>for</strong>d, United States<br />
Definition of intermediate phenotypes <strong>for</strong> impact of<br />
aPoe in mCI converters to alzheimer’s disease<br />
Katrin E Morgen 1 , Lutz froelich 2 , Heike Tost 2 , Johannes<br />
Kornhuber 3 , Harald Hampel 4 , Stefan Teipel 5 , Michael<br />
Ewers 6 , Frank Jessen 7 , Oliver Peters 6 , Holger Jahn 8 ,<br />
Christian Luckhaus 9 , Michael Huell 10 , Hermann-Josef<br />
Gertz 11 , Johannes Schroeder 12 , Johannes Pantel 13 ,<br />
Isabella Heuser 6 , Jens Wiltfang 14 , Eckart Ruether 15 ,<br />
Wolfgang Maier 16 , Andreas Meyer-Lindenberg 17<br />
1 Central Institute of Mental Health, Mannheim, Germany,<br />
2 Central Institute of Mental Health (CIMH), Mannheim,<br />
Germany, 3 Department of Psychiatry and Psychotherapy,<br />
Erlangen, Germany, 4 Frankfurt University, Department of<br />
Psychiatry, psychosomatics and psychotherapy, Frankfurt,<br />
Germany, 5 Rostock University, Department of Neurology,<br />
Rostock, Germany, 6 Charite, Department of Psychiatry<br />
and Psychotherapy, Berlin, Germany, 7 Bonn University,<br />
Department of Psychiatry, Bonn, Germany, 8 Hamburg<br />
University, Department of Psychiatry and Psychotherapy,<br />
Hamburg, Germany, 9 Duesseldort University, Department<br />
of Psychiatry and Psychotherapy, Duesseldorf, Germany,<br />
10 Freiburg University, Geriatric Center, Freiburg, Germany,<br />
11 Leipzig University, Leipzig, Germany, 12 Heidelberg<br />
University, Department of Geriatric Psychiatry, Heidelberg,<br />
Germany, 13 Frankfurt University, Department of Psychiatry,<br />
Psychosomatics and Psychotherapy, Frankfurt, Germany,<br />
14 Essen University, Department of Psychiatry and<br />
Psychotherapy, Essen, Germany, 15 Goettingen University,<br />
Department of Psychiatry and Psychotherapy, Goettingen,<br />
Germany, 16 Bonn University, Department of Psychiatry<br />
and Psychotherapy, Bonn, Germany, 17 Central Institute of<br />
Mental Health (CIMH) Mannheim, Mannheim, Germany<br />
12 HBM 2011 >> <strong>abstracts</strong><br />
85<br />
86<br />
87<br />
88<br />
89<br />
abnormal resting-state activity in default mode network<br />
of amCI subjects<br />
Mingwu Jin 1,2 , Victoria Pelak 3 , Dietmar Cordes 4<br />
1 University of Texas at Arlington, Arlington, TX,<br />
2 Univerity of Colorado Denver, Aurora, CO, 3 University<br />
of Colorado Denver, Aurora, CO, 4 University Of Colorado<br />
Denver, Aurora, CO<br />
Landscape of white matter and gray matter changes<br />
through the course of alzheimer’s Disease<br />
Xiuchao Sui 1 , Chunshui Yu 2 , Xinqing Zhang 3 ,<br />
Jieqiong Liu 3 , Yunyun Duan 4 , Tianzi Jiang 5<br />
1 Institute of Automation, Chinese Academy of Sciences,<br />
Beijing,China, 2 Department of Radiology, Tianjin Medical<br />
University General Hospital, Tianjin, China, 3 Department<br />
of Neurology, Xuanwu Hospital of Capital University<br />
of Medical Sciences, Beijing, China, 4 Department of<br />
Radiology, Xuanwu Hospital of Capital University of Medical<br />
Sciences, Beijing, China, 5 Institute Of Automation, Chinese<br />
Academy Of Sciences, Beijing, China<br />
altered grey matter Volumes and Functional<br />
Connectivity Pattern in Hippcampus in aD and mCI<br />
Yong Liu 1 , Bo Zhou 2 , Zengqiang Zhang 2 , Ningyu An 2 ,<br />
Luning Wang 2 , Haitao Dai 2 , Pan Wang 2 , Xi Zhang 2 ,<br />
Tianzi Jiang 1<br />
1 LIAMA Center <strong>for</strong> Computational Medicine (CCM),<br />
National Laboratory of Pattern Recognition, Institute of<br />
Automation, Beijing, China, 2 Department of Neurology,<br />
Division of Nanlou, Chinese People’s Liberation Army<br />
General Hospital, Beijing, China<br />
Correlation of magnetization transfer and diffusion mrI<br />
in sporadic Creutzfeldt-Jakob disease<br />
Gunther Helms 1 , Markus Matros 2 , Kai Kallenberg 3 ,<br />
Inga Zerr 4 , Walter Schulz-Schaeffer 5 , Peter Dechent 2<br />
1 MR-Research in Neurology and Psychiatry,<br />
Universitymedicine Goettingen, Goettingen, Germany,<br />
2 MR-Research in Neurology and Psychiatry, Goettingen<br />
University Medical Center, Goettingen, Germany, 3 Dept.<br />
of Neuroradiology, Goettingen University Medical Center,<br />
Goettingen, Germany, 4 Dept. Neurology, Goettingen<br />
University Medical Center, Goettingen, Germany, 5 Dept.<br />
of Neuropathology, Goettingen University Medical Center,<br />
Goettingen, Germany<br />
The Possible Prophylactic mechanism of Chinese<br />
Chess Playing on alzheimer’s Disease*<br />
Dongmei Liang 1 , Timon Cheng-Yi Liu 1 , Beijun Huang 1 ,<br />
lihua qiu 2 , Luqing Wei 3 , Huafu Chen 3 , Qizhu Wu 4 ,<br />
Xiaoqi Huang 4 , Qiyong Gong 4<br />
1 College of Sports Science, South China Normal<br />
University, Guangzhou, China, 2 Huaxi MR Research<br />
Center, Department of Radiology,West China Hospital of<br />
Sichuan University, Chengdu, China, 3 Key Laboratory <strong>for</strong><br />
Neuroin<strong>for</strong>mation of Ministry of Education, University of<br />
Electronic Science and T, Chengdu, China, 4 Huaxi MR<br />
Research Center, Department of Radiology, West China<br />
Hospital of Sichuan University, Chengdu, China
Disorders of the Nervous System<br />
Alzheimer’s Disease and Other Dementias, continued<br />
90<br />
91<br />
92<br />
93<br />
94<br />
95<br />
resting state fmrI correlates of memory perfomances<br />
in amnestic mild cognitive impairment<br />
Dorothee Schoemaker 1 , Ricardo Bernardi Soder 1 ,<br />
Felix Carbonell Gonzalez 2 , Jared Rowley 1 , Sara Mohades 3 ,<br />
Viviane Sziklas 4 , Vladmir Fonov 5 , Pierre Bellec 5 , Alain<br />
Dagher 5 , Amir Shmuel 6 , Serge Gauthier 7 , Pedro Rosa-Neto 8<br />
1 Translational Neuroimaging Laboratory, Douglas Hospital,<br />
McGill University, Verdun, Quebec, 2 McConnell <strong>Brain</strong><br />
Imaging Centre, Montreal Neurological Institute, Montreal,<br />
Quebec, 3 Translational Neuroimaging Laboratory, Douglas<br />
Hospital, McGill University, Verdun, QC, 4 Department of<br />
Psychology, Neuropsychology Unit, McGill University,<br />
Montreal, QC, 5 McConnell <strong>Brain</strong> Imaging Centre, Montreal<br />
Neurological Institute, Montreal, QC, 6 MNI, McGill<br />
University, Montreal, Canada, 7 McGill Centre <strong>for</strong> Studies<br />
in Aging (MCSA), Montreal, QC, 8 Mcgill University,<br />
Montreal, Canada<br />
retinal nerve fiber thickness as a biomarker in<br />
alzheimer’s disease<br />
Philip Cook 1 , Brian Avants 1 , Laura Balcer 1 ,<br />
Murray Grossman 1 , James Gee 1<br />
1 University of Pennsylvania, Philadelphia, PA<br />
masking effect on Default mode Network identification<br />
in mCI and alzheimer`s disease<br />
Jungho Cha1 , Uicheul Yoon1 , Sang Won Seo2 , Sun I. Kim1 ,<br />
Duk L. Na2 , Jong-Min Lee1 1Hanyang University, Seoul, Korea, Republic of,<br />
2Sungkyunkwan University School of Medicine, Seoul,<br />
Korea, Republic of<br />
Functional mrI of parietal cortex in relation to episodic<br />
memory per<strong>for</strong>mance<br />
Christiane Oedekoven 1 , Andreas Jansen 1 , Dirk Leube 2<br />
1 Department of Psychiatry and Psychotherapy,<br />
Section of <strong>Brain</strong>Imaging, Philipps-University, Marburg,<br />
Germany, 2 Department of Psychiatry and Psychotherapy,<br />
Philipps-University, Marburg, Germany<br />
Determining effects of aPoe4 allele on alzheimer’s<br />
disease structural brain network<br />
Tina Roostaei 1 , Arash Nazeri 1 , Arman Eshaghi 1 ,<br />
Amir Shirazi 1 , Habib Ganjgahi 1<br />
1 Tehran University of Medical Sciences, Tehran,<br />
Iran, Islamic Replblic of<br />
Cerebral amyloid angiopathy impacts resting-state<br />
connectivity<br />
Stefano Peca 1 , Cheryl McCreary 2,3,4 , Eric Smith 2,3,4 ,<br />
Bradley Goodyear 1,2,3,4,5<br />
1 Seaman Family MR Research Centre, University of<br />
Calgary, Calgary, Canada, 2 Department of Radiology,<br />
University of Calgary, Calgary, Canada, 3 Hotchkiss<br />
<strong>Brain</strong> Institute, University of Calgary, Calgary, Canada,<br />
4 Department of Clinical Neurosciences, University of<br />
Calgary, Calgary, Canada, 5 Department of Psychiatry,<br />
University of Calgary, Calgary, Canada<br />
96<br />
Differentiation of amCI Subjects and Normal Controls<br />
using multivariate analysis of fmrI Data<br />
Dietmar Cordes 1 , Mingwu Jin 2 , Victoria Pelak 2 , Tim Curran 3 ,<br />
Rajesh Nandy 4<br />
1 University Of Colorado Denver, Aurora, United States,<br />
2 University of Colorado-Denver, Aurora, United States,<br />
3 University of Colorado-Boulder, Boulder, United States,<br />
4 UCLA, Los Angeles, United States<br />
<strong>Brain</strong> Stimulation<br />
Autism<br />
97* auditory cortical structure is related to enhanced pitch<br />
processing in autism spectrum disorder, (o-Th4)<br />
Nicholas Foster1 , Fabienne Samson2 , Laurent Mottron2 ,<br />
Krista Hyde3 1Faculty of Medicine, Montreal Children’s Hospital, McGill<br />
University, Montreal, Canada, 2Centre d’Excellence en<br />
Troubles Envahissants du Développement de l’Université<br />
de Montréal (CETEDUM), Montreal, Canada, 3Montreal Children’s Hospital, McGill University, Montreal, Canada<br />
98**<br />
99**<br />
100**<br />
101**<br />
102<br />
multivariate classification of structural mrI in children<br />
with autism<br />
Lucina Uddin 1 , Srikanth Ryali 1 , Christina Young 1 ,<br />
Tianwen Chen 1 , Amirah Khouzam 1 , Nancy Minshew 2 ,<br />
Antonio Hardan 1 , Vinod Menon 1<br />
1 Stan<strong>for</strong>d University School of Medicine, Stan<strong>for</strong>d, CA,<br />
USA, 2 University of Pittsburgh, Pittsburgh, PA, USA<br />
altered Functional Deactivation and Connectivity<br />
in the “resting <strong>Brain</strong>” in autism<br />
Donna Murdaugh 1 , Mark Pennick 1 , Hrishikesh Deshpande 1 ,<br />
Rajesh Kana 1<br />
1 University of Alabama at Birmingham, Birmingham, AL<br />
Canonical Correlation analysis of Cortical Thickness<br />
in adolescents with autism Spectrum Disorders<br />
Masaya Misaki 1 , Gregory Wallace 1 , Nathan Dankner 1 ,<br />
Alex Martin 1 , Peter Bandettini 1<br />
1 LBC/NIMH/NIH, Bethesda, MD<br />
Vibrotactile phase-locking in first-degree relatives<br />
of persons with autism spectrum disorders<br />
Don Rojas1 , Alissa Wallace2 , Katie Youngpeter2 ,<br />
Dan Collins2 , Susan Hepburn2 1University of Colorado Anschutz Medical Center,<br />
2University of Colorado Anschutz Medical Center,<br />
Aurora, CO<br />
Whole <strong>Brain</strong> Functional Connectivity Classification<br />
of autism<br />
Jared Nielsen 1 , Jeffrey Anderson 1 , Michael Adam<br />
Ferguson 1 , T. Jason Druzgal 2 , Alyson Froehlich 1 ,<br />
Molly DuBray 1 , Jason Cooperrider 1 , Annahir Cariello 1 ,<br />
Nicholas Lange 3 , Andrew Alexander 4 , Erin Bigler 5 ,<br />
Janet Lainhart 1<br />
1 University of Utah, Salt Lake City, United States, 2 University<br />
of Virginia, Charlottesville, United States, 3 Harvard<br />
University, Boston, United States, 4 University of Wisconsin<br />
School of Medicine and Public Health, Department of<br />
Medical Physics, Madison, WI, 5 Brigham Young University,<br />
Provo, United States<br />
HBM 2011 >> <strong>abstracts</strong> 13<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
<strong>Brain</strong> Stimulation<br />
Autism, continued<br />
103<br />
104<br />
105<br />
106<br />
107<br />
108<br />
Neural correlates of moral decision making in autism<br />
spectrum disorder<br />
Ute Habel 1,2 , Katharina Pauly 3,2 , Ruben Gur 4 ,<br />
Frank Schneider 2 , Karla Schneider 2<br />
1 University of Aachen, Aachen, Germany, 2 RWTH Aachen<br />
University, Department of Psychiatry, Psychotherapy<br />
and Psychosomatics, Aachen, Germany, 3 RWTH Aachen<br />
University, Aachen, Germany, 4 University of Pennsylvania<br />
and the Philadelphia Veterans Administration Medical<br />
Center, Philadelphia, PA<br />
Whole <strong>Brain</strong> Structural and Functional Connectivity<br />
Networks in autism<br />
Jeffrey Rudie 1,2 , Jesse Brown 3,2 , Leanna Hernandez 1,2 ,<br />
Susan Bookheimer 3,2 , Mirella Dapretto 1,2<br />
1 <strong>Brain</strong> <strong>Mapping</strong> Center, UCLA, Los Angeles, United<br />
States, 2 Psychiatry and Biobehavioral Sciences, UCLA,<br />
Los Angeles, United States, 3 Center <strong>for</strong> Cognitive<br />
Neurosciences, UCLA, Los Angeles, United States<br />
reduced Functional Connectivity of the amygdala and<br />
Dorsal anterior Cingulate in aSD<br />
Patrick Cox 1 , Stuart Washington 2 , Evan Gordon 1 ,<br />
Jasmit Brar 2 , Laura Girton 2 , Ayichew Hailu 2 , Amanda<br />
Wolfe 2 , Samantha Warburton 2 , Juma Mbwana 2 , William<br />
Gaillard 3 , M. Layne Kalbfleisch 4 , John Van Meter 2<br />
1 Interdisciplinary Program in Neuroscience, Georgetown<br />
University, Washington, DC, United States, 2 Center <strong>for</strong><br />
Functional and Molecular Imaging, Georgetown University<br />
Medical Center, Washington, DC, United States, 3 Children’s<br />
National Medical Center, Washington, DC, United States,<br />
4 Krasnow Investigations of Developmental Learning<br />
and Behavior, George Mason University, Faifax, VA,<br />
United States<br />
aberrant Interregional Neural Synchrony in autism<br />
Spectrum Disorders revealed by resting-State meg<br />
Avniel Ghuman 1 , Rebecca van den Honert 1 , Eunice Dixon 1 ,<br />
Briana Robustelli 1 , Gregory Wallace 1 , Alex Martin 1<br />
1 Laboratory of <strong>Brain</strong> and Cognition, National Institute<br />
of Mental Health, Bethesda, MD<br />
Differential Face Inversion effect in Children with<br />
autism Spectrum Disorder Specific to <strong>Human</strong> Faces<br />
Andrew Breeden 1 , Leah Lozier 1,2 , Katherine Lawson 1 ,<br />
Amy Chudgar 1 , Natalie Ullman 1 , William Gaillard 3 ,<br />
John VanMeter 1<br />
1 Center <strong>for</strong> Functional and Molecular Imaging,<br />
Georgetown University Medical Center, Washington, DC,<br />
2 Interdisciplinary Program in Neuroscience, Georgetown<br />
University, Washington, DC, 3 The Center <strong>for</strong> Neuroscience<br />
and Behavioral Medicine, Children’s National Medical<br />
Center, Washington DC, United States<br />
Diminished grey matter within the hypothalamus in<br />
autism disorder<br />
Florian Kurth 1 , Katherine Narr 2 , Roger Woods 2 ,<br />
Joseph O’Neill 1 , Jeffry Alger 2 , Rochelle Caplan 1 ,<br />
James McCracken 1 , Arthur Toga 2 , Jennifer Levitt 1<br />
1 Department of Psychiatry and Biobehavioral Sciences,<br />
UCLA School of Medicine, Los Angeles, CA, 2 Department<br />
of Neurology, UCLA School of Medicine, Los Angeles, CA<br />
14 HBM 2011 >> <strong>abstracts</strong><br />
109<br />
110<br />
111<br />
112<br />
113<br />
anatomical brain abnormalities in autism Spectrum<br />
Disorder female children detected with VBm and SVm<br />
Alessandra Retico 1 , Sara Calderoni 2 , Laura Biagi 3 ,<br />
Raffaella Tancredi 3 , Filippo Muratori 2 , Michela Tosetti 3<br />
1 INFN, Pisa, Italy, 2 IRCCS Stella Maris Foundation and<br />
Division of Child Neurology and Psychiatry, University of<br />
Pisa, Pisa, Italy, 3 IRCCS Stella Maris Foundation, Pisa, Italy<br />
Shared and Distinct <strong>Brain</strong> Network In<strong>for</strong>mation Flow<br />
in autism, aDHD, & Typically Developing Children<br />
Adriana Di Martino 1 , Xi-Nian Zuo 2,1 , Clare Kelly 1 ,<br />
Rebecca Grzadzinski 1 , Maarten Mennes 1 , Ariel Schvarcz 1 ,<br />
Carolyn Kessler 1 , Catherine Lord 3 , F Xavier Castellanos 1,4 ,<br />
Michael Milham 1,4<br />
1 Phyllis Green and Randolph Cōwen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
United States, 2 Institute of Psychology, Chinese Academy<br />
of Sciences, Beijing, Beijing, 3 4University of Michigan<br />
Autism and Communication Disorders Center, Ann Arbor,<br />
MI, 4 Nathan Kline Institute <strong>for</strong> Psychiatric Research,<br />
Orangeburg, NY<br />
atypical eeg Complexity in autism Spectrum<br />
Conditions: a multiscale entropy analysis<br />
Ana Catarino 1,2 , Owen Churches 2 , Simon Baron-Cohen 3 ,<br />
Alexandre Andrade 4 , Howard Ring 2<br />
1 Institute of Biophysics and Biomedical Engineering,<br />
Faculty of Sciences, University of Lisbon, Lisbon, Portugal,<br />
2 Cambridge Intellectual and Developmental Disabilities<br />
Research Group, University of Cambridge, Cambridge,<br />
United Kingdom, 3 Autism Research Centre, University of<br />
Cambridge, Cambridge, United Kingdom, 4 IBEB-FCUL,<br />
Lisboa, Portugal<br />
FmrI study of the Thatcher effect in high<br />
functioning autism<br />
Nicole Zurcher 1 , Katherine Cornes 2 , Nick Donnelly 2 ,<br />
Julie Hadwin 2 , Loyse Hippolyte 1 , Eric Lemonnier 3 , Nouchine<br />
Hadjikhani 1,4<br />
1 <strong>Brain</strong> Mind Institute, EPFL, Lausanne, Switzerland,<br />
2 School of Psychology, University of Southampton,<br />
Southampton, United Kingdom, 3 CRA Bretagne, Centre<br />
Hospitalo-Universitaire de Brest, Brest, France, 4 Harvard<br />
Medical School, Boston, MA, United States<br />
Cortical thickness differences between autistic<br />
individuals with and without delayed speech onset<br />
Krista Hyde 1 , Nicholas Foster 1 , Fabienne Samson 2 ,<br />
Laurent Mottron 2<br />
1 Montreal Children’s Hospital, McGill University, Montreal,<br />
Canada, 2 Centre d’Excellence en Troubles Envahissants<br />
du Développement de l’Université de Montréal<br />
(CETEDUM), Montreal, Canada
<strong>Brain</strong> Stimulation<br />
Autism, continued<br />
114<br />
115<br />
116<br />
117<br />
118<br />
119<br />
resting State Functional Connectivity mrI Based<br />
Prediction of autism vs. Typically Developing<br />
Pamela Douglas 1 , Jeffrey Rudie 2 , Jesse Brown 3 ,<br />
Mark Cohen 3 , Ariana Anderson 4 , Susan Bookheimer 5 ,<br />
Mirella Dapretto 6<br />
1 UCLA (co-first author), Los Angeles, United States,<br />
2 UCLA (co-first author), Los Angeles, CA, 3 UCLA, Los<br />
Angeles, CA, 4 Malibu, United States, 5 Departmen of<br />
Psychiatry and Biobehavioral Sciences, UCLA School<br />
of Medicine, Los Angeles, CA, 6 UCLA, Los Angeles,<br />
United States<br />
aberrant arithmetic Processing in autism Spectrum<br />
Disorder<br />
Teresa Iuculano 1,2 , Miriam Rosenberg-Lee 2 ,<br />
Amirah Khouzam 2 , Jennifer Philips 2 , Antonio Hardan 2 ,<br />
Lucina Uddin 2 , Vinod Menon 2<br />
1 University College London, London, UK,<br />
2 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA<br />
alterations in functional and structural connectivity<br />
provide correlates <strong>for</strong> symptoms in autism<br />
Sophia Mueller 1 , Daniel Keeser 2 , Andrea Samson 3 ,<br />
Kristina Hennig-Fast 2 , Ute Coates 1 , Maximilian Reiser 1 ,<br />
Thomas Meindl 4<br />
1 Institute of Clinical Radiology, University Hospitals<br />
Munich, Munich, Germany, 2 Department of Psychiatry and<br />
Psychotherapy, Ludwig-Maximilian University, Munich,<br />
Germany, 3 Department of Psychology, Stan<strong>for</strong>d University,<br />
Stan<strong>for</strong>d, CA, 4 University Munich, Munich, Germany<br />
Task-specific functional connectivity in autism:<br />
a study using the Wavelet Coherence Trans<strong>for</strong>m<br />
Ana Catarino 1,2 , Alexandre Andrade 3 , Owen Churches 2 ,<br />
Simon Baron-Cohen 4 , Howard Ring 2<br />
1 Institute of Biophysics and Biomedical Engineering,<br />
Faculty of Sciences, University of Lisbon, Lisbon, Portugal,<br />
2 Cambridge Intellectual and Developmental Disabilities<br />
Research Group, University of Cambridge, Cambridge,<br />
United Kingdom, 3 IBEB-FCUL, Lisboa, Portugal, 4 Autism<br />
Research Centre, University of Cambridge, Cambridge,<br />
United Kingdom<br />
Large-scale network analysis reflects big-world<br />
characteristics in aSD<br />
Pablo Barttfeld 1 , Jorge Calvar 2 , Sebastian Cukier 2 ,<br />
Rachid Deriche 3 , Ramon Leiguarda 2 , Silvana Navarta 4 ,<br />
Mariano Sigman 4 , Demian Wassermann 5 , Bruno Wicker 6<br />
1 Integrative neuroscience Laboratory, Physics<br />
Dept. University of Buenos Aires, Buenos Aires,<br />
Argentina, 2 Fundación para la Lucha contra las<br />
EnfermedadesNeurológicasdelaInfancia, Buenos Aires,<br />
Argentina, 3 INRIA Sphia Antipolis, Nice, France, 4 Integrative<br />
Neuroscience Laboratory, Physics Dept. University<br />
of Buenos Aires, Buenos Aires, Argentina, 5 Harvard<br />
Medical School, 6 INCM UMR 6193 CNRS, Université de la<br />
Méditerranée, Marseille, France<br />
an fmrI Study of Selective attention Deficits in<br />
adult autism Spectrum Disorder<br />
Ryuichiro Hashimoto 1 , Akira Iwanami 1 , Nobumasa Kato 1 ,<br />
Masaru Mimura 1 , Haruhisa Ohta 1 , Takashi Yamada 1<br />
1 Showa University School of Medicine, Tokyo, Japan<br />
120<br />
121<br />
122<br />
123<br />
124<br />
125<br />
Whole brain analysis of white matter microstructure in<br />
autism spectrum disorders: results from TBSS<br />
Natalia Kleinhans 1 , Todd Richards 1 , Greg Pauley 1 ,<br />
Nathalie Martin 1 , Annette Estes 1 , Dennis Shaw 1 ,<br />
Alan Artu 1 , Stephen Dager 1<br />
1 University of Washington, Seattle, WA<br />
Decreased empathy <strong>for</strong> facial expressions of pain in<br />
high functioning autism<br />
Ophelie Rogier 1 , Nicole Zurcher 1 , Loyse Hippolyte 1 ,<br />
Eric Lemonnier 2 , Nouchine Hadjikhani 1,3<br />
1 <strong>Brain</strong> Mind Institute, EPFL, Lausanne, Switzerland,<br />
2 CRA Bretagne, Brest, France, 3 Harvard Medical School,<br />
Boston, MA, United States<br />
FmrI <strong>Brain</strong> Processing of affectionate Touch in<br />
Children with aSD<br />
Ilanit Gordon 1 , Martha Kaiser 1 , Avery Voos 1 ,<br />
Randi Bennett 1 , Kevin Pelphrey 1<br />
1 Yale Child Study Center, New Haven, CT<br />
Structural correlates of self-injurious behaviours in<br />
children with an autism spectrum disorder<br />
Emma Duerden 1 , Kathleen Mak-Fan 2 , S. Roberts 2 ,<br />
M. Mallar Chakravarty 3 , Margot Taylor 1 , Jason Lerch 4<br />
1 Hospital <strong>for</strong> Sick Children, Toronto, Canada, 2 Hospital<br />
<strong>for</strong> Sick Children, Toronto, Ontario, 3 Rotman Research<br />
Institute/Mouse Imaging Centre, Toronto, Ontario,<br />
4 Toronto Centre <strong>for</strong> Phenogenomics, Toronto, ON<br />
age-related <strong>Brain</strong> Changes related to<br />
Social Impariments in Persons with autism<br />
Spectrum Disoders<br />
Krissy Doyle-Thomas 1 , Evdokia Anagnostou 1 ,<br />
Emma Duerden 2 , Jin Fan 3 , Latha Soorya 3 , Margot Taylor 2 ,<br />
Ting Wang 3<br />
1 Holland Bloorview Kids Rehabilitation Hospital, Toronto,<br />
Canada, 2 Hospital <strong>for</strong> Sick Children, Toronto, Canada,<br />
3 Mount Sinai School of Medicine, New York, United States<br />
altered activation to working memory task in young<br />
subjects with aSD: a Functional mrI Study<br />
Jukka Rahko 1 , Virve Vuontela 2 , Juha Nikkinen 3 , Synnöve<br />
Carlson 4 , Tuula Hurtig 5 , Marja-Leena Mattila 5 , Katja Jussila 5 ,<br />
Jukka Remes 6 , Tuomo Starck 6 , Eira Jansson-Verkasalo 7 ,<br />
Eeva Aronen 8 , David Pauls 9 , Hanna Ebeling 5 , Irma<br />
Moilanen 5 , Osmo Tervonen 6 , Vesa Kiviniemi 6<br />
1 Department of Child Psychiatry, Institute of Clinical<br />
Medicine, University and University Hospital, Oulu, Finland,<br />
2 Neuroscience Unit, Institute of Biomedicine/Physiology,<br />
University of Helsinki, Helsinki, Finland, 3 Diagnostic<br />
Radiology, Oulu, Finland, 4 Institute of Biomedicine/<br />
Physiology, University of Helsinki, Helsinki, Finland,<br />
5 Department of Child Psychiatry, University and University<br />
Hospital of Oulu, Oulu, Finland, 6 Department of Diagnostic<br />
Radiology, University and University Hospital of Oulu,<br />
Oulu, Finland, 7 University and University Hospital of Oulu,<br />
Neurocognitive Unit, Oulu, Finland, 8 Hospital <strong>for</strong> Women<br />
and Children, Child Psychiatry, Helsinki University Central<br />
Hospital, Helsinki, Finland, 9 Massachusetts General<br />
Hospital, Harvard Medical School, Boston, United States<br />
HBM 2011 >> <strong>abstracts</strong> 15<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
<strong>Brain</strong> Stimulation<br />
Autism, continued<br />
126<br />
127<br />
Neural correlates of communication deficits in<br />
children with autism<br />
Wan-Lin Hsu 1 , Susan Shur-Fen Gau 2 , Tai-Li Chou 3<br />
1 Department of Psychology, National Taiwan University,<br />
Taipei, Taiwan, Republic of China, 2 Department of<br />
Psychiatry, National Taiwan University Hospital and College<br />
of Medicine, Taipei, Taiwan, Republic of China, 3 Dept. of<br />
Psychology, National Taiwan University, Taipei, Taiwan,<br />
Republic of China<br />
Discrimination of autistic adults from Controls using<br />
data on Whole-<strong>Brain</strong> mrI in a Japanese Sample<br />
Yujiro Yoshihara 1 , Genichi Sugihara 2 , Sean Deoni 3 ,<br />
Akira Ishizuka 4 , Hideto Yogo 4 , Kaori Matsumoto 5 ,<br />
Masatsugu Tsujii 5 , Declan Murphy 6 , Norio Mori 1 , Nori Takei 5<br />
1 Department of Psychiatry and Neurology, Hamamatsu<br />
University School of Medicine, Hamamatsu, Japan,<br />
2 Hamamatsu University School of Medicine, Hamamatsu,<br />
Japan, 3 Division of Engineering, Brown University,<br />
Providence, RI, 4 Department of Radiology, Koujin<br />
Hospital, Nagoya, Japan, 5 Research Center <strong>for</strong> Child<br />
Mental Development, Hamamatsu University School of<br />
Medicine, Hamamatsu, Japan, 6 Department of Forensic<br />
and Neurodevelopmental Sciences, Institute of Psychiatry,<br />
London, United Kingdom<br />
Disorders of the Nervous System<br />
Developmental Disorders<br />
128* using resting-state fcmrI to characterize the<br />
developmental course of subjects with aDHD, (o-T1)<br />
Damien Fair1 , Deepti Bathula1 , Joel Nigg1 ,<br />
Nico Dosenbach2 , Bradley Schlaggar2 , Steven Petersen2 ,<br />
Kathryn Mills1 , Taciana Costa Dias1 , Maarten Mennes3 ,<br />
David Gutman3 , Saroja Bangaru3 , J.K. Buitelaar4 ,<br />
Daniel Dickstein5 , David Kennedy6 , Beatriz Luna7 ,<br />
Stewart Mostofsky8 , Julie Schweitzer9 , Katerina Velanova7 ,<br />
Yufeng Wang10 , F. Xavier Castellanos3 , Michael Milham3 1Oregon Health & Science University, Portland, OR,<br />
2 3 Washington University, St. Louis, MO, Phyllis Green and<br />
Randolph Cowen Institute <strong>for</strong> Pediatric Neuroscience,<br />
NYU Langone Medical Center, New York, NY, 4Department of Psychiatry UMCN St. Radboud, Nijmegen, Netherlands,<br />
5Brown University School of Medicine, Providence, RI,<br />
6University of Massachusetts Medical Center, Worcester,<br />
United States, 7University of Pittsburgh, Pittsburgh, PA,<br />
8Kennedy Krieger Institute, Johns Hopkins, Baltimore,<br />
United States, 9University of Cali<strong>for</strong>nia Davis School of<br />
Medicine, Sacramento, United States, 10Institute of Mental<br />
Health, Peking University<br />
16 HBM 2011 >> <strong>abstracts</strong><br />
129**<br />
130<br />
131<br />
132<br />
133<br />
Functional Connectomics in aDHD: Insights from<br />
the aDHD-200 Sample<br />
Maarten Mennes 1 , David Gutman 1 , Clare Kelly 1 , Saroja<br />
Bangaru 1 , Xi-Nian Zuo 2,1 , Yu-Feng Zang 3 , Yu-Feng Wang 4 ,<br />
Katerina Velanova 5 , Julie Schweitzer 6 , Joel Nigg 7 , Stewart<br />
Mostofsky 8 , Beatriz Luna 5 , David Kennedy 9 , Damien Fair 7 ,<br />
Daniel Dickstein 10 , J.K. Buitelaar 11 , F Xavier Castellanos 1,12 ,<br />
Michael Milham 1,12<br />
1 Phyllis Green and Randolph Cowen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
United States, 2 Institute of Psychology, Chinese Academy<br />
of Sciences, Beijing, China, 3 State Key Laboratory of<br />
Cognitive Neuroscience and Learning, Beijing Normal<br />
University, Beijing, China, 4 Institute of Mental Health,<br />
Peking University, 5 University of Pittsburgh, Pittsburgh,<br />
United States, 6 University of Cali<strong>for</strong>nia Davis School of<br />
Medicine, Sacramento, United States, 7 Oregon Health<br />
& Science University, Oregon, United States, 8 Kennedy<br />
Krieger Institute, Johns Hopkins, Baltimore, United States,<br />
9 University of Massachusetts Medical Center, Worcester,<br />
United States, 10 Brown University School of Medicine,<br />
Providence, United States, 11 Department of Psychiatry<br />
UMCN St. Radboud, Nijmegen, Netherlands, 12 Nathan<br />
S. Kline Institute <strong>for</strong> Psychiatric Research, Orangeburg,<br />
United States<br />
morphological and neurocognitive sequelae following<br />
chemotherapy <strong>for</strong> leukemia in early childhood<br />
Thomas Hübner 1 , Nasreddin Abolmaali 1 , Marina<br />
Genschaft 1 , Thomas Hummel 1 , Vasiliki Ikonomidou 2 ,<br />
Chrysanthy Ikonomidou 3 , Clemens Kirschbaum 1 ,<br />
Franziska Krone 1 , Franziska Plessow 1 , Meinolf Suttorp 1 ,<br />
Michael Smolka 1<br />
1 Technische Universität Dresden, Dresden, Germany,<br />
2 George Mason University, Fairfax, VA, 3 University of<br />
Wisconsin, Madison, WI<br />
Persistent changes of cerebrovascular dynamics<br />
associated with prolonged high altitude residence<br />
Xiaodan Yan1,2 , Jiaxing Zhang1,3 , Qiyong Gong4 ,<br />
Xuchu Weng1 1Chinese Academy of Sciences, Beijing, China,<br />
2Rensselaer Polytechnic Institute, Troy, United States,<br />
3 4 Xiamen Unviersity, Xiamen, China, Sichuan University,<br />
Chengdu, China<br />
Perinatal biomarkers of adverse neuropsychological<br />
outcome in preterm newborns<br />
MASSIMO CAULO 1 , Carlo Sestieri 1 , RICCARDO NAVARRA 1 ,<br />
Mauro Gianni Perrucci 1 , CHIARA BRIGANTI 1 , EMANUELA<br />
CONTE 2 , RITA SALOMONE 2 , SERGIO DOMIZIO 2 , Gian<br />
Luca Romani 1<br />
1 DEPARTMENT OF NEUROSCIENCE AND IMAGING,<br />
Chieti, Italy, 2 NEONATAL INTENSIVE CARE UNIT,<br />
Chieti, Italy<br />
a robust index of lateralized brain function in<br />
typically and atypically developing children<br />
Blake Johnson 1 , Genevieve McArthur 1 , Melanie Reid 1 ,<br />
Jon Brock 1 , Stephen Crain 1<br />
1 Macquarie University, Sydney, Australia
Disorders of the Nervous System<br />
Developmental Disorders, continued<br />
134<br />
135<br />
136<br />
137<br />
138<br />
139<br />
140<br />
regional Patterns of Striatal morphology in<br />
adolescents with Prenatal Cocaine exposure<br />
Florence Roussotte 1 , Lindsay Soderberg 1 , Tamara Warner 2 ,<br />
Katherine Narr 1 , Marylou Behnke 3 , Fonda Davis Eyler 3 ,<br />
Elizabeth Sowell 1<br />
1 University of Cali<strong>for</strong>nia, Los Angeles, Los Angeles, CA,<br />
2 East Carolina University, Greenville, NC, 3 University of<br />
Florida, Gainesville, FL<br />
Synchronous eeg-fmrI reveals timing deficits in<br />
aDHD during behavioral inhibition in a go/no-go task<br />
Alexandra Sebastian 1 , Bernd Feige 1 , Lena Schmüser 1 ,<br />
Stefan Klöppel 1 , Klaus Lieb 2 , Oliver Tüscher 1,2<br />
1 Albert-Ludwigs-University, Department of Psychiatry and<br />
Psychotherapy, Freiburg, Germany, 2 Johannes-Gutenberg-<br />
University, Department of Psychiatry and Psychotherapy,<br />
Mainz, Germany<br />
meta-analyzing brain dysfunctions in dyslexic<br />
children and adults<br />
Fabio Richlan 1 , Martin Kronbichler 1 , Heinz Wimmer 1<br />
1 University of Salzburg, Salzburg, Austria<br />
Functional connectivity patterns during working<br />
memory in drug naive children with aDHD<br />
Philippe PEIGNEUX 1 , Hichem SLAMA 1 , Sylvie Linotte 2 ,<br />
Alison MARY 1 , Martin KAVECS 3 , Thierry METENS 3 ,<br />
Danielle BALERIAUX 3 , Isabelle MASSAT 1,4,5<br />
1 UR2NF - Neuropsychology and Functional Neuroimaging<br />
Research Unit, ULB, Bruxelles, Belgium, 2 Laboratory<br />
of Psychological Medicine, ULB, Bruxelles, Belgium,<br />
3 Department of Radiology,Clinics of Magnetic Resonance,<br />
Hôpital Erasme, ULB, Bruxelles, Belgium, 4 Laboratory of<br />
Experimental neurology, ULB, Bruxelles, Belgium, 5 Senior<br />
Research Associate at FRS-FNRS, Bruxelles, Belgium<br />
Imaging the Where and When of Tic generation in<br />
Tourette’s Syndrome<br />
Irene Neuner 1,2 , Cornelius Werner 3 , Tony Stöcker 2 ,<br />
Thilo Kellermann 3 , Jessica Bath 3 , Hans Wegener 2 ,<br />
Frank Schneider 3 , N Shah 2<br />
1 RWTH Aachen, Germany, 2 Forschungszentrum Jülich,<br />
Jülich, Germany, 3 RWTH Aachen, Aachen, Germany<br />
reduced functional connectivity of the left<br />
occipito-temporal cortex in developmental dyslexia<br />
Matthias Schurz 1 , Fabio Richlan 1 , Martin Kronbichler 1 ,<br />
Heinz Wimmer 1<br />
1 University of Salzburg, Salzburg, Austria<br />
Statistical shape analysis of atrophy of subcortical<br />
structures in prodromal Huntington’s Disease<br />
Laurent Younes 1 , Tilak Ratnanather 1 , Roger Albin 2 ,<br />
Timothy Brown 1 , Elizabeth Aylward 3 , Peg Nopoulos 4 ,<br />
Ronald Pierson 4 , Hans Johnson 4 , Vincent Magnotta 4 , Jane<br />
Paulsen 4 , Russell Margolis 5 , Michael Miller 1 , Chris Ross 5<br />
1 Johns Hopkins University, Baltimore, MD, 2 University of<br />
Michigan, Ann Arbor, MI, 3 Seattle Children’s Research<br />
Institute, Seattle, United States, 4 University of Iowa, Iowa<br />
City, IA, 5 Johns Hopkins University School of Medicine,<br />
Baltimore, MD<br />
141<br />
142<br />
143<br />
144<br />
145<br />
146<br />
Longitudinal <strong>Brain</strong> Development in Fetal alcohol<br />
Spectrum Disorders<br />
Sarah Treit 1 , Catherine Lebel 2 , Carmen Rasmussen 3 ,<br />
Gail Andrew 4 , Christian Beaulieu 2<br />
1 Centre <strong>for</strong> Neuroscience, University of Alberta, Edmonton,<br />
Alberta, Canada, 2 Department of Biomedical Engineering,<br />
University of Alberta, Edmonton, Alberta, Canada,<br />
3 Department of Pediatrics, University of Alberta, Edmonton,<br />
Alberta, Canada, 4 FASD Clinic, Glenrose Rehabilitation<br />
Hospital, Edmonton, Alberta, Canada<br />
an meg study of dichotic pitch in children with<br />
autism spectrum disorder<br />
Jon Brock 1 , Blake Johnson 1 , Melanie Reid 1 ,<br />
Samantha Bzishvili 1 , Caroline Witton 2<br />
1 Macquarie University, Sydney, Australia, 2 Aston University,<br />
Birmingham, United Kingdom<br />
Withdrawn<br />
atypical Patterns of activity and Connectivity<br />
associated with mirror overflow in Children with aDHD<br />
Andrew Gaddis1 , Deana Crocetti1 , Lindsey MacNeil1 ,<br />
Anita Barber2 , John Muschelli2 , Suresh Joel3 , James Pekar2 ,<br />
Stewart Mostofsky4 1 2 Kennedy Krieger Institute, Baltimore, MD, Johns Hopkins<br />
University, Baltimore, MD, 3Johns Hopkins University,<br />
4Kennedy Krieger Institute, Johns Hopkins, Baltimore,<br />
United States<br />
a Study of Cortical Folding in Children with Fetal<br />
alcohol Syndrome<br />
François De Guio 1 , jean-francois mangin 1 , Christopher<br />
Molteno 2 , Sandra Jacobson 3 , Joseph Jacobson 3 ,<br />
Ernesta Meintjes 4<br />
1 LNAO/Neurospin/I2BM/CEA, Saclay, France, 2 Department<br />
of Psychiatry, University of Cape Town, Cape Town,<br />
South Africa, 3 Department of Psychiatry and Behavioral<br />
Neurosciences, Wayne State University School of Medicine,<br />
Michigan, United States, 4 MRC/UCT Medical Imaging<br />
Research Unit, University of Cape Town, Cape Town,<br />
South Africa<br />
Callosal Thickness reductions relate to Facial<br />
Dysmorphology in Fetal alcohol Spectrum Disorders<br />
Yaling Yang 1 , Colleen Adnams 2 , Kenneth Jones 3 ,<br />
Sarah Mattson 4 , Philip May 5 , Mary O’Connor 6 , Edward<br />
Riley 4 , Kathleen Sulik 7 , Eric Kan 8 , Owen Phillips 9 ,<br />
Katherine Narr 9 , Elizabeth Sowell 10<br />
1 Developmental Cognitive Neuroimaging Laboratory,<br />
UCLA School of Medicine, Los Angeles, CA, 2 University<br />
of Cape Town, Cape Town, South Africa, 3 University of<br />
Cali<strong>for</strong>nia San Diego, San Diego, CA, 4 San Diego State<br />
University, San Diego, CA, 5 The University of New Mexico,<br />
Albuguerque, NM, 6 University of Cali<strong>for</strong>nia Los Angeles,<br />
Los Angeles, CA, 7 University of North Carolina, Chapel Hill,<br />
Chapel Hill, NC, 8 Developmental Cognitive Neuroimaging<br />
Laboratory, UCLA School of Medicine, Los Angeles, United<br />
States, 9 UCLA, Los Angeles, CA, 10 UCLA Department of<br />
Neurology, Los Angeles, United States<br />
HBM 2011 >> <strong>abstracts</strong> 17<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Developmental Disorders, continued<br />
147<br />
148<br />
149<br />
150<br />
151<br />
152<br />
153<br />
The effect of external auditory pacemaker on the<br />
neural activity of stuttering speakers<br />
Akira Toyomura 1 , Tetsunoshin Fujii 2 , Shinya Kuriki 3<br />
1 Tokyo Denki University, 2 Hokkaido University, Sapporo,<br />
Japan, 3 Tokyo Denki University, Chiba, Japan<br />
Cortical thickness differences between dyslexic and<br />
normal readers in occipito-temporal regions<br />
Irene Altarelli 1 , Karla Monzalvo 2 , Joel Fluss 3 , Catherine<br />
Billard 3 , Ghislaine Dehaene-Lambertz 2 , Franck Ramus 1<br />
1 Laboratoire de Sciences Cognitives et Psycholinguistique,<br />
Ecole Normale Supérieure, Paris, France, 2 INSERM-CEA<br />
Cognitive Neuroimaging Unit, GIF/YVETTE, France,<br />
3 Centre de Référence pour les Troubles des<br />
Apprentissages, Hôpital Bicêtre, Kremlin-Bicêtre, France<br />
Dyslexic Children Lack a Gradient of Word Specificity<br />
in Left Inferior Temporal and Frontal Cortices<br />
Olumide Olulade 1 , Lynn Flowers 2 , Eileen Napoliello 3 ,<br />
Guinevere Eden 3<br />
1 Center <strong>for</strong> the Study of Learning, Georgetown University<br />
Medical Center, Washington, D.C., USA, 2 Center <strong>for</strong> the<br />
Study of Learning, Georgetown University Medical Center,<br />
Washington, DC, USA, 3 Center <strong>for</strong> the Study of Learning,<br />
Georgetown University Medical Center, Washington, DC<br />
Delayed development of cortical surfaces and<br />
gyrification in ADHD<br />
Philip Shaw 1 , Alan Evans 1 , Jay Giedd 1 , Judith Rapoport 1 ,<br />
Wendy Sharp 1<br />
1 NIMH, Bethesda, DC<br />
The association between altered white matter and<br />
motor function in Klinefelter’s syndrome<br />
Maki Kasahara 1 , Tie-Qiang Li 2 , Ivanka Savic 1<br />
1 Dept of Clinical Neuroscience, Karolinska Institute,<br />
Stockholm, Sweden, 2 Karolinska Hospital, Huddinge,<br />
Sweden<br />
Motor Per<strong>for</strong>mance - Functional Connectivity<br />
Relationship Differs in Children with ADHD and HFA<br />
Suresh Joel 1,2 , Anita Barber 1,2 , Mary Beth Nebel 1,2 ,<br />
Brian Caffo 1 , James Pekar 1,2 , Stewart Mostofsky 1,2<br />
1 Johns Hopkins University, Baltimore, United States,<br />
2 Kennedy Krieger Institute, Baltimore, United States<br />
Reduced Gamma Activity during Time Perception<br />
in Unmedicated Adults with ADHD:<br />
A Pharmaco-MEG Study<br />
Tony W Wilson 1,2,3 , Martin Wetzel 4 , Matthew White 5 ,<br />
John Franzen 4 , Nichole Knott 2<br />
1 Department of Pharmacology & Experimental<br />
Neuroscience, University of Nebraska Medical Center,<br />
Omaha, NE, 2 Center <strong>for</strong> Magnetoencephalography,<br />
University of Nebraska Medical Center, Omaha, NE,<br />
3 Munroe-Meyer Institute <strong>for</strong> Genetics and Rehabilitation,<br />
University of Nebraska Medical Center, Omaha, NE,<br />
4 Department of Psychiatry, University of Nebraska Medical<br />
Center, Omaha, NE, 5 Department of Radiology, University<br />
of Nebraska Medical Center, Omaha, NE<br />
18 HBM 2011 >> <strong>abstracts</strong><br />
154<br />
155<br />
156<br />
157<br />
158<br />
ICA of resting-state fMRI reveals diminished functional<br />
connectivity in callosal dysgenesis<br />
Yiou Li1 , Fan-Pei Yang1 , Charvi Shetty1 , Sandya Venugopal1 ,<br />
Polina Bukhpun1 , Mari Wakahiro1 , Elliot Sherr1 , Pratik<br />
Mukherjee1 1University of Cali<strong>for</strong>nia San Francisco, San Francisco,<br />
United States<br />
FUNCTIONAL ORGANIZATION OF THE PRIMARY<br />
MOTOR CORTEX IN CONGENITAL AND CHRONIC<br />
AQUIRED PARAPLEGIA<br />
Christoph Stippich 1 , Magdalini Tozakidou 2 , Maria Blatow 2 ,<br />
Michael Akbar 3<br />
1 Dept of Neuroradiology, University hospital Basle,<br />
Switzerland, 2 Dept of Neuroradiology, University hospital<br />
Basle, Switzerland, Basle, Switzerland, 3 Dept of Orthopedic<br />
Surgery, University of Heidelberg, Germany, Heidelberg,<br />
Germany<br />
Reduced cortico-cerebellar activation during<br />
fMRI finger tapping task in ADHD<br />
Jadwiga Rogowska 1 , Melissa Lopez-Larson 2 ,<br />
Deborah Yurgelun-Todd 2<br />
1 <strong>Brain</strong> Imaging Center, McLean Hospital/Harvard Medical<br />
School, Belmont, MA, 2 The <strong>Brain</strong> Institute, University of<br />
Utah, Salt Lake City, UT<br />
Differential recruitment of working memory regions<br />
in children with fetal alcohol spectrum disorder<br />
Vaibhav Diwadkar 1 , Dhruman Goradia 2 , Neil Dodge 2 ,<br />
Christopher Warton 3 , Christopher Molteno 4 , Sandra<br />
Jacobson 5 , Joseph Jacobson 5 , Ernesta Meintjes 6<br />
1 Wayne State University School of Medicine, Detroit, MI,<br />
2 Wayne State University SOM, Detroit, MI, 3 University<br />
of Cape Town, Cape Town, South Africa, 4 Department<br />
of Psychiatry, University of Cape Town, Cape Town,<br />
South Africa, 5 Department of Psychiatry and Behavioral<br />
Neurosciences, Wayne State University School of Medicine,<br />
Michigan, United States, 6 MRC/UCT Medical Imaging<br />
Research Unit, University of Cape Town, Cape Town, South<br />
Africa<br />
Integration of dimensional and categorical analyses<br />
of brain-behavior relationships in adhd children<br />
Camille Chabernaud 1 , Maarten Mennes 1 , Clare Kelly 1 ,<br />
Kate Nooner 2 , Adriana Di Martino 1 , F. Xavier Castellanos 1 ,<br />
Michael Milham 1<br />
1 Phyllis Green and Randolph Cōwen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
United States, 2 Nathan S. Kline Institute <strong>for</strong> Psychiatric<br />
Research, Orangeburg, NY
Disorders of the Nervous System<br />
Developmental Disorders, continued<br />
159<br />
160<br />
161<br />
162<br />
163<br />
164<br />
aDHD and the Default-mode Network: The effect of<br />
Stimulant medication on Functional Connectivity<br />
John Franzen 1 , Matthew White 2 , Martin Wetzel 3 ,<br />
Nichole Knott 4 , Tony Wilson 4,5,6<br />
1 Department of Psychiatry, University of Nebraska/<br />
Creighton Medical Center, Omaha, NE, 2 Department<br />
of Radiology, University of Nebraska Medical Center,<br />
Omaha, NE, 3 Department of Psychiatry, University of<br />
Nebraska Medical Center, Omaha, NE, 4 Center <strong>for</strong><br />
Magnetoencephalography, Omaha, NE, 5 Munroe-<br />
Meyer Institute <strong>for</strong> Genetics and Rehabilitation, Omaha,<br />
NE, 6 Department of Pharmacology and Experimental<br />
Neuroscience, Omaha, NE<br />
multi-modal imaging (DTI and mrS) of the basal<br />
ganglia in fragile X syndrome<br />
Elizabeth Walter 1 , Amy Lightbody 1 , Allan Reiss 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA<br />
Neural hypersensitivity to rewards is associated<br />
with combined type aDHD and moderated by DaT1<br />
Yannis Paloyelis 1 , Mitul Mehta 1 , Stephen Faraone 2 ,<br />
Philip Asherson 1 , Jonna Kuntsi 1<br />
1 KING’S COLLEGE LONDON, London, United Kingdom,<br />
2 Department of Psychiatry, Harvard Medical School,<br />
Massachusetts General Hospital, Boston, MA<br />
reward circuit connectivity relates to delay<br />
discounting in children with aDHD<br />
Taciana Costa Dias 1 , Erica Musser 2 , Vanessa Wilson 2 ,<br />
Deepti Bathula 2 , Kathryn Mills 2 , Bria Thurlow 2 , Corinne<br />
Stevens 2 , Suzanne Mitchell 2 , Joel Nigg 2 , Damien Fair 2<br />
1 Oregon Health & Science University, Portland OR, 2 Oregon<br />
Health & Science University, Portland, OR<br />
Parietal activation in aDHD during Verbal Working<br />
memory is Predictive of reading Comprehension<br />
John Muschelli 1 , E. Mark Mahone 2 , Andrew Gaddis 3 ,<br />
Anita Barber 1 , Suresh Joel 4 , Stewart Mostofsky 5<br />
1 Johns Hopkins University, Baltimore, MD, 2 The Kennedy<br />
Krieger Institute, Baltimore, MD, 3 Kennedy Krieger Institute,<br />
Baltimore, MD, 4 Johns Hopkins University, 5 Kennedy<br />
Krieger Institute, Johns Hopkins, Baltimore, United States<br />
Cognition and Lobar morphology in Full mutation<br />
Children with Fragile X Syndrome<br />
Cherine Fahim 1 , Nagwa Meguid 2 , rasha Samy 2 ,<br />
Uicheul Yoon 3 , Adham Mancini-Marie 4 , Richard<br />
Frackowiak 5 , Alan Evans 6<br />
1 University of Lausanne, Lausanne, Switzerland, 2 National<br />
Research Centre, Cairo, Egypt, 3 Department of Biomedical<br />
Engineering, Hanyang University, Seoul, Korea, Republic<br />
of, 4 6. Department of Psychiatry, Hôpitaux Universitaires de<br />
Genève HUG, University of Geneva, Geneva, Switzerland,<br />
5 Centre Hospitalier Universitaire Vaudois, Lausanne,<br />
Switzerland, 6 McGill University, Montreal, Canada<br />
165<br />
166<br />
167<br />
168<br />
169<br />
170<br />
171<br />
alterations in age-related cortico-striatal responses<br />
in aDHD children during attention and memory<br />
Vaibhav Diwadkar 1 , Jacqueline Radwan 2 , Mahya<br />
Mashhadi 3 , Dalal Khatib 2 , McGarragle Olivia 2 , Patrick<br />
Pruitt 4 , Arthur Robin 2 , David Rosenberg 2 , Jeffrey Stanley 5<br />
1 Wayne State University School of Medicine, Detroit,<br />
MI, 2 Wayne State University SOM, Detroit, MI, 3 Eastern<br />
Michigan University, Ypsi Lanti, MI, 4 University of Michigan,<br />
Ann Arbor, MI, 5 Wayne State University School of Medicine,<br />
Detroit, United States<br />
amrI & DTI of deep gray matter structures in children<br />
with and without spina bifida meningomyelocele<br />
Jenifer Juranek 1 , Victoria Williams 2 , Paul Cirino 2 ,<br />
Maureen Dennis 3 , Jack Fletcher 2<br />
1 UTHSC-Houston, Houston, TX, 2 UH, Houston, TX,<br />
3 Hospital <strong>for</strong> Sick Children, Toronto, Ontario<br />
FmrI of Letter and Face Identification in Pediatric<br />
Survivors of medulloblastoma<br />
Ping Z. Stinnett1 , Melissa Jones1 , Matthew Scoggin1 ,<br />
Samina Taherbhoy1 , Carlos Parra1 , Shawna Palmer1 ,<br />
Heather Conklin1 , Thomas Merchant1 , Amar Gajjar1 ,<br />
Robert J. Ogg1 1St. Jude Children’s Research Hospital, Memphis, TN,<br />
United States<br />
FmrI evidence <strong>for</strong> Spatial Visualization Differences in<br />
Dyslexic Individuals<br />
Olumide Olulade 1,2 , Jeffrey Gilger 2 , Thomas Talavage 2 ,<br />
George Hynd 3 , Carole McAteer 4<br />
1 Center <strong>for</strong> the Study of Learning, Georgetown University<br />
Medical Center, Washington, D.C., United States, 2 Purdue<br />
University, West Lafayette, IN, United States, 3 College of<br />
Charleston, Charleston, SC, United States, 4 University of<br />
Tennessee, Knoxville, TN, United States<br />
The Impact of Prenatal exposure to Cocaine and<br />
Tobacco on <strong>Brain</strong> morphometry and Sensation Seeking<br />
JIE LIU 1 , Barry Kosofsky 2 , Minal Kekatpure 3 , Stephen<br />
Sheinkopf 4 , Jennifer Gench 4 , Barry Lester 4<br />
1 Brown University, Providence, RI, 2 WeillCornell Medical<br />
College, New York, United States, 3 Weill Cornell Medical<br />
College, Cornell University, New York, NY, 4 Brown Center<br />
<strong>for</strong> the Study of Children at Risk, Brown Univeristy,<br />
Providence, RI<br />
Functional-anatomic correlates of controlled<br />
processing in adult aDHD: Impairment and IQ<br />
Katerina Velanova 1 , Amelia Versace 1 , Cecile Ladouceur 1 ,<br />
Beatriz Luna 1 , Brooke Molina 1<br />
1 University of Pittsburgh, Pittsburgh, USA<br />
Diffusion Tensor Imaging of adolescents with<br />
Prenatal Cocaine exposure<br />
Catherine Lebel 1 , Tamara Warner 2 , Florence Roussotte 1 ,<br />
Marylou Behnke 3 , Fonda Davis Eyler 3 , Elizabeth Sowell 1<br />
1 UCLA, Los Angeles, CA, 2 East Carolina University,<br />
Greenville, NC, 3 University of Florida, Gainesville, FL<br />
HBM 2011 >> <strong>abstracts</strong> 19<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Developmental Disorders, continued<br />
172<br />
173<br />
Prenatal methamphetamine is associated with reduced<br />
Caudate Volumes and Longer Processing Speed<br />
Chris Derauf 1 , James Davis 2 , Barry Kosofsky 3 , Barry Lester 4<br />
1 Mayo Clinic, Rochester, MN, 2 University of Hawaii,<br />
Honolulu, HI, 3 Weill Cornell Medical College, New York,<br />
NY, 4 Brown Center <strong>for</strong> the Study of Children at Risk, Brown<br />
Univeristy, Providence, RI<br />
reduced <strong>Brain</strong> Fractional anisotropy at 33-year<br />
Follow-up in adults with childhood aDHD<br />
Samuele Cortese 1 , Davide Imperati 1 , Erika Proal 1 ,<br />
Salvatore Mannuzza 2 , Rachel Klein 2 , Kristin Gotimer 1 ,<br />
Michael Milham 1 , F. Xavier Castellanos 1<br />
1 Phyllis Green and Randolph Cowen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
NY, 2 Anita Saltz Institute <strong>for</strong> Anxiety and Mood Disorders,<br />
NYU Langone Medical Center, New York, NY<br />
Disorders of the Nervous System<br />
Epilepsy<br />
174* Distinct Patterns of <strong>Brain</strong> abnormalities in Different<br />
Idiopathic generalized epilepsy Syndromes, (o-Th1)<br />
Min Liu1 , Luis Concha2 , Christian Beaulieu3 , Donald Gross4 1 2 University of Alberta, Edmonton, Alberta, Universidad<br />
Nacional Autonoma de Mexico, Queretaro, QRO,<br />
3Department of Biomedical Engineering, University<br />
of Alberta, Edmonton, Alberta, 4University of Alberta,<br />
Edmonton, Canada<br />
175*<br />
176**<br />
177**<br />
epilepsy: multifocality is based on pathological<br />
increased connectivity in the default mode network,<br />
(o-m3)<br />
Jan Moehring 1 , Bianca Kroeher 2 , Andreas Galka 2 ,<br />
Friederike Moeller 2 , Laith Hamid 2 , Stephan Wolff 3 , Jansen<br />
Olaf 3 , Rainer Boor 4 , Ulrich Stephani 2 , Michael Siniatchkin 2<br />
1 University of Kiel, Kiel, Germany, 2 Clinic <strong>for</strong><br />
Neuropaediatrics, UK-SH Kiel, Kiel, Germany, 3 Department<br />
of Neuroradiology, Christian-Albrechts-University, Kiel,<br />
Germany, 4 Northern German Epilepsy Center <strong>for</strong> Children<br />
and Adolescents, Raisdrof, Germany<br />
activelets decomposition and sparse representation<br />
of epileptic activity in fmrI<br />
Renaud Lopes 1 , Jean-Marc Lina 2 , Jean Gotman 1<br />
1 Montreal Neurological Institute and Hospital, McGill<br />
University, Montreal, Canada, 2 Ecole de technologie<br />
supérieure (ETS) de l’université du Québec, Montreal,<br />
Canada<br />
Functional activation Patterns in Hippocampal<br />
Subfields in Temporal Lobe epilepsy<br />
Sandhitsu Das 1 , Dawn Mechanic-Hamilton 2 , Marc<br />
Korczykowski 2 , John Pluta 1 , John Detre 2 , Paul Yushkevich 1<br />
1 Penn Image Computing and Science Laboratory,<br />
Department of Radiology, University of Pennsylvania,<br />
Philadelphia, USA, 2 Center <strong>for</strong> Functional Neuroimaging,<br />
Department of Neurology, University of Pennsylvania,<br />
Philadelphia, USA<br />
20 HBM 2011 >> <strong>abstracts</strong><br />
178*<br />
179**<br />
180**<br />
181**<br />
182<br />
183<br />
Longitudinal Changes in White matter and Language<br />
outcome after anterior Temporal Lobe resection,<br />
(o-Th1)<br />
Mahinda Yogarajah 1 , Silvia Bonelli 1 , Niels Focke 2 ,<br />
Pam Thompson 1 , Mark Symms 1 , Matthias Koepp 1 ,<br />
John Duncan 1<br />
1 UCL Institute of Neurology, London, United Kingdom,<br />
2 Dept. of Clinical Neurophysiology, Georg August<br />
University, Goettingen, Germany<br />
Preoperative eeg-correlated fmrI analyses with<br />
electrocorticographic Validation<br />
Petra van Houdt 1,2 , Pauly Ossenblok 1 , Frans Leijten 3 ,<br />
Geertjan Huiskamp 3 , Albert Colon 1 , Paul Boon 1 ,<br />
Kees Stam 2 , Jan De Munck 2<br />
1 Kempenhaeghe, Heeze, Netherlands, 2 VU University<br />
Medical Center, Amsterdam, Netherlands, 3 University<br />
Medical Center Utrecht, Utrecht, Netherlands<br />
a multimodal analysis of Thalamocortical<br />
Dysfunction in Juvenile myoclonic epilepsy<br />
Jonathan O’Muircheartaigh 1 , Christian Vollmar 2 , Gareth<br />
Barker 1 , Veena Kumari 1 , Mark Symms 2 , Pam Thompson 2 ,<br />
John Duncan 2 , Matthias Koepp 2 , Mark Richardson 1<br />
1 King’s College London, Institute of Psychiatry, London,<br />
United Kingdom, 2 University College London, Institute of<br />
Neurology, London, United Kingdom<br />
Functional Connectivity in Patients with<br />
generalized epilepsy<br />
Mona Maneshi 1 , Friederike Moeller 1,2 , Jean Gotman 1 ,<br />
Christophe Grova 3,1<br />
1 Montreal Neurological Institute and Hospital,<br />
McGill University, Montreal, Canada, 2 Department of<br />
Neuropediatrics, Christian-Albrechts-University, Kiel,<br />
Germany, 3 Biomedical Engineering Department, McGill<br />
University, Montreal, Canada<br />
graph-theoretical analysis of cortical thickness<br />
correlations in temporal lobe epilepsy<br />
Boris Bernhardt 1 , Seok Jun Hong 1 , Zhang Chen 2 ,<br />
Yong He 3,2 , Alan Evans 2 , Neda Bernasconi 1<br />
1 Neuroimaging of Epilepsy Laboratory, Montreal<br />
Neurological Institute, McGill University, Montreal, QC,<br />
Canada, 2 <strong>Brain</strong> Imaging Center, Montreal Neurological<br />
Institute, McGill University, Montreal, QC, Canada, 3 Beijing<br />
Normal University, Beijing, China<br />
meg source localization of interictal bursts of<br />
epileptic activity in time frequency domain<br />
Michelle-Lee Jones 1 , Ana Chrystina Crippa 1 ,<br />
Jean-Marc Lina 2 , Christophe Grova 3 , Eliane kobayashi 1<br />
1 Montreal Neurological Institute, McGill University, Montreal,<br />
Canada, 2 Electrical Engineering Department, Ecole de<br />
Technologie Supérieure, Montreal, Canada, 3 Montreal<br />
Neurological Institute and Biomedical Engineering<br />
Department, McGill University, Montreal, Canada
Disorders of the Nervous System<br />
Epilepsy, continued<br />
184<br />
185<br />
186<br />
187<br />
188<br />
189<br />
Loss of white matter network organization is associated<br />
with cognitive decline in chronic epilepsy<br />
Maarten Vaessen 1,2,3 , Jaap Jansen 1,2 , Marielle Vlooswijk 2,4 ,<br />
Paul Hofman 1,2 , Marjan Majoie 3,4 , Albert Aldenkamp 2,3,4 ,<br />
Walter Backes 1,2<br />
1 Radiology, Maastricht University Medical Centre,<br />
Maastricht, Netherlands, 2 School <strong>for</strong> Mental Health<br />
and Neurosciences, Maastricht University, Maastricht,<br />
Netherlands, 3 Kempenhaeghe Epilepsy Center, Heeze,<br />
Netherlands, 4 Neurology, Maastricht University Medical<br />
Centre, Maastricht, Netherlands<br />
eeg-fmrI and eSI in epilepsy surgery<br />
Lydia Elshoff 1 , Kristina Groening 2 , Frederic Grouiller 3 ,<br />
Christoph Michel 4 , Ulrich Stephani 5 , Michael Siniatchkin 6<br />
1 Clinic <strong>for</strong> Neuropaediatrics, Uk-SH Kiel, Germany, 2 Clinic<br />
<strong>for</strong> Neuropaediatrics, Uk-SH Kiel, Germany, Kiel, Germany,<br />
3 University Hospital and Faculty of Medicine, Geneva,<br />
Switzerland, 4 University Hospital, Geneva, Switzerland,<br />
5 Clinic <strong>for</strong> Neuropaediatrics, UK-SH Kiel, Kiel, Germany,<br />
6 University Hospital, Kiel, Germany<br />
remote effects of mesial temporal lobe seizures<br />
studied by eeg-fNIrS<br />
Julie Tremblay 1 , Philippe Pouliot 2 , Phetsamone Vannasing 3 ,<br />
Olivia Florea 3 , Frédéric Lesage 4 , Franco Lepore 5 ,<br />
Maryse Lassonde 5 , Dang Khoa Nguyen 6<br />
1 Hôpital Sainte-Justine, Montreal, Canada, 2 École<br />
Polytechnique, Université de Montréal, Montreal, Québec,<br />
3 Hôpital Sainte-Justine , Université de Montréal, Montreal,<br />
Canada, 4 École Polytechnique,Université de Montréal,<br />
Montreal, Canada, 5 Cernec, Université de Montréal,<br />
Montreal, Canada, 6 CHUM Notre-Dame,Université de<br />
Montréal, Montreal, Quebec<br />
Voxel-based statistical analysis of fractional<br />
anisotropy in mesial temporal lobe epilepsy<br />
Simon Keller 1 , Michael Deppe 2 , Jan-Christoph<br />
Schöne-Bake 3 , Siawoosh Mohammadi 4 , Bernd Weber 3<br />
1 University of Münster, Department of Neurology, Münster,<br />
Germany, 2 Department of Neurology, University of Münster,<br />
Münster, Germany, 3 Department of Epileptology, University<br />
of Bonn, Bonn, Germany, 4 Wellcome Trust Centre <strong>for</strong><br />
Neuroimaging, London, United Kingdom<br />
DTI and mrI determined putamen abnormalities<br />
in the temporal lobe and juvenile myoclonic epilepsies<br />
Harald Kugel 1 , Simon Keller 2 , Tobias Ahrens 2 ,<br />
Siawoosh Mohammadi 3 , Gabriel Möddel 2 , E Ringelstein 2 ,<br />
Michael Deppe 2<br />
1 Dept. of Clinical Radiology, University of Muenster,<br />
Münster, Germany, 2 Department of Neurology, University<br />
of Münster, Münster, Germany, 3 Wellcome Trust Centre<br />
<strong>for</strong> Neuroimaging, London, United Kingdom<br />
The effect of epileptic Discharges on the eeg<br />
of the Default mode Network<br />
Firas Fahoum 1 , Rina Zelmann 1 , Jeffery Hall 1 ,<br />
François Dubeau 1 , Jean Gotman 1<br />
1 Montreal Neurological Institute, Montreal, Quebec, Canada<br />
190<br />
191<br />
192<br />
193<br />
194<br />
195<br />
Cerebral and Cerebellar Language Lateralization<br />
in Pediatric epilepsy Surgery Candidates<br />
Jennifer Gelinas 1 , Kevin Fitzpatrick 2 , Danny Kim 2 ,<br />
Sare Akdag 3 , Mary Connolly 1 , Bruce Bjornson 4<br />
1 Division of Neurology, Department of Pediatrics,<br />
The University of British Columbia, Vancouver, British<br />
Columbia, 2 <strong>Brain</strong> <strong>Mapping</strong> Centre, British Columbia<br />
Children’s Hospital, Vancouver, British Columbia,<br />
3 Department of Psychology, British Columbia Children’s<br />
Hospital, Vancouver, British Columbia, 4 Developmental<br />
Neurosciences & Child Health, Child & Family Research<br />
Institute, UBC, Vancouver, British Columbia<br />
White matter abnormalities in Temporal Lobe<br />
epilepsy with and without mesial Temporal Sclerosis<br />
Min Liu 1 , Luis Concha 2 , Catherine Lebel 3 , Donald Gross 4 ,<br />
Christian Beaulieu 5<br />
1 University of Alberta, Edmonton, Alberta, Canada,<br />
2 Universidad Nacional Autonoma de MexicoUniversity<br />
of Alberta, Queretaro, Mexico, 3 University of Cali<strong>for</strong>nia -<br />
Los Angeles, Los Angeles, CA, 4 University of<br />
Alberta, Edmonton, Canada, 5 University of Alberta,<br />
Edmonton, Alberta<br />
anatomical correlation between<br />
magnetoencephalography and intracranial<br />
eeg recordings<br />
Maria Aiguabella 1 , Christophe Grova 1,2 , Masoud Sangani 1 ,<br />
Dominique Rosenberg 1 , Rina Zelmann 1 , Jeffery Hall 1 ,<br />
Jean Gotman 1 , François Dubeau 1 , Eliane kobayashi 1<br />
1 Montreal Neurological Institute, McGill University, Montreal,<br />
Canada, 2 Biomedical Engineering Dpt, McGill University,<br />
Montreal, Canada<br />
abnormal Functional Connectivity between areas<br />
involved in emotion and executive Control in PNeS<br />
Sylvie van der Kruijs 1 , Nynke Bodde 1 , Maarten Vaessen 2 ,<br />
Richard Lazeron 1 , Paul Hofman 2 , Walter Backes 2 ,<br />
Albert Aldenkamp 1 , Jaap Jansen 2<br />
1 Epilepsy Center Kempenhaeghe, Heeze, Netherlands,<br />
2 Radiology, Maastricht University Medical Center,<br />
Maastricht, Netherlands<br />
How robust are haemodynamic responses observed<br />
prior to interictal epilepti<strong>for</strong>m discharges?<br />
David Rollings 1 , Dirk Ostwald 2 , Camillo Porcaro 1 ,<br />
Doug McCorry 3 , Imad Soryal 3 , Manny Bagary 4 ,<br />
Andrew Bagshaw 1<br />
1 University of Birmingham, Birmingham, United Kingdom,<br />
2 Bernstein Centre Berlin, Berlin, Germany, 3 Department<br />
of Neuroscience, University Hospital Birmingham,<br />
Birmingham, United Kingdom, 4 The Barberry,<br />
Birmingham & Solihull Mental Health Trust, Birmingham,<br />
United Kingdom<br />
memory lateralization and per<strong>for</strong>mance in<br />
epilepsy patients<br />
Cristina Bigras1 , Jane Allendorfer1 , Jennifer Vannest2 ,<br />
Bruce Schefft1 , Jerzy Szaflarski1 1University of Cincinnati, Cincinnati, United States,<br />
2Cincinnati Children’s Hospital Medical Center,<br />
Cincinnati, OH<br />
HBM 2011 >> <strong>abstracts</strong> 21<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Epilepsy, continued<br />
196<br />
197<br />
198<br />
199<br />
atypical neural circuitry <strong>for</strong> language in children with<br />
Benign epilepsy with Centro-Temporal Spikes<br />
Jennifer Vannest 1 , Kenneth Eaton 2 , David Henkel 1 ,<br />
Jerzy Szaflarski 3,1 , Tracy Glauser 4 , Diego Morita 4 ,<br />
Vincent Schmithorst 1 , Anna Byars 4 , Scott Holland 1<br />
1 Pediatric Neuroimaging Research Consortium, Cincinnati<br />
Children’s Hospital Medical Center, Cincinnati, OH,<br />
2 Cincinnati Children’s Hospital Medical Center, Cincinnati,<br />
OH, 3 University of Cincinnati Academic Health Center,<br />
Cincinnati, OH, 4 Division of Neurology, Cincinnati<br />
Children’s Hospital Medical Center, Cincinnati, OH<br />
The Default mode Network in mesial Temporal Lobe<br />
epilepsy using Seed-Voxel Correlation analysis<br />
PIN YU CHEN 1,2 , H H Liou 3,4 , K C Chu 2,5 , W M Huang 3 ,<br />
WY I Tseng 2,6<br />
1 Neurobiology and Cognitive Science Center, National<br />
Taiwan University, Taipei, Taiwan, Republic of China,<br />
2 Center <strong>for</strong> Optoelectronic Biomedicine, National Taiwan<br />
University College of Medicine, Taipei, Taiwan, Republic<br />
of China, 3 Graduate Institute of Pharmacology, National<br />
Taiwan University College of Medicine, Taipei, Taiwan,<br />
Republic of China, 4 Department of Neurology, National<br />
Taiwan University Hospital, Taipei, Taiwan, Republic of<br />
China, 5 Institute of Electrical Engineering, National Taiwan<br />
University, Taipei, Taiwan, Republic of China, 6 Department<br />
of Medical Imaging, National Taiwan University Hospital,<br />
Taipei, Taiwan, Republic of China<br />
Towards delineation of the source volume of interictal<br />
spikes in focal epilepsy using meg<br />
Romain Bouet 1,2,3 , Julien Jung 1,2,3 , Claude Delpuech 1,2,4 ,<br />
Philippe Ryvlin 5,2,3 , Jean Isnard 6,7 , Marc Guenot 3,7 ,<br />
Olivier Bertrand 1,2 , François Mauguière 3,7<br />
1 INSERM U1028, CNRS UMR5292, Lyon Neuroscience<br />
Research Center, <strong>Brain</strong> Dynamics and Cognition<br />
Team, Lyon, France, 2 University Lyon 1, Lyon, France,<br />
3 Neurological Hospital, Functional Neurology and<br />
Epileptology Dept, Lyon, France, 4 CERMEP - imagerie<br />
du vivant, Bron, Bron, France, 5 INSERM U1028, CNRS<br />
UMR5292, Lyon Neuroscience Research Center,<br />
Translational and Integrative Group i, Lyon, France,<br />
6 ) Neurological Hospital, Functional Neurology and<br />
Epileptology Dept, Lyon, France, 7 INSERM U879,<br />
Lyon, France<br />
Disrupted functional connectivity is associated with<br />
cognitive decline in cryptogenic epilepsy<br />
Maarten Vaessen 1,2,3 , Marielle Vlooswijk 4,2 , Jaap Jansen 1,2 ,<br />
Marc de Krom 4 , Marjan Majoie 4,3 , Paul Hofman 1,2 ,<br />
Albert Aldenkamp 3,4,2 , Walter Backes 1,2<br />
1 Radiology, Maastricht University Medical Centre,<br />
Maastricht, Netherlands, 2 School <strong>for</strong> Mental Health<br />
and Neurosciences, Maastricht University, Maastricht,<br />
Netherlands, 3 Kempenhaeghe Epilepsy Center, Heeze,<br />
Netherlands, 4 Neurology, Maastricht University Medical<br />
Centre, Maastricht, Netherlands<br />
22 HBM 2011 >> <strong>abstracts</strong><br />
200<br />
201<br />
202<br />
203<br />
204<br />
205<br />
Neuronal networks in West-syndrome as revealed by<br />
source analysis and partial directed coherence<br />
Natia Japaridze 1 , Muthuraman Muthuraman 2 ,<br />
Friederike Möller 3 , Rainer Boor 4 , Urlich Stephani 5 ,<br />
Günther Deuschl 6 , Jan Raethjen 2 , Michael Siniatchkin 3<br />
1 Department of Neuropediatrics University Medical<br />
Center Schleswig-Holstein (UKSH), Kiel, Germany,<br />
2 Department of Neurology, Christian-Albrechts-University,<br />
Kiel, Germany, 3 Department of Neuropediatrics, Christian-<br />
Albrechts-University, Kiel, Germany, 4 North German<br />
Epilepsy Center <strong>for</strong> Children and Adolescents, Department<br />
of Neuropediatrics, Christian-, Raisdrof, Germany,<br />
5 Department of Neuropediatrics, Christian-Albrechts-<br />
University, North German Epilepsy Center <strong>for</strong> Chil, Kiel ,<br />
Germany, 6 Department of Neurology, Christian-Albrechts-<br />
University, Kiel , Germany<br />
mrI-Based Cortical Thickness analysis in<br />
Drug-resistant Cryptogenic epilepsy<br />
SeokJun Hong 1 , Boris Bernhardt 1 , Hosung Kim 1 ,<br />
Neda Bernasconi 1 , Andrea Bernasconi 1<br />
1 Neuroimaging of Epilepsy Laboratory, Montreal<br />
Neurological Institute, Montreal, QC<br />
FmrI functional connectivity study in mesial Temporal<br />
Lobe epilepsy<br />
Francesca Pittau 1 , Christophe Grova 2 , Friederike Moeller 1 ,<br />
François Dubeau 1 , Jean Gotman 1<br />
1 Montreal Neurological Institute, McGill University, Montreal,<br />
Canada, 2 Biomedical Engineering Department, McGill<br />
University, Montreal, Canada<br />
Pre- and post-op activation of the motor cortex in<br />
epilepsy with hemiparesis and rolandic ischemia<br />
Andre Palmini 1 , Jaderson Costa da Costa 2 ,<br />
João Rubião Hoefel 3 , Rafael Nunes 3 , Eliseu Paglioli 4<br />
1 Instituto do Cerebro - PUCRS - Brazil, 2 Instituto do Cerebro<br />
- InsCer - PUCRS, Porto Alegre, RS, 3 Centro Diagnóstico<br />
Imagem - PUCRS, Porto Alegre, RS,<br />
4 Serviço Neurocirurgia - PUCRS, Porto Alegre, RS<br />
Can eeg-correlated functional mrI guide the<br />
implantation of depth electrodes?<br />
Petra van Houdt 1,2 , Pauly Ossenblok 1 , Albert Colon 1 ,<br />
Paul Boon 1 , Kees Stam 2 , Jan De Munck 2<br />
1 Kempenhaeghe, Heeze, Netherlands, 2 VU University<br />
Medical Center, Amsterdam, Netherlands<br />
Investigation by meg of networks involved in<br />
interictal epilepti<strong>for</strong>m discharges<br />
Urszula Malinowska 1 , Jean-Michel Badier 1 , Martine<br />
Gavaret 1 , Fabrice Bartolomei 1 , Patrick Chauvel 1 ,<br />
Christian Bénar 1<br />
1 INSERM, Université de la Méditerranée, Epilepsy and<br />
Cognition laboratory UMR 751, Marseille, France
Disorders of the Nervous System<br />
Epilepsy, continued<br />
206<br />
207<br />
208<br />
209<br />
210<br />
211<br />
212<br />
DTI, cortical thickness and memory in<br />
pediatric epilepsy<br />
Helen Carlson 1 , Elisabeth Sherman 1,2 , Ismael Gaxiola-<br />
Valdez 2,3 , Christian Beaulieu 4 , Xing-Chang Wei 1,2 , Walter<br />
Hader 1,2,5 , Luis Bello-Espinosa 1,2 , Adam Kirton 1,2 , Karen<br />
Barlow 1,2 , Brian Brooks 1,2 , Sam Wiebe 5,2 , Ismail Mohamed 6<br />
1 Alberta Children’s Hospital, Calgary, Canada, 2 University<br />
of Calgary, Calgary, Canada, 3 Seaman Family MR<br />
Research Centre, Calgary, Canada, 4 University of Alberta,<br />
Edmonton, Canada, 5 Foothills Medical Centre, Calgary,<br />
Canada, 6 Dalhousie University, Halifax, Canada<br />
mapping abnormal Visual Cortex Development –<br />
multimodal Imaging of epileptic Patient with Dysplasia<br />
Isabel Catarina Duarte 1,2 , Gil Cunha 3,2,4 , João Castelhano 2 ,<br />
Francisco Sales 5 , Aldina Reis 2 , João Paulo Cunha 6,3 ,<br />
Miguel Castelo-Branco 3,2<br />
1 <strong>Brain</strong> Imaging Network, Coimbra, Potugal, 2 Institute<br />
of Biomedical Research in Light and Image, Coimbra,<br />
Portugal, 3 <strong>Brain</strong> Imaging Network, Coimbra, Portugal,<br />
4 Hospitals of University of Coimbra, Coimbra, Portugal,<br />
5 Department of Neurology, Hospitals of University of<br />
Coimbra, Coimbra, Portugal, 6 IEETA, University of Aveiro,<br />
Aveiro, Portugal<br />
Localisation of epileptic generators with eeg-fmrI<br />
in<strong>for</strong>med by eeg topographic maps<br />
Frederic Grouiller 1 , Rachel Thornton 2 , Kristina Groening 3 ,<br />
Laurent Spinelli 1 , John Duncan 2 , karl Schaller 1 , Michael<br />
Siniatchkin 3 , Louis Lemieux 4 , Margitta Seeck 1 , Christoph<br />
Michel 1 , Serge Vulliemoz 1<br />
1 University Hospital and Faculty of Medicine, Geneva,<br />
Switzerland, 2 UCL Institute of Neurology, London, United<br />
Kingdom, 3 University Hospital, Kiel, Germany, 4 Institute of<br />
Neurology, London, United Kingdom<br />
meg high-frequency oscillations help determine<br />
epileptic seizure onset zones<br />
Chiran Doshi 1,2 , Manoj Raghavan 2 , Peter LaViolette 2 ,<br />
Rey Ramirez 3 , Wade Mueller 4 , Sylvain Baillet 2<br />
1 Marquette University, Milwaukee,WI, 2 Medical college<br />
of Wisconsin, Milwaukee, WI, 3 Milwaukee, United States,<br />
4 Medical College of Wisconsin, Milwaukee, WI<br />
Interictal spike localization of meg and eCog:<br />
comparison with actual resection area<br />
Woorim Jeong 1 , Chun Kee Chung 1 , June Sic Kim 1<br />
1 MEG Center, Department of Neurosurgery, Seoul National<br />
University College of Medicine, Seoul, Korea, Republic of<br />
a voxelwise study of the HrF during epileptic seizures<br />
Marco Leite 1 , Alberto Leal 2 , Patrícia Figueiredo 1<br />
1 Institute <strong>for</strong> Systems and Robotics / Instituto Superior<br />
Técnico, Lisbon, Portugal, 2 Hospital Júlio de Matos, Lisbon,<br />
Portugal<br />
The readiness Potential recorded from the Lateral<br />
Prefrontal Cortex using electrocorticogrphy<br />
Kyungin Choi 1 , Chun Kee Chung 1,2 , June Sic Kim 1<br />
1 MEG Center, Department of Neurosurgery, Seoul National<br />
University Hospital, Seoul, Korea, Republic of, 2 Department<br />
of Neurosurgery, Seoul National University College of<br />
Medicine, Seoul, Korea, Republic of<br />
213<br />
214<br />
215<br />
216<br />
217<br />
218<br />
219<br />
Diffusion abnormalities of fiber tracts underlying<br />
cortical regions in temporal lobe epilepsy<br />
Boris Bernhardt 1 , Seok Jun Hong 1 , Hosung Kim 1 ,<br />
Andrea Bernasconi 1 , Neda Bernasconi 1<br />
1 Neuroimaging of Epilepsy Laboratory, Montreal<br />
Neurological Institute, Montreal, QC, Canada<br />
Dissociated Cortical and Subcortical <strong>Brain</strong><br />
Development in Benign epilepsy with<br />
Centrotemporal Spikes<br />
Jeff Riley 1 , Jack Lin 1 , David Hsu 2 , Carl Stafstrom 2 ,<br />
Kevin Dabbs 2 , Daren Jackson 2 , Bruce Hermann 2<br />
1 University of Cali<strong>for</strong>nia Irvine, Irvine, United States,<br />
2 University of Wisconsin-Madison, Madison, United States<br />
Diffuse Sulcal anomalies associated with Focal<br />
epileptogenic mal<strong>for</strong>mations of Cortical Development<br />
Denis Rivière 1 , Boris Bernhardt 2 , Hosung Kim 2 , Soek-Jun<br />
Hong 2 , Matthieu Perrot 1 , jean-francois mangin 1 , Jean<br />
Régis 3 , Neda Bernasconi 2 , Andrea Bernasconi 2<br />
1 NeuroSpin, CEA, Gif sur Yvette, France, 2 Neuroimaging<br />
of Epilepsy Laboratory, Montreal Neurological Institute,<br />
Montreal, QC, 3 Stereotactic and Functional Neurosurgery<br />
Department, Timone Hospital, A.P.M., Marseille, France<br />
evidences of hippocampi asymmetries reveled by brain<br />
regional Homogeneity in resting-state fmrI<br />
Fabricio Pereira 1 , Andrea Alessio 1 , Tatiane Pedro 2 , Elisabeth<br />
Bilevicius 2 , Mauricio Sercheli 2 , Jane Rondina 2 , Helka<br />
Ozelo 2 , Roberto Covolan 2 , Gabriela Castellano 1 , Benito<br />
Dasmasceno 1 , Fernando Cendes 1<br />
1 University of Campinas, Campinas, São Paulo, Brazil,<br />
2 Univerisity of Campinas, Campinas, São Paulo, Brazil<br />
analysis of BoLD deactivation from different<br />
ictal patterns<br />
Ana Carolina Coan 1,2 , Guilherme Beltramini 2 , Brunno<br />
Campos 2 , Roberto Covolan 2 , Fernando Cendes 2<br />
1 Unicamp, Campinas, Brazil, 2 UNICAMP, Campinas, Brazil<br />
FmrI assessment of language plasticity in left and<br />
right focal epilepsy<br />
Marcela Perrone-Bertolotti 1 , Monica Baciu 1 , Emilie Cousin 1 ,<br />
Cédric Pichat 1 , Gaetan Yvert 1<br />
1 Laboratoire de Psychologie et Neurocognition, UMR CNRS<br />
5105, UPMF, Grenoble, France<br />
Bilateral fractional anisotropy alterations in<br />
temporal lobe epilepsy of unknown cause<br />
Jan Gerdes 1 , Simon Keller 1 , Tobias Ahrens 1 ,<br />
Siawoosh Mohammadi 2 , Gabriel Möddel 1 , Harald Kugel 3 ,<br />
Bernd Weber 4 , E Ringelstein 1 , Michael Deppe 1<br />
1 Department of Neurology, University of Münster, Münster,<br />
Germany, 2 Wellcome Trust Centre <strong>for</strong> Neuroimaging,<br />
London, United Kingdom, 3 Dept. of Clinical Radiology,<br />
University of Muenster, 4 Department of Epileptology,<br />
University of Bonn, Bonn, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 23<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Mood and Anxiety Disorders<br />
220* Cingulate MRspectroscopy is related to abnormal graph<br />
metrics in the salience network in depression, (O-M3)<br />
Dorothea Irene Horn1 , Anton Lord2 , Annemarie Osoba1 ,<br />
Coraline Metzger1 , Joern Kaufmann1 , Kolja Schiltz1 ,<br />
Johann Steiner1 , Bernhard Bogerts1 , Martin Walter1 ,<br />
Michael Breakspear2,3 1Otto-von-Guericke University, Magdeburg, Germany,<br />
2Queensland Institute of Medical Research, Brisbane,<br />
Australia, 3University of New South Wales and The Black<br />
Dog Institute, Sydney, Australia<br />
221*<br />
222*<br />
223*<br />
224**<br />
Dissociable patterns of hippocampal functional<br />
connectivity distinguish between anxiety disorders,<br />
(O-T1)<br />
Ashley Chen 1 , Amit Etkin 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA, USA<br />
FcMRI study of the Default Mode Network in school age<br />
children with history of Preschool Depression, (O-M3)<br />
Michael Gaffrey 1 , Joan Luby 2 , Grega Repovš 3 ,<br />
Kelly Botteron 2 , Deanna Barch 2<br />
1 Washington University School of Medicine, St. Louis, USA,<br />
2 Washington University School of Medicine, Saint Louis,<br />
MO, 3 University of Ljubljana, Ljubljana, Slovenia<br />
MeCP2 affects frontal structure and metabolism<br />
differentially in healthy subjects and depression,<br />
(O-W3)<br />
Philipp Sämann1 , Luanna Dixson2 , Khanum Ridler2 ,<br />
Thomas Nichols2 , Anil Rao2 , Brandon Whitcher2 ,<br />
Florian Holsboer3 , Dorothee Auer3 , Pierandrea Muglia4 ,<br />
Paul Matthews5 , Becky Inkster6 1 2 MPI of Psychiatry, Munich, Germany, GlaxoSmithKline<br />
Clinical Imaging Centre, Hammersmith Hospital, London,<br />
United Kingdom, 3Max Planck Institute of Psychiatry,<br />
Munich, United Kingdom, 4Genetics Division, Drug<br />
Discovery, Medicine Development Centre, Verona, Italy,<br />
5Imperial College London, London, United Kingdom,<br />
6Centre <strong>for</strong> Neuroscience, Imperial College, London,<br />
United Kingdom<br />
Altered Ventral Anterior Cingulate Connectivity in Young<br />
People with Major Depressive Disorder<br />
Christopher Davey 1 , Ben Harrison 1 , Nicholas Allen 1 ,<br />
Murat Yucel 1<br />
1 University of Melbourne, Melbourne, Australia<br />
24 HBM 2011 >> <strong>abstracts</strong><br />
225**<br />
226**<br />
227<br />
228<br />
229<br />
Associations between thyroid hormone transporter<br />
gene variants and grey matter volume changes<br />
Luanna Dixson 1,2 , Khanum Ridler 1 , Thomas Nichols 3 ,<br />
Anil Rao 3 , Brandon Whitcher 3 , Phillip Saemann 4 ,<br />
Dorothee Auer 4 , Florian Holsboer 4 , Pierandrea Muglia 5 ,<br />
Paul Matthews 3,6 , Becky Inkster 3<br />
1 GlaxoSmithKline Clinical Imaging Centre, Hammersmith<br />
Hospital, London, United Kingdom, 2 Central Institute <strong>for</strong><br />
Mental Health, Mannheim, Germany, 3 GlaxoSmithKline<br />
Clinical Imaging Center, Hammersmith Hospital, London,<br />
United Kingdom, 4 Max Plank Insititute of Psychiatry,<br />
Munich, Germany, 5 Genetics Division, Drug Discovery,<br />
Medicine Development Centre, GlaxoSmithKline, Verona,<br />
Italy, 6 Department of Clinical Neuroscience, Imperial<br />
College, London, United Kingdom<br />
Cortical Thickness Correlates of Anxious/Depressed<br />
Symptoms in a Large Cohort of Heathy Children<br />
Simon Ducharme 1 , James Hudziak 2 , Kelly Botteron 3 ,<br />
Matthew Albaugh 4 , Claude Lepage 5 , Alan Evans 5 ,<br />
Sherif Karama 6<br />
1 McGill University, Canada, 2 University of Vermont College<br />
of Medicine, Burlington, VT, 3 Washington University School<br />
of Medicine, Saint Louis, MO, 4 University of Vermont<br />
College of Medicine, Burlington, United States, 5 McConnell<br />
<strong>Brain</strong> Imaging Center, Montreal Neurological Institute,<br />
McGill University, Montreal, Quebec, 6 McGill University,<br />
Montreal, Canada<br />
Social Phobia Fusi<strong>for</strong>m Functional Connectivity:<br />
Taking Face Processing Seriously<br />
Darren Campbell 1 , Jitender Sareen 2 , Lawrence Ryner 3 ,<br />
Jeffrey Reiss 4<br />
1 University of Manitoba, Winnipeg, Manitoba, Canada,<br />
2 University of Manitoba, Winnipeg, Manitoba, 3 National<br />
Research Council Institute of Biodiagnostics, Winnipeg,<br />
Manitoba, 4 University of Western Ontario, London, Ontario<br />
DTI maps of abnormal white matter microstructure in<br />
euthymic bipolar patients<br />
Marina Barysheva 1 , Neda Jahanshad 2 , Lori Altshuler 3 ,<br />
Paul Thompson 4<br />
1 Laboratory of Neuro Imaging, Dept. of Neurology,<br />
UCLA School of Medicine, Los Angeles, United States,<br />
2 Laboratory of Neuro Imaging, Dept. of Neurology,<br />
UCLA School of Medicine, Los Angeles, United States,<br />
3 Department of Psychiatry and Biobehavioral Sciences,<br />
UCLA, Los Angeles, United States, 4 Laboratory of Neuro<br />
Imaging, Dept. of Neurology, UCLA School of Medicine,<br />
Los Angeles, Los Angeles, United States<br />
The effect of sad mood induction on resting<br />
state networks<br />
Peter Kirsch 1 , Christine Esslinger 1 , Silke Huffziger 1 ,<br />
Christine Kühner 1<br />
1 Central Institute of Mental Health, Mannheim, Germany
Disorders of the Nervous System<br />
Mood and Anxiety Disorders, continued<br />
230<br />
231<br />
232<br />
233<br />
234<br />
235<br />
a Pattern Classification Study of Posttraumatic<br />
Stress Disorder based on Diffusion Tensor Imaging<br />
Xun Yang 1 , Qizhu Wu 2 , Changfeng Jin 3 , Xiaolei Hu 3 ,<br />
Yi Liao 4 , Lingjiang Li 3 , Qiyong Gong 1<br />
1 Huaxi MR Research Center, Department of Radiology,<br />
West China Hospital of Sichuan University, Chengdu,<br />
China, 2 West China Hospital of Sichuan University,<br />
Chengdu, China, 3 Mental Health Institute, the Second<br />
Xiangya Hospital of Central South University, Changsha,<br />
China, Changsha, China, 4 Huaxi MR Research Center<br />
(HMRRC), Dept. of Radiology, West China Hospital of<br />
Sichuan University, Che, Chengdu, China<br />
Functional Connectivity Profile of Seasonal<br />
affective Disorder<br />
Ahmed Abou Elseoud 1 , Juuso Nissila 2 , Anu Liettu 3 ,<br />
Jari Jokelainen 4 , Timo Takala 5 , Antti Aunio 2 , Tuomo Starck 6 ,<br />
Juha Nikkinen 7 , Jukka Remes 6 , Hannu Koponen 8 , Osmo<br />
Tervonen 6 , Markku Timonen 5 , Vesa Kiviniemi 6<br />
1 Diagnostic Radiology, Oulu, Finland, 2 Valkee Ltd., Oulu,<br />
Finland, 3 Department of Psychiatry, University of Oulu,<br />
Oulu, Finland, 4 Institute of Health Sciences and General<br />
Practice, University of Oulu, Oulu, Finland, 5 Institute of<br />
Health Sciences and General Practice, Oulu, Finland,<br />
6 Department of Diagnostic Radiology, University and<br />
University Hospital of Oulu, Oulu, Finland, 7 Department<br />
of Diagnostic Radiology, Oulu, Finland, 8 Department of<br />
Psychiatry, University Hospital of Kuopio, Kuopio, Finland<br />
The effects of Prenatal maternal Depression on the<br />
Neurodevelopment of Social Cognition in Children<br />
Amy Anderson Zose 1 , Anjana Muralidharan 1 , Joshua<br />
Cisler 2 , Opal Ousley 1 , George Andrew James 2 , Clint Kilts 2<br />
1 Emory University, Atlanta, GA, 2 University of Arkansas <strong>for</strong><br />
Medical Sciences, Little Rock, AR<br />
Separating the math from the anxiety in<br />
mathematics anxiety<br />
Ian Lyons 1 , Sian Beilock 1<br />
1 University of Chicago, Chicago, IL<br />
Do all phobics feel the same? Comparing interoception<br />
between spider and blood phobia<br />
Xavier Caseras 1 , Kevin Murphy 2 , David Mataix-Cols 3 ,<br />
Jesus Pujol 4 , Rafael Torrubia 5<br />
1 Cardiff University, 2 CUBRIC, School Of Psychogy,<br />
Cardiff University, United Kingdom, 3 institute of Psychiatry,<br />
London, United Kingdom, 4 CRC Corporacio Sanitaria,<br />
Barcelona, Spain, 5 Universitat Autonoma de Barcelona,<br />
Barcelona, Spain<br />
orbitofrontal hyperactivity and habituation in social<br />
anxiety disorder patients: an fmrI study<br />
Ronald Sladky 1 , Jasmin Tröstl 1 , Christoph Kraus 2 ,<br />
Siegfried Kasper 2 , Rupert Lanzenberger 2 , Ewald Moser 1 ,<br />
Christian Windischberger 1<br />
1 MR Center, Medical University of Vienna, Vienna, Austria,<br />
2 Department of Psychiatry and Psychotherapy, Medical<br />
University of Vienna, Austria, Vienna, Austria<br />
236<br />
237<br />
238<br />
239<br />
240<br />
241<br />
242<br />
243<br />
Subcortical gaBa is reduced in young adults at risk<br />
of depression<br />
Richard Edden 1 , John Evans 2 , Paul Keedwell 3<br />
1 John Hopkins University, Baltimore, United States,<br />
2 Cardiff University <strong>Brain</strong> Research Imaging Centre,<br />
Cardiff, United Kingdom, 3 Cardiff University Department<br />
of Psychological Medicine and Neurology, Cardiff,<br />
United Kingdom<br />
Dysfunctional frontolimbic connectivity during<br />
emotion regulation in Bipolar I euthymic subjects<br />
Jennifer Townsend 1 , Salvatore Torrisi 1 , Susan Bookheimer 2 ,<br />
Lori Altshuler 3<br />
1 UCLA, Los Angeles, CA, 2 Departmen of Psychiatry and<br />
Biobehavioral Sciences, UCLA School of Medicine, Los<br />
Angeles, CA, 3 Department of Psychiatry and Biobehavioral<br />
Sciences, UCLA School of Medicine, Los Angeles, CA<br />
association of ghrelin Plasma Level and morphometric<br />
abnormality in Patients with mood Disorders<br />
Koji Matsuo 1 , Masayuki Nakano 2 , Mami Nakashima 1 ,<br />
Ayumi Kobayashi 2 , Kumiko Hara 2 , Yuko Fujii 2 , Akiko<br />
Hashimoto 2 , Kazuteru Egashira 2 , Syusaku Uchida 1 ,<br />
Toshio Matsubara 1 , Yoshifumi Watanabe 1<br />
1 Yamaguchi University Graduate Shool Of Medicine,<br />
Ube, Yamaguchi, Japan, 2 Yamaguchi University Graduate<br />
School of Medicine, Ube, Yamaguchi, Japan<br />
Working memory-related brain activation in<br />
premenstrual dysphoria: a PeT and fmrI study<br />
Erica Baller1 , Peter Schmidt1 , Philip Kohn1 , Shau-Ming Wei1 ,<br />
David Rubinow1 , Karen Berman1 1National Institutes Of Health, NIMH, IRP, Bethesda,<br />
United States<br />
Predicting Treatment response in Social anxiety<br />
Disorder using magnetic resonance Imaging<br />
Oliver Doehrmann 1 , Satrajit Ghosh 1 , Frida Polli 1 ,<br />
Gretchen Reynolds 1 , Susan Whitfield-Gabrieli 1 ,<br />
Stefan Hofmann 2 , Mark Pollack 3 , John Gabrieli 1<br />
1 MASSACHUSETTS INSTITUTE OF TECHNOLOGY,<br />
CAMBRIDGE, United States, 2 BOSTON UNIVERSITY,<br />
BOSTON, United States, 3 MASSACHUSETTS GENERAL<br />
HOSPITAL, BOSTON, United States<br />
Listen to your heart: brain reactivity to interoceptive<br />
cues in the anxiety sensitivity phenotype<br />
Nina Maslowski 1 , Ulrike Lueken 1<br />
1 Technische Universität Dresden, Dresden, Germany<br />
High-field mr brain imaging unmasks refractoriness<br />
of major depression<br />
Su Lui 1 , Andrea Mechelli 2 , Lihua Qiu 3 , Qizhu Wu 3 ,<br />
zhiyun Jia 1 , Qiyong Gong 4<br />
1 West China Hospital of Sichuan University, 2 Institute<br />
of Psychiatry King’s College London, London, United<br />
Kingdom, 3 West China Hospital of Sichuan University,<br />
Chengdu, China, 4 Sichuan University, Chengdu, China<br />
an fmrI Study of Fear Processing in anorexia<br />
Nervosa and Body Dysmorphic Disorder<br />
Cara Bohon 1 , Faraz Alizadeh 1 , Teena Moody 1 ,<br />
Sarah Madsen 1 , Michael Strober 1 , Jamie Feusner 1<br />
1 UCLA, Los Angeles, CA<br />
HBM 2011 >> <strong>abstracts</strong> 25<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Mood and Anxiety Disorders, continued<br />
244<br />
245<br />
246<br />
247<br />
248<br />
Hippocampus Volume and Children with Preschool<br />
onset major Depressive Disorder<br />
Andy Belden 1 , Joan Luby 2 , Casey Babb 2 , Tomoyuki<br />
Nishino 2 , Michael Miller 3 , J. Ratnanather 3 , Deanna Barch 2 ,<br />
Kelly Botteron 4<br />
1 Washington University School of Medicine, 2 Washington<br />
University School of Medicine, Saint Louis, MO, 3 Johns<br />
Hopkins University, Baltimore, MD, 4 Washington Univ<br />
School Of Medicine Dept. Of Psychiatry, St. Louis,<br />
United States<br />
Linguistic versus visual emotional face-matching:<br />
unique neural responses in military men with PTSD<br />
Darren Campbell 1 , Kristina Joyal 2 , Marc Wallace 2 ,<br />
Lindsey Shumila 2 , Joseph Polimeni 2 , Jitender Sareen 2 ,<br />
Lawrence Ryner 3 , Jeffrey Reiss 4<br />
1 University of Manitoba, Winnipeg, Manitoba, Canada,<br />
2 University of Manitoba, Winnipeg, Manitoba, 3 National<br />
Research Council Institute of Biodiagnostics, Winnipeg,<br />
Manitoba, 4 University of Western Ontario, London, Ontario<br />
The lateral orbitofrontal cortex and suicidal behavior:<br />
angry faces and decision-making.<br />
Fabrice Jollant 1 , Natalia Lawrence 2 , Emilie Olié 3 ,<br />
Philippe Courtet 3 , Mary Phillips 4<br />
1 McGill University & Douglas University Mental Health<br />
Research Institute, Montréal, Canada, 2 Cardiff University,<br />
Cardiff, United Kingdom, 3 Université Montpellier I,<br />
Montpellier, France, 4 University of Pittsburgh, Pittsburgh,<br />
United States<br />
Cortical thickness analysis indicates a Bipolar-aDHD<br />
interaction in adult comorbid subjects<br />
Catherine Hegarty 1 , Lara Foland-Ross 2 , Katherine Narr 3 ,<br />
Yilan Yang 3 , Catherine Sugar 4,1 , Susan Bookheimer 5,1 ,<br />
James McGough 5 , Lori Altshuler 5,6<br />
1 Semel Institute <strong>for</strong> Neuroscience and <strong>Human</strong> Behavior,<br />
UCLA, Los Angeles, CA, 2 Stan<strong>for</strong>d Mood and Anxiety<br />
Disorders Laboratory, Department of Psychology, Stan<strong>for</strong>d<br />
University, Stan<strong>for</strong>d, CA, 3 Laboratory of Neuroimaging,<br />
Department of Neurology, UCLA School of Medicine,<br />
Los Angeles, CA, 4 Department of Biostatistics, School of<br />
Public Health, UCLA, Los Angeles, CA, 5 Department of<br />
Psychiatry and Biobehavioral Sciences, UCLA School of<br />
Medicine, Los Angeles, CA, 6 Department of Psychiatry, VA<br />
Greater Los Angeles Healthcare System, West Los Angeles<br />
Healthcare Center, Los Angeles, CA<br />
Improving efficacy of rTmS treatment in depression:<br />
Image guided targeting of left DLPFC<br />
Shalini Narayana 1 , Wei Zhang 1 , Casey Strickland 1 ,<br />
Patrick Smith 2 , Jeslina Raj 2 , Naomi Marne 1 , Vivek Singh 2 ,<br />
Peter Thompson 2 , Pedro Delgado 2 , Peter Fox 1<br />
1 Research Imaging Institute, University of Texas Health<br />
Science Center at San Antonio, San Antonio, TX, United<br />
States, 2 Department of Psychiatry, University of Texas<br />
Health Science Center at San Antonio, San Antonio, TX,<br />
United States<br />
26 HBM 2011 >> <strong>abstracts</strong><br />
249<br />
250<br />
251<br />
252<br />
253<br />
Cumulative adversity influences fmrI neural<br />
responses to emotional stress<br />
Dongju Seo 1 , Kristen Tsou 2 , Emily Ansell 2 , Keri Tuit 2 ,<br />
Rajita Sinha 2<br />
1 Yale University School of Medicine, New Haven, United<br />
States, 2 Yale University School of Medicine, new haven,<br />
United States<br />
relations between Hippocampal Volumes and<br />
Functional responses to Negative emotions in<br />
mDD Children<br />
Hideo Suzuki 1 , Kelly Botteron 1 , Casey Babb 1 , Tomoyuki<br />
Nishino 1 , Michael Miller 2 , J. Ratnanather 2 , Joan Luby 1 ,<br />
Deanna Barch 1<br />
1 Washington University School of Medicine, Saint Louis,<br />
MO, 2 Johns Hopkins University, Baltimore, MD<br />
Corpus Callosum morphology in Twin Pairs<br />
Discordant <strong>for</strong> Bipolar Disorder<br />
Carrie Bearden 1 , Theo van Erp 2 , Christina Boyle 3 ,<br />
Rebecca Dutton 3 , Eileen Luders 4 , Sarah Madsen 5 ,<br />
Tuula Kieseppa 6 , Annamari Tuulio-Henriksson 7 , Matti<br />
Huttunen 7 , Timo Partonen 7 , Jaakko Kaprio 7 , Jouko<br />
Lonnqvist 7 , Paul Thompson 8 , Tyrone Cannon 9<br />
1 University of Cali<strong>for</strong>nia, Los Angeles, Los Angeles, CA<br />
USA, 2 University of Cali<strong>for</strong>nia, Irvine, Irvine, CA, 3 University<br />
of Cali<strong>for</strong>nia, Los Angeles, Los Angeles , CA, 4 UCLA, Dept.<br />
Of Neurology, Los Angeles, United States, 5 University of<br />
Cali<strong>for</strong>nia - Los Angeles, Los Angeles, CA, 6 Department<br />
of Psychiatry, Peijas Hospital, Helsinki University Central<br />
Hospital, Vantaa, Finland, 7 Department of Mental Health<br />
and Substance Abuse Services, National Institute <strong>for</strong><br />
Health and Welfare, Helsinki, Finland, 8 Laboratory of Neuro<br />
Imaging, Dept. of Neurology, UCLA School of Medicine,<br />
Los Angeles, Los Angeles, United States, 9 University of<br />
Cali<strong>for</strong>nia, Los Angeles, Los Angeles, United States<br />
application of real-time fmrI-neurofeedback in<br />
treatment of emotional disorders<br />
Pegah Sarkheil 1,2 , Anna Zilverstand 2 , Niclas Kilian-Hütten 2 ,<br />
Frank Schneider 1 , Klaus Mathiak 1 , Rainer Goebel 2,3<br />
1 Department of Psychiatry, Psychotherapy and<br />
Psychosomatics, RWTH Aachen University, Aachen,<br />
Germany, 2 Faculty of Psychology and Neuroscience,<br />
Maastricht University, Maastricht, Netherlands, 3 Maastricht<br />
<strong>Brain</strong> Imaging Centre (M-BIC), Maastricht, Netherlands<br />
Subgenual anterior Cingulate Functional Connectivity<br />
during rest as a Function of early Life Stress<br />
Josh Cisler 1 , George Andrew James 1 , Shanti Tripathi 1 ,<br />
Christine Heim 2 , Tanja Mletzko 2 , Tim Ely 3 , Helen Mayberg 4 ,<br />
Xiaoping Hu 5 , Clint Kilts 1<br />
1 University of Arkansas <strong>for</strong> Medical Sciences, Little Rock,<br />
AR, 2 Emory University, Atlanta, GA, 3 Emory, Atlanta, GA,<br />
4 Emory University, Atlanta, United States, 5 Emory University/<br />
Georgia Tech, Atlanta, GA
Disorders of the Nervous System<br />
Mood and Anxiety Disorders, continued<br />
254<br />
255<br />
256<br />
257<br />
258<br />
Cortical Correlates of Self-reported anxious-depressed<br />
Symptoms amongst Healthy young adults<br />
Matthew Albaugh 1 , James Hudziak 1 , Simon Ducharme 2 ,<br />
Sherif Karama 2 , Kelly Botteron 3 , Robert Althoff 1 ,<br />
Alan Evans 2<br />
1 University of Vermont College of Medicine, Burlington,<br />
VT, 2 McGill University, Montreal, Quebec, 3 Washington<br />
University School of Medicine, Saint Louis, MO<br />
Testing cerebrospinal fluid alterations in melancholic<br />
depression: a comparison between methods<br />
Esther Via 1 , Carles Soriano-Mas 2 , Jesus Pujol 3 , Mikel<br />
Urretavizcaya 1 , Rosa Hernández-Ribas 1 , Joan Deus 4 ,<br />
Virginia Soria 1 , Marina López-Solà 5 , José Menchón 1 ,<br />
Narcis Cardoner 1<br />
1 Bellvitge University Hospital-IDIBELL, Barcelona, Spain,<br />
2 Instituto Carlos III. Bellvitge University Hospital, Barcelona,<br />
Spain, 3 CRC Corporacio Sanitaria., Barcelona, Spain,<br />
4 Universitat Autònoma de Barcelona, Barcelona, Spain,<br />
5 PRBB CRC-Hospital del Mar, Barcelona, Spain<br />
Dysfunctional PPI during Implicit emotion regulation in<br />
Bipolar II Depression<br />
Salvatore Torrisi 1 , Nathalie Vizueta 1 , Elliot Berkman 2 ,<br />
Lara Foland-Ross 3,4 , Jennifer Townsend 1 , Teena Moody 5 ,<br />
Ana Aquino 1 , Jeffery Fischer 1 , Susan Bookheimer 6 ,<br />
Lori Altshuler 7<br />
1 University of Cali<strong>for</strong>nia, Los Angeles, Los Angeles,<br />
CA, 2 University of Oregon, Eugene, OR, 3 Laboratory of<br />
Neuroimaging, Los Angeles, CA, 4 Stan<strong>for</strong>d, Palo Alto, CA,<br />
5 University of Cali<strong>for</strong>nia, Los Angeles, Hermosa Beach,<br />
CA, 6 Departmen of Psychiatry and Biobehavioral Sciences,<br />
UCLA School of Medicine, Los Angeles, CA, 7 Department<br />
of Psychiatry and Biobehavioral Sciences, UCLA School of<br />
Medicine, Los Angeles, CA<br />
Neural Circuitry of emotional Processing In<br />
Late-Life Depression<br />
Linda Mah 1,2 , Lynne Williams 1 , Rachel Leung 1 ,<br />
Stefanie Freel 1 , Bruce Pollock 3,2<br />
1 Kunin-Lunenfeld Applied Research Unit, Rotman Research<br />
Institute, Baycrest, Toronto, Canada, 2 University of Toronto,<br />
Toronto, Canada, 3 Centre <strong>for</strong> Addiction and Mental Health,<br />
Toronto, Canada<br />
Functional connectivity alterations in major depression<br />
identified from changes in brain anatomy<br />
Marina Lopez Sola 1 , Jesus Pujol 1 , Rosa Hernández-Ribas 2 ,<br />
Ben Harrison 3 , Oren Contreras-Rodríguez 1 , Carles Soriano-<br />
Mas 1 , Johan Deus 4 , Hector Ortiz 1 , José Menchón 2 ,<br />
Julio Vallejo 2 , Narcis Cardoner 2<br />
1 PRBB CRC-Hospital del Mar, Barcelona, Spain,<br />
2 Bellvitge University Hospital-IDIBELL, Barcelona, Spain,<br />
3 The University of Melbourne, Melbourne, Australia,<br />
4 Universitat Autònoma de Barcelona, Barcelona, Spain<br />
259<br />
260<br />
261<br />
262<br />
263<br />
264<br />
Neural correlates of motivational behavior with<br />
mesolimbic pathway in major depressive disorder<br />
Masayuki Nakano 1 , Koji Matsuo 1 , Kazuteru Egashira 1 ,<br />
Toshio Matsubara 1 , Mami Nakashima 1 , Ayumi Kobayashi 1 ,<br />
Kumiko Hara 1 , Syusaku Uchida 1 , Kanji Takahashi 2 , Hiroaki<br />
Hiroaki Masaki 3 , Masatomo Suetsugi 1 , Yoshifumi Watanabe 1<br />
1 Division Of Neuropsychiatry, Department Of Neuroscience,<br />
Yamaguchi University Gr, Ube, Yamaguchi, 2 Katakura<br />
Hospital, Ube, Yamaguchi, 3 Faculty of Sports Sciences,<br />
Waseda University, Saitama, Japan<br />
White matter alterations in Social anxiety Disorder:<br />
a DTI study<br />
Jasmin Tröstl 1 , Ronald Sladky 1 , Allan Hummer 1 ,<br />
Christoph Kraus 2 , Ewald Moser 1 , Siegfried Kasper 2 ,<br />
Rupert Lanzenberger 2 , Christian Windischberger 1<br />
1 MR Centre Of Excellence, Medical University Of Vienna,<br />
Austria, 2 Department of Psychiatry and Psychotherapy,<br />
Medical University of Vienna, Austria<br />
a reduced Neural response in emotion-related<br />
Inhibition in military men with PTSD<br />
Kristina Joyal 1 , Darren Campbell 1 , Lindsey Shumila 1 , Marc<br />
Wallace 1 , Patricia Gervai 2 , Jitender Sareen 1 , Jeffrey Reiss 3<br />
1 University of Manitoba, Winnipeg, Manitoba, 2 National<br />
Research Council of Canada, Winnipeg, Manitoba,<br />
3 University of Western Ontario, London, Ontario<br />
<strong>Brain</strong> structure change in Posttraumatic Stress<br />
Disorder: a combined surface- and voxel-based study<br />
Sheeva Azma 1 , Rachel Thompson 2 , Diana Bermudez 3 ,<br />
Rachael Renton 1 , Adebanke Adeyemo 1 , James Meyerhoff 3 ,<br />
Richard Amdur 4,3 , Bonnie Green 3 , Mary Ann Dutton 3 ,<br />
John VanMeter 1<br />
1 Center <strong>for</strong> Functional and Molecular Imaging, Georgetown<br />
University Medical Center, Washington, DC, 2 The Catholic<br />
University of America, Washington, DC, 3 Center <strong>for</strong> Trauma<br />
and the Community, Department of Psychiatry, Georgetown<br />
University Medical Center, Washington, DC, 4 Research<br />
Service, VA Medical Center, Washington, DC<br />
a diffusion tensor imaging study in South african<br />
HIV patients with and without apathy<br />
Jean-Paul Fouche 1 , Paul Carey 1 , Hans Strijdom 2 ,<br />
Bruce Spottiswoode 3,4<br />
1 Department of Psychiatry, University of Stellenbosch,<br />
Cape Town, South Africa, 2 Department of Medical<br />
Physiology, University of Stellenbosch, Cape Town,<br />
South Africa, 3 Department of Radiological Sciences<br />
and Oncology, University of Stellenbosch, Cape Town,<br />
South Africa, 4 MRC/UCT Medical Imaging Research Unit,<br />
Department of <strong>Human</strong> Biology, University of Cape Town,<br />
Cape Town, South Africa<br />
<strong>Brain</strong>-behavior relationships in body dysmorphic<br />
disorder: neural correlates of eye fixation duration<br />
Jamie Feusner 1 , Alexandra Klomhaus 1 , Hayley Moller 1 ,<br />
Cara Bohon 1 , Donatello Arienzo 1 , Sarah Madsen 1 ,<br />
Teena Moody 1<br />
1 UCLA, Los Angeles, CA<br />
HBM 2011 >> <strong>abstracts</strong> 27<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Mood and Anxiety Disorders, continued<br />
265<br />
266<br />
267<br />
268<br />
269<br />
270<br />
Somatic awareness in anxious youth: Distinct Neural<br />
Correlates of Trait and State Somatic Symptoms<br />
Darcy Mandell 1 , Cecile Ladoucer 2 , Greg Siegle 2<br />
1 University of Pittsburgh, 2 University of Pittsburgh,<br />
School of Medicine, Pittsburgh, PA<br />
altered structural corticosubcortical connectivity in<br />
major depression dependent on symptom severity<br />
Annemarie Osoba 1 , Jürgen Haenggi 2 , Dorothea Irene<br />
Horn 3 , Coraline Metzger 1 , Ulf Eckert 1 , Kolja Schiltz 1 ,<br />
Kathrin Zierhut 1 , Bernhard Bogerts 1 , Martin Walter 1<br />
1 Otto-von-Guericke University, Magdeburg, Germany,<br />
2 University of Zurich, Institute of Psychology, Zurich,<br />
Switzerland, 3 Otto-von-Guericke University Magdeburg,<br />
Germany<br />
medial prefrontal-ventral striatum connectivity<br />
during emotional word in major depression<br />
Marie-Jose van Tol 1,2 , Ilya Veer 2 , Nic van der Wee 3,2 ,<br />
Frans G. Zitman 4 , Serge Rombouts 5 , Dick Veltman 6 ,<br />
Andre Aleman 7 , Tom Johnstone 8<br />
1 BCN Neuroimaging Center, University Medical Center<br />
Groningen, Groningen, The Netherlands, 2 Leiden Institute<br />
<strong>for</strong> <strong>Brain</strong> and Cognition, Leiden, Netherlands, 3 LUMC,<br />
Leiden, Netherlands, 4 department of psychiatry, Leiden<br />
University Medical Center, Leiden, Netherlands, 5 Leiden<br />
University Medical Center, Leiden, Netherlands, 6 VU<br />
University Medical Center, Department of Psychiatry,<br />
Amsterdam, Netherlands, 7 BCN NeuroImaging Center,<br />
Groningen, Netherlands, 8 Psychology Department,<br />
University of Reading, Reading, United Kingdom<br />
electrophysiological evidences of visual avoidance<br />
of emotional faces and bodies in social anxiety<br />
Mandy Rossignol 1 , Pierre Philippot 2 , Sophie-Alexandra<br />
Fisch 2 , Salvatore Campanella 3 , Frederic Joassin 4<br />
1 Louvain-La-Neuve, Belgium, 2 Université Catholique de<br />
Louvain, Louvain-La-Neuve, Belgium, 3 Université Libre de<br />
Bruxelles, Bruxelles, Belgium, 4 Université Catholique de<br />
Louvain, Louvain-la-Neuve, Belgium<br />
White matter Integrity in Visual and emotional<br />
Processing Systems in Body Dysmorphic Disorder<br />
Donatello Arienzo 1 , Wei Li 1 , Liang Zhan 1 , Paul Thompson 2 ,<br />
Alex Leow 3 , Jamie Feusner 4<br />
1 UCLA, Los Angeles, CA, 2 Laboratory of Neuro Imaging -<br />
UCLA School of Medicine, Los Angeles, CA, 3 , Ph.D.,<br />
M.D. - University of Illinois-Chicago, Chicago, IL, 4 , M.D. -<br />
Semel Institute <strong>for</strong> Neuroscience and <strong>Human</strong> Behavior,<br />
Los Angeles, CA, Los Angeles, CA<br />
aberrant resting-state functional connectivity in panic<br />
disorder patients<br />
Justine Pannekoek 1 , Ilya Veer 2 , Marie-Jose van Tol 3 ,<br />
Liliana Demenescu 3 , Andre Aleman 3 , Dick Veltman 4 ,<br />
Frans G. Zitman 1 , Serge Rombouts 2 , Nic van der Wee 1<br />
1 Leiden University Medical Center, Leiden, Netherlands,<br />
2 Leiden Institute <strong>for</strong> <strong>Brain</strong> and Cognition, Leiden,<br />
Netherlands, 3 BCN NeuroImaging Center, Groningen,<br />
Netherlands, 4 VU University Medical Center, Department<br />
of Psychiatry, Amsterdam, Netherlands<br />
28 HBM 2011 >> <strong>abstracts</strong><br />
271<br />
272<br />
273<br />
274<br />
275<br />
276<br />
Visual Processing of Faces in anorexia and Body<br />
Dysmorphic Disorder<br />
Teena Moody 1 , Kelsey Mason 2 , Cara Bohon 2 , Sarah<br />
Madsen 3 , Donatello Arienzo 2 , Jamie Feusner 1<br />
1 Semel Institute <strong>for</strong> Neuroscience and <strong>Human</strong> Behavior,<br />
Los Angeles, CA, 2 UCLA, Los Angeles, CA, 3 UCLA,<br />
Dept of Neurology, Los Angeles, CA<br />
Neural mechanism of social cognitive deficits in<br />
major depressive disorder : a preliminary study<br />
Hyeongrae Lee 1 , Eun Lee 2 , Jeonghun Ku 3 , YoungSeok<br />
Shin 1 , Je Yeon Lee 1 , Kyung Ran Kim 2 , Kang Jun Yoon 4 ,<br />
In Young Kim 1 , Sun I. Kim 1<br />
1 Hanyang University, Seoul, Korea, Republic of, 2 Yonsei<br />
University College of Medicine, Seoul, Korea, Republic of,<br />
3 Keimung University, Daeku, Korea, Republic of, 4 St. Peter’s<br />
Hospital, Seoul, Korea, Republic of<br />
Diagnosis of Depressive Disorder using multiparametric<br />
Classification approach with Structural mrI<br />
Lihua Qiu 1 , Qizhu Wu 1 , Peiyu Huang 2 , Xiaoqi Huang 3 ,<br />
Su Lui 3 , Xun Yang 3 , Fei Li 3 , Weihong Kuang 4 , Qiyong Gong 3<br />
1 West China Hospital of Sichuan University, Chengdu,<br />
China, 2 Institute of Neuroscience, Chongqing Medical<br />
University, Chongqing, China, 3 Huaxi MR Research Center,<br />
Department of Radiology, West China Hospital of Sichuan<br />
University, Chengdu, China, 4 Department of Psychiatry,<br />
West China Hospital of Sichuan University, Chengdu, China<br />
NeuraL CorreLaTeS oF PLaTeLeT SeroToNIN<br />
re-uPTaKe<br />
Christian Scharinger 1 , Lucie Bartova 1 , Harald Esterbauer 1 ,<br />
Michael Freissmuth 1 , Tina Hofmaier 1 , Klaudius Kalcher 1 ,<br />
Gerald Pail 1 , Thomas Perkmann 1 , Ulrich Rabl 1 , Harald<br />
Sitte 1 , Zeljko UZELAC 1 , Matthaeus Willeit 1 , Christian<br />
Kasess 2 , Kersten Diers 3 , Beate Hartinger 1 , Wolfgang Huf 4 ,<br />
Andreas Meyer-Lindenberg 5 , Siegfried Kasper 6 , Rupert<br />
Lanzenberger 6 , Burkhard Brocke 3 , Ewald Moser 7 ,<br />
Lukas Pezawas 8<br />
1 Medical University of Vienna, Vienna, Austria, 2 Vienna,<br />
Austria, 3 TU Dresden, Dresden, Germany, 4 Wien, Austria,<br />
5 Central Institute of Mental Health (CIMH) Mannheim,<br />
Mannheim, Germany, 6 Department of Psychiatry and<br />
Psychotherapy, Medical University of Vienna, Austria,<br />
Vienna, Austria, 7 Medical Universsity of Vienna, Vienna,<br />
Austria, 8 Medical University of Vienna, Wien, Austria<br />
Impulsivity in Hypomania: Neural Correlates of<br />
Delayed rewards and Penalties<br />
Liam Mason 1 , Richard Bentall 2 , Marianna Blackburn 3 ,<br />
Wael El-Deredy 1<br />
1 University Of Manchester, United Kingdom,<br />
2 University of Liverpool, Liverpool, United Kingdom,<br />
3 The University Of Manchester, United Kingdom<br />
early Influence of the rs4675690 on the Neural<br />
Substrates of Sadness<br />
Emilie Fortier 1 , Anne Noreau 1 , Franco Lepore 1 , Michel<br />
Boivin 2 , Daniel Pérusse 1 , Guy Rouleau 1 , Mario Beauregard 1<br />
1 Université de Montréal, Montréal, Canada, 2 Université<br />
Laval, Québec, Canada
Disorders of the Nervous System<br />
Mood and Anxiety Disorders, continued<br />
277<br />
278<br />
279<br />
280<br />
281<br />
282<br />
Functional connectivity <strong>for</strong> visual processing of<br />
bodies in anorexia and body dysmorphic disorder<br />
Sarah Madsen 1 , Teena Moody 1 , Cara Bohon 1 ,<br />
Michael Strober 1 , Jamie Feusner 1<br />
1 University of Cali<strong>for</strong>nia - Los Angeles, Los Angeles, CA<br />
a Study of the Neural mechanism of Posttraumatic<br />
Stress Disorder using Diffusion Tensor Imaging<br />
Qizhu Wu 1 , Xun Yang 1 , Changfeng Jin 2 , Xiaolei Hu 2 ,<br />
Yi Liao 1 , Lingjiang Li 2 , Qiyong Gong 1<br />
1 Huaxi MR Research Center, West China Hospital of<br />
Sichuan University, Chengdu, China, 2 Mental Health<br />
Institute, the Second Xiangya Hospital of Central South<br />
University, Changsha, China<br />
The effect of early Life Stress on Default Network<br />
activity in Healthy adult Subjects<br />
Noah Philip 1 , Lawrence Sweet 2 , Audrey Tyrka 2 ,<br />
Raymond Niaura 3 , Lawrence Price 2 , Linda Carpenter 2<br />
1 Butler Hospital, Dept of Psychiatry and <strong>Human</strong> Behavior,<br />
Brown University, Providence, RI, USA, 2 Butler Hospital,<br />
Dept of Psychiatry and <strong>Human</strong> Behavior, Brown<br />
University, Providence, RI, 3 American Legacy Foundation,<br />
Washington, DC<br />
a Tractography analysis of Suicidal White matter<br />
Target <strong>for</strong> major Depressive Disorder<br />
Zhiyun Jia 1 , Yuqing Wang 2 , Weihong Kuang 3 ,<br />
Qiyong Gong 1<br />
1 Huaxi MR Research Center (HMRRC), Department<br />
of Radiology, West China Hospital of Sichuan University,<br />
Chengdu, China, 2 University of Electronic Science<br />
and Technology, Chengdu, China, 3 Department of<br />
Psychiatry, West China Hospital of Sichuan University,<br />
Chengdu, China<br />
a neurocognitive bias toward sad faces in females<br />
at risk of depression<br />
Paul Keedwell 1 , Salmons Brett 2 , Mary Phillips 3 ,<br />
John Evans 4 , Richard Wise 2 , Andrew Lawrence 2<br />
1 Cardiff University Department of Psychological Medicine<br />
and Neurology, Cardiff, United Kingdon, 2 Cardiff University,<br />
Cardiff, United Kingdom, 3 University of Pittsburgh,<br />
Pittsburgh, United States, 4 Cardiff University <strong>Brain</strong><br />
Research Imaging Centre, Cardiff, United Kingdom<br />
Context insensitivity during positive and negative<br />
emotional expectancy in depression<br />
Felix Bermpohl 1 , Melanie Feeser 1 , Florian Schlagenhauf 2 ,<br />
Meline Stoy 3 , Soyoung Park 4 , Philipp Sterzer 5 ,<br />
Stefan Gutwinski 1 , Thorsten Kienast 1 , Michael Bauer 6 ,<br />
Andreas Heinz 7 , Andreas Ströhle 8<br />
1 Department of Psychiatry and Psychotherapy,<br />
Charité, Berlin, Germany, 2 Charite University Medicine,<br />
Berlin, Germany, 3 Charité - Universitätsmedizin Berlin,<br />
Berlin, Germany, 4 Berlin School of Mind and <strong>Brain</strong>,<br />
Berlin, Germany, 5 Charite University Hospital, Berlin,<br />
Germany, 6 Department of Psychiatry and Psychotherapy,<br />
Universitätsklinikum Carl Gustav Carus, Dresden, Dresden,<br />
Germany, 7 Department of Psychiatry and Psychotherapy,<br />
Charité – Universitätsmedizin Berlin, Berlin, Germany,<br />
8 Department of Psychiatry and Psychotherapy, Campus<br />
Charité, Universitätsmedizin Berlin, Berlin, Germany<br />
283<br />
284<br />
285<br />
286<br />
287<br />
oscillatory responses to Happy Facial expressions<br />
Differentiate Bipolar and Healthy Individuals<br />
Stefanie Hassel 1 , Anto Bagic 2 , Glenda MacQueen 1 ,<br />
Mary Phillips 2<br />
1 University of Calgary, Calgary, AB, Canada,<br />
2 University of Pittsburgh, Pittsburgh, PA, USA<br />
Cortical thickness and subcortical volumes in<br />
dissociative identity and mood disorders<br />
Sima Chalavi 1 , Blaise Frederick 2 , Robert Savoy 3 ,<br />
Paula Wolk 2 , Brent Forester 2 , Eline Vissia 4 ,<br />
A.A.T. Simone Reinders 1<br />
1 BCN Neuroimaging Center, University of Groningen,<br />
Groningen, the Netherlands, Department of Psychosis<br />
Studies, Institute of Psychiatry, King’s College London,<br />
UK, 2 Harvard Medical School, Boston, MA, McLean<br />
Hospital, Belmont, MA, USA, 3 Harvard Medical School,<br />
Boston, MA, HyperVision, Inc., Lexington, MA, USA,<br />
4 BCN Neuroimaging Centrum (BCN-NiC), University of<br />
Groningen, Groningen, Netherlands<br />
Crossmodal emotional integration in depression<br />
Veronika Mueller 1 , Edna-Clarisse Cieslik 2 , Tanja<br />
Kellermann 1 , Frank Schneider 1 , Bruce Turetsky 3 ,<br />
Simon Eickhoff 1<br />
1 RWTH Aachen University, Department of Psychiatry,<br />
Psychotherapy and Psychosomatics, Aachen, Germany,<br />
2 Research Center Juelich, Institute of Neuroscience and<br />
Medicine, Juelich, Germany, 3 Neuropsychiatry Division,<br />
Department of Psychiatry, University of Pennsylvania<br />
School of Medicine, Philadelphia, United States<br />
The Westphal-Paradigm and its clinical application in<br />
patients with panic disorder and agoraphobia<br />
Andre Wittmann 1 , Florian Schlagenhauf 1 , Anne Guhn 2 ,<br />
Meline Stoy 1 , Thomas Fydrich 3 , Lydia Fehm 3 , Bettina<br />
Pfleiderer 4 , Alexander Gerlach 5 , Ulrike Lueken 6 , Tilo<br />
Kircher 7 , Isabelle Reinhardt 8 , Hans-Ulrich Wittchen 6 ,<br />
Andreas Ströhle 1<br />
1 Charité - Universitätsmedizin Berlin, Berlin, Germany,<br />
2 Julius-Maximilians-Universität Würzburg, Würzburg,<br />
Germany, 3 Humboldt - Universität Berlin, Berlin,<br />
Germany, 4 Westfälische - Wilhelms - Universität Münster,<br />
Münster, Germany, 5 Universität zu Köln, Köln, Germany,<br />
6 Technische Universität Dresden, Dresden, Germany,<br />
7 Philipps - Universität Marburg, Marburg, Germany,<br />
8 Universitätsklinikum Aachen, Aachen, Germany<br />
Structural and functional alterations in the depressed<br />
brain: a quantitative meta-analysis<br />
Julia Sacher 1,2 , Jane Neumann 3,4 , Tillmann Fuenfstueck 3 ,<br />
Alexandra Soliman 5 , Arno Villringer 6 , Matthias Schroeter 6<br />
1 Max-Planck-Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences., Leipzig, Germany, 2 Clinic of Cognitive<br />
Neurology, University of Leipzig, Leipzig, Germany,<br />
3 Max-Planck-Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 4 Leipzig University Medical<br />
Center, IFB AdiposityDiseases., Leipzig, Germany,<br />
5 PET Centre, Centre <strong>for</strong> Addiction and Mental Health,<br />
Toronto, Germany, 6 Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 29<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Mood and Anxiety Disorders, continued<br />
288<br />
289<br />
290<br />
Vascular depression & fmrI: Diminished<br />
cerebrovascular response to working memory<br />
Sonya Kaur 1 , Mitzi Gonzales 2 , Danielle Eagan 3 ,<br />
Andreana Haley 4<br />
1 University of Texas, Austin, 2 University of Texas, Austin,<br />
Austin, United States, 3 University of Texas Austin, Austin,<br />
United States, 4 University of Texas at Austin, Austin,<br />
United States<br />
Locus-coeruleus activation in patients with major<br />
depression and suicidal ideations<br />
Martin Desseilles 1 , Christophe Phillips 2 , John Matthews 3 ,<br />
Thien Thanh Dang-Vu 4 , Virginie Sterpenich 5 , Genevieve<br />
Albouy 6 , Christina Schmidt 4 , Annabelle Darsaud 4 ,<br />
Eric Salmon 7 , Gilles Vandewalle 8 , Evelyne Balteau 4 ,<br />
Christian Degueldre 4 , Andre Luxen 4 , Marc Ansseau 9 ,<br />
Sophie Schwartz 10 , Pierre Maquet 7<br />
1 Cyclotron Research Centre, University of Liège and<br />
Massachusetts General Hospital, Boston, MA, 2 Cyclotron<br />
Research Centre, University of Liege, Sart Tilman, Liege,<br />
Belgium, 3 Massachusetts General Hospital, Boston, MA,<br />
4 Cyclotron Research Centre, University of Liège, Liege,<br />
Belgium, 5 Department of Neurosciences, University of<br />
Geneva, Geneva, Switzerland, 6 CRIUGM, University<br />
of Montreal, Montreal, Canada, 7 Cyclotron Research<br />
Centre, University of Liège, Liège, Belgium, 8 Functional<br />
Neuroimaging Unit, University of Montreal Geriatric<br />
Institute, Montreal, Quebec, 9 Department of Psychiatry,<br />
University of Liège, Liege, Belgium, 10 Cyclotron Research<br />
Centre, University of Geneva, Geneva, Switzerland<br />
remission in major Depressive Disorder is Dependent<br />
on Neural adaptation<br />
Christian Scharinger 1 , Beate Hartinger 2 , Kersten Diers 3 ,<br />
Wolfgang Huf 4 , Klaudius Kalcher 5 , Gerald Pail 2 , Harald<br />
Esterbauer 6 , Siegfried Kasper 7 , Ewald Moser 8 , Burkhard<br />
Brocke 9 , Lukas Pezawas 10<br />
1 Department of Psychiatry and Psychotherapy, Medical<br />
University of Vienna, Vienna, Austria, 2 Department of<br />
Psychiatry and Psychotherapy, Medical University of<br />
Vienna, Vienna, Austria, Austria, 3 Institute <strong>for</strong> Psychology<br />
II, TU Dresden, Dresden, Germany, 4 Department of<br />
Psychiatry and Psychotherapy, Medical University of<br />
Vienna, Wien, Austria, 5 Medical University of Vienna,<br />
Vienna, Austria, 6 Institute <strong>for</strong> Labaratory Medicine, Medical<br />
University of Vienna, Vienna, Austria, 7 Department of<br />
Psychiatry and Psychotherapy, Medical University of<br />
Vienna, Austria, Vienna, Austria, 8 MR Center of Excellence,<br />
Medical Universsity of Vienna, Vienna, Austria, 9 Insitute<br />
<strong>for</strong> Psychology II, TU Dresden, Dresden, Germany,<br />
10 Department of Psychiatry and Psychotherapy, Medical<br />
University of Vienna, Austria, Wien, Austria<br />
30 HBM 2011 >> <strong>abstracts</strong><br />
291<br />
292<br />
293<br />
294<br />
295<br />
296<br />
The Neural Correlates of anxiety across<br />
menstrual Cycle<br />
Ren-Jen Hwang 1,2,3 , Chi-Hsun Wu 4 , Kuei-Lan Yu 2 ,<br />
Mei-hsiang Lin 2 , Jen-Chuen Hsieh 5,6,3,7<br />
1 Institute of Neuroscience, School of Life Science,<br />
National Yang-Ming, Taipei , Republic of China, 2 Chang<br />
Gung Institute of Technology, Tao-Yuan, Republic of China,<br />
3 Dept. Medical Research & Education, Taipei Veterans<br />
General Hospital, Taipei, Republic of China, 4 Department of<br />
Electrical Engineering, National Central University, Jhongli,<br />
Taiwan, Republic of China, 5 Institute of <strong>Brain</strong> Science,<br />
National Yang-Ming University, Taipei, Taiwan, Republic of<br />
China, 6 Institute of Neuroscience, School of Life Science,<br />
National Yang-Ming University, Taipei, Republic of China,<br />
7 <strong>Brain</strong> Research Center, National Yang-Ming University,<br />
Taipei, Republic of China<br />
Processing of musical stimuli in major depressive<br />
disorder naive to treatment an fmrI study<br />
ENRIQUE OCTAVIO FLORES GUTIÉRREZ 1 ,<br />
Alcauter Sarael 2 , Juan José Cervantes 3 , Marina Torres 3<br />
1 INSTITUTO NACIONAL DE PSIQUIATRÍA RAMÓN DE<br />
LA FUENTE MUÑIZ, Mexico, 2 Instituto de Neurobiología<br />
UNAM, Juriquilla, México, 3 Instituto Nacional de Psiquiatría<br />
Ramón de la Fuente, DF, Mexico<br />
an fmrI Study of adolescent Depression<br />
TONY YANG 1 , Martin Paulus 2 , Alan Simmons 2 ,<br />
Susan Tapert 3<br />
1 UNIVERSITY OF CALIFORNIA SAN DIEGO, SAN DIEGO,<br />
United States, 2 UCSD, La Jolla, CA, 3 UCSD, La Jolla,<br />
United States<br />
amygdala activity changes in panic disorder<br />
patients during cognitive behavioral therapy<br />
Aleš Grambal 1 , Zbynōk Tüdös 1 , Ján Praško 1 , Petr Hlustik 1<br />
1 Palacky University and University Hospital Olomouc,<br />
Olomouc, Czech Republic<br />
morphometric abnormalities in unaffected<br />
first-degree relatives of mood disorders<br />
Toshio Matsubara 1 , Koji Matsuo 2 , Masayuki Nakano 3 ,<br />
Mami Nakashima 2 , Kazuteru Egashira 2 , Masatomo<br />
Suetsugi 3 , Yoshifumi Watanabe 4<br />
1 Division Of Neuropsychiatry, Department Of Neuroscience,<br />
Yamaguchi University Gr, Ube,Japan, 2 Division Of<br />
Neuropsychiatry, Department Of Neuroscience,<br />
Yamaguchi University Gr, Ube, Yamaguchi, 3 Division Of<br />
Neuropsychiatry, Department Of Neuroscience, Yamaguchi<br />
University Gr, Ube, Japan, 4 Division Of Neuropsychiatry,<br />
Department Of Neuroscience, Yamaguchi University G,<br />
Ube, Yamaguchi<br />
early-onset and late-onset depression:<br />
a tract-based spatial statistics study<br />
Diana Bezerra 1 , Marco Antonio Moscoso 1 , Salma Rose<br />
Ribeiz 1 , Fabricio Pereira 2 , Fernando Cendes 2 , Edson<br />
Amaro 1 , Cássio Bottino 1<br />
1 University of Sao Paulo, Sao Paulo, Brazil,<br />
2 University of Campinas, Campinas, Brazil
298<br />
Disorders of the Nervous System<br />
Traumatic <strong>Brain</strong> Injury<br />
297 Limbic White matter Connectivity in military-related mild<br />
and moderate Traumatic <strong>Brain</strong> Injury<br />
Ping-Hong Yeh1,2 , Binquan Wang1,2 , Terrence Oakes1,2,3 ,<br />
John Graner1,2 , Hai Pan1,2 , Wei Liu2,3 , Fletcher Munter3 ,<br />
Gerard Riedy1,2,3,4 1Uni<strong>for</strong>med Services University of the Health Sciences,<br />
Bethesda, MD, 2Traumatic <strong>Brain</strong> Injury Image Analysis Lab,<br />
Henry Jackson Foundation, Rockville, MD, 3National Capital<br />
Neuroimaging Consortium, Bethesda, MD, 4 303<br />
National<br />
Intrepid Center of Excellence, Bethesda, MD<br />
304<br />
299<br />
300<br />
301<br />
302<br />
Switching and white matter integrity of corticosubcortical<br />
loops in traumatic brain injury<br />
Inge Leunissen1 , James Coxon1 , Karen Caeyenberghs1 ,<br />
Monique Geurts1 , Karla Michiels2 , Stefan Sunaert2 ,<br />
Stephan Swinnen1 1 2 K.U. Leuven, Heverlee, Belgium, University Hospital,<br />
Leuven, Belgium<br />
Decoding fmrI Signals of Hierarchical experiments<br />
<strong>for</strong> assessing Disorders of Consciousness<br />
Ranganatha Sitaram 1 , Mohit Rana 2 , Tao Yu 3 , Simone Lang 4 ,<br />
Alexandra Markl 5 , Dominik Vogel 5 , Friedemann Mueller 5 ,<br />
Boris Kotchoubey 3<br />
1 Institute of Medical Psychology and Behavioural<br />
Neurobiology, University of Tuebingen, Tuebingen,<br />
Germany, 2 Institute of Medical Psychology and Behavioral<br />
Neurobiology, Tuebingen, Germany, 3 Institute of Medical<br />
Psychology and Behavioral Neurobiology, University of<br />
Tuebingen, Tuebingen, Germany, 4 Institute of Psychology,<br />
University of Heidelberg, Heidelberg, Germany, 5 Clinic of<br />
Neurology, Bad Aibling, Bad Aibling, Germany<br />
graph analysis of functional brain networks <strong>for</strong><br />
cognitive control in traumatic brain injury<br />
Karen Caeyenberghs 1 , Marcus Heitger 1 , Inge Leunissen 1 ,<br />
Monique Geurts 1 , Thijs Dhollander 1 , Patrick Dupont 1 ,<br />
Stephan Swinnen 1<br />
1 KULeuven, Leuven, Belgium<br />
a New meg Low-Frequency Source Imaging<br />
approach <strong>for</strong> Diagnosing mild Traumatic <strong>Brain</strong> Injury<br />
Mingxiong Huang 1,2 , Sharon Nichols 1 , Ashley Robb 2 ,<br />
Annemarie Angeles 2 , Angela Drake 3 , Sarah Asmussen 3 ,<br />
Michael Levy 4 , Li Cui 1 , Tao Song 1 , Dewleen Baker 2,1 ,<br />
Paul Hammer 3 , Robert Robert McLay 3 , Rebecca<br />
Theilmann 1 , Raul Coimbra 1 , Mithun Diwakar 1 ,<br />
Doris Trauner 1 , Thomas Liu 1 , Roland Lee 1<br />
1 Univ Cali<strong>for</strong>nia, San Diego, San Diego, CA, 2 VA San Diego<br />
Healthcare System, San Diego, CA, 3 Naval Medical Center<br />
San Diego, San Diego, CA, 4 Rady Children’s Hospital<br />
San Diego, San Diego, CA<br />
Differential effects of explosive blast and post-traumatic<br />
stress disorder on cerebral white matter<br />
Nicholas Davenport 1 , Kelvin Lim 2 , Scott Sponheim 3<br />
1 MN Veterans Medical Research and Educ Foundation,<br />
2 University of Minnesota, Minneapolis, MN, 3 Department<br />
of Psychiatry and the Center <strong>for</strong> Magnetic Resonance<br />
Research, University of Minnesota, Minneapolis, MN<br />
305<br />
306<br />
How prevalent is awareness in the non-responsive<br />
brain-injured population?<br />
Damian Cruse 1,2 , Srivas Chennu 3 , Camille Chatelle 4 ,<br />
Tristan Bekinschtein 2 , Davinia Fernandez-Espejo 1 ,<br />
Carme Junque 5 , Steven Laureys 6 , Adrian Owen 1<br />
1 University of Western Ontario, London, Canada,<br />
2 MRC Cognition and <strong>Brain</strong> Sciences Unit, Cambridge,<br />
United Kingdom, 3 University of Cambridge, Cambridge,<br />
United Kingdom, 4 University of Liège, Liège, Belgium,<br />
5 University of Barcelona, Barcelona, Spain, 6 University<br />
of Liege, Belgium, Liege, Belgium<br />
automatic multimodal Segmentation <strong>for</strong> the Clinical<br />
assessment of Traumatic <strong>Brain</strong> Injury in 3D Slicer<br />
Andrei Irimia 1 , John Van Horn 1 , Micah Chambers 2,3 ,<br />
Marcel Pastrawa 4,5 , Sylvain Gouttard 4 , Paul Vespa 6 ,<br />
David Hovda 7 , Jeffry Alger 8,9,10 , Sonja Pujol 11,12 , Guido<br />
Gerig 4 , Stephen Aylward 13,14 , Arthur Toga 1,10 , Ron Kikinis 11<br />
1 Laboratory of Neuro Imaging (LONI), Department of<br />
Neurology, University of Cali<strong>for</strong>nia, Los Angeles, CA, USA,<br />
2 Laboratory of Neuro Imaging, University of Cali<strong>for</strong>nia,<br />
Los Angeles, CA, USA, 3 School of Engineering and<br />
Applied Science, University of Cali<strong>for</strong>nia, Los Angeles,<br />
CA, 4 Scientific Computing and Imaging Institute, University<br />
of Utah, Salt Lake City, UT, USA, 5 School of Computing,<br />
University of Utah, Salt Lake City, UT, 6 Department of<br />
Neurosurgery, University of Cali<strong>for</strong>nia, Los Angeles,<br />
CA, USA, 7 <strong>Brain</strong> Injury Research Center, Department<br />
of Neurology, University of Cali<strong>for</strong>nia, Los Angeles, CA,<br />
USA, 8 Department of Radiological Sciences, University of<br />
Cali<strong>for</strong>nia, Los Angeles, CA, USA, 9 <strong>Brain</strong> Injury Research<br />
Center, Department of Neurosurgery and Neurology,<br />
University of Cali<strong>for</strong>nia, Los Angeles, CA, 10 <strong>Brain</strong> Research<br />
Institute, Department of Neurology, University of Cali<strong>for</strong>nia,<br />
Los Angeles, CA, 11 Surgical Planning Laboratory,<br />
Department of Radiology, Harvard Medical School,<br />
Boston, MA, USA, 12 Laboratory of Mathematics in Imaging,<br />
Department of Radiology, Harvard Medical School, Boston,<br />
MA, 13 Departments of Computer Science and Radiology,<br />
University of North Carolina, Chapel Hill, NC, USA,<br />
14 Kitware, Inc., Clifton Park, NY<br />
alterations of <strong>Brain</strong> Functions during Working memory<br />
after moderate to Severe Traumatic <strong>Brain</strong> Injury<br />
Jessica Clark 1 , Yang Jiang 2 , Seth Kiser 3 , Anne Shandera-<br />
Ochsner 4 , Jordan Harp 4 , Chunyan Guo 5 , Walter High, Jr. 4<br />
1 National Rehabilitation Hospital, Washington DC, USA,<br />
2 University of Kentucky, Lexington, United States,<br />
3 Catholic University of America, Washington DC, DC,<br />
4 University of Kentucky, Lexington, KY, 5 Capital Normal<br />
University, Beijing, China<br />
Identification of Neuroinflammation in mild Traumatic<br />
<strong>Brain</strong> Injuries using a Free-Water atlas<br />
Ofer Pasternak 1 , Marek Kubicki 1 , Paula Pelavin 1 ,<br />
Ross Zafonte 1 , Martha Shenton 1 , Sylvain Bouix 1<br />
1 Harvard Medical School, Boston, MA<br />
HBM 2011 >> <strong>abstracts</strong> 31<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Disorders of the Nervous System<br />
Traumatic <strong>Brain</strong> Injury, continued<br />
307<br />
308<br />
309<br />
310<br />
311<br />
312<br />
313<br />
How many hits is too many? Toward a dose-response of<br />
head collisions as revealed in football by fmrI<br />
Meghan Robinson 1 , Thomas Talavage 2,1 , Evan Breedlove 1,3 ,<br />
Katie Morigaki 4 , Randall Benson 5 , Eric Nauman 3,1 ,<br />
Larry Leverenz 4<br />
1 Weldon School of Biomedical Engineering, Purdue<br />
University, West Lafayette, IN, 2 School of Electrical and<br />
Computer Engineering, Purdue University, West Lafayette,<br />
IN, 3 School of Mechanical Engineering, Purdue University,<br />
West Lafayette, IN, 4 Department of Health and Kinesiology,<br />
Purdue University, West Lafayette, IN, 5 Department of<br />
Neurology, Wayne State University, Detroit, MI<br />
resting-State fmrI Connectivity analysis on a<br />
military Traumatic <strong>Brain</strong> Injury Population<br />
John Graner 1 , Ping-Hong Yeh 1 , Hai Pan 1 , Binquan Wang 1 ,<br />
Terry Oakes 1 , Wei Liu 1 , Louis French 2 , Fletcher Munter 3 ,<br />
Gerard Riedy 4<br />
1 Uni<strong>for</strong>med Services University of the Health Sciences,<br />
Bethesda, MD, USA, 2 Defense and Veterans <strong>Brain</strong> Injury<br />
Center, Walter Reed Army Medical Center, Washington,<br />
DC, USA, 3 National Capital Neuroimaging Consortium,<br />
Walter Reed Army Medical Center, Washington, DC,<br />
USA, 4 National Intrepid Center of Excellence,<br />
Bethesda, MD, USA<br />
Dorsal and Ventral attention networks dysfunction<br />
as a potential mechanism of mild TBI<br />
Serguei Astafiev 1 , Nicholas Metcalf 1 , Gordon Shulman 1 ,<br />
Maurizio Corbetta 1<br />
1 Washington University School of Medicine, St. Louis, MO<br />
eeg activity associated with motor inhibition in<br />
combat veterans with traumatic brain injury<br />
Julie Onton 1 , I-Wei Shu 2 , Scott Matthews 2<br />
1 Naval Health Research Center, 2 University of Cali<strong>for</strong>nia,<br />
San Diego, San Diego, CA<br />
evidence <strong>for</strong> specific gaBaergic dysfunctions in<br />
primary motor cortex after sport concussion<br />
Sara Tremblay 1 , Louis De Beaumont 2 , Maryse Lassonde 1 ,<br />
Hugo Théoret 1<br />
1 Universite de Montreal, Montreal, Canada, 2 McGill<br />
University, Montreal, Canada<br />
Default mode Network in Severe Traumatic <strong>Brain</strong> Injury<br />
Eva Palacios-Martinez 1 , Roser Sala-Llonch 2 , Carme<br />
Junque 2 , Teresa Roig 3 , Jose Tormos 3 , Nuria Bargallo 4 ,<br />
Pere Vendrell 5<br />
1 University Of Barcelona, Barcelona, Spain, 2 University<br />
of Barcelona, Barcelona, Spain, 3 Institut Universitari<br />
de Neurorehabilitació Guttmann, Badalona, Spain,<br />
4 Neuroradiology Unit. Imaging Diagnostic Center.<br />
Hospital Clinic Barcelona. IDIBAPS, Barcelona, Spain,<br />
5 University of Barcelona Casanova, Barcelona, Spain<br />
extensive diffuse white matter changes following<br />
severe traumatic brain injury<br />
Kareem Ayoub 1,2 , Zili Chu 3,1 , Jill Hunter 3,1 ,<br />
Marianne MacLeod 1 , Elisabeth Wilde 1<br />
1 Baylor College of Medicine, Houston, TX, 2 Rice University,<br />
Houston, TX, 3 Texas Childrens Hospital, Houston, TX<br />
32 HBM 2011 >> <strong>abstracts</strong><br />
314<br />
315<br />
316<br />
317<br />
318<br />
Disruption of the Functional Connectivity Following<br />
mild Traumatic <strong>Brain</strong> Injury<br />
Chandler Sours 1 , Josh Betz 1 , Steven Roys 1 , B Aarabi 2 ,<br />
Kathirkamanthan Shanmuganathan 3 , Joel Greenspan 4 ,<br />
Rao Gullapalli 5,6<br />
1 University of Maryland, Baltimore, MD, 2 University of<br />
Maryland School of Medicine, Baltimore, MD, 3 University<br />
of Maryland School of Medicine, Baltimore, United States,<br />
4 Department of Biomedical Sciences and Program in<br />
Neuroscience, University of Maryland School of Dent,<br />
Baltimore, MD, 5 University Of Maryland, Baltimore, United<br />
States, 6 Department of Diagnostic Radiology and Nuclear<br />
Medicine, University of Maryland School of Medicine,<br />
Baltimore, MD<br />
Disruptions in resting state network activation<br />
in blast-related mTB<br />
Nicole (Nikki) Fraser 1 , Nicholas Davenport 2 ,<br />
Scott Sponheim 3<br />
1 Minneapolis VA Medical Center, 2 Minnesota Veterans<br />
Research Institute, Minneapolis, MN, 3 Minneapolis VA<br />
Medical Center & Minnesota Veterans Research Institute,<br />
Minneapolis, MN<br />
activation during interference resolution and<br />
working memory after blast-related TBI<br />
Mary Newsome 1 , Randall Scheibel 2 , Xiaodi Lin 1 ,<br />
Maya Troyanskaya 1 , Joel Steinberg 3 , Harvey Levin 1<br />
1 Baylor College of Medicine, Houston, TX, 2 Baylor<br />
College of Medine, Houston, TX, 3 UTHSC-Houston,<br />
Houston, United States<br />
FDg-PeT image classification of patients with Traumatic<br />
<strong>Brain</strong> Injury<br />
Nuria Lull 1,2 , Juan J Lull 2 , Enrique Noé 3 , Javier García-<br />
Panach 2 , Jose Manjon 2 , Javier Chirivella 4 , Montse Robles 2<br />
1 CEU-UCH Universidad Cardenal Herrera, Valencia, Spain,<br />
2 IBIME Research Group. Universidad Politécnica de<br />
Valencia, Valencia, Spain, 3 Servicio de Neurorehabilitación<br />
del Hospital NISA Valencia al Mar y Fundación NISA,<br />
Valencia, Spain, 4 Servicio de Daño Cerebral del Hospital<br />
NISA Aguas Vivas, Valencia, Spain<br />
using in vivo neuropathology in the diagnosis of<br />
the vegetative and the minimally conscious states<br />
Davinia Fernandez-Espejo 1 , Damian Cruse 1 , Beth Parkin 1 ,<br />
Srivas Chennu 2 , Adrian Owen 1<br />
1 University of Western Ontario, London, Canada, 2 University<br />
of Cambridge, Cambridge, United Kingdom<br />
Emotion and Motivation<br />
Reward and Punishment<br />
319* Striatal activity during initial processing of novel<br />
music predicts subsequent reward value, (o-W2)<br />
Valorie Salimpoor1 , Iris van den Bosch2 , Alain Dagher3 ,<br />
Robert Zatorre4 1Montreal Neurological Institute, McGill, CIRMMT, BRAMS,<br />
Montreal, QC, 2University of Utrecht, Neuroscience and<br />
Cognition Dept, Utrecht, 3Montreal Neurological Institute,<br />
McGill University, Montréal, QC, 4Montreal Neurological<br />
Institute, McGill University; BRAMS; CIRMMT, Montreal, QC
Emotion and Motivation<br />
Reward and Punishment, continued<br />
320<br />
321<br />
322<br />
323<br />
324<br />
325<br />
Withdrawn<br />
risk-taking in adolescent <strong>Brain</strong> Function and Structure<br />
Sophia Schneider 1 , Jan Peters 1 , Uli Bromberg 1 ,<br />
Stefanie Brassen 1 , Mareike Menz 1 , Stephan Miedl 1 ,<br />
Tobias Banaschewski 2 , Gareth Barker 3 , Patricia Conrod 4 ,<br />
Herta Flor 2 , Hugh Garavan 5 , Andreas Heinz 6 , Bernd<br />
Ittermann 7 , Mark Lathrop 8 , Eva Loth 4 , Karl Mann 2 , Jean-Luc<br />
Martinot 9 , Tomas Paus 10 , Jean Baptiste Poline 11 , Marcella<br />
Rietschel 2 , Trevor Robbins 12 , Michael Smolka 13 , Rainer<br />
Spanagel 2 , Dai Stephens 14 , Andreas Ströhle 6 , Maren<br />
Struve 2 , Gunter Schumann 4 , Christian Büchel 1<br />
1 University Medical Center Hamburg-Eppendorf, Hamburg,<br />
Germany, 2 Central Institute of Mental Health, Mannheim,<br />
Germany, 3 Institute of Psychiatry, King’s College, London,<br />
United Kingdom, 4 King’s College London, Institute of<br />
Psychiatry, London, United Kingdom, 5 Trinity College<br />
Dublin, Dublin, Ireland, 6 Department of Psychiatry and<br />
Psychotherapy, Charité - Universitätsmedizin Berlin, Berlin,<br />
Germany, 7 Physikalisch-Technische Bundesanstalt, Berlin,<br />
Germany, 8 Centre National de Génotypage, Evry, France,<br />
9 Institut National de la Santé et de la Recherche Médicale,<br />
Paris, France, 10 Rotman Research Institute, University of<br />
Toronto, Toronto, Canada, 11 CEA-I2BM-Neurospin, Paris,<br />
France, 12 University of Cambridge, Cambridge, United<br />
Kingdom, 13 Technische Universität Dresden, Dresden,<br />
Germany, 14 Department of Psychology, University of<br />
Sussex, Sussex, United Kingdom<br />
Sequential Sampling models elucidate Neural<br />
mechanisms of Value-based Decision making<br />
Sebastian Gluth 1 , Jörg Rieskamp 2 , Christian Büchel 1<br />
1 University Medical Center, Hamburg-Eppendorf,<br />
Hamburg, Germany, 2 University of Basel, Basel,<br />
Switzerland<br />
Insulin reactivity to an oral glucose Tolerance<br />
Test modulates Hedonic Hunger<br />
Nils Kroemer 1 , Lena Krebs 2 , Andrea Kobiella 1 , Oliver<br />
Grimm 2 , Sabine Vollstaedt-Klein 2 , Uta Wolfensteller 1 ,<br />
Ricarda Kling 1 , Ulrich Zimmermann 1 , Michael Smolka 1<br />
1 Technische Universität Dresden, Dresden, Germany,<br />
2 Central Institute of Mental Health, Mannheim, Germany<br />
midterm abstinence in smokers causes increases<br />
in neural reward response<br />
Andrea Kobiella 1 , Nils Kroemer 1 , Mira Buehler 2 , Michael<br />
Smolka 1<br />
1 Technische Universität Dresden, Dresden, Germany,<br />
2 Central Institute of Mental Health, Mannheim, Germany<br />
From animal model to <strong>Human</strong> <strong>Brain</strong> Networking:<br />
Dynamic Causal modeling of motivation System<br />
activation<br />
Tal Gonen 1,2 , Roee Admon 3,2 , Ilana Podlipsky 2 ,<br />
Itamar Kahn 4 , Talma Hendler 2,1,3<br />
1 Department of Psychology, Tel-Aviv University, Tel Aviv,<br />
Israel, 2 Functional <strong>Brain</strong> Imaging Unit, Wohl Institute <strong>for</strong><br />
Advanced Imaging, Tel-Aviv Sourasky Medical Center,<br />
Tel Aviv, Israel, 3 Sackler Faculty of Medicine, Tel Aviv<br />
University, Tel Aviv, Israel, 4 Department of Physiology<br />
and Biophysics, Technion, Haifa, Israel<br />
326<br />
327<br />
328<br />
329<br />
330<br />
331<br />
Differential hypothalamic responses to high and low<br />
calorie food pictures in lean subjects<br />
Ralf Veit 1,2 , Martin Heni 3 , Stephanie Kullmann 1,4,2 ,<br />
Caroline Ketterer 3 , Hans-Ulrich Haering 3 , Andreas<br />
Fritsche 3 , Hubert Preissl 2,5<br />
1 Institute of Medical Psychology, University of Tuebingen,<br />
Tuebingen, Germany, 2 MEG-Center, University of<br />
Tuebingen, Tuebingen, Germany, 3 Department of Internal<br />
Medicine, Division of Endocrinology, Eberhard Karls<br />
University Tuebingen, Tuebingen, Germany, 4 Graduate<br />
School <strong>for</strong> Neural and Behavioural Sciences of the<br />
Max-Planck-Institute <strong>for</strong> biological Cybernetics, Tuebingen,<br />
Germany, 5 Department of Obstetrics and Gynecology,<br />
University of Arkansas <strong>for</strong> Medical Sciences,<br />
Little Rock, AR<br />
Dopamine depletion affects [11C]raclopride binding<br />
potential, risk taking & gambling strategies<br />
Crystal Erickson 1 , Kevin Larcher 2 , Lauren Templeton 2 ,<br />
Marco Leyton 3 , Alain Dagher 2<br />
1 Montreal Neurological Institute, McGill University,<br />
Montréal, Canada, 2 Montreal Neurological Institute,<br />
McGill University, Montréal, Quebec, 3 Department of<br />
Psychiatry, McGill University, Montréal, Quebec<br />
Striatal D1 receptor density predicts individual<br />
differences in probabilistic reward learning<br />
Sylvia Cox 1 , Michael Frank 2 , Lesley Fellows 1 ,<br />
Kevin Larcher 1 , Alain Dagher 1<br />
1 Montreal Neurological Institute, McGill University,<br />
Montreal, Canada, 2 Brown Institute <strong>for</strong> <strong>Brain</strong> Science,<br />
Brown University, Providence, RI<br />
Distinct fmrI effects of SSrI vs DNrI antidepressants<br />
on different aspects of reward processing<br />
Birgit Abler 1 , Antonie Hartmann 1 , Angela Seeringer 1 ,<br />
Julia Stingl 1 , Martin Walter 2<br />
1 University of Ulm, Ulm, Germany, 2 Otto-von-Guericke<br />
University, Magdeburg, Germany<br />
Individual differences in Sr modulate the activation<br />
of the ventral tegmental area<br />
Alfonso Barros-Loscertales 1 , Victor Costumero 2 ,<br />
Juan Carlos Bustamante 3 , Noelia Ventura-Campos 4 ,<br />
Paola Fuentes 2 , Patricia Rosell-Negre 2 , César Ávila Rivera 5<br />
1 University Jaume I, 2 University Jaume I, Castellón de<br />
la Plana, Spain, 3 University Jaume I, Spain, 4 Universitat<br />
Jaume I, 5 Universitat Jaume I, Castellon, Spain<br />
The interaction between reward size and feedback<br />
timing on verbal working memory processes<br />
Gillian Cooke 1 , Michael Tennekoon 1 , Jessica Gayda 1 ,<br />
James Booth 1<br />
1 Northwestern University, Evanston, IL<br />
HBM 2011 >> <strong>abstracts</strong> 33<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Emotion and Motivation<br />
Reward and Punishment, continued<br />
332<br />
333<br />
334<br />
335<br />
The influence of weight and homeostatic signals<br />
on postprandial intrinsic brain activity<br />
Stephanie Kullmann 1,2 , Martin Heni 3 , Ralf Veit 4 ,<br />
Caroline Ketterer 3 , Hans-Ulrich Haering 3 , Andreas<br />
Fritsche 3 , Hubert Preissl 1,5<br />
1 MEG Center, University Tuebingen, Tuebingen, Germany,<br />
2 Graduate School <strong>for</strong> Neural and Behavioural Sciences,<br />
University of Tuebingen, Tuebingen, Germany, 3 Department<br />
of Internal Medicine, Division of Endocrinology, Eberhard<br />
Karls University Tuebingen, Tuebingen, Germany, 4 Institute<br />
of Medical Psychology, Tuebingen, Germany, 5 Department<br />
of Obstetrics and Gynecology, University of Arkansas <strong>for</strong><br />
Medical Sciences, Little Rock, AR<br />
Prenatal exposure to maternal Cigarette Smoking<br />
and adolescents’ reward Processing<br />
Kathrin Müller 1 , Thomas Hübner 1 , Eva Mennigen 1 ,<br />
Stephan Ripke 1 , Sarah Rodehacke 1 , Dirk Schmidt 1 ,<br />
Tobias Banaschewski 2 , Gareth Barker 3 , Christian Büchel 4 ,<br />
Patricia Conrod 3 , Herta Flor 2 , Juergen Gallinat 5 , Hugh<br />
Garavan 6 , Andreas Heinz 5 , Bernd Ittermann 7 , Eva Loth 3 ,<br />
Jean-Luc Martinot 8 , Jean Baptiste Poline 9 , Marcella<br />
Rietschel 2 , Gunter Schumann 3 , Maren Struve 2 , Tomas<br />
Paus 10,11,12 , Michael Smolka 1 , the IMAGEN Consortium 3<br />
1 Technische Universität Dresden, Dresden, Germany,<br />
2 Central Institute of Mental Health, Mannheim, Germany,<br />
3 Institute of Psychiatry, King’s College London, London,<br />
United Kingdom, 4 Universitätsklinikum Hamburg<br />
Eppendorf, Hamburg, Germany, 5 Department of Psychiatry<br />
and Psychotherapy, Charité – Universitätsmedizin Berlin,<br />
Berlin, Germany, 6 Institute of Neuroscience, Trinity<br />
College Dublin, Dublin, Ireland, 7 Physikalisch-Technische<br />
Bundesanstalt, Berlin, Germany, 8 Institut National de<br />
la Santé et de la Recherche Médicale, Paris, France,<br />
9 Neurospin, Commissariat à l’Energie Atomique, Paris,<br />
France, 10 Rotman Research Institute, University of Toronto,<br />
Toronto, Canada, 11 School of Psychology, University of<br />
Nottingham, Nottingham, United Kingdom, 12 Montreal<br />
Neurological Institute, Montreal, Canada<br />
an fmrI stimulus paradigm <strong>for</strong> measuring anticipation<br />
of primary rewards<br />
John Ingeholm 1 , W. Kyle Simmons 2 , Seth Kallman 3 ,<br />
Kristina Rapuano 3 , Kevin Hall 4 , Alex Martin 3<br />
1 National Institute of Mental Health/NIH, Bethesda, United<br />
States, 2 Laureate Institute For <strong>Brain</strong> Research, Tulsa, OK,<br />
3 National Institute of Mental Health/NIH, Bethesda, MD,<br />
4 NIDDK/NIH, Bethesda, MD<br />
Coupling between cognitive networks associated<br />
with symptoms of compulsive binge eating<br />
David Cole 1 , Christian Beckmann 2 , Anne Andorn 3 ,<br />
Massimo Bani 3 , Pradeep Nathan 4 , Edward Bullmore 5 ,<br />
Paul Matthews 1 , Eugenii Rabiner 1 , John Beaver 6<br />
1 Imperial College London, London, United Kingdom,<br />
2 Donders Centre <strong>for</strong> Cognitive Neuroimaging, Nijmegen,<br />
Netherlands, 3 Neuroscience Centre of Excellence <strong>for</strong> Drug<br />
Discovery, GlaxoSmithKline, Research Triangle Park, NC,<br />
4 Clinical Unit Cambridge, GlaxoSmithKline, Cambridge,<br />
United Kingdom, 5 University Of Cambridge <strong>Brain</strong> <strong>Mapping</strong><br />
Unit, Cambridge, United Kingdom, 6 Clinical Imaging<br />
Centre, GlaxoSmithKline, London, United Kingdom<br />
34 HBM 2011 >> <strong>abstracts</strong><br />
336<br />
337<br />
338<br />
339<br />
340<br />
Serotonin is involved in processing negative outcomes<br />
caused by low-risk decisions<br />
Julian Macoveanu1 , Bettina Hornboll1 , Gitte Knudsen2 ,<br />
Olaf B. Paulson3 , James Rowe4 , Hartwig Siebner5 1Danish Research Center <strong>for</strong> Magnetic Resonance,<br />
Hvidovre, Denmark, 2Center <strong>for</strong> Integrated Molecular <strong>Brain</strong><br />
Imaging, Copenhagen, Denmark, 3Copenhagen University<br />
Hospital Hvidovre, Hvidovre, Denmark, 4Cambrdge University Neurology Unit, Cambridge, United Kingdom,<br />
5Danish Research Centre <strong>for</strong> Magnetic Resonance,<br />
Hvidovre, Denmark<br />
reward Sensitivity in a Sample of Healthy adolescents<br />
Frauke Nees 1 , Jelka Tzschoppe 1 , Sabine Vollstaedt-Klein 1 ,<br />
Sabina Steiner 1 , Luise Poustka 1 , Tobias Banaschewski 1 ,<br />
Gareth Barker 2 , Christian Büchel 3 , Patricia Conrod 4 , Hugh<br />
Garavan 5 , Andreas Heinz 6 , Mark Lathrop 7 , Karl Mann 1 ,<br />
Jean-Luc Martinot 8 , Tomas Paus 9 , Jean-Baptiste Poline 10 ,<br />
Trevor Robbins 11 , Marcella Rietschel 1 , Michael Smolka 12 ,<br />
Rainer Spanagel 1 , Dai Stephens 13 , Andreas Ströhle 14 ,<br />
Maren Struve 1 , Eva Loth 4 , Gunter Schumann 4 , Herta Flor 1<br />
1 Central Institute of Mental Health, Mannheim, Germany,<br />
2 Institute of Psychiatry, King’s College, London, United<br />
Kingdom, 3 University Medical Center Hamburg-Eppendorf,<br />
Hamburg, Germany, 4 King’s College London, Institute<br />
of Psychiatry, London, United Kingdom, 5 Trinity College<br />
Institute of Neuroscience, Dublin, Ireland, 6 Charité –<br />
Universitätsmedizin Berlin, Berlin, Germany, 7 Centre<br />
National de Génotypage, Evry, France, 8 Institut National<br />
de la Santé et de la Recherche Médicale, Paris, France,<br />
9 Rotman Research Institute, University of Toronto, Toronto,<br />
Canada, 10 CEA-I2BM-Neurospin, Paris, France, 11 University<br />
of Cambridge, Cambridge, United Kingdom, 12 Technische<br />
Universität Dresden, Dresden, Germany, 13 University of<br />
Sussex, Sussex, United Kingdom, 14 Campus Charité,<br />
Universitätsmedizin Berlin, Berlin, Germany<br />
elevated fmrI responses when winning a human<br />
vs. a computer opponent in a video game<br />
Jari Kätsyri 1 , Niklas Ravaja 1 , Lauri Nummenmaa 2<br />
1 CKIR, Aalto University School of Economics, Helsinki,<br />
Finland, 2 <strong>Brain</strong> Research Unit, Low Temperature<br />
Laboratory, Aalto University School of Science, Espoo,<br />
Finland<br />
<strong>Brain</strong> regions involved in aversion-related processing:<br />
a cross-species translational investigation<br />
Dave Hayes 1 , Georg Northoff 2<br />
1 University of Ottawa, Institute of Mental Health Research,<br />
Canada, 2 University of Ottawa Institute of Mental Health<br />
Research, Ottawa, Canada<br />
Nucleus accumbens is Selectively activated by<br />
reward outcomes Compared to Loss outcomes<br />
Daniel Hommer 1 , Ashely Smith 1 , Jodi Gilman 1 , Reza<br />
Momenan 1<br />
1 NIAAA/NIH, Bethesda, MD
Emotion and Motivation<br />
Reward and Punishment, continued<br />
341<br />
342<br />
343<br />
344<br />
345<br />
346<br />
347<br />
348<br />
reward processing in major depressive disorder<br />
and obsessive-compulsive disorder: an fmrI study<br />
Bart de kwaasteniet1 , Damiaan Denys2 , Juilan Garcia<br />
Barnet2 , Judy Luigjes2 , Martijn Figee2 , Matthijs Vink3 1 2 Academic Medical Centre Amsterdam, Academic<br />
Medical Centre Amsterdam, Amsterdam, Netherlands,<br />
3Rudolf Magnus Institute of Neuroscience, Utrecht,<br />
Netherlands<br />
FmrI evidence of involvement of the endocannabinoid<br />
system in human reward processing<br />
Hendrika van Hell 1 , Matthijs Bossong 1 , Gerry Jager 2 ,<br />
Nick Ramsey 1 , Johan Jansma 1<br />
1 Rudolf Magnus Institute of Neuroscience, UMC Utrecht,<br />
Utrecht, Netherlands, 2 Division of <strong>Human</strong> Nutrition,<br />
Wageningen University, Wageningen, Netherlands<br />
Processing of social reward and punishment<br />
differentially involves the neural reward circuitry<br />
Henk Cremers 1 , Ilya Veer 1 , Philip Spinhoven 1 ,<br />
Serge Rombouts 2 , Karin Roelofs 3<br />
1 Leiden Institute <strong>for</strong> <strong>Brain</strong> and Cognition (LIBC),<br />
Leiden, Netherlands, 2 Leiden University Medical Center,<br />
Leiden, Netherlands, 3 Behavioral Science Institute (BSI),<br />
Nijmegen, Netherlands<br />
The modulatory Influence of motivational Salience<br />
within the mesocorticolimbic System: a DCm Study<br />
David Blitzer 1 , Sam Colalillo 1 , M Ryan Haynes 1 ,<br />
Joseph Barter 1 , Daniel Weinberger 1 , Caroline Zink 1<br />
1 National Institute of Mental Health, National Institutes of<br />
Health, Bethesda, MD<br />
BDNF Val66met polymorphism modulates BoLD<br />
response to reward and loss predicting emotional cues<br />
Tiffany Nash 1 , Mbemba Jabbi 1 , Philip Kohn 1 , Brett Cropp 1 ,<br />
Jonathan Kippenhan 1 , Bhaskar Kolachana 1 , Daniel<br />
Weinberger 1 , Karen Berman 1<br />
1 National Institutes of Mental Health, NIH, Bethesda, MD<br />
DaT1 moderates the relationship between rewardcircuitry<br />
responsivity and impulsivity in adolescents<br />
Yannis Paloyelis 1 , Mitul Mehta 1 , Stephen Faraone 2 ,<br />
Philip Asherson 1 , Jonna Kuntsi 1<br />
1 King’s College London, London, United Kingdom,<br />
2 Department of Psychiatry, Harvard Medical School,<br />
Massachusetts General Hospital, Boston, MA<br />
midbrain and medial orbital cortex response to<br />
milkshake predicts ad lib milkshake intake<br />
Sarah Nolan-Poupart 1 , Maria Veldhuizen 2 , Dana Small 3<br />
1 The John B. Pierce Laboratory, New Haven, CT,<br />
2 The John B. Pierce Laboratory and Yale University<br />
School of Medicine, New Haven, CT, 3 The John B Pierce<br />
Laboratory and Yale University School of Medicine,<br />
New Haven, CT<br />
unconfounding reward and motivational Salience in<br />
the Ventral Striatum During reward anticipation<br />
Sam Colalillo 1 , David Blitzer 1 , Joseph Barter 1 , M Ryan<br />
Haynes 1 , Daniel Weinberger 1 , Caroline Zink 1<br />
1 National Institute of Mental Health, National Institutes<br />
of Health, Bethesda, MD<br />
349<br />
350<br />
351<br />
352<br />
353<br />
effects of Fructose and glucose on <strong>Brain</strong> Feeding<br />
Centers: a fmrI Study in obese adolescents<br />
Saima Malik 1 , Jessica Kubat 1 , jagriti Arora 1 ,<br />
Robert Sherwin 1 , R. Todd Constable 2 , Sonia Caprio 1<br />
1 Yale University, New Haven, CT, 2 Department of<br />
Diagnostic Radiology; Department of Biomedical<br />
Engineering, Yale University, New Haven, CT<br />
Neural circuitry of reward processing in frequent<br />
marijuana users investigated with fmrI<br />
Kristen Ford 1 , Jean Théberge 1 , R Neufeld 1 , Peter<br />
Williamson 1 , Elizabeth Osuch 1<br />
1 University of Western Ontario, London, Ontario<br />
Psychosocial problems and mesolimbic recruitment<br />
by potential rewards in healthy adolescents<br />
James Bjork 1 , Ashley Smith 2 , Gang Chen 3 , Daniel Hommer 4<br />
1 NIDA/NIH, Bethesda, 2 Temple University, Philadelphia,<br />
PA, 3 SSCC/DIRP/NIMH, National Institutes of Health, USA,<br />
4 NIAAA/NIH, Bethesda, United States<br />
The Impact of Previous outcomes on the Neural<br />
Coding of expectation<br />
Uli Bromberg1 , Jan Peters2 , Sophia Schneider1 ,<br />
Mareike Menz1 , Stefanie Brassen1 , Thomas Banachewski3 ,<br />
Gareth Barker4 , Patricia Conrod5 , Herta Flor3 , Juergen<br />
Gallinat6 , Hugh Garavan7 , Andreas Heinz8 , Bernd<br />
Ittermann9 , Mark Lathrop10 , Eva Loth5 , Karl Mann3 ,<br />
Jean-Luc Martinot11 , Tomas Paus12 , Jean Baptiste Poline13 ,<br />
Trevor Robbins14 , Marcella Rietschel3 , Michael Smolka15 ,<br />
Rainer Spanagel3 , Dai Stephens16 , Maren Struve3 ,<br />
Gunter Schumann5 , Christian Büchel2 1Deparment of Systems Neuroscience, University<br />
Medical Center Hamburg-Eppendorf, Germany, Hamburg,<br />
Germany, 2NeuroimageNord, Institute <strong>for</strong> Systems<br />
Neuroscience, University-Medical Center Hamburg-<br />
Eppendorf, Ger, Hamburg, Germany, 3Central Institute<br />
of Mental Health, Mannheim, Germany, 4Institute of<br />
Psychiatry, King’s College, London, United Kingdom,<br />
5King’s College London, Institute of Psychiatry, London,<br />
United Kingdom, 6Charite Universitaetsmedizin Berlin,<br />
Berlin, Germany, 7Trinity College Institute of Neuroscience,<br />
Dublin, Ireland, 8Department of Psychiatry and<br />
Psychotherapy, Charité – Universitätsmedizin Berlin, Berlin,<br />
Germany, 9Physikalisch-Technische Bundesanstalt, Berlin,<br />
Germany, 10Centre National de Génotypage, Evry, France,<br />
11Institut National de la Santé et de la Recherche Médicale,<br />
Paris, France, 12Rotman Research Institute, University<br />
of Toronto, Toronto, Canada, 13CEA-I2BM-Neurospin, 14University of Cambridge, Cambridge, United Kingdom,<br />
15Technische Universität Dresden, Dresden, Germany,<br />
16Department of Psychology, University of Sussex, Sussex,<br />
United Kingdom<br />
Being released from self-presentation is a reward<br />
to a person with high public self-consciousness<br />
Tomoko Totsune1 , Atsushi Sekiguchi2 , Yukihito Yomogida2,3 ,<br />
Motoaki Sugiura2 , Ryuta Kawashima2 1Tohoku University School of Medicine, Sendai, Japan,<br />
2Dept. FBI, IDAC, Tohoku University, Sendai, Japan,<br />
3JSPS, Tokyo, Japan<br />
HBM 2011 >> <strong>abstracts</strong> 35<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Emotion and Motivation<br />
Sexual Behavior<br />
354 Differential activation patterns associated with sexual<br />
arousal in pre- and post-menopausal women<br />
Gwang-Woo Jeong1 , Han-Su Baek2 , Heoung-Keun Kang3 1Chonnam National University Medical School, Gwang-Ju,<br />
Republic of Korea, 2Chonnam National University, Gwang-<br />
Ju, Republic of Korea, 3Chonnam National University<br />
Medical School, Gwang-Ju, Republic of Korea<br />
355<br />
evidence of brain volume changes in sex offenders<br />
from voxel-based morphometry<br />
Irene Hsu1 , I-Yun Chen2 , Kun-Hsien Chou3 , Ching-Po Lin4 1Institute of <strong>Brain</strong> Science, National Yang Ming<br />
University, Taipei, Taiwan- Republic Of China, 2Institute Of Neuroscience, NYMU, Taiwan- Republic Of China,<br />
3National Yang Ming University, Taiwan- Republic Of China,<br />
4National Yang-Ming University, Taipei, Taiwan- Republic<br />
Of China<br />
356 Selective brain network modifications during erotic<br />
visual stimulation in erectile dysfunction<br />
Nicoletta Cera 1 , Ezio Di Pierro 2 , Gianna Sepede 1 , Carlo<br />
Vicentini 2 , Giuseppe Galatioto Paradiso 2 , Armando Tartaro 1 ,<br />
Cosimo Del Gratta 1 , Gian Luca Romani 1 , Antonio Ferretti 1<br />
1 ITAB- Department of Neuroscience - G.D’Annunzio<br />
University Of Chieti, Chieti, Italy, 2 G. Mazzini<br />
Hospital-University of L’Aquila, Teramo, Italy<br />
Higher Cognitive Functions<br />
Executive Function<br />
357* Fronto-Parietal Connections are modulated by<br />
Cognitive Control and Working memory:<br />
a DCm Study, (o-m2)<br />
Ian Harding1 , Murat Yucel2 , Ben Harrison3 ,<br />
Christos Pantelis4 , Michael Breakspear5 1University of Melbourne, Melbourne, Australia,<br />
2Univ. of Melbourne - Sunshine Hospital, St. Albans VIC,<br />
Australia, 3The University of Melbourne, Melbourne,<br />
Victoria, 4Melbourne Neuropsychiatry Centre, University of<br />
Melbourne, Melbourne, Australia, 5Queensland Institute of<br />
Medical Research, Brisbane, Australia<br />
358*<br />
Competition and inhibition in human voluntary action<br />
selection, (o-m2)<br />
Jiaxiang Zhang 1 , Laura Hughes 1 , James Rowe 2<br />
1 MRC cognition and brain science unit, Cambridge,<br />
United Kingdom, 2 Cambrdge University Neurology Unit,<br />
Cambridge, United Kingdom<br />
359** FmrI task parameters influence hemodynamic activity<br />
in regions implicated in cognitive set-shifting<br />
Suzanne Witt1 , Godfrey Pearlson2,3,4 , Michael Stevens3,4 1Olin Neuropsychiatry Research Center, Hart<strong>for</strong>d,<br />
United States, 2Hart<strong>for</strong>d Hospital, Hart<strong>for</strong>d, CT, 3Olin Neuropsychiatry Research Center, Hart<strong>for</strong>d, CT,<br />
4Department of Psychiatry, Yale University, New Haven, CT<br />
360<br />
an fmrI study of impulsivity – the monetary incentive<br />
delay SToP Task<br />
Brendan Behan 1 , Adam Stone 1 , Hugh Garavan 1<br />
1 Trinity College Institute of Neuroscience, Dublin, Ireland<br />
36 HBM 2011 >> <strong>abstracts</strong><br />
361<br />
362<br />
363<br />
364<br />
365<br />
366<br />
367<br />
368<br />
association between brain laterality and cognitive<br />
ability: an fmrI study<br />
Joanne Powell 1 , Marta Garcia-Finana 2 , Graham Kemp 2<br />
1 University Of Liverpool, United Kingdom, 2 University of<br />
Liverpool, Liverpool, United Kingdom<br />
Neural subprocesses of proactive inhibition<br />
Matthijs Vink 1 , Mirjam Bloemendaal 1 , Bram Zandbelt 1 ,<br />
René Kahn 2<br />
1 Rudolf Magnus Institute of Neuroscience, Utrecht,<br />
Netherlands, 2 Rudolf Magnus Institute of Neuroscience,<br />
University Medical Center Utrecht, Utrecht, Netherlands<br />
The effects of prefrontal stimulation on stop-signal<br />
response inhibition: a combined fmrI/TmS study<br />
Bram Zandbelt1 , Mirjam Bloemendaal1 , René Kahn1 ,<br />
Matthijs Vink1 1Rudolf Magnus Institute of Neuroscience, Utrecht,<br />
Netherlands<br />
Laterality of Cognitive Control: Does It Depend on<br />
Language Laterality?<br />
Qing Cai1 , Lise Van der Haegen2 , Marc Brysbaert2 1 2 Ghent University, Gent, Belgium, Ghent University,<br />
Ghent, Belgium<br />
How sensory anticipations in the human brain control<br />
motor action<br />
Roland Pfister 1,2 , Tobias Melcher 2 , Andrea Kiesel 1 ,<br />
Peter Dechent 3 , Oliver Gruber 2<br />
1 University of Würzburg, Würzburg, Germany, 2 Goettingen<br />
University, Germany, Goettingen, Germany, 3 MR-Research<br />
in Neurology and Psychiatry, University Medical Center<br />
Goettingen, Goettingen, Germany<br />
medial Prefrontal Specialization <strong>for</strong> Conflict Processing<br />
revealed by a Novel auditory Stroop Task<br />
Thomas Christensen 1 , Kyle Almryde 1 , Julie Lockwood 1 ,<br />
Elena Plante 1<br />
1 University of Arizona, Tucson, United States<br />
Is there “one” DLPFC in motor control?<br />
evidence from connectivity-based parcellation<br />
Edna-Clarisse Cieslik 1 , Karl Zilles 1 , Svenja Caspers 1 ,<br />
Christian Roski 1 , Tanja Kellermann 2 , Oliver Jakobs 2 , Witali<br />
Pomjanski 3 , Robert Langner 2 , Angela R. Laird 4 , Peter Fox 4 ,<br />
Simon Eickhoff 2<br />
1 Institute of Neuroscience and Medicine, INM-2, Research<br />
Centre Jülich, Juelich, Germany, 2 Dept. of Psychiatry,<br />
Psychotherapy and Psychosomatics, RWTH Aachen<br />
University, Aachen, Germany, 3 C. and O. Vogt Institute <strong>for</strong><br />
<strong>Brain</strong> Research, University of Duesseldorf, Duesseldorf,<br />
Germany, 4 University Of Texas Health Science Center At<br />
San Antonio, San Antonio, United States<br />
overcoming high stimulus-response interference<br />
in mental set-shifting requires cognitive control<br />
Suzanne Witt 1 , Godfrey Pearlson 2,3,4 , Michael Stevens 1,4<br />
1 Olin Neuropsychiatry Research Center, Hart<strong>for</strong>d,<br />
United States, 2 Hart<strong>for</strong>d Hospital, Hart<strong>for</strong>d, CT, 3 Olin<br />
Neuropsychiatry Research Center, Hart<strong>for</strong>d, CT,<br />
4 Department of Psychiatry, Yale University, New Haven, CT
Higher Cognitive Functions<br />
Executive Function, continued<br />
369<br />
370<br />
371<br />
372<br />
373<br />
374<br />
Conflict-related activity in PFC is modulated by<br />
individual differences in action orientation<br />
Stefanie Beck 1 , Hannes Ruge 1 , Thomas Goschke 1<br />
1 Technische Universität Dresden, Dresden, Germany<br />
Fitness, cognition, and basal ganglia volumes<br />
in older adults<br />
Destiny Miller 1 , Kirk Erickson 1 , Ruchika Prakash 2 ,<br />
Michelle Voss 3 , Chandramallika Basak 4 , Jenny Kim 5 ,<br />
Laura Chaddock 3 , Amanda Szabo 6 , Emily Mailey 6 ,<br />
Siobhan White 6 , Thomas Wojcicki 6 , Edward McAuley 6 ,<br />
Art Kramer 6<br />
1 Psychology Department, University of Pittsburgh,<br />
Pittsburgh, PA, 2 Psychology Department, Ohio State<br />
University, Columbus, OH, 3 Department of Psychology<br />
and Beckman Institute, University of Illinois at Urbana-<br />
Champagne, Urbana-Champagne, IL, 4 Department of<br />
Psychology, Rice University, Houston, TX, 5 Neuroscience<br />
Program, University of Illinois at Urbana-Champagne,<br />
Urbana-Champagne, IL, 6 Department of Kinesiology<br />
and Community Health, University of Illinois at<br />
Urbana-Champagne, Urbana-Champagne, IL<br />
response inhibition reflects striatal dopamine<br />
receptor availability and BoLD signal<br />
Dara Ghahremani 1 , Buyean Lee 1 , Golnaz Tabibnia 2 ,<br />
Amira Brown 1 , Natalie DeShetler 1 , John Monterosso 3 ,<br />
Russell Poldrack 4 , Edythe London 5<br />
1 UCLA, Los Angeles, CA, 2 Carnegie Mellon University,<br />
Pittsburgh, United States, 3 University of Southern<br />
Cali<strong>for</strong>nia, Los Angeles, CA, 4 University of Texas at<br />
Austin, Austin, United States, 5 Departments of Psychiatry<br />
and Molecular and Medical Pharmacology, University of<br />
Cali<strong>for</strong>nia Los Angel, Los Angeles, CA<br />
Common and distinct resting-state functional<br />
connectivity in monolingual and bilingual older adults<br />
Gigi Luk 1 , Charisa Ng 1 , Ellen Bialystok 2 , Fergus Craik 3 ,<br />
Cheryl Grady 3<br />
1 Rotman Research Institute at Baycrest, Toronto, ON,<br />
2 York University & Rotman Research Institute at Baycrest,<br />
Toronto, ON, 3 Rotman Research Institute at Baycrest &<br />
University of Toronto, Toronto, ON<br />
anterior cingulate glutamate levels differentially<br />
modulate BoLD response to cognitive conflict<br />
Liv Falkenberg 1 , Rene Westerhausen 1 , Karsten Specht 1,2 ,<br />
Kenneth Hugdahl 1,3<br />
1 Department of Biological and Medical Psychology,<br />
University of Bergen, Bergen, Norway, 2 Department of<br />
Clinical Engineering, Haukeland University Hospital,<br />
Bergen, Norway, 3 Division of Psychiatry, Haukeland<br />
University Hospital, Bergen, Norway<br />
Context-driven adaptation of human response<br />
conflict via the dorsomedial prefrontal cortex<br />
Guillermo Horga 1 , Pengwei Wang 2 , Tiago Maia 3 ,<br />
Zhishun Wang 2 , Rachel Marsh 3 , Bradley Peterson 4<br />
1 New York, United States, 2 Columbia University, New<br />
York , NY, 3 Columbia University, New York, NY, 4 Columbia<br />
University, New York , New York<br />
375<br />
376<br />
377<br />
378<br />
age effects in working memory processes and<br />
related neural activity<br />
Susanne Karch 1 , Gregor Leicht 2 , Ina Giegling 3 ,<br />
Jürgen Lutz 4 , Thomas Meindl 5 , Oliver Pogarell 3 ,<br />
Ulrich Hegerl 6 , Dan Rujescu 3 , Christoph Mulert 7<br />
1 Department of Psychiatry and Psychotherapy, Munich,<br />
Germany, 2 Department of Psychiatry, UKE Hamburg,<br />
Hamburg, Germany, 3 Department of Psychiatry, Munich,<br />
Germany, 4 Institute of Clinical Radiology, Ludwig-<br />
Maximilians-University, Munich, Germany, 5 University<br />
Munich, Munich, Germany, 6 Department of Psychiatry,<br />
Leipzig, Germany, 7 Department of Psychiatry,<br />
Hamburg, Germany<br />
Neural Correlates of the Volitional regulation<br />
of the Desire <strong>for</strong> Food<br />
Maurice Hollmann 1 , Lydia Hellrung 1 , Stefan Kabisch 2 ,<br />
Haiko Schlögl 2 , Michael Stumvoll 3,4 , Arno Villringer 1,5,6,7 ,<br />
Burkhard Pleger 1,5,6,7 , Annette Horstmann 1,5<br />
1 Dept. Neurology, Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany,<br />
2 Clinic of Endocrinology, University Hospital Leipzig,<br />
Leipzig, Germany, 3 IFB Adiposity Diseases, University<br />
of Leipzig, Leipzig, Germany, 4 Clinic of Endocrinology,<br />
University Hospital Leipzig, Leizig, Germany, 5 IFB<br />
Adiposity Diseases, University of Leipzig, Leizig, Germany,<br />
6 Clinic <strong>for</strong> Cognitive Neurology, University Hospital Leipzig,<br />
Leizig, Germany, 7 Mind & <strong>Brain</strong> Institute, Berlin School of<br />
Mind and <strong>Brain</strong>, Humboldt-University and Charité,<br />
Berlin, Germany<br />
Sex differences in the impact of early life stress<br />
on the neural processing of behavioral errors<br />
Amanda Elton 1 , Timothy Ely 2 , Clint Kilts 3 , Tanja Mletzko 2<br />
1 University of Arkansas <strong>for</strong> Medical Sciences, 2 Emory<br />
University, Atlanta, GA, 3 University of Arkansas <strong>for</strong><br />
Medical Sciences, Little Rock, AR<br />
The impact of age and education on verbal fluency:<br />
behavioral and fmrI correlates<br />
ROCHELE FONSECA 1 , Karine Marcotte 2 , Daniel Adrover-<br />
Roig 3 , Lilian Scherer 4 , Yannick Marsolais 5 , Tânia Netto 6 ,<br />
Denise Greca 7 , Eduardo Curty 8 , Romeu Domingues 9 ,<br />
Bernardo Bizzo 7 , Thomas Döring 10 , Jesus Landeira-<br />
Fernandez 11 , Emerson Gasparetto 12 , Yves Joanette 13 ,<br />
Ana Inés Ansaldo 14<br />
1 CRIUGM, Université de Montreal; <strong>Human</strong> Cognition,<br />
PUCRS, Porto Alegre, Brazil, 2 CRIUGM, Université de<br />
Montréal, Montreal, Canada, 3 Centre de Recherche de<br />
l’Institut Universitaire de Gériatrie de Montréal, Montreal,<br />
Canada , 4 Psycholinguistics Department, PUCRS, Porto<br />
Alegre, Brazil, 5 CRIUGM, UNiversité de Montreal, Montreal,<br />
Canada, 6 Federal University of Rio de Janeiro, UFRJ, Rio<br />
de Janeiro, Brazil, 7 Federal University of Rio de Janeiro<br />
(UFRJ), Rio de Janeiro, Brazil, 8 Clinics Multi-Imagem and<br />
CDPI - Clínica de Diagnóstico por Imagem, Rio de Janeiro,<br />
Brazil, 9 CDPI, Rio de janeiro, Brazil, 10 Federal University<br />
of Rio de Janeiro (UFRJ); CDPI, Rio de Janeiro, Brazil,<br />
11 Pontifical Catholic University of Rio de Janeiro (PUC-<br />
Rio), Rio de Janeiro, Brazil, 12 UFRJ / CDPI, Rio de Janeiro,<br />
Brazil, 13 Centre de recherche de l’Institut universitaire de<br />
gériatrie de Montréal and Université de Montréal,<br />
Montreal, Quebec, 14 CRIUGM, Montreal, Canada<br />
HBM 2011 >> <strong>abstracts</strong> 37<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Higher Cognitive Functions<br />
Executive Function, continued<br />
379<br />
380<br />
381<br />
382<br />
383<br />
384<br />
Neural correlates of the Simon effect and its reversal<br />
in Hedge and marsh tasks<br />
Ling Wang1 , Xiaokun Xu2 , Xiaolin Zhou3 1Division of Speech and Hearing Sciences, Faculty of<br />
Education, The University of Hong Kong, Hong Kong,<br />
China, 2Department of Biological Science and Medical<br />
Engineering, Southeast University, Nanjing, China,<br />
3Department of Psychology, Peking University,<br />
Beijing, China<br />
an event-related fmrI investigation of hand<br />
asymmetries in ideomotor processing<br />
Tobias Melcher 1 , Bernhard Hommel 2 , Dorina Winter 3 ,<br />
Roland Pfister 4 , Peter Dechent 5 , Oliver Gruber 6<br />
1 Center <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Georg August University,<br />
Goettingen, Germany, 2 Institute <strong>for</strong> Psychological<br />
Research & Leiden Institute <strong>for</strong> <strong>Brain</strong> and Cognition,<br />
Leiden University, Leiden, The Netherlands, 3 Department<br />
of Psychosomatic Medicine and Psychotherapy, Central<br />
Institute <strong>for</strong> Mental Health, Mannhei, Mannheim, Germany,<br />
4 University of Würzburg, Würzburg, Germany, 5 MR-<br />
Research in Neurology and Psychiatry, University Medical<br />
Center Göttingen, Goettingen, Germany, 6 Centre <strong>for</strong><br />
Translational Research in Systems Neuroscience and<br />
Clinical Psychiatry, Department of Psy, Goettingen,<br />
Germany<br />
Distinct dorsal and ventral lateral prefrontal networks<br />
evident in resting-state connectivity<br />
Robert Blumenfeld1 , Emi Nomura1 , Caterina Gratton1 ,<br />
Daniel Bliss1 , Mark D’Esposito1 1Helen Wills Neuroscience Institute, UC Berkeley,<br />
Berkeley, CA<br />
Learning and lapsing: Sequential effects during conflict<br />
processing<br />
Heike Eichele 1 , Hilde Juvodden 1 , Marius Worren 1 ,<br />
Jan Wessel 2 , Kenneth Hugdahl 3 , Markus Ullsperger 4 ,<br />
Tom Eichele 1<br />
1 University of Bergen, Bergen, Norway, 2 MPI <strong>for</strong><br />
neurological research, Cologne, Germany, 3 Division of<br />
Psychiatry and Bergen Mental Health Center, Haukeland<br />
University Hospital, Bergen, Norway, 4 MPI F. Neurological<br />
Research, Cologne, Germany<br />
Task-related Top-Down Control in response Switching<br />
from granger Causality mapping of fmrI Data<br />
Ian Cameron 1 , Mark D’Esposito 1 , Douglas Munoz 2<br />
1 Helen Wills Neuroscience Institute, UC Berkeley,<br />
Berkeley, CA, USA, 2 Centre <strong>for</strong> Neuroscience Studies and<br />
Department of Physiology, Queen’s University, Kingston,<br />
ON, Canada<br />
resting-state cognition is associated with executive<br />
network activation<br />
Diederick Stoffers 1 , Alexander Diaz 2 , Anouk den Braber 2 ,<br />
Dorret Boomsma 2 , Huibert Mansvelder 2 , Eco de Geus 2 ,<br />
Eus van Someren 1 , Klaus Linkenkaer-Hansen 2<br />
1 Netherlands Institute <strong>for</strong> Neuroscience, Amsterdam,<br />
The Netherlands, 2 Neuroscience Campus Amsterdam, VU<br />
University, Amsterdam, The Netherlands<br />
38 HBM 2011 >> <strong>abstracts</strong><br />
385<br />
386<br />
387<br />
388<br />
389<br />
390<br />
391<br />
392<br />
393<br />
effects of acute Nicotine on Neural activity<br />
During response Inhibition in Impulsive Individuals<br />
Alexandra Potter 1 , Emily Mazzulla 1 , Sarahjane Dube 1 ,<br />
Paul Newhouse 1<br />
1 University of Vermont, Vermont, USA<br />
Hippocampal-cortical connectivity during implicit<br />
and explicit encoding of visual in<strong>for</strong>mation<br />
Katherine Roe 1 , Philip Kohn 1 , Karen Berman 1<br />
1 NIMH,NIH, Bethesda, United States<br />
<strong>Brain</strong> networks underlying reward processing and<br />
inhibitory control in adolescence and adulthood<br />
Michael Hallquist 1 , Charles Geier 1 , Beatriz Luna 1<br />
1 University of Pittsburgh, Pittsburgh, PA<br />
The role of dopaminergic variation in the prefrontal<br />
cortex on proactive control<br />
Sara Jahfari1 , Frederick Verbruggen2 , Lorenza Colzato3 ,<br />
K. Ridderinkhof1 , Birte Forstmann1 1University of Amsterdam, Amsterdam, Netherlands,<br />
2 3 University of Exeter, Exeter, England, University of Leiden,<br />
Leiden, Netherlands<br />
Cellular activity in the frontal lobe during<br />
discrimination of emotional faces and vocalizations<br />
Maria Diehl 1 , Mark Diltz 1 , Lizabeth Romanski 1<br />
1 University of Rochester, Rochester, NY<br />
The response inhibition load dependent activity:<br />
a functional mrI study<br />
Hisakazu Yanaka 1,2 , Daisuke Saito 1,2 , Takanori Kochiyama 3 ,<br />
Takeshi Fujii 2 , Hirotaka Kosaka 4,2 , Taisuke Shimada 5,2 ,<br />
Hidehiko Okazawa 2,1<br />
1 Research and Education Program <strong>for</strong> Life Science,<br />
University of Fukui, Fukui, Japan, 2 Biomedical Imaging<br />
Research Center, University of Fukui, Fukui, Japan,<br />
3 <strong>Brain</strong> Activity Imaging Center, ATR-Promotions, Advanced<br />
Telecommunications Research Institute, Kyoto, Japan,<br />
4 Department of Neuropsychiatry, Faculty of Medical<br />
Sciences, University of Fukui, Fukui, Fukui, 5 Faculty of<br />
Engineering, University of Fukui, Fukui, Japan<br />
<strong>Brain</strong> mechanisms associated with meditation-Induced<br />
regulation of anxiety<br />
Fadel Zeidan 1 , John McHaffie 1 , Robert Kraft 1 ,<br />
Katherine Martucci 1 , Robert Coghill 2<br />
1 Wake Forest University School of Medicine,<br />
Winston-Salem, United States, 2 Wake Forest University<br />
School of Medicine, Winston-Salem, United States<br />
Toward a Functional Characterization of Cognitive<br />
Control Networks<br />
Frederick Ezekiel 1 , J Bruce Morton 2<br />
1 University Of Western Ontario, Canada,<br />
2 University of Western Ontario, London, Ontario<br />
remembering and ignoring faces: a real-life<br />
alternative to the Stroop?<br />
Stefanie Biehl 1 , Tim Hahn 1 , Thomas Dresler 1 ,<br />
Claudia Saathoff 1 , Christian Jacob 1 , Jürgen Deckert 1 ,<br />
Martin Herrmann 1<br />
1 Department of Psychiatry, University of Würzburg,<br />
Würzburg, Germany
Higher Cognitive Functions<br />
Executive Function, continued<br />
394<br />
395<br />
396<br />
397<br />
398<br />
399<br />
400<br />
401<br />
exploring the diversity of cognitive control<br />
phenomena via brain-behaviour correlations<br />
Eva Mennigen 1 , Sarah Rodehacke 1 , Thomas Hübner 1 ,<br />
Kathrin Müller 1 , Stephan Ripke 1 , Dirk Schmidt 1 ,<br />
Hannes Ruge 1 , Thomas Goschke 1 , Michael Smolka 1<br />
1 Technische Universität Dresden, Dresden, Germany<br />
Imitation vs. spatial compatibility: Similar activation<br />
levels with distinct functional connectivity<br />
Katy Cross 1 , Marco Iacoboni 2<br />
1 UCLA Neuroscience Interdepartmental Graduate<br />
Program, UCLA Medical Scientist Training Program,<br />
Los Angeles, CA, 2 UCLA <strong>Brain</strong> <strong>Mapping</strong> Center,<br />
Los Angeles, CA<br />
FmrI Investigation of Interactions between Impulse<br />
Control and emotional Context<br />
Matthew Brown 1 , Serdar Dursun 1 , Alan Wilman 1 ,<br />
Andrew Greenshaw 1<br />
1 University of Alberta, Edmonton, AB, Canada<br />
Switch and restart Costs in the Bilingual <strong>Brain</strong><br />
Ana Sanjuán 1 , Aina Rodríguez 1 , Noelia Ventura-Campos 2 ,<br />
Patricia Román 3 , Albert Costa 4 , Maria Antònia Parcet 1 ,<br />
César Ávila Rivera 2<br />
1 Universitat Jaume I, Castellón, Spain, 2 Universitat Jaume<br />
I, Castellon, Spain, 3 Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences Minerva Research<br />
Group, Leipzig, Germany, 4 Pompeu Fabra University,<br />
Barcelona, Spain<br />
modulating effect of ComT genotype on the<br />
<strong>Brain</strong> regions underlying Inhibition<br />
Mathieu Jaspar1 , Julien Grandjean1 , Eric Salmon2 ,<br />
Pierre Maquet2 , Fabienne Collette1 1Cyclotron Research Centre and Cognitive and Behavioral<br />
Neuroscience Centre, University of Liège, Liège, Belgium,<br />
2Cyclotron Research Centre, University of Liège, Liège,<br />
Belgium<br />
musical and bilingual experience on neuromagnetic<br />
activity during cognitive control<br />
Takako Fujioka 1 , Ellen Bialystok 2 , Fergus Craik 1 ,<br />
Anne-Marie De Pape 3,4 , Laurel Trainor 3,1 , Bernhard Ross 1<br />
1 Rotman Research Institute at Baycrest, Toronto, Ontario,<br />
2 York University & Rotman Research Institute at Baycrest,<br />
Toronto, Ontario, 3 McMaster University, Hamilton, Ontario,<br />
4 York University, Toronto, Ontario, Canada<br />
The posterior cingulate BoLD duty cycle during<br />
meditation predicts attentional skills<br />
Giuseppe Pagnoni 1<br />
1 University of Modena and Reggio Emilia, Modena, Italy<br />
Neural Basis of Semantic and Syntactic Interference<br />
resolution in Sentence Comprehension<br />
Yi Guo1 , Randi Martin1 , A Hamilton1 , Julie Van Dyke2 ,<br />
Yingying Tan1 1 2 Rice University, Houston, TX, Haskins Laboratories,<br />
New Haven, CT<br />
402<br />
403<br />
404<br />
405<br />
406<br />
407<br />
408<br />
Neural correlates of per<strong>for</strong>mance monitoring while<br />
using a brain-computer interface (BCI)<br />
Margaux Perrin 1,2 , Emmanuel Maby 3,2 , Romain Bouet 1,2,4 ,<br />
Olivier Bertrand 3,2 , Jérémie Mattout 3,2<br />
1 INSERM U1028, CNRS UMR5292, Lyon Neuroscience<br />
Research Center, <strong>Brain</strong> Dynamics and Cognition<br />
Team, Lyon, France, 2 University Lyon 1, Lyon, France,<br />
3 INSERM, U821, <strong>Brain</strong> Dynamics And Cognition, Lyon,<br />
France, 4 Neurological hospital, functional neurology and<br />
epileptology dept, Lyon, France<br />
Correlation between frontal cortical thickness<br />
and executive functions in patients with HIV+<br />
ROCHELE FONSECA 1 , Tânia Netto 2 , Thomas Döring 3 ,<br />
Denise Greca 4 , Bernardo Bizzo 4 , Rafael Ferracini 5 ,<br />
Emerson Gasparetto 6<br />
1 <strong>Human</strong> Cognition, PUCRS, Porto Alegre, Brazil, 2 Federal<br />
University of Rio de Janeiro, UFRJ, Rio de Janeiro, Brazil,<br />
3 Federal University of Rio de Janeiro (UFRJ); CDPI, Rio<br />
de Janeiro, Brazil, 4 Federal University of Rio de Janeiro<br />
(UFRJ), Rio de Janeiro, Brazil, 5 Federal University of Rio<br />
de Janeiro, Rio de Janeiro, Brazil, 6 UFRJ / CDPI, Rio de<br />
Janeiro, Brazil<br />
Set-maintenance fronto-striatal activity depends<br />
on the number of trials since the last set-shift<br />
Jean-Sebastien Provost 1 , France Simard 1 , Oury Monchi 1<br />
1 University of Montreal, Montreal, Canada<br />
Neural correlates of alcohol-induced disinhibition<br />
Michael Smolka 1 , Gabriela Gan 1 , Michael Marxen 1 , Andrea<br />
Kobiella 1 , Christine Zimmermann 1 , Maximilian Pilhatsch 1 ,<br />
Eva Mennigen 1 , Ulrich Zimmermann 1<br />
1 Technische Universität Dresden, Dresden, Germany<br />
Non-meditators have more brain activation than<br />
regular meditators in an attentional task<br />
Elisa Kozasa 1,2 , Joao Sato 3 , Shirley Lacerda 4 , Maria<br />
Barreiros 5 , Joao Radvany 6 , Tamara Russell 7 , Liana<br />
Sanches 1 , Edson Amaro 8 , Luiz Mello 9<br />
1 Instituto do Cerebro-Instituto Israelita de Ensino e<br />
Pesquisa Albert Einstein, Sao Paulo, Brazil, 2 Dept of<br />
Psychobiology- Universidade Federal de Sao Paulo, Sao<br />
Paulo, Brazil, 3 Universidade Federal do ABC, Sao Paulo,<br />
Brazil, 4 Instituto do Cerebro-Instituto Israelita de Ensino<br />
e Pesquisa Albert Einstein, Sao Paulo, SP, 5 Instituto do<br />
Cerebro- Instituto Israelita de Ensino e Pesquisa Albert<br />
Einstein, Sao Paulo, Brazil, 6 Hospital Israelita Albert<br />
Einstein, Sao Paulo, Brazil, 7 6King’s College London,<br />
Institute of Psychiatry, London, United Kingdom, 8 University<br />
Of Sao Paulo, Sao Paulo, SP, Brazil, 9 Dept of Physiology-<br />
Universidade Federal de Sao Paulo, Sao Paulo, Brazil<br />
Improving the Definition of multiple Demand Cortex<br />
Ben Crittenden 1,2 , John Duncan 3 , Russell Thompson 3<br />
1 MRC CBU, 2 University of Cambridge, Cambridge,<br />
United Kingdom, 3 MRC Cognition and <strong>Brain</strong> Sciences Unit,<br />
Cambridge, United Kingdom<br />
Withdrawn<br />
HBM 2011 >> <strong>abstracts</strong> 39<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Higher Cognitive Functions<br />
Executive Function, continued<br />
409<br />
410<br />
411<br />
412<br />
413<br />
Source localization of cognitive inhibition in college<br />
students with schizotypal traits<br />
Kyoung-Mi Jang 1 , Sung Hwa Oh 2 , Myung-Sun Kim 2<br />
1 Department of Psychology, Sungshin Wommen’s<br />
University, seoul, Korea,Republic of, 2 Department of<br />
Psychology, Sungshin Women’s University, Seoul,<br />
Korea, Republic of<br />
Voluntary selection in adult patients with aDHD:<br />
a single trial study<br />
Susanne Karch 1 , Julia Völker 1 , Matthias Ertl 2 ,<br />
Tobias Thalmeier 3 , Gregor Leicht 4 , Kristina Hennig-Fast 5 ,<br />
Thomas Meindl 6 , Oliver Pogarell 7 , Christoph Mulert 8<br />
1 Department of Psychiatry and Psychotherapy, Munich,<br />
Germany, 2 University Medical Center Hamburg-Eppendorf,<br />
Department of Psychiatry and Psychotherapy, Hamburg,<br />
Germany, 3 Department of Psychiatry and Psychotherapy,<br />
Ludwig-Maximilians-University Munich, Munich, Germany,<br />
4 Department of Psychiatry, UKE Hamburg, Hamburg,<br />
Germany, 5 Department of Psychiatry and Psychotherapy,<br />
Ludwig-Maximilian University, Munich, Germany,<br />
6 University Munich, Munich, Germany, 7 Department of<br />
Psychiatry, Munich, Germany, 8 Department of Psychiatry,<br />
Hamburg, Germany<br />
Individual differences in behavioural and brain<br />
correlates of selective attention to pain-related<br />
in<strong>for</strong>mation in healthy individuals<br />
Adina Mincic 1,2<br />
1 Toronto Western Research Institute, Toronto, Canada,<br />
2 University of Oradea, Oradea, Romania<br />
Functional neuroimaging of attentional set-shifting in<br />
children born preterm<br />
Ilyse Lax 1 , Kathleen Mak-Fan 2 , Wayne Lee 2 , Sarah Lin Yao 2 ,<br />
Elizabeth Donner 2 , Margot Taylor 2<br />
1 University of Toronto, Toronto Ontario, 2 The Hospital <strong>for</strong><br />
Sick Children, Toronto, Ontario<br />
Cognitive Behavioral Therapy increases prefrontal<br />
activity in patients with chronic pain<br />
Karin Jensen 1 , Rikard Wicksell 2 , Mike Kemani 2 ,<br />
Julia Merle 3 , Diana Kadetoff 2 , Eva Kosek 2 , Martin Ingvar 2<br />
1 Massachusetts General Hospital, Charlestown, United<br />
States, 2 Department of Clinical Neuroscience, Karolinska<br />
Institute, Stockholm, Sweden, 3 Charité, Berlin, Germany<br />
Higher Cognitive Functions<br />
Imagery<br />
414<br />
Perspective Taking modulates Intersubject<br />
Synchronization of <strong>Brain</strong> activity during Natural<br />
Viewing<br />
Juha Lahnakoski 1,2 , Iiro Jääskeläinen 1 , Juha Salmi 1 ,<br />
Riitta Hari 3 , Mikko Sams 1 , Lauri Nummenmaa 1,3,4<br />
1 Mind and <strong>Brain</strong> Laboratory, BECS, Aalto University School<br />
of Science, Espoo, Finland, 2 Advanced Magnetic Imaging<br />
Centre, Aalto University School of Science, Espoo, Finland,<br />
3 <strong>Brain</strong> Research Unit, Low Temperature Laboratory, Aalto<br />
University School of Science, Espoo, Finland, 4 Turku PET<br />
centre, Turku, Finland<br />
40 HBM 2011 >> <strong>abstracts</strong><br />
415<br />
416<br />
417<br />
418<br />
419<br />
420<br />
421<br />
High resolution Functional mapping of Primary<br />
motor and Somatosensory Cortex in <strong>Human</strong>s at 7 T<br />
Robert Trampel 1 , Andreas Schäfer 1 , Robin Heidemann 1 ,<br />
Dimo Ivanov 1 , Gabriele Lohmann 1 , Stefan Geyer 1 ,<br />
Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany<br />
Individual differences in neuronal correlates of<br />
imagined and perceived tunes<br />
Sibylle Herholz 1,2,3 , Andrea Halpern 4 , Robert Zatorre 1,2,3<br />
1 Montreal Neurological Institute, McGill University,<br />
Montreal, QC, Canada, 2 International Laboratory <strong>for</strong><br />
<strong>Brain</strong>, Music and Sound Research (BRAMS), Montreal,<br />
QC, Canada, 3 Centre <strong>for</strong> Interdisciplinary Research in<br />
Music Media and Technology (CIRMMT), Montreal, QC,<br />
Canada, 4 Department of Psychology, Bucknell University,<br />
Lewisburg, PA<br />
remembering by imagining? auditory short-term<br />
memory and imagery use different neural mechanisms<br />
Annika Linke 1 , Rhodri Cusack 2<br />
1 MRC Cognition And <strong>Brain</strong> Sciences Unit, Cambridge,<br />
United Kingdom, 2 MRC CBU, Cambridge, United Kingdom<br />
Similarity of patterns of neural activity during<br />
perception and vivid remembering of short movie cl<br />
Bradley Buchsbaum 1 , Herve Abdi 2 , Candice Fang 1 ,<br />
Sabrina Lemire-Rodger 1<br />
1 Rotman Research Institute, Toronto, Canada,<br />
2 University of Texas, Dallas, Dallas, TX<br />
Does motor imagery share neural networks with<br />
executed movement: a multivariate fmrI analysis<br />
Nikhil Sharma 1 , Simon Jones 2 , Jean-Claude Baron 3<br />
1 NINDS, Bethesda, United States, 2 Department of Clinical<br />
Neurosciences. University of Cambridge, Cambridge,<br />
United Kingdom, 3 University of Cambridge Department of<br />
Clinical Neurosciences/Neurology Unit, Cambridge,<br />
United Kingdom<br />
Calibrating consciousness: using graded sedation<br />
to test paradigms <strong>for</strong> the vegetative state<br />
Ram Adapa 1,2 , David Menon 2 , Adrian Owen 3 ,<br />
Anthony Absalom 4<br />
1 Division of Anaesthesia, Cambridge, United Kingdom,<br />
2 University of Cambridge, Cambridge, United Kingdom,<br />
3 Cognition and <strong>Brain</strong> Sciences Unit, Cambridge, United<br />
Kingdom, 4 Univeristy Medical Center, Groningen,<br />
Netherlands<br />
Inter-subject variability in brain activity during<br />
motor imagery<br />
Mathieu Grégoire 1,2 , Sébastien Hétu 1,2 , Fanny Eugène 2 ,<br />
Pierre-Emmanuel Michon 2 , Philip Jackson 1,2<br />
1 Université Laval, Québec, Canada, 2 Centre<br />
Interdisciplinaire de Recherche en Réadaptation et<br />
Intégration Sociale, Québec, Canada
Higher Cognitive Functions<br />
Imagery, continued<br />
422<br />
423<br />
424<br />
425<br />
426<br />
427<br />
The functional role of the primary auditory cortex<br />
during spontaneous auditory imagery<br />
Jihoon Oh 1 , Jae-Hyung Kwon 2 , In-Seong Kim 3 ,<br />
Bo-Sung Yang 4 , JAESEUNG JEONG 5<br />
1 Catholic Medical College of Korea, Seoul, South Korea,<br />
2 Korea Advanced Institute of Science and Technology<br />
(KAIST), Daejeon, Korea, Republic of, 3 SIEMENS Korea,<br />
Seoul, Korea, Republic of, 4 Dae Jeon St. Mary’s Hospital,<br />
Daejeon, Korea, Republic of, 5 KAIST, Daejeon<br />
Decoding <strong>Brain</strong> activity during Imagery mental Tasks:<br />
from <strong>Brain</strong> mapping to <strong>Brain</strong> Computer Interface<br />
Jlenia Toppi 1 , Laura Astolfi 2 , Serenella Salinari 3 ,<br />
Fabio Babiloni 4 , Febo Cincotti 5 , Donatella Mattia 6<br />
1 University of Rome ‘Sapienza’, 2 Department of Computer<br />
Science and Systems, University “Sapienza”, Rome, Italy,<br />
3 University of Rome ‘Sapienza’, Rome, Italy, 4 Department<br />
of Physiology and Pharmacology, University “ Sapienza”,<br />
Rome, Italy, 5 IRCCS Fondazione Santa Lucia, Rome, Italy,<br />
6 IRCCS “Fondazione Santa Lucia”, Rome, Italy<br />
Sustained attention without Input Stimuli evokes<br />
activity in the Somatosensory Cortex: an fmrI Study<br />
Clemens Bauer 1 , José Díaz 2 , Erick Pasaye 1 , Pablo<br />
Vázquez 1 , Luis Concha 1 , Fernando Barrios 1<br />
1 Instituto de Neurobiología, Universidad Nacional<br />
Autónoma de México, Querétaro, México, 2 Facultad de<br />
Medicina. Universidad Nacional Autónoma de México,<br />
México City, México<br />
Dissociation of the neural basis <strong>for</strong> intensity and<br />
emotion in olfactory imagery: an fmrI study<br />
Atsushi Miyagawa 1 , Yoko Mano 2 , Toshimune Kambara 3 ,<br />
Makoto Miyauchi 4 , Motoaki Sugiura 4 , Ryuta Kawashima 5<br />
1 Tohoku University School of Medicine, Sendai, Japan,<br />
2 Department of Psychology, Northwestern University,<br />
Evanston, IL, 3 IDAC, Tohoku University, JSPS, Tokyo,<br />
Japan, 4 IDAC, Tohoku University, Sendai, Japan, 5 SAIRC,<br />
IDAC, Tohoku University, Sendai, Japan<br />
Inhibition of the motor command during motor<br />
imagery: a meg study with a tetraplegic patient<br />
Franck Di Rienzo 1 , Aymeric Guillot 2 , Claude Delpuech 3 ,<br />
Murielle Grangeon 4 , Gilles Rode 5 , Christian Collet 6<br />
1 University Claude Bernard Lyon 1 EA 647 Mental<br />
Processes and Motor Per<strong>for</strong>mance, F69622 Villeurbanne<br />
Cedex, France, 2 University Claude Bernard Lyon 1 EA<br />
647 Mental Processes and Motor Per<strong>for</strong>mance, F-69622<br />
Villeurbanne Cedex, France, 3 INSERM U821 <strong>Brain</strong><br />
Dynamics and Cognition, F-69675 Bron Cedex, France,<br />
4 University Claude Bernard EA 647 Mental Processes and<br />
Motor Per<strong>for</strong>mance, F-69622 Villeurbanne Cedex, France,<br />
5 Henri Gabrielle Hospital – Neurological rehabilitation,<br />
F69565 Saint Genis Laval, France, 6 EA 647 - Mental<br />
Processes and Motor Per<strong>for</strong>mance, F-69622 Villeurbanne<br />
Cedex, France<br />
effects of perspective and modality content of motor<br />
imagery on somatosensory excitability<br />
Julien Voisin1 , Catherine Mercier1 , Philip Jackson2 ,<br />
Carol Richards1 , Francine Malouin1 1CIRRIS, Dt réadaptation, U Laval, Québec, Canada,<br />
2CIRRIS, CRULRG, École de Psychologie, U Laval,<br />
Quebec, Canada<br />
428<br />
429<br />
motor area activity during mental rotation of Hand<br />
and object : a NIrS Study<br />
Natsumi Tanaka 1 , Sotaro Shimada 2<br />
1 Meiji University, Japan, 2 Meiji University, Japan<br />
overview of DTI and Tractography – established and<br />
emerging clinical utilization in pediatric CNS<br />
Muhammad Naeem Khan1 1IWK health centre, Dalhousie University, Halifax,<br />
Nova Scotia<br />
Higher Cognitive Functions<br />
Music<br />
430** musical practice induces hippocampal plasticity:<br />
a VBm study<br />
Mathilde Groussard1 , Fausto Viader1 , Brigitte Landeau1 ,<br />
Béatrice Desgranges1 , Francis Eustache1 , Hervé Platel1 1Inserm-EPHE- Université de Caen Basse Normandie -<br />
U923, Caen, France<br />
431*<br />
432<br />
433<br />
434<br />
435<br />
436<br />
artificial grammar Learning in music: The role of<br />
White matter in the right Hemisphere, (o-m2)<br />
Psyche Loui1 , Gottfried Schlaug2 1 2 Harvard Medical School, Harvard Medical School,<br />
Boston, MA<br />
music-specific responses within the temporal lobe<br />
Arafat Angulo-Perkins 1 , William Aubé 2,3 , Isabelle Peretz 2,3 ,<br />
Fernando Barrios 1 , Jorge Armony 2,4 , Luis Concha 1<br />
1 Universidad Nacional Autonoma de Mexico, Queretaro,<br />
Mexico, 2 International Laboratory <strong>for</strong> <strong>Brain</strong>, Music<br />
and Sound Research (BRAMS), Montréal, Canada,<br />
3 Department of Psychology, Université de Montréal,<br />
Montréal, Canada, 4 Douglas Institute and Department of<br />
Psychiatry, McGill University, Montréal, Canada<br />
Instrument dependent plasticity and associated<br />
activations in trumpet players compared to pianists<br />
Benjamin Gebel 1 , Evangelia Kaza 1 , Christoph Braun 2 ,<br />
Martin Lotze 1<br />
1 Functional Imaging Unit University of Greifswald,<br />
Greifswald, Germany, 2 Institute <strong>for</strong> Behavioral Psychology,<br />
University of Tübingen, Tübingen, Germany<br />
Perception and Processing of modern and classical<br />
Chamber music in a String Quartet<br />
Gregor Kasprian 1 , Veronika Schöpf 2 , Ronald Sladky 3 ,<br />
Ewald Moser 4 , Daniela Prayer 1 , Christian Windischberger 4<br />
1 Department of Radiology, Medical University of Vienna,<br />
Vienna, Austria, 2 Department of Radiology and MR Centre<br />
of Excellence, Medical University of Vienna, Vienna,<br />
Austria, 3 MR Centre Of Excellence, Medical University of<br />
Vienna, Vienna, Austria, 4 MR Centre of Excellence and<br />
Centre <strong>for</strong> Medical Physics, Medical University of Vienna,<br />
Vienna, Austria<br />
Withdrawn<br />
a multimodal approach: grey matter differences in<br />
early and late-trained musicians<br />
Jennifer Bailey 1<br />
1 Concordia University, Montreal, Canada<br />
HBM 2011 >> <strong>abstracts</strong> 41<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Higher Cognitive Functions<br />
Music, continued<br />
437<br />
438<br />
439<br />
440<br />
441<br />
442<br />
443<br />
gamma oscillatory network across auditory and<br />
sensorimotor systems during metronome listening<br />
Takako Fujioka 1 , Laurel Trainor 2,1 , Edward Large 3 ,<br />
Bernhard Ross 1<br />
1 Rotman Research Institute, Baycrest, Toronto, Ontario,<br />
Canada, 2 McMaster University, Hamlton, Ontario, Canada,<br />
3 Florida Atlantic University, Boca Raton, FL<br />
Withdrawn<br />
electrophysiological marker of musical pitch<br />
violations in congenital amusia<br />
Nicolas Robitaille 1 , Sean Hutchins 1 , Patricia Moreau 1 ,<br />
Isabelle Peretz 1<br />
1 International Laboratory <strong>for</strong> <strong>Brain</strong>, Music and Sound<br />
(BRAMS), Montreal, Canada<br />
<strong>Brain</strong> regions activated by familiar and unfamiliar<br />
music: a meg study<br />
Naznin Virji-Babul 1 , Alexander Moiseev 2 , Tongxin Feng 2 ,<br />
Kimberley Watt 3 , Nadya Moiseeva 1 , Minna Huotilainen 4<br />
1 University of British Columbia, Vancouver, British<br />
Columbia, 2 Down Syndrome Research Foundation,<br />
Burnaby, British Columbia, 3 Simon Fraser University,<br />
Burnaby, British Columbia, 4 Finnish Center of Excellence<br />
in Interdisciplinary Music Research, Helsinki, Finland<br />
The effect of music on the resting State Network:<br />
The role of the reticular activating System (raS)<br />
Benjamin Kay 1 , Mark DiFrancesco 2 , Christi Banks 3 ,<br />
Scott Holland 2 , Jerzy Szaflarski 4,2<br />
1 University of Cincinnati, Cincinnati, OH, 2 Pediatric<br />
Neuroimaging Research Consortium, Cincinnati, OH,<br />
3 University of Cincinnati Academic Health Center,<br />
Cincinnati, OH, 4 Center <strong>for</strong> Imaging Research,<br />
Cincinnati, OH<br />
absence of mismatch negativity in temporal<br />
envelope perception of cochlear-implant users<br />
Lydia Timm 1 , Deepashri Agrawal 1 , Reinhard Dengler 1 ,<br />
Matthias Wittfoth 1,2<br />
1 Department of Neurology, Hannover Medical School,<br />
Hannover, Germany, 2 NICA (NeuroImaging and Clinical<br />
Applications), Hannover, Germany<br />
Hearing two objects at once: Infants show an objectrelated<br />
erP response to two simultaneous sounds<br />
Nicole Folland 1 , Blake Butler 1 , Nicholas Smith 2 ,<br />
Laurel Trainor 3<br />
1 McMaster University, Hamilton, Canada, 2 Boys Town<br />
National Research Hospital, Omaha, United States,<br />
3 McMaster University, Hamlton, Ontario<br />
42 HBM 2011 >> <strong>abstracts</strong><br />
Imaging Methods<br />
444*<br />
445<br />
446<br />
447<br />
448<br />
449<br />
Anatomical MRI<br />
Dependence of T2* relaxation of brain white matter<br />
on B0 orientation, (o-m1)<br />
Jongho Lee 1,2 , Peter van Gelderen 2 , Li-Wei Kuo 2 ,<br />
Hellmut Merkle 2 , Afonso Silva 3 , Jeff Duyn 2<br />
1 Department of Radiology, University of Pennsylvania,<br />
Philadelphia, PA, 2 Advanced MRI Section, LFMI, NINDS,<br />
National Institutes of Health, Bethesda, MD, 3 CMU, LFMI,<br />
NINDS, National Institutes of Health, Bethesda, MD<br />
Sex differences in brain structure in opposite<br />
sex twin pairs<br />
Anouk den Braber 1 , Dennis van ‘t Ent 1 , Dorret Boomsma 1 ,<br />
Danielle Cath 2 , de Geus Eco 1<br />
1 VU University, Amsterdam, Netherlands,<br />
2 Utrecht University, Utrecht, Netherlands<br />
Comparison of registration strategies in multi-center<br />
mrI studies of neurodegeneration<br />
Artur Marchewka 1,2 , ferath Kherif 1 , Melissa Saenz 1 ,<br />
Krueger Gunnar 3 , Anna Grabowska 2 , Richard Frackowiak 1 ,<br />
Bogdan Draganski 1<br />
1 Laboratoire des neurosciences cliniques - LREN,<br />
Lausanne, Switzerland, 2 Nencki Institute of Experimental<br />
Biology, Warsaw, Poland, 3 Advanced Clinical Imaging<br />
Technology, Siemens Medical Solutions–Centre d’Imagerie<br />
BioMedicale (CIBM), Lausanne, Switzerland<br />
Iron, Ferritin, myelin, and mr-Contrast: Proton-Induced<br />
X-ray emission maps of Cortical Iron Content<br />
Carsten Stueber 1 , Markus Morawski 2 , Katja Reimann 1 ,<br />
Nirav Barapatre 3 , Stefan Geyer 4 , Robert Turner 4<br />
1 Dept. of Neurophysics, Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany,<br />
2 Paul-Flechsig-Institute of <strong>Brain</strong> Research, University of<br />
Leipzig, Leipzig, Germany, 3 Institute of Nuclear Solid State<br />
Physics, University of Leipzig, Leipzig, Germany, 4 Dept. of<br />
Neurophysics, Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive<br />
and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
Imaging electrical Properties of the <strong>Human</strong> <strong>Brain</strong><br />
by B1-mapping at 7T<br />
Xiaotong Zhang 1 , Pierre-Francois van de Moortele 2 ,<br />
Sebastian Schmitter 2 , Bin He 1<br />
1 Department of Biomedical Engineering, University<br />
of Minnesota, Minneapolis, MN, 2 Center <strong>for</strong> Magnetic<br />
Resonance Research, University of Minnesota,<br />
Minneapolis, MN<br />
Differences and similarities between morphological<br />
and anatomical networks<br />
Lester Melie-García 1 , Gretel Sanabria-Diaz 1 , Yasser Iturria-<br />
Medina 1 , Marlis Ontivero-Ortega 1 , Pedro Valdes-Sosa 1<br />
1 Cuban Neuroscience Center, Havana, Cuba
Imaging Methods<br />
Anatomical MRI, continued<br />
450<br />
451<br />
452<br />
453<br />
454<br />
effects of a common variant in gSK3β on Hippocampal<br />
Volume in Healthy <strong>Human</strong> Volunteers<br />
Beth Verchinski 1 , Becky Inkster 2 , Catherine Gambale 1 ,<br />
Thomas Nichols 3 , Paul Matthews 4 , Brad Zoltick 1 , Fengyu<br />
Zhang 1 , Aaron Goldman 1 , Venkata Mattay 1 , Daniel<br />
Weinberger 1 , Heike Tost 5<br />
1 National Institute of Mental Health, National Institutes of<br />
Health, Bethesda, MD, 2 Centre <strong>for</strong> Neuroscience, Imperial<br />
College, London, United Kingdom, 3 University of Warwick,<br />
Dept. of Statistics, Coventry, United Kingdom, 4 Imperial<br />
College London, London, United Kingdom, 5 Central<br />
Institute of Mental Health (CIMH) Mannheim, Germany,<br />
Mannheim, Germany<br />
analysis of automated methods to spatial<br />
normalisation of lesioned brains<br />
Pablo Ripollés Vidal 1 , Josep Marco-Pallarés 2,3 ,<br />
Júlia Miró Lladó 4,3,5 , Ruth de Diego-Balaguer 1,5,6 ,<br />
Mercè Falip 4 , Montserrat Juncadella 4 , Fernando Rubio 4 ,<br />
Antoni Rodríguez-Fornells 1,5,6<br />
1 Cognition and <strong>Brain</strong> Plasticity Group (IDIBELL), Barcelona,<br />
Spain, 2 Dept. of Basic Psychology, Campus Bellvitge,<br />
University of Barcelona, Barcelona, Spain, 3 Cognition and<br />
<strong>Brain</strong> Plasticity Group [Bellvitge Biomedical Research<br />
Institute-] IDIBELL, Barcelona, Spain, 4 Neurology Section,<br />
Hospital Universitari de Bellvitge (HUB), Barcelona, Spain,<br />
5 Dept. of Basic Psychology, Campus Bellvitge, University<br />
of Barcelona, Barcelona, Spain, 6 Catalan Institution <strong>for</strong><br />
Research and Advanced Studies, ICREA, Barcelona, Spain<br />
Structural cerebral correlates of impulsiveness in<br />
healthy subjects<br />
Christina Schilling 1 , Simone Kühn 2 , Alexander<br />
Romanowski 3 , Florian Schubert 4 , Andreas Heinz 5 ,<br />
Norbert Kathmann 6 , Juergen Gallinat 7<br />
1 Charité University Medicine, Berlin; Germany,<br />
2 Department of Experimental Psychology and Ghent<br />
Institute <strong>for</strong> Functional and Metabolic Imaging,<br />
Gent, Belgium, 3 Charite Berlin, Berlin; Germany,<br />
4 Physikalisch-Technische Bundesanstalt, Berlin,<br />
Germany, 5 Department of Psychiatry and Psychotherapy,<br />
Charité – Universitätsmedizin Berlin, Berlin, Germany,<br />
6 Department of Psychology, Humboldt-Universität zu<br />
Berlin, Berlin, Germany, 7 Charite Universitaetsmedizin<br />
Berlin, Berlin, Germany<br />
Training-Induced Neural Plasticity in golf Novices<br />
Ladina Bezzola 1 , Susan Mérillat -(Koeneke) ,2 , Lutz Jancke 1<br />
1 University of Zurich, Department Neuropsychology,<br />
Zurich, Switzerland, 2 University of Zurich, The International<br />
Normal Aging and Plasticity Imaging Center INAPIC,<br />
Zurich, Switzerland<br />
Structural and Functional Treatment effects of<br />
Cognitive Behavioral Therapy in Chronic Pain<br />
Magdalena Naylor 1 , Michael Krauthamer 1 , David<br />
Seminowicz 2 , Julie Dumas 1 , John Mantegna 1 , Hayley<br />
Perelman 1 , Elizabeth McCallion 1 , Christopher Filippi 1 ,<br />
Paul Newhouse 1<br />
1 University of Vermont, Burlington, VT, USA,<br />
2 University of Maryland Baltimore, Baltimore, MD, USA<br />
455<br />
456<br />
457<br />
458<br />
459<br />
<strong>Brain</strong> Size estimates: methods matter<br />
Anderson Winkler 1,2 , Margaret Brumbaugh 2 ,<br />
Peter Kochunov 3 , Lauren Lombardo 2 , John Blangero 4 ,<br />
Ravindranath Duggirala 5 , Peter Fox 6 , David Glahn 7<br />
1 Yale University, New Haven, CT, 2 The Institute of Living,<br />
Hart<strong>for</strong>d, CT, 3 2Research Imaging Institute, University of<br />
Texas Health Science Center, San Antonio, TX, 4 Southwest<br />
Foundation <strong>for</strong> biomedical research, san antonio, TX,<br />
5 Department of Genetics, Southwest Foundation <strong>for</strong><br />
Biomedical Research, San Antonio, TX, 6 Research Imaging<br />
Center, UT Health Science Center, San Antonio, TX,<br />
7 Yale University, Hart<strong>for</strong>d, CT<br />
robust fusion of Jacobian maps <strong>for</strong><br />
De<strong>for</strong>mation-Based morphometry<br />
Nicolas Guizard 1 , Pierrick Coupé 1 , Vladmir Fonov 1 ,<br />
Douglas Arnold 1 , D. Louis Collins 1<br />
1 McConnell <strong>Brain</strong> Imaging Centre, Montreal Neurological<br />
Institute, Montreal, Canada<br />
mrI T2* relaxation and Frequency Contrast<br />
Changes in Cuprizone-Fed mice<br />
Jongho Lee 1 , Bing Yao 2 , Sara Palumbo 3 , Karin Shmueli 2 ,<br />
Peter van Gelderen 2 , Masaki Fukunaga 4 ,<br />
Francesca Bosetti 3 , Afonso Silva 5 , Jeff Duyn 2<br />
1 Department of Radiology, University of Pennsylvania,<br />
Philadelphia, PA, 2 Advanced MRI Section, LFMI, NINDS,<br />
National Institutes of Health, Bethesda, MD, 3 <strong>Brain</strong><br />
Physiology and Metabolism Section, NIA, National<br />
Institutes of Health, Bethesda, MD, 4 Biofunctional Imaging,<br />
WPI Immunology Frontier Research Center, Osaka<br />
University, Osaka, Japan, 5 CMU, Laboratory of Functional<br />
and Molecular Imaging, National Institutes of Health,<br />
Bethesda, MD<br />
High resolution mrI of fixated human brain enhanced<br />
by magnetization transfer (mT) and T2* weighting<br />
Gunther Helms 1 , Walter Schulz-Schaeffer 2 , Arne Wrede 2 ,<br />
Peter Dechent 3<br />
1 MR-Research in Neurology and Psychiatry, Goettingen<br />
University Medical Center, Goettingen, Germany,<br />
2 Dept. of Neuropathology, Goettingen University Medical<br />
Center, Goettingen, Germany, 3 MR-Research in Neurology<br />
and Psychiatry, University Medical Center Goettingen,<br />
Goettingen, Germany<br />
Dexterity in pegboard test correlates with right<br />
lobule VI volume in right-handed 14-year-olds<br />
Alexander Romanowski 1 , Simone Kühn 2 , Christina<br />
Schilling 1 , Andreas Heinz 1 , Juergen Gallinat 1<br />
1 Department of Psychiatry and Psychotherapy, Charité –<br />
Universitätsmedizin Berlin, Berlin, Germany, 2 Department<br />
of Experimental Psychology and Ghent Institute <strong>for</strong><br />
Functional and Metabolic Imaging, Gent, Belgium<br />
HBM 2011 >> <strong>abstracts</strong> 43<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Imaging Methods<br />
Anatomical MRI, continued<br />
460<br />
461<br />
462<br />
463<br />
464<br />
465<br />
466<br />
467<br />
Characteristics of <strong>Brain</strong> anatomy on Projection<br />
maps of Cortical Surface<br />
Xiaojian Kang 1,2 , Timothy Herron 3 , David Woods 3,4,5<br />
1 Department of Neurology and Center <strong>for</strong> Neuroscience,<br />
University of Cali<strong>for</strong>nia at Davis, Martinez, CA, 2 <strong>Human</strong><br />
Cognitive Neurophysiology Lab, VA Research Service,<br />
Martinez, CA, 3 <strong>Human</strong> Cognitive Neurophysiology Lab, VA<br />
Research Service, VA-NCHCS, Martinez, CA, 4 Department<br />
of Neurology and Center <strong>for</strong> Neuroscience, University of<br />
Cali<strong>for</strong>nia at Davis, Sacromento, CA, 5 UC Davis Center <strong>for</strong><br />
Mind and <strong>Brain</strong>, Davis, CA<br />
modeling Local Distortion in Shape <strong>for</strong> <strong>Brain</strong><br />
mr Images<br />
Wei-Chen Cheng 1 , Philip E. Cheng 1 , Michelle Liou 1<br />
1 Institute of Statistical Science, Academia Sinica, Taipei,<br />
Taiwan, Republic of China<br />
Hippocampal gray matter Volume Increase during<br />
Luteal Phase of menstrual Cycle as measured with VBm<br />
Gabriela Alarcon 1 , Jonathan Kippenhan 1 , Erica Baller 1 ,<br />
Shau-Ming Wei 1 , Peter Schmidt 1 , Karen Berman 1<br />
1 National Institutes of Health, Bethesda, MD<br />
CaNDIShare: a resource <strong>for</strong> Pediatric<br />
Neuroimaging Data<br />
Christian Haselgrove 1 , Steven Hodge 1 , Jean Frazier 1 ,<br />
David Kennedy 2<br />
1 University of Massachusetts Medical School, Worcester,<br />
United States, 2 University of Massachusetts Medical<br />
Center, Worcester, United States<br />
Intrauterine tobacco exposure and brain morphology:<br />
an mrI study in young children<br />
Hanan El Marroun 1 , Henning Tiemeier 1 , Frank Verhulst 1 ,<br />
Tonya White 1<br />
1 Erasmus Medical Centre, Rotterdam, Netherlands<br />
Comparative analysis of Volumetric Corpus Callosum<br />
measurement methods Conducted on Single Subject<br />
Benjamin Wade 1 , Mary Gilliam 2 , Francois Lalonde 2 , Michael<br />
Stockman 2 , Liv Clasen 3 , Rhoshel Lenroot 4 , Jay Giedd 5<br />
1 National Institutes of Mental Health, 2 National Institutes<br />
of Mental Health, Bethesda, MD, 3 NIMH Child Pyschiatry<br />
Branch, Bethesda, MD, 4 Randwick, NSW, Australia, 5 NIMH,<br />
Bethesda, DC<br />
Chronic changes in mrI brain volume in mS patients:<br />
a Voxel-guided morphometry Study<br />
Matthias Kraemer 1 , Jochen Hirsch 4 , Andreas Dabringhaus 2 ,<br />
Thorsten Schormann 3 , Achim Gass 4<br />
1 Neurological Therapy Center, Cologne, Germany,<br />
2 St. Mauritius Therapy Clinic, Meerbusch, Germany,<br />
3 Institute <strong>for</strong> Anatomy, Duesseldorf, Germany, 4 Department<br />
of Neurology, University Hospital, Mannheim, Germany<br />
mrI study in violent offenders<br />
ANA CALZADA 1 , Alfredo Alvarez 2 , Lidice Galan 2 ,<br />
Lester Melie 2 , Mitchell Valdes 2<br />
1 LEGAL MEDICINE INSTITUTE. CLINICAL<br />
NEUROPHYSIOLOGY DEPARTMENT, Havana, Cuba,<br />
2 Cuban Neuroscience Center, Havana, Cuba<br />
44 HBM 2011 >> <strong>abstracts</strong><br />
468<br />
469<br />
470<br />
471<br />
effects of the Schizophrenia Susceptibility gene g72<br />
on frontal and temporal grey matter volumes<br />
Sarah Trost 1 , Birgit Platz 2 , Peter Falkai 1 , Thomas Wobrock 1 ,<br />
Harald Scherk 2 , David Zilles 1 , Andrea Schmitt 2 , Wolfgang<br />
Reith 3 , Jobst Meyer 4 , Oliver Gruber 2<br />
1 Center <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Goettingen, Germany,<br />
2 Centre <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Goettingen, Germany,<br />
3 Department of Neuroradiology, Saarland University,<br />
Homburg, Germany, 4 Department of Neurobehavioral<br />
Genetics, University of Trier, Trier, Germany<br />
mrI signal intensity of the globus pallidus in children<br />
exposed to manganese from drinking water<br />
Laurie-anne Dion1 , Maryse Bouchard2 , Gilles Beaudoin3 ,<br />
Philippe Major2 , Marie-Eve Brodeur4 , Alan Tucholka5 ,<br />
Guillaume Gilbert6 , Donna Mergler7 , Dave Saint-Amour8 1University of Quebec in Montreal, CHU Ste-Justine,<br />
Montreal, Quebec, 2University of Montreal, CHU Ste-<br />
Justine, Montreal, Quebec, 3CHUM Notre-Dame, University<br />
of Montreal, Montreal, Quebec, 4University of Quebec<br />
in montreal, Motreal, Quebec, 5University of Montreal,<br />
Department of Psychology, CHU Ste-Justine, Montreal,<br />
Quebec, 6CHUM Notre-Dame, Montreal, Quebec,<br />
7University of Quebec in Montreal, Montreal, Quebec,<br />
8University of Quebec in Montreal, CHU ste-Justine,<br />
Montreal, Quebec<br />
ex-vivo mrI Investigation of the <strong>Human</strong> Locus<br />
Coeruleus<br />
Noam Keren 1 , Paul Morgan 2 , Nicholas Gregory 1 ,<br />
Ann-Charlotte Granholm 1 , Vanessa Hinson 1 ,<br />
Gary Aston-Jones 1 , Mark Eckert 1<br />
1 Medical University of South Carolina, Charleston, SC,<br />
USA, 2 University of Nottingham, Nottingham,<br />
United Kingdom<br />
Structural <strong>Brain</strong> Differences in alexithymia:<br />
a Voxel-Based morphometry Study<br />
Katharina Goerlich 1,2 , Lori Bruce 2 , Andre Aleman 1 ,<br />
Christine Hooker 2<br />
1 Neuroimaging Center, University of Groningen, Groningen,<br />
Netherlands, 2 Department of Psychology, Harvard<br />
University, Cambridge, MA<br />
Imaging Methods<br />
BOLD fMRI<br />
472* advances in High-resolution Functional Imaging of<br />
Hippocampal Subregions at 7 Tesla, (o-T2)<br />
Nanthia Suthana1 , Markus Donix2 , Dave Wozny3 ,<br />
Robin Heidemann4 , Robert Trampel4 , Adam Bazih5 ,<br />
Michael Jones5 , Robert Turner4 , Susan Bookheimer6 1University of Cali<strong>for</strong>nia, Los Angeles, Los Angeles,<br />
United States, 2Department of Psychiatry and<br />
Psychotherapy, Universitätsklinikum Carl Gustav Carus,<br />
Dresden, Germany, 3Department of Otolaryngology,<br />
Oregon Health Science University, Portland, OR, 4Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences,<br />
Leipzig, Germany, 5University of CA, Los Angeles, Los<br />
Angeles, CA, 6UCLA Center <strong>for</strong> Cognitive Neurosciences,<br />
Los Angeles, United States
Imaging Methods<br />
BOlD MRI, continued<br />
473*<br />
474**<br />
475*<br />
476**<br />
477*<br />
478**<br />
479<br />
Identifying direction selective computations in human<br />
area mT using ultra high field fmrI, (o-Th3)<br />
Jan Zimmermann 1 , Rainer Goebel 1 , Federico De Martino 1 ,<br />
Pierre-Francois van de Moortele 2 , David Feinberg 3 ,<br />
Gregor Adriany 2 , Kamil Ugurbil 2 , Essa Yacoub 4<br />
1 Maastricht University, Maastricht, Netherlands,<br />
2 University of Minnesota, Minneapolis, MN, 3 Advanced<br />
Technologies, UC Berkley, Berkley, CA, 4 University of<br />
Minnesota, Minneapolis, United States<br />
Fine segregation of the visual system during<br />
resting-state<br />
Salma Mesmoudi 1 , Vincent Perlbarg 2 , Mélanie Pélégrini-<br />
Issac 2 , Roberto Toro 3 , Yves Burnod 4 , Habib Benali 1<br />
1 INSERM/UPMC, Paris, France, 2 INSERM / UPMC Univ.<br />
Paris 06, UMR_S678, LIF, Paris, France, 3 Pasteur, Paris,<br />
France, 4 Institut des Systèmes Complexe Paris-île-de-<br />
France, Paris, France<br />
ultra-fast functional imaging of human visuomotor<br />
cortex using echo-shifted mr inverse imaging, (o-m1)<br />
Wei-Tang Chang 1 , Thomas Witzel 2 , Kevin Wen-Kai Tsai 1 ,<br />
Wen-Jui Kuo 3 , Fa-Hsuan Lin 1,2<br />
1 Institute of Biomedical Engineering, National Taiwan<br />
University, Taipei, Taiwan, Republic of China, 2 Martinos<br />
Center, Charlestown, MA, United States, 3 Institute of<br />
Neuroscience, National Yang Ming University, Taipei,<br />
Taiwan, Republic of China<br />
multi-echo ePI with parallel transmission z-shimming<br />
<strong>for</strong> increased sensitivity in BoLD fmrI<br />
Benedikt Poser 1 , Cungeng Yang 1 , Weiran Deng 1 ,<br />
Vijayanand Alagappan 2 , Lawrence Wald 2 , Andrew Stenger 3<br />
1 University of Hawaii, Honolulu, HI, 2 Massachusetts<br />
General Hospital, Boston, MA, 3 University of Hawaii,<br />
Honolul, HI<br />
microvascular Temporal Dynamics using the Spin echo<br />
Hemodynamic Impulse response at 7 T, (o-m1)<br />
Jeroen Siero 1,2,3 , Nick Ramsey 1,2 , Johannes Hoogduin 1,3 ,<br />
Peter Luijten 2,3 , Natalia Petridou 1,2,3<br />
1 Rudolf Magnus Institute, Utrecht, Netherlands, 2 University<br />
Medical Center Utrecht, Utrecht, Netherlands, 3 Radiology,<br />
Utrecht, Netherlands<br />
Breathing gas calibration <strong>for</strong> mr Cmro2 mapping:<br />
comparative effects on functional brain networks<br />
Dimo Ivanov 1 , Gabriele Lohmann 1 , Stefan Kabisch 2,1 ,<br />
Ilona Henseler 1 , Haiko Schloegl 2,1 , Wolfgang Heinke 3 ,<br />
Chloe Hutton 4 , Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Department of Medicine,<br />
University of Leipzig, Leipzig, Germany, 3 Department of<br />
Anestesiology and Intensive Care Therapy, University<br />
Hospital Leipzig, Leipzig, Germany, 4 Wellcome Trust<br />
Centre <strong>for</strong> Neuroimaging, Institute of Neurology, University<br />
College London, London, United Kingdom<br />
Improves BoLD fmrI sensitivity using dynamic<br />
magnetic resonance multi-echo inverse imaging<br />
Kevin Tsai 1 , Thomas Witzel 2 , Wen-Jui Kuo 3 , Fa-Hsuan Lin 1,2<br />
1 National Taiwan University, Taipei, Taiwan, 2 Martinos<br />
Center, Charlestown, MA, 3 National Yang-Ming University,<br />
Taipei, Taiwan<br />
480**<br />
481<br />
482<br />
483<br />
484<br />
485<br />
486<br />
event-related real-Time fmrI at 3 Tesla using<br />
echo-Volumar-Imaging<br />
Stefan Posse 1 , Elena Ackley 1 , Radu Mutihac 2 ,<br />
Matthew Shane 3 , Jochen Rick 4 , Maxim Zaitsev 5 ,<br />
Oliver Speck 6<br />
1 University of New Mexico School of Medicine, Dept. of<br />
Neurology, Albuquerque, NM, United States, 2 1 University<br />
of New Mexico, Albuquerque, NM, 3 The Mind Research<br />
Network, United States, 4 Dept. Of Radiology, Medical<br />
Physics University Hospital Freiburg, Freiburg, Germany,<br />
5 Dept. of Radiology - Medical Physics, University Medical<br />
Center Freiburg, Freiburg, Germany, 6 Biomedical Magnetic<br />
Resonance, OvG University, Magdeburg, Germany<br />
There’s more in time series than the canonical<br />
response: K-means clustering of fmrI with high TNSr<br />
Javier Gonzalez-Castillo 1 , Ziad S. Saad 2 , Peter Bandettini 1<br />
1 Section on Functional Imaging Methods, National Institute<br />
of Mental Health, NIH, Bethesda, MD, United States,<br />
2 Scientific and Statistical Computing Core, National<br />
Institute of Mental Health, NIH, Bethesda, MD<br />
Sparse Dictionary Learning <strong>for</strong> fmrI activation<br />
Detection using SPm and mDL Criterion<br />
Kangjoo Lee1 , Sungho Tak1 , Jong Chul Ye1 1Dept. of Bio and <strong>Brain</strong> Engineering, KAIST, Daejeon,<br />
Korea, Republic of<br />
effect of SLC6a4 and CaCNa1C genes on age-related<br />
Changes in medial Temporal Lobe Function<br />
John Muse 1 , Michael White 1 , Saumitra Das 1 , Kristin Bigos 1 ,<br />
Joseph Callicott 1 , Daniel Weinberger 1 , Venkata Mattay 1<br />
1 NIMH, NIH, Bethesda, United States<br />
Ignore ernst when choosing the flip angle <strong>for</strong> fmrI<br />
Javier Gonzalez-Castillo 1 , Jerzy Bodurka 2 , Vinai<br />
Roopchansingh 3 , Peter Bandettini 1,3<br />
1 National Institute Mental Health, NIH, Bethesda, MD,<br />
United States, 2 Laureate Institute <strong>for</strong> <strong>Brain</strong> Research, Tulsa,<br />
OK, 3 Functional MRI Core, National Institute of Mental<br />
Health, NIH, Bethesda, MD, United States<br />
matched Filter ePI acquisition <strong>for</strong> fmrI group Studies<br />
Lars Kasper 1,2 , Max Häberlin 2 , Christoph Barmet 2 ,<br />
Bertram Wilm 2 , Christian Ruff 1 , Klaas Enno Stephan 1,3 ,<br />
Klaas Pruessmann 2<br />
1 Laboratory <strong>for</strong> Social and Neural Systems Research,<br />
Department of Economics, University of Zurich, Zurich,<br />
Switzerland, 2 Institute <strong>for</strong> Biomedical Engineering,<br />
University and ETH Zurich, Zurich, Switzerland, 3 Wellcome<br />
Trust Centre <strong>for</strong> NeuroImaging, London, United Kingdom<br />
Stimulus duration can change polarity of BoLD<br />
response in the amygdalae: a 7T fmrI study<br />
Wietske van der Zwaag1 , Sandra Da Costa2 ,<br />
Nicole Zurcher2 , Reginald Adams3 , Nouchine Hadjikhani2 1University of Lausanne, Lausanne, Switzerland,<br />
2<strong>Brain</strong> and Mind Institute, EPFL, Lausanne, Switzerland,<br />
3Department of Psychology, Pennsylvania State University,<br />
University Park, PA<br />
HBM 2011 >> <strong>abstracts</strong> 45<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Imaging Methods<br />
BOlD fMRI, continued<br />
487<br />
488<br />
489<br />
490<br />
491<br />
492<br />
493<br />
494<br />
Validation of block design fmrI using continuous<br />
speech to map the speech motor network<br />
Casey Strickland 1 , Wei Zhang 1 , Crystal Franklin 1 ,<br />
Peter Fox 1 , Shalini Narayana 1<br />
1 Research Imaging Institute, University of Texas Health<br />
Science Center at San Antonio, San Antonio, TX,<br />
United States<br />
Hemodynamic response variability measured by<br />
high temporal resolution fmrI<br />
Pierre LeVan 1 , Benjamin Zahneisen 1 , Thimo Hugger 1 ,<br />
Jürgen Hennig 1<br />
1 University Medical Center Freiburg, Freiburg, Germany<br />
Complexity of resting State BoLD fmrI Signal<br />
Characterized by approximate entropy<br />
Collin Liu 1,2 , Anitha Krishna 1 , Lirong Yan 1 , Jeffry Alger 1,2 ,<br />
Danny Wang 1,2<br />
1 UCLA <strong>Brain</strong> <strong>Mapping</strong> Center, Los Angeles, CA,<br />
2 Department of Neurology, University of Cali<strong>for</strong>nia<br />
Los Angeles, Los Angeles, CA<br />
Statistical Parametric mapping <strong>for</strong> T2* Dependence<br />
Does Not Show artifactual Correlation<br />
Prantik Kundu 1 , Souheil Inati 1 , Jennifer Evans 1 ,<br />
Wen-Ming Luh 1 , Peter Bandettini 1<br />
1 NIMH, Bethesda, MD<br />
Change of Spontaneous <strong>Brain</strong> activity reflects<br />
episodic memory Consolidation in aPoe<br />
Healthy Carriers<br />
Deyi Wang 1 , Xiujie Han 1 , Sufang Li 1 , Dongqiang Liu 2 ,<br />
Chaogan Yan 1 , Yong He 1 , Chaozhe Zhu 1 , Vesa Kiviniemi 3 ,<br />
Yufeng Zang 1,2<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing, China,<br />
2 Center <strong>for</strong> <strong>Human</strong> <strong>Brain</strong> Research and Affiliated<br />
Hospital, Hangzhou Normal University, Hangzhou, China,<br />
3 Department of Diagnsotic Radiology, Oulu University<br />
Hospital, Oulu, Finland<br />
midbrain Dopamine modulates mesocorticolimbic<br />
and Sensorimotor regulation of Decision-making<br />
Brett Cropp 1 , Mbemba Jabbi 1 , Philip Kohn 1 , Tiffany Nash 1 ,<br />
Jonathan Kippenhan 1 , Hannah Raila 1 , Daniel Eisenberg 1 ,<br />
Joseph Masdeu 1 , Karen Berman 1<br />
1 National Institutes of Health, Bethesda, MD<br />
Illustration of Functional Connectivity alterations<br />
in Cocaine users using a Time-Frequency analysis<br />
Changwei Wu 1 , Hong Gu 1 , Elliot Stein 1 , Yihong Yang 1<br />
1 Neuroimaging Research Branch, National Institute on<br />
Drug Abuse, Baltimore, MD<br />
Direct neurofeedback to the visual system<br />
using real-time fmrI<br />
Nikolaus Weiskopf 1 , Ithabi Gantner 2,1 , Frank Scharnowski 1,3 ,<br />
Amanda Kaas 2 , Chloe Hutton 4<br />
1 Wellcome Trust Centre <strong>for</strong> Neuroimaging, UCL, London,<br />
United Kingdom, 2 Maastricht University, Maastricht,<br />
Netherlands, 3 Institute of Cognitive Neuroscience, London,<br />
United Kingdom, 4 Wellcome Trust Centre <strong>for</strong> Neuroimaging,<br />
Institute of Neurology, University College London, London,<br />
United Kingdom<br />
46 HBM 2011 >> <strong>abstracts</strong><br />
495<br />
496<br />
497<br />
498<br />
499<br />
500<br />
501<br />
High resolution Functional Connectivity of<br />
Spontaneous activity Networks at 7T<br />
Christina Triantafyllou 1,2 , Boris Keil 2 , Lawrence Wald 2,3<br />
1 A.A. Martinos Imaging Center, McGovern Institute <strong>for</strong><br />
<strong>Brain</strong> Research, MIT, Cambridge, MA, United States, 2 A.A.<br />
Martinos Center <strong>for</strong> Biomedical Imaging, Department of<br />
Radiology, MGH, Harvard Medical School, Charlestown,<br />
MA, United States, 3 Harvard-MIT Division of Health<br />
Sciences and Technology, Cambridge, MA, United States<br />
Head-repositioning does not reduce the reproducibility<br />
of block-design motor fmrI activation<br />
David Soltysik 1 , David Thomasson 2 , Sunder Rajan 1 ,<br />
Javier Gonzalez-Castillo 3 , Paul DiCamillo 2 , Nadia Biassou 2<br />
1 U.S. Food & Drug Administration, Silver Spring, MD,<br />
2 National Institutes of Health, Bethesda, MD, 3 SFIM/LBC/<br />
NIMH/NIH, Bethesda, MD<br />
The influence of heart rate variation on task and<br />
group effects of the fmrI BoLD signal<br />
Dennis van ‘t Ent 1 , Edwin Rotgans 2 , Jan De Munck 3 , Anouk<br />
den Braber 4 , Dorret Boomsma 5 , de Geus Eco 5<br />
1 VU university, Amsterdam, Netherlands, 2 VU medical<br />
centre, Amsterdam, Netherlands, 3 Amsterdam,<br />
Netherlands, 4 VU University Amsterdam, 5 VU University,<br />
Amsterdam, Noord-Holland<br />
a New method <strong>for</strong> robust Functional to Structural<br />
alignment using multi-echo gre B0 and r2* mapping<br />
Souheil Inati 1 , Pablo Velasco 2 , Edward Vessel 2<br />
1 National Institute of Mental Health, Bethesda, MD,<br />
2 New York University, New York, NY<br />
multiplexed-ePI with Hadamard encoding<br />
Liyong Chen 1 , Edward Auerbach 2 , Jungian Xu 2 ,<br />
Steen Moeller 2 , Essa Yacoub 3 , Stephen Smith 4 ,<br />
Kamil Ugurbil 3 , David Feinberg 5<br />
1 Advanced MRI Technologies, Sebastopol, CA, 2 CMRR,<br />
University of Minnesota, Minneapolis, MN, 3 University of<br />
Minnesota, Minneapolis, MN, 4 FMRIB Centre, University<br />
of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom, 5 Advanced MRI<br />
Technolgies, UC Berkeley, Berkeley, CA<br />
Language Probes <strong>for</strong> Clinical fmrI: Normative Data &<br />
Comparison of activation Profiles of Four Tasks<br />
Brenna McDonald 1 , John West 1 , Kimberly Campbell 1 ,<br />
Yang Wang 1 , Andrew Kalnin 2 , Kristine Mosier 1 , Jacob<br />
Kean 1 , Darren O’Neill 1 , Andrew Saykin 1<br />
1 Indiana University School of Medicine, Indianapolis,<br />
United States, 2 The Ohio State University College of<br />
Medicine, Columbus, United States<br />
real-time motion Correction by optical Tracking<br />
<strong>for</strong> reducing Spin-History artifacts in fmrI<br />
David Rotenberg 1,2 , Mark Chiew 1,2 , Shawn Ranieri 1 ,<br />
Fred Tam 1,3 , Simon Graham 2,3,4,1<br />
1 Rotman Research Institute, Baycrest, Toronto, Canada,<br />
2 Department of Medical Biophysics, University of Toronto,<br />
Toronto, Canada, 3 Imaging Research, Sunnybrook Health<br />
Sciences Centre, Toronto, Canada, 4 Heart and Stroke<br />
Foundation of Ontario Centre <strong>for</strong> Stroke Recovery, Toronto,<br />
Canada
Imaging Methods<br />
BOlD fMRI, continued<br />
502<br />
503<br />
504<br />
505<br />
506<br />
Spatial differences of BoLD post-stimulus undershoot<br />
in a Stroop task: implications <strong>for</strong> hrf<br />
Benedikt Poser 1,2,3 , David Norris 2,3<br />
1 University of Hawaii, Honolulu, HI, 2 Radboud University<br />
Nijmegen, Donders Institute For <strong>Brain</strong>, Cognition And<br />
Behaviour, Nijmegen, Netherlands, 3 Erwin L Hahn Institute<br />
<strong>for</strong> Magnetic Resonance Imaging, University Duisburg-<br />
Essen, Essen, Germany<br />
Precise Control of Hyper-oxic and -capnic<br />
BoLD Calibration <strong>for</strong> Improved oxygen<br />
Consumption estimates<br />
Clarisse Mark 1 , Bruce Pike 1<br />
1 McConnell <strong>Brain</strong> Imaging Center, Montreal Neurological<br />
Institute, McGill University, Montreal, Quebec, Canada<br />
Intracranial eeg-fmrI studies at 3.0T in humans<br />
with epilepsy<br />
Craig Beers 1,2,3 , Dan Pittman 1,2 , Cameron Cunningham 1,2,3 ,<br />
Bradley Goodyear 1,2,4 , Paolo Federico 1,2,5<br />
1 Hotchkiss <strong>Brain</strong> Institute, Calgary, Canada,<br />
2 Seaman Family MR Research Centre, Calgary, Canada,<br />
3 University of Calgary, Calgary, Canada, 4 Radiology &<br />
Clinical Neuroscience, University of Calgary, Calgary,<br />
Canada, 5 Clinical Neurosciences, University of Calgary,<br />
Calgary, Canada<br />
using a Combination of a mixture model and<br />
Topological FDr in the Context of Presurgical Planning<br />
Krzysztof Gorgolewski 1 , Amos Storkey 1 , Mark Bastin 1 ,<br />
Cyril Pernet 1<br />
1 University of Edinburgh, Edinburgh, United Kingdom<br />
effect of single nucleotide polymorphism CaCNa1C<br />
rs1006737 on the neural correlates of working memory<br />
in healthy individuals<br />
Johannes Bedenbender 1 , Frieder Paulus 2 , Sören Krach 3 ,<br />
Axel Krug 4 , N Shah 5 , Marcella Rietschel 6 , Kircher Tilo 7 ,<br />
Andreas Jansen 8<br />
1 Philipps-University, Marburg, Germany, 2 Department<br />
of Psychiatry, Philipps University Marburg, Germany,<br />
Marburg, Germany, 3 Department of Psychiatry, Section<br />
of <strong>Brain</strong>Imaging, University of Marburg, Marburg,<br />
Germany, 4 Department of Psychiatry and Psychotherapy,<br />
Philipps-University Marburg, Marburg, Germany,<br />
5 Forschungszentrum Jülich, Jülich, Germany, 6 Central<br />
Institute of Mental Health, Mannheim, Germany, 7 Philipps-<br />
University Marburg, Marburg, Germany, 8 Department of<br />
Psychiatry and Psychotherapy, Section of <strong>Brain</strong>Imaging,<br />
University of Marburg, Marburg, Germany<br />
507<br />
508<br />
509<br />
510<br />
altered resting-state Networks in Developmental<br />
Stuttering Shown by Dual-regression ICa<br />
Lorena Jimenez-Castro 1,2,3 , Peter Kochunov 2,4 ,<br />
Rene Olvera 5 , Laura Almasy 6 , Ravindranath Duggirala 6 ,<br />
John Blangero 6 , David Glahn 7,8 , Peter Fox 2,4<br />
1 Department of Cellular and Structural Biology, University<br />
of Texas Health Science Center, San Antonio, TX,<br />
2 Research Imaging Institute, University of Texas Health<br />
Science Center, San Antonio, TX, 3 South Texas Psychiatric<br />
Genetics Research Center, Paul L. Foster School of<br />
Medicine, Texas Tech University Health Science Center,<br />
San Antonio, TX, 4 Department of Radiology, University<br />
of Texas Health Science Center, San Antonio, TX,<br />
5 Department of Psychiatry, University of Texas Health<br />
Science Center, San Antonio, TX, 6 Department of Genetics,<br />
Southwest Foundation <strong>for</strong> Biomedical Research, San<br />
Antonio, TX, 7 Department of Psychiatry, Yale University,<br />
Hart<strong>for</strong>d, CT, 8 Olin Neuropsychiatry Research Center,<br />
Institute of Living, Hart<strong>for</strong>d Hospital, Hart<strong>for</strong>d, CT<br />
Hemodynamic changes can be detected in rat white<br />
matter: evidence from a hypercapnic challenge<br />
Erin Mazerolle 1,2 , Chris Bowen 2 , Drew DeBay 2 ,<br />
Kirk Feindel 2 , James Rioux 3 , Douglas Rasmusson 4 ,<br />
Kazue Semba 5 , Ryan D’Arcy 2<br />
1 Neuroscience Graduate Program, Dalhousie University,<br />
Halifax, Nova Scotia, Canada, 2 Institute <strong>for</strong> Biodiagnostics<br />
(Atlantic), National Research Council, Halifax, Nova Scotia,<br />
Canada, 3 Physics Graduate Program, Dalhousie University,<br />
Halifax, Nova Scotia, Canada, 4 Department of Physiology<br />
and Biophysics, Dalhousie University, Halifax, Nova Scotia,<br />
Canada, 5 Department of Anatomy and Neurobiology,<br />
Dalhousie University, Halifax, Nova Scotia, Canada<br />
graSe functional mrI with high temporal resolution<br />
and reduced susceptibility artifacts<br />
Lirong Yan 1 , Robert Spunt 2 , Emily Kilroy 1 ,<br />
Matthias Gunther 3 , Matthew Lieberman 2 , Danny Wang 1<br />
1 Department of Neurology, University of Cali<strong>for</strong>nia Los<br />
Angeles, Los Angeles, CA, 2 Department of Psychology,<br />
University of Cali<strong>for</strong>nia Los Angeles, Los Angeles, CA,<br />
3 Institute <strong>for</strong> Medical Image Computing, University of<br />
Bremen, Bremen, Germany<br />
Selectivity <strong>for</strong> detection of self and object motion<br />
during natural vision in the human dorsal stream<br />
Rosa Sepe 1 , Sabrina Pitzalis 2 , Giorgia Committeri 1 ,<br />
Francesco de Pasquale 1 , Patrizia Fattori 3 , Claudio Galletti 3 ,<br />
Gaspare Galati 4<br />
1 Department of Clinical Sciences and Bioimaging,<br />
and ITAB, University Gabriele d’Annunzio, Chieti, Italy,<br />
2 Department of Education in Sport and <strong>Human</strong> Movement,<br />
University of Rome ‘Foro Italico’, Rome, Italy, 3 Department<br />
of <strong>Human</strong> and General Physiology, University of Bologna,<br />
Bologna, Italy, 4 Department of Psychology, Sapienza<br />
University, and Laboratory of Neuropsychology, Santa<br />
Lucia, Rome, Italy<br />
HBM 2011 >> <strong>abstracts</strong> 47<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Imaging Methods<br />
BOlD fMRI, continued<br />
511<br />
512<br />
513<br />
514<br />
515<br />
516<br />
Tailored rF-Pulses <strong>for</strong> Improved fmrI in the<br />
Ventral <strong>Brain</strong><br />
Christian Windischberger1 , Ewald Moser2 ,<br />
Nikolaus Weiskopf3 1MR Center, Medical University of Vienna, Vienna,<br />
Austria, 2Medical Universsity of Vienna, Vienna, Austria,<br />
3Wellcome Trust Centre <strong>for</strong> Neuroimaging, UCL, London,<br />
United Kingdom<br />
utility of T2-weighted anatomical Images <strong>for</strong><br />
fmrI Physiological Noise Visualization<br />
Raquel Phillips 1 , Vadim Zotev 1 , Jonathon Savitz 1 ,<br />
Ruben Alvarez 1 , W. Kyle Simmons 1 , Patrick Bellgowan 1 ,<br />
Wayne Drevets 1 , Jerzy Bodurka 1<br />
1 Laureate Institute <strong>for</strong> <strong>Brain</strong> Research, Tulsa, OK, USA<br />
Sequence optimization <strong>for</strong> <strong>Brain</strong>stem BoLD fmrI<br />
Marco Piccirelli 1,2 , Marco Moro 2,1 , Saskia Klein 1 ,<br />
Lars Kasper 1,2 , Klaas Enno Stephan 1,3<br />
1 Laboratory <strong>for</strong> Social and Neuronal Systems Research,<br />
Department of Economics, University of Zurich,<br />
Switzerland, 2 Institute <strong>for</strong> Biomedical Engineering,<br />
University and ETH Zurich, Switzerland, 3 Wellcome Trust<br />
Centre <strong>for</strong> Neuroimaging, University College London, UK<br />
modulation of attention network activation under<br />
paroxetine and bupropion in healthy subjects<br />
Heiko Graf 1 , Birgit Abler 1 , Antonie Hartmann 1 ,<br />
Angela Seeringer 2 , Coraline Metzger 3 , Julia Kirchheiner 2 ,<br />
Martin Walter 3<br />
1 Department of Psychiatry, University of Ulm, Ulm,<br />
Germany, 2 Institute of Pharmacology of Natural Products &<br />
Clinical Pharmacology, University of Ulm, Ulm, Germany,<br />
3 Department of Psychiatry, Otto-von-Guericke University,<br />
Magdeburg, Germany<br />
removal of Synchronized Cardiorespiratory activity<br />
from BoLD fmrI Functional Connectivity Data<br />
Vadim Zotev1 , Raquel Phillips1 , Jerzy Bodurka1 1Laureate Institute <strong>for</strong> <strong>Brain</strong> Research, Tulsa, OK,<br />
United States<br />
Why the motor accelerates the car: neural correlates of<br />
semantic associations in speech production<br />
Juliane Muehlhaus 1 , Stefan Heim 1,2 , Olga Sachs 3 ,<br />
Ute Habel 1 , Katharina Sass 1<br />
1 Department of Psychiatry, Psychotherapy and<br />
Psychosomatics, RWTH Aachen University, Aachen,<br />
Germany, 2 Institute <strong>for</strong> Neurosciences and Medicine<br />
(INM-1), Research Centre Jülich, Jülich, Germany,<br />
3 Fraunhofer Center <strong>for</strong> Sustainable Energy Systems CSE,<br />
Cambridge, MA, United States<br />
48 HBM 2011 >> <strong>abstracts</strong><br />
517<br />
518<br />
519<br />
520<br />
521<br />
522<br />
exploring the Dynamic effect of acupuncture at ST36<br />
by analysing reHo Values of resting State fmrI<br />
Xiaoling Peng 1 , Jun Chen 2,3 , Yuanyuan Fan 1 , Xian Liu 2,3 ,<br />
Ping Huang 1 , Shumei Li 1 , Bin Wang 1 , Peng Wang 4 ,<br />
Yong He 5 , Ruiwang Huang 1 , Bo Liu 2,3<br />
1 Center <strong>for</strong> Studies of Psychological Application,<br />
Guangdong Key Laboratory of Mental Health and<br />
Cognitive Science, South China Normal University,<br />
Guangzhou 510631, China, 2 Department of Radiology,<br />
Guangdong Province Hospital of Traditional Chinese<br />
Medicine, Guangzhou 510120, China, 3 Department of<br />
Radiology, Guangzhou University of Traditional Chinese<br />
Medicine, Guangzhou 510120, China, 4 School of Computer<br />
Science, South China Normal University, Guangzhou<br />
510631, China, 5 State Key Laboratory of Cognitive<br />
Neuroscience and Learning, Beijing Normal University,<br />
Beijing 100875, China<br />
Influences of Different resting State Conditions<br />
and Sampling rates on <strong>Brain</strong> Functional Network<br />
Pengfei Xu 1 , Ruiwang Huang 1,2 , Jinhui Wang 1 , Teng Xie 1 ,<br />
Zhangye Dong 1 , Yuejia Luo 1 , Yong He 1<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing 100875,<br />
P. R. China, 2 Center <strong>for</strong> Studies of Psychological<br />
Application, South China Normal University, Guangzhou<br />
510631, P. R. China<br />
White matter fmrI: linking advances in research<br />
with neuropsychological measures<br />
Jodie Gawryluk 1 , Erin Mazerolle 1 , Steven Beyea 1 ,<br />
Ryan D’Arcy 1<br />
1 Institute <strong>for</strong> Biodiagnostics, National Research Council<br />
of Canada, Halifax, Canada<br />
Changes in Intrinsic Connectivity with age<br />
Fuyuze Tokoglu 1 , Michelle Hampson 1 , Todd R. Constable 1<br />
1 Yale University, MRRC, New Haven, CT<br />
event-related Complex-mental fmrI Studies using<br />
accelerated multi-Shot 3D ePI<br />
Onur Afacan 1 , Dana Brooks 1 , W.Scott Hoge 2 ,<br />
Firdaus Janoos 3 , Istvan Morocz 4<br />
1 Northeastern University, Boston, United States, 2 Harvard<br />
Medical School Brigham & Women’s Hospital, Boston, MA,<br />
3 Ohio State University, Columbus, OH, 4 Harvard Medical<br />
School, Brigham & Women’s Hospital, Boston, MA<br />
Developmental changes of neuronal networks<br />
associated with social cooperation<br />
Elisabeth Steinmann 1 , Alexander Prehn-Kristensen 2 ,<br />
Antonia Schmalohr 1 , Michael Siniatchkin 3 , Ulrich Stephani 4 ,<br />
Stephan Wolff 5<br />
1 Neuropediatric Department, Christian-Albrechts-<br />
University, Kiel, Germany, 2 Center <strong>for</strong> Integrative<br />
Psychiatry, Department of Child and Adolescent Psychiatry<br />
and Psychotherapy, Kiel, Germany, 3 University Hospital,<br />
Kiel, Germany, 4 Clinic <strong>for</strong> Neuropaediatrics, UK-SH Kiel,<br />
Kiel, Germany, 5 Department of Neuroradiology, Christian-<br />
Albrechts-University, Kiel, Germany
Imaging Methods<br />
BOlD fMRI, continued<br />
523<br />
524<br />
525<br />
526<br />
527<br />
528<br />
529<br />
530<br />
Time-resolved analysis of a block-design task<br />
Martin Pyka 1 , Axel Krug 1 , Andreas Jansen 1 , Kircher Tilo 1<br />
1 Department of Psychiatry and Psychotherapy,<br />
Philipps-University Marburg, Marburg, Germany<br />
Whole brain BoLD fmrI within 54 ms using phaseconstraint<br />
Inverse Imaging (PC-InI)<br />
Rasim Boyacioglu 1 , Markus Barth 1<br />
1 Radboud University Nijmegen, Donders Institute <strong>for</strong> <strong>Brain</strong>,<br />
Cognition and Behaviour, Nijmegen, Netherlands<br />
High resolution and low resolution language<br />
localization fmrI at 3 & 7 Tesla<br />
Alexander Geissler 1,2 , Simon Robinson 3,2 , Moritz Wurnig 1,2 ,<br />
Markus Hilbert 1,2 , Katharina Merksa 1,2 , Jakob Rath 1,2 ,<br />
Ilse Höllinger 1,2 , Nikolaus Klinger 1,2 , Siegfried Trattnig 3,2 ,<br />
Roland Beisteiner 1,2<br />
1 Study Group Clinical fMRI, Department of Neurology,<br />
Medical University of Vienna, Vienna, Austria, 2 MR Center<br />
of Excellence, Medical University of Vienna, Vienna,<br />
Austria, 3 Department of Radiology, Medical University of<br />
Vienna, Vienna, Austria<br />
Neural Basis of Changing Face Preference Decision<br />
by gaze manipulation<br />
Takehito Ito 1 , Toshiyuki Marutani 2 , Manami Yamamoto 1 ,<br />
Hidenori Suzuki 3 , Shinsuke Shimojo 4 , Tetsuya Matsuda 1<br />
1 <strong>Brain</strong> Science Institute, Tamagawa University, Tokyo,<br />
Japan, 2 Graduate School of Tokyo Medical &Dental<br />
University, Tokyo, Japan, 3 Department of Pharmacology,<br />
Nippon Medical School, Tokyo, Japan, 4 Division of Biology/<br />
Computation and Neural Systems, Cali<strong>for</strong>nia Institute of<br />
Technology, Pasadena, CA<br />
BoLD frequency shifts in human fmrI at 7T<br />
Marta Bianciardi 1 , Peter van Gelderen 1 , Jeff Duyn 1<br />
1 Advanced MRI Section, LFMI, NINDS, National Institutes<br />
of Health, Bethesda, MD, United States<br />
redefining extent thresholds <strong>for</strong> conjunction analysis<br />
Robert Ellis 1 , Gottfried Schlaug 1<br />
1 Beth Israel Deaconess Medical Center / Harvard Medical<br />
School, Boston, MA, USA<br />
Different fmrI activations if a response box or a<br />
3D movement tracking system is used<br />
José Maria Fernandes 1 , João Paulo Silva Cunha 1 ,<br />
Sérgio Tafula 2<br />
1 IEETA / DETI, University of Aveiro, Aveiro, Portugal,<br />
2 University of Aveiro / ANIFC, Aveiro, Portugal<br />
effects of Single Dose oral Citalopram on<br />
Neuronal responses: a Task-related phmrI Study<br />
Anne Klomp 1 , Michiel de Ruiter 2,1 , Aart Nederveen 1 ,<br />
Damiaan Denys 1,3 , Liesbeth Reneman 1<br />
1 Academic Medical Centre, Amsterdam, Netherlands,<br />
2 Netherlands Cancer Institute, Amsterdam, Netherlands,<br />
3 Netherlands Institute <strong>for</strong> Neuroscience, Royal Netherlands<br />
Academy of Arts and Sciences, Amsterdam, Netherlands<br />
531<br />
532<br />
533<br />
534<br />
535<br />
externally cued saccades generation mapped by fmrI<br />
with integrated eye Tracking<br />
Katerina Lukasova 1 , Mariana Nucci da Silva 1 , Joao Sato 2 ,<br />
Edson Amaro 3<br />
1 NIF, University of Sao Paulo, Sao Paulo, Brazil,<br />
2 Universidade Federal do ABC, Sao Paulo, Brazil, 3 NIF,<br />
University of Sao Paulo, Sao Paulo, SP, Brazil<br />
Development of a Tactile Stimulator to enable<br />
Cortical mapping of Walking-related Foot Pressures<br />
Brad Manor 1,2 , Hao Ying 1 , Lewis Lipsitz 2 , Chung-Kang<br />
Peng 2 , Vera Novak 2 , Xiaoying Wang 3 , Jue Zhang 1 ,<br />
Jing Fang 1<br />
1 Academy <strong>for</strong> Advanced Interdisciplinary Studies, Peking<br />
University, Beijing, China, 2 Beth Israel Deaconess Medical<br />
Center, Boston, MA, USA, 3 Peking University First Hospital,<br />
Beijing, China<br />
Finger Somatotopic map in the <strong>Human</strong> Cerebellum<br />
revealed with 7 Tesla fmrI<br />
Wietske van der Zwaag 1 , Roberto Martuzzi 2 , Olaf Blanke 3 ,<br />
Rolf Gruetter 1 , José Marques 1<br />
1 University of Lausanne, Lausanne, Switzerland, 2 EPFL,<br />
Lausanne, Switzerland, 3 Department Of Neurology,<br />
Geneva, Switzerland<br />
multisite variability of a standard fmrI procedure<br />
in a clinical setting<br />
Moritz Wurnig 1,2 , Jakob Rath 1,2 , Nikolaus Klinger 1,2 ,<br />
Ilse Höllinger 1,2 , Alexander Geissler 1,2 , Markus Aichhorn 3 ,<br />
Thomas Foki 1,2 , Martin Kronbichler 3 , Janpeter Nickel 4 ,<br />
Christian Siedentopf 5 , Wolfgang Staffen 3 , Michael<br />
Verius 5 , Stephan Felber 6 , Stefan Golaszewski 3 , Florian<br />
Koppelstätter 5 , Rudiger Seitz 4 , Roland Beisteiner 1,2<br />
1 Study Group Clinical fMRI, Department of Neurology,<br />
Medical University of Vienna, Vienna, Austria, 2 MR Center<br />
of Excellence, Medical University of Vienna, Vienna,<br />
Austria, 3 Department of Neurology, Christian-Doppler-<br />
Clinic, Salzburg, Austria, 4 Department of Neurology,<br />
Heinrich-Heine-University Dusseldorf, Duesseldorf,<br />
Germany, 5 Department of Radiology, Subdivision<br />
Neuroradiology, Medical University of Innsbruck,<br />
Innsbruck, Austria, 6 Institute <strong>for</strong> Diagnostic Radiology,<br />
Stiftungsklinikum Mittelrhein, Koblenz, Germany<br />
Clinical fmrI: evidence <strong>for</strong> a 7T benefit<br />
Roland Beisteiner 1,2 , Simon Robinson 3,2 , Moritz Wurnig 1,2 ,<br />
Markus Hilbert 1,2 , Katharina Merksa 1,2 , Jakob Rath 1,2 ,<br />
Ilse Höllinger 1,2 , Nikolaus Klinger 1,2 , Siegfried Trattnig 3,2 ,<br />
Alexander Geissler 1,2<br />
1 Study Group Clinical fMRI, Department of Neurology,<br />
Medical University of Vienna, Vienna, Austria, 2 MR Center<br />
of Excellence, Medical University of Vienna, Vienna,<br />
Austria, 3 Department of Radiology, Medical University of<br />
Vienna, Vienna, Austria<br />
HBM 2011 >> <strong>abstracts</strong> 49<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Imaging Methods<br />
BOlD fMRI, continued<br />
536<br />
537<br />
538<br />
539<br />
540<br />
541<br />
542<br />
543<br />
Processing of ambiguous social stimuli correlates with<br />
serum oxytocin and prefrontal activation<br />
Simone Kühn 1 , Christina Schilling 2 , Rainer Landgraf 3 ,<br />
Andreas Heinz 4 , Juergen Gallinat 5<br />
1 Department of Experimental Psychology and Ghent<br />
Institute <strong>for</strong> Functional and Metabolic Imaging, Gent,<br />
Belgium, 2 Charité University Medicine, Berlin, Germany,<br />
3 Max-Planck-Institute of Psychiatry, Berlin, Germany,<br />
4 Department of Psychiatry and Psychotherapy, Charité<br />
– Universitätsmedizin Berlin, Berlin, Germany, 5 Charite<br />
Universitaetsmedizin Berlin, Berlin, Germany<br />
FmrI to Investigate the effects of Pleasant<br />
Chill-Inducing music on acute Pain in<br />
Healthy Volunteers<br />
Gregory Lieberman 1 , Hayley Perelman 1 , John Mantegna 1 ,<br />
Michael Krauthamer 1 , Nina LaRosa 1 , Magdalena Naylor 1<br />
1 University of Vermont, Burlington, VT, USA<br />
Predicting the extent of activation derived from<br />
100 scans from only 10 scans<br />
Javier Gonzalez-Castillo 1 , Peter Bandettini 1<br />
1 Section on Functional Imaging Methods, National Institute<br />
of Mental Health, NIH, Bethesda, MD, United States<br />
resting-state functional mrI in the evaluation<br />
of patiens with systemic lupus erythematosus<br />
Fernanda Rueda Lopes 1 , Denis Pereira 2 ,<br />
Ramon Quaresma 3 , Bruno Farnetano 4 , Romeu Domingues 5 ,<br />
Emerson Gasparetto 6<br />
1 UFRJ, 2 UFRJ, Rio de Janeiro, Brazil, 3 UFRJ, Rio de janeiro,<br />
Brazil, 4 UFRJ, RIo de janeiro, Brazil, 5 CDPI, Rio de janeiro,<br />
Brazil, 6 UFRJ / CDPI, Rio de Janeiro, Brazil<br />
Frontoparietal functioning during working memory in<br />
schizophrenia and in non-affected siblings<br />
Max de Leeuw 1 , Matthijs Vink 2 , Bram Zandbelt 3 ,<br />
René Kahn 4<br />
1 UMC Utrecht, 2 Rudolf Magnus Institute of Neuroscience,<br />
Utrecht, Netherlands, 3 Utrecht, Netherlands, 4 Rudolf<br />
Magnus Institute of Neuroscience, University Medical<br />
Center Utrecht, Utrecht, Netherlands<br />
Comparison of fmrI Image Quality using a 32-Channel<br />
Head Coil versus an 8-Channel Head Coil<br />
Yu-Chien Wu 1 , Andrew Connolly 1 , Paul Whalen 1 ,<br />
James Haxby 1<br />
1 Dartmouth College, Hanover, NH USA<br />
FmrI in Children with and without a History of<br />
early exposure to general anesthetics<br />
Nasser Kashou 1,2 , Abigail Masunga 1 , Mark Smith 1,2 ,<br />
Thomas Taghon 1,2<br />
1 Nationwide Children’s Hospital, Columbus, United States,<br />
2 The Ohio State University, Columbus, United States<br />
Intra operative use of functional mrI maps <strong>for</strong><br />
surgical decision making<br />
Laura Rigolo 1 , Alexandra Golby 2 , Isaiah Norton 1 ,<br />
Srinivasan Mukundan 3<br />
1 Golby Lab, BWH Dept. Neurosurgery, Harvard Medical<br />
School, Boston, MA, 2 Brigham & Women’s Hospital -<br />
Neurosurgery, Boston, MA, 3 Brigham & Women’s Hospital<br />
- Radiology, Boston, MA<br />
50 HBM 2011 >> <strong>abstracts</strong><br />
544<br />
545<br />
546<br />
547<br />
548<br />
549<br />
550<br />
emotion regulation Circuits in Parental <strong>Brain</strong> –<br />
Timing, Sex, early Life experience and Behavior<br />
James Swain 1 , Pilyoung Kim 2 , Ruth Feldman 3 ,<br />
Linda Mayes 4 , Xin Wang 5 , James Leckman 4<br />
1 University of Michigan, Ann Arbor, United States,<br />
2 NIH, Bethesda, MD, 3 Bar-Ilan University, Ramat Gan,<br />
Israel, 4 Yale University, New Haven, CT, 5 University of<br />
Michigan, Ann Arbor, MI<br />
In the zone or zoned out? Per<strong>for</strong>mance variability and<br />
BoLD fluctuations in the default-mode network<br />
Sarah Noonan 1 , Monica Rosenberg 1 , Joseph DeGutis 1 ,<br />
Michael Esterman 1<br />
1 VA Boston Healthcare System, Boston, MA<br />
absence of fmrI BoLD Signal With right median<br />
Nerve Stimulation at motor Threshold<br />
Leo Ai 1 , Hiroyuki Oya 1 , Jinhu Xiong 1<br />
1 University of Iowa, Iowa City<br />
Cortical reorganization of Hand motor Function to<br />
Face Somatotopy in a Patient with <strong>Brain</strong> Injury<br />
Ji Heon Hong 1 , Mi Young Lee 2 , Su Min Son 3 ,<br />
Sung Ho Jang 3<br />
1 Department of Physical Medicine and Rehabilitation,<br />
College of Medicine, Yeungnam University, Daegu,<br />
Republic of Korea, 2 Department of Physical Therapy,<br />
College of Health and Therapy, Daegu Haany University,<br />
Daegu, Korea, Republic of, 3 Department of Physical<br />
Medicine and Rehabilitation, College of Medicine,<br />
Yeungnam University, Daegu, Korea, Republic of<br />
are emotions associated with rest activity or<br />
interoception? an fmrI study in healthy subjects<br />
Christine Wiebking 1 , Moritz de Greck 2 , Niall Duncan 3 ,<br />
Alexander Heinzel 4 , Claus Tempelmann 5 , Georg Northoff 6<br />
1 Institute of Mental Health Research / Clinic of Psychiatry,<br />
Otto-von-Guericke University, Ottawa, Canada /<br />
Magdeburg, Germany., 2 Department of Psychology,<br />
Peking University, 5 Yiheyuan Road, Beijing, China,<br />
3 Institute of Mental Health Research, University of Ottawa,<br />
Ottawa, Canada, 4 Department of Nuclear medicine,<br />
Heinrich-Heine University, Düsseldorf, Germany,<br />
5 Department of Neurology II, Otto-von-Guericke University,<br />
Magdeburg, Germany, 6 University of Ottawa Institute of<br />
Mental Health Research, Ottawa, Canada<br />
Language fmrI - Comparison between four language<br />
tasks<br />
Mohammed Saad 1,2 , Andrew DiMarco 3 , Scott Faro 3 ,<br />
Deepika Nandiraju 3 , Gerry Stefanatos 3 , Feroze Mohamed 4 ,<br />
Chris Conklin 3<br />
1 Temple University, Philadelphia, USA, 2 University of<br />
Alexandria, Alexandria, Egypt, 3 Temple University,<br />
Philadelphia, PA, 4 Temple University, Philadelphia,<br />
United States<br />
Hand motor tasks <strong>for</strong> clinical fmrI: Comparison of two<br />
tasks and normative data in healthy adults<br />
John West 1 , Brenna McDonald 1 , Kimberly Campbell 1 ,<br />
Yang wang 1 , Kristine Mosier 1 , Darren O’Neill 1 , Jacob Kean 1 ,<br />
Andrew Kalnin 2 , Andrew Saykin 1<br />
1 Indiana University School of Medicine, Indianapolis, IN,<br />
2 Ohio State University Medical Center, Columbus, OH
Imaging Methods<br />
BOlD fMRI, continued<br />
551<br />
552<br />
553<br />
554<br />
Dealing with motion and noise: effects of ICa<br />
denoising and whole volume exclusion on BoLD fmrI<br />
David Shirinyan 1 , Susan Bookheimer 1<br />
1 Departmen of Psychiatry and Biobehavioral Sciences,<br />
UCLA School of Medicine, Los Angeles, CA<br />
2-Hz modulation Laser acupuncture Induced<br />
Limbic system and <strong>Brain</strong>stem activations<br />
Chang-Wei Hsieh 1 , Chao-Hsien Hsieh 2 , Qwa-Fun Wang 3 ,<br />
Jyh-Horng Chen 2<br />
1 Asia University, Taichung, Taiwan, 2 National Taiwan<br />
University, Taipei, Taiwan, Republic of China, 3 China<br />
Medical University, Taichung, Taiwan, Republic of China<br />
Withdrawn<br />
a method to evaluate spontaneous BoLD<br />
oscillations/frequencies of brain tumors<br />
Todd Richards1 , James Fink1 , Clark Johnson1 ,<br />
Jeff Stevenson1 , Kenneth Maravilla1 , Leanna Standish2 ,<br />
Kenneth Krohn1 1 2 University of Washington, Seattle, WA, Bastyr University,<br />
Kenmore, WA<br />
Imaging Methods<br />
Diffusion MRI<br />
555* K-Space and q-Space: Combining ultra-High Spatial<br />
and angular resolution in Diffusion Imaging at 7T,<br />
(o-m1)<br />
Robin Heidemann1 , Alfred Anwander1 , David Porter2 ,<br />
Thorsten Feiweier2 , Gabriele Lohmann1 , Thomas Knösche1 ,<br />
Robert Turner1 1Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2Siemens Healthcare,<br />
Erlangen, Germany<br />
556*<br />
557*<br />
Histological validation of DW-mrI tractography in<br />
human post-mortem tissue, (o-m1)<br />
Arne Seehaus 1 , Alard Roebroeck 2 , Oriana Chiry 1 ,<br />
Dae-Shik Kim 3 , Itamar Ronen 4 , Hansjürgen Bratzke 5 ,<br />
Rainer Goebel 2 , Ralf Galuske 1,6<br />
1 Department of Biology, Technical University Darmstadt,<br />
Darmstadt, Germany, 2 Department of Cognitive<br />
Neuroscience, Faculty of Psychology & Neuroscience,<br />
Maastricht University, Maastricht, Netherlands, 3 Korea<br />
Advanced Institute of Science and Technology (KAIST),<br />
Daejeon, Korea, Republic of, 4 Leiden University Medical<br />
Center, Leiden, Netherlands, 5 Institute of Forensic<br />
Medicine, University of Frankfurt Medical School, Frankfurt,<br />
Germany, 6 Max-Planck-Institute <strong>for</strong> <strong>Brain</strong> Research,<br />
Frankfurt, Germany<br />
Isotropic Sub-millimeter Diffusion mrI in <strong>Human</strong>s<br />
at 7T, (o-T2)<br />
Robin Heidemann 1 , Alfred Anwander 1 , Cornelius Eichner 1 ,<br />
Ralf Luetzkendorf 2 , Thorsten Feiweier 3 , Thomas Knösche 1 ,<br />
Johannes Bernarding 2 , Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Department <strong>for</strong> Biometry<br />
and Medical In<strong>for</strong>matics, OvG University, Magdeburg,<br />
Germany, 3 Siemens Healthcare, Erlangen, Germany<br />
558<br />
559<br />
560<br />
561<br />
Tract-based statistical analyzes in dmrI in autism<br />
spectrum disorder<br />
Demian Wassermann 1 , Pablo Barttfeld 2 , Anne-Charlotte<br />
PHILIPPE 3 , Jorge Calvar 4 , Ramon Leiguarda 5 ,<br />
Bruno Wicker 6 , Mariano Sigman 7 , Rachid Deriche 8<br />
1 Harvard Medical School, Boston, MA, 2 Integrative<br />
neuroscience Laboratory, Physics Dept. University<br />
of Buenos Aires, Buenos Aires, Argentina, 3 INRIA,<br />
Sophia-Antipolis, France, 4 Fundación parala<br />
Luchacontralas Enfermedades Neurológicasdela Infancia,<br />
Buenos Aires, Argentina, 5 Fundación para la Lucha<br />
contra las Enfermedades Neurológicasdela Infancia,<br />
Buenos Aires, Argentina, 6 INCM CNRS, Marseille, France,<br />
7 Integrative Neuroscience Laboratory, Physics Dept.<br />
University of Buenos Aires, Buenos Aires, Argentina,<br />
8 INRIA Sphia Antipolis, Nice, France<br />
White matter Integrity is Strongly associated with<br />
regional Cerebral Blood Flow Independently of age<br />
Jean Chen 1 , H. Diana Rosas 2 , David Salat 1<br />
1 Athinoula A. Martinos Center <strong>for</strong> Biomedical Imaging,<br />
Massachusetts General Hospital, Charlestown, United<br />
States, 2 Department of Neurology, Massachusetts<br />
General Hospital, Charlestown, United States<br />
High-resolution Diffusion-Weighted Imaging at<br />
7T--Issues of Slice Thickness and Fat Suppression<br />
Cornelius Eichner 1 , Dimo Ivanov 1 , Thorsten Feiweier 2 ,<br />
Alfred Anwander 1 , Thomas Knösche 1 , Robert Turner 1 ,<br />
Robin Heidemann 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany, 2 Siemens Healthcare,<br />
Erlangen, Germany<br />
White matter Integrity of Frontal-striatal Circuitry in<br />
adults with aDHD: a DSI Tractography Study<br />
Chen-Hao Wu 1 , Susan Shur-Fen Gau 2 , Yi-Huan Wu 3 ,<br />
Yu-Chun Lo 1 , Fang-Cheng Yeh 4 , Wen-Yang Chiang 5 ,<br />
Chung-Ming Chen 1 , Wen-Yih Isaac Tseng 1,6,7<br />
1 Institute of Biomedical Engineering, National Taiwan<br />
University, Taipei, Taiwan, 2 Department of Psychiatry,<br />
National Taiwan University Hospital and College of<br />
Medicine, Taipei, Taiwan, 3 School of Medicine, National<br />
Taiwan University College of Medicine, Taipei, Taiwan,<br />
4 Department of Biomedical Engineering, Carnegie Mellon<br />
University, Pittsburgh, PA, 5 Department of Biomedical<br />
Engineering, Texas A&M University, College Station,<br />
TX, 6 Center <strong>for</strong> Optoelectronic Biomedicine, National<br />
Taiwan University College of Medicine, Taipei, Taiwan,<br />
7 Department of Medical Imaging, National Taiwan<br />
University Hospital, Taipei, Taiwan<br />
HBM 2011 >> <strong>abstracts</strong> 51<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Imaging Methods<br />
Diffusion MRI, continued<br />
562<br />
563<br />
564<br />
565<br />
566<br />
567<br />
HPa-axis tonus linked to hippocampal microstructural<br />
asymmetry<br />
Kathrine Madsen 1,2,3 , Terry Jernigan 4,2,1,3 , Pernille Iversen 1 ,<br />
Vibe Frokjaer 2,5 , Gitte Knudsen 2,5,3 , Hartwig Siebner 1,2,3 ,<br />
William Baaré 1,2,2<br />
1 Danish Research Centre <strong>for</strong> Magnetic Resonance,<br />
Copenhagen University Hospital, Hvidovre, Denmark,<br />
2 Center <strong>for</strong> Integrated Molecular <strong>Brain</strong> Imaging,<br />
Copenhagen, Denmark, 3 Faculty of Health Sciences,<br />
University of Copenhagen, Copenhagen, Denmark,<br />
4 Veterans Affairs Center of Excellence <strong>for</strong> Stress and<br />
Mental Health, La Jolla, CA, 5 Neurobiology Research<br />
Unit, Copenhagen University Hospital, Rigshospitalet,<br />
Copenhagen, Denmark<br />
Surface-based mean diffusivity analysis in<br />
alzheimer’s disease without CSF contamination effect<br />
Oh-Hun Kwon 1 , Jong-Min Lee 2 , Uicheul Yoon 2 ,<br />
Sang Won Seo 3 , Duk L. Na 3 , Sun I. Kim 2<br />
1 Hanyang University, Republic Of Korea, 2 Hanyang<br />
University, Seoul, Korea, Republic of, 3 Sungkyunkwan<br />
University School of Medicine, Seoul, Korea, Republic of<br />
Comparison of Diffusion Tractography and<br />
manganese Tracing<br />
Thomas Knösche 1 , Alfred Anwander 1 , Matthew Liptrot 2 ,<br />
Tim Dyrby 2<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Danish Research Centre <strong>for</strong><br />
Magnetic Resonance, Copenhagen University Hospital,<br />
Hvidovre, Denmark<br />
Increased BmI is associated with globally decreased<br />
white matter integrity<br />
Timothy Verstynen 1 , Andrea Weinstein 1 , Walter Schneider 1 ,<br />
John Jakicic 1 , Kirk Erickson 1<br />
1 University of Pittsburgh, Pittsburgh, PA<br />
Differential Development of <strong>Human</strong> <strong>Brain</strong> White<br />
matter Tracts<br />
Davide Imperati 1 , Stan Colcombe 2 , Clare Kelly 1 , Adriana<br />
Di Martino 1 , F. Xavier Castellanos 1,2 , Michael Milham 1,2<br />
1 Institute <strong>for</strong> Pediatric Neuroscience at NYU Langone<br />
Medical Center, New York, NY, 2 Nathan S. Kline Institute <strong>for</strong><br />
Psychiatric Research, Orangeburg, NY<br />
Connectivity of Broca’s area measured by<br />
electrophysiology and Diffusion Tensor Imaging<br />
Christopher Conner 1 , Michael DiSano 2 , Thomas Pieters 2 ,<br />
Timothy Ellmore 3 , Nitin Tandon 4<br />
1 UT Houston, 2 UTHSCH, Houston, TX, 3 University of Texas<br />
Medical School at Houston, Houston, TX, 4 The University<br />
Of Texas Health Science Center, Houston, United States<br />
52 HBM 2011 >> <strong>abstracts</strong><br />
568<br />
569<br />
570<br />
571<br />
572<br />
atlas-Based Fiber Clustering <strong>for</strong> multi-Subject<br />
analysis of HarDI Images<br />
Gautam Prasad 1 , Neda Jahanshad 1 , Iman Aganj 2 ,<br />
Christophe Lenglet 3 , Guillermo Sapiro 4 , Paul Thompson 5<br />
1 Laboratory of Neuro Imaging, Department of Neurology,<br />
UCLA School of Medicine, Los Angeles, CA, 2 Deptartment<br />
of Electrical and Computer Engineering, University<br />
of Minnesota, Minneapolis, MN, 3 Center <strong>for</strong> Magnetic<br />
Resonance Research, Department of Radiology, U of<br />
Minnesota Medical School, Minneapolis, MN, 4 Department<br />
of Electrical and Computer Engineering, University of<br />
Minnesota, Minneapolis, MN, 5 Laboratory of Neuro Imaging<br />
- UCLA School of Medicine, Los Angeles, CA<br />
Quantitative evaluation of ePI Distortion Correction<br />
using DTI with 2 phase encode b=0 scans<br />
Wanyong Shin 1 , Erik Beall 1 , Ken Sakaie 1 , Mark Lowe 1<br />
1 Cleveland Clinic Foundatoin, Cleveland, United States<br />
Longitudinal Change of Fa during adolescence –<br />
a Preliminary DTI Study Based on TBSS method<br />
Akila Rajagopal 1 , Weihong Yuan 1 , Christopher Adamson 2 ,<br />
Scott Holland 1<br />
1 Pediatric Neuroimaging Research Consortium, Cincinnati,<br />
United States, 2 Murdoch Childrens Research Institute,<br />
Parkville, Victoria<br />
Language lateralization determined by tract-based<br />
spatial statistics of the arcuate fasciculus<br />
Michael DiSano 1 , Timothy Ellmore 1 , Thomas Pieters 1 ,<br />
Joshua Breier 1 , Nitin Tandon 2<br />
1 University of Texas Medical School at Houston, Houston,<br />
TX, 2 University of Texas Medical School at Houston,<br />
Houston, United States<br />
Probabilistic Tractography using the Tensor<br />
Distribution Function in multiple-Shell HarDI<br />
Liang Zhan 1 , Johnson GadElkarim 2 , Iman Aganj 3 ,<br />
Christophe Lenglet 4 , Guillermo Sapiro 5 , Noam Harel 3 ,<br />
Arthur Toga 6 , Alex Leow 2 , Paul Thompson 7<br />
1 University of Cali<strong>for</strong>nia, Los Angeles, 2 University of<br />
Illinois-Chicago, Chicago, IL, 3 University of Minnesota,<br />
Minneapolis, United States, 4 Center <strong>for</strong> Magnetic<br />
Resonance Research, Department of Radiology, U of<br />
Minnesota Medical School, Minneapolis, MN, 5 Department<br />
of Electrical and Computer Engineering, University<br />
of Minnesota, Minneapolis, MN, 6 Laboratory of Neuro<br />
Imaging, UCLA, Los Angeles, CA, 7 Laboratory of Neuro<br />
Imaging, Dept. of Neurology, UCLA School of Medicine,<br />
Los Angeles, United States
Imaging Methods<br />
Diffusion MRI, continued<br />
573<br />
574<br />
575<br />
576<br />
mirror Neuron System related to Socio-Communication<br />
Function in Boys with High-Functioning autism<br />
Li-Ting Liu 1 , Susan Shur-Fen Gau 2,3 , Fang-Cheng Yeh 4 ,<br />
Wen-Yang Chiang 5 , Ay-Woan Pan 6 , Wen-Yih Tseng 7,8,9<br />
1 National Taiwan University, 2 Department of Psychiatry,<br />
National Taiwan University Hospital and College of<br />
Medicine, Taipei, Taiwan, Republic of China, 3 Department<br />
of Psychiatry, National Taiwan University Hospital, Taipei,<br />
Taiwan, Republic of China, 4 Department of Biomedical<br />
Engineering, Carnegie Mellon University, Pittsburgh,<br />
PA, 5 Department of Biomedical Engineering, Texas A&M<br />
University, College Station, TX, 6 School of Occupational<br />
Therapy, National Taiwan University College of Medicine,<br />
Taipei, Taiwan, Republic of China, 7 Institute of Biomedical<br />
Engineering, National Taiwan University, Taipei, Taiwan,<br />
Republic of China, 8 Center <strong>for</strong> Optoelectronic Biomedicine,<br />
National Taiwan University College of Medicine, Taipei,<br />
Taiwan, Republic of China, 9 Department of Medical<br />
Imaging, National Taiwan University Hospital, Taipei,<br />
Taiwan, Republic of China<br />
Disrupted Connectivity in the right Hemisphere<br />
Network in Schizophrenia revealed by DSI and fmrI<br />
Kayako Matsuo 1 , S.H. Annabel Chen 2 , Chieh-En Tseng 3 ,<br />
Wei-An Wang 3 , Chih-Min Liu 4 , Chen-Chung Liu 5 ,<br />
Hai-Go Hwu 5 , Wen-Yih Isaac Tseng 1<br />
1 Center <strong>for</strong> Optoelectronic Biomedicine, National Taiwan<br />
University College of Medicine, Taipei, Taiwan, Republic<br />
of China, 2 Division of Psychology, School of <strong>Human</strong>ities<br />
and Social Sciences, Nanyang Technological University,<br />
Singapore, Singapore, 3 Biomedical Imaging and<br />
Radiological Sciences, National Yang-Ming University,<br />
Taipei, Taiwan, Republic of China, 4 Department of<br />
Psychiatry, National Taiwan University Hospital, Taipei,<br />
Taiwan, Republic of China, 5 Department of Psychiatry,<br />
National Taiwan University, Taipei, Taiwan, Republic<br />
of China<br />
Cigarette smoking associated with microstructural<br />
white matter integrity: a DTI study<br />
Michael Deppe 1 , Heike Wersching 2 , Simon Keller 1 ,<br />
Siawoosh Mohammadi 3 , Jan Gerdes 1 , Harald Kugel 4 ,<br />
Stefan Knecht 1<br />
1 Department of Neurology, University of Münster,<br />
Münster, Germany, 2 Department of Epidemiology and<br />
Social Medicine, University of Münster, Münster, Germany,<br />
3 Wellcome Trust Centre <strong>for</strong> Neuroimaging, London,<br />
United Kingdom, 4 Dept. of Clinical Radiology, University<br />
of Muenster, Münster, Germany<br />
reproducibility of Fractional anisotropy in a<br />
3T mr scanner<br />
Maria López-Titla 1 , Christian Estrada-Hernández 2 , Maria de<br />
Lourdes Martinez 3 , Fernando Barrios 4 , Sarael Alcauter 3,4<br />
1 Facultad de Ciencias, Universidad Nacional Autonoma de<br />
Mexico, Mexico D.F., Mexico, 2 Servicios Oncológicos del<br />
Noreste, Reynosa, Tamaulipas, Mexico, 3 Instituto Nacional<br />
de Psiquiatria, INPRF., Mexico D.F., Mexico, 4 Universidad<br />
Nacional Autonoma de Mexico, QUERETARO, QRO<br />
577<br />
578<br />
579<br />
580<br />
581<br />
582<br />
Does White matter Change Following motor Training?:<br />
a Pilot Study<br />
Kenneth Weber 1 , Xue Wang 2 , Maura Casadio 3 ,<br />
Ferdinando Mussa-Ivaldi 3 , Todd Parrish 2<br />
1 Interdepartmental Neuroscience Program, Northwestern<br />
University, Chicago, IL, USA, 2 Department of Radiology,<br />
Northwestern University, Chicago, IL, USA, 3 Sensory Motor<br />
Per<strong>for</strong>mance Program, Rehabilitation Institute of Chicago,<br />
Chicago, IL, USA<br />
Verbal IQ correlates more strongly with white<br />
matter integrity in HarDI after fiber demixing<br />
Liang Zhan 1 , Neda Jahanshad 1 , Arthur Toga 2 , Katie<br />
McMahon 3 , Greig de Zubicaray 3 , Nicholas Martin 4 ,<br />
Margaret Wright 4 , Alex Leow 5 , Paul Thompson 2<br />
1 Laboratory of Neuro Imaging, Dept. of Neurology,<br />
UCLA School of Medicine, Los Angeles, United States,<br />
2 Laboratory of Neuro Imaging, Dept. of Neurology, UCLA<br />
School of Medicine, Los Angeles, United States, 3 University<br />
of Queensland, Centre <strong>for</strong> Advanced Imaging, Brisbane,<br />
Australia, 4 Queensland Institute of Medical Research,<br />
Brisbane, Australia, 5 University of Illinois-Chicago,<br />
Chicago, IL<br />
Isotropic and High resolution DTI of <strong>Human</strong> <strong>Brain</strong><br />
using Turboprop<br />
Ashish Tamhane 1 , Xiaodong Guo 1 , Michael Vannier 1 ,<br />
Jia-Hong Gao 1<br />
1 The University of Chicago, Chicago, United States<br />
Fractional anisotropy Profile: a thorough description<br />
of the white matter integrity of fiber tracts<br />
Aki Nikolaidis 1 , Eric Hsu 2 , Yao Chia Shih 3 , Fang-Cheng<br />
Yeh 4 , Wen-Yih Tseng 1<br />
1 Center <strong>for</strong> Optoelectronic Biomedicine, National Taiwan<br />
University College of Medicine, Taipei, Taiwan, Republic<br />
of China, 2 Tsing Hua University, Hsing Chu City, Taiwan,<br />
Republic of China, 3 National Taiwan University Institute of<br />
Biomedical Engineering, Taipei City, Taiwan, Republic of<br />
China, 4 Department of Biomedical Engineering, Carnegie<br />
Mellon University, Pittsburgh, PA, USA<br />
Sex differences in fractional anisotropy: where males<br />
are left in a bundle<br />
Nicolas Cherbuin 1 , Walter Abhayaratna 2 , Kaarin Anstey 1<br />
1 Centre <strong>for</strong> Mental Health Research, Australian National<br />
University, Canberra, Australia, 2 Academic Unit of Internal<br />
Medicine, Canberra Hospital, Canberra, Australia<br />
White matter CBF is inversely correlated with structural<br />
and functional connectivity<br />
Hanzhang Lu1 , Sina Aslan1 1University of Texas Southwestern Medical Center, Dallas,<br />
United States<br />
HBM 2011 >> <strong>abstracts</strong> 53<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Imaging Methods<br />
Diffusion MRI, continued<br />
583<br />
584<br />
585<br />
586<br />
Constrained spherical deconvolution based<br />
tractography and cognition in alzheimer’s disease<br />
Yael Reijmer 1 , Alexander Leemans 2 , Sophie Heringa 3 ,<br />
Ilse Wielaard 4 , Ben Jeurissen 5 , H-Dineke Koek 3 ,<br />
Geert Jan Biessels 3<br />
1 University Medical Center Utrecht, Utrecht, the<br />
Netherlands, 2 Image Sciences Institute University Medical<br />
Center Utrecht, Utrecht, Netherlands, 3 University Medical<br />
Center Utrecht, Utrecht, Netherlands, 4 Utrecht University,<br />
Utrecht, Netherlands, 5 Vision Lab University of Antwerp,<br />
Antwerp, Belgium<br />
a New method to Improve reproducibility of<br />
Tractography-based analysis of White matter Integrity<br />
Aki Nikolaidis 1 , Yao Chia Shih 2 , Eric Hsu 3 , Fang-Cheng<br />
Yeh 4 , Wen-Yih Isaac Tseng 1<br />
1 Center <strong>for</strong> Optoelectronic Biomedicine, National Taiwan<br />
University College of Medicine, Taipei, Taiwan, Republic<br />
of China, 2 Institute of Biomedical Engineering, National<br />
Taiwan University, Taipei City, Taiwan, Republic of China,<br />
3 Department of Biomedical Engineering and Environmental<br />
Sciences, Hsinchu, Taiwan, Republic of China,<br />
4 Department of Biomedical Engineering, Carnegie Mellon<br />
University, Pittsburgh, PA, USA<br />
White matter abnormality in a group of young<br />
Drug-Naïve aDHD Patients<br />
Manzar Ashtari 1 , Carolyn McIlree 2 , Melissa Naraine 3 ,<br />
Laura Cyckowski 4 , Ruth Milanaik 3 , Li Kan 3 , Jeffrey<br />
Newcorn 5 , Josephine Elia 1 , Andrew Adesman 3<br />
1 Children’s Hospital of Philadelphia, Philadelphia, PA,<br />
2 University of Vermont School of Medicine, Burlington, VT,<br />
3 North Shore LIJ Health Systems, New Hyde Park, NY,<br />
4 Children’s Hospital of Philadelphia, 5 Mount Sinai School of<br />
Medicine, New York City, NY<br />
a Diffusion Spectrum Tractography Study on<br />
Fiber Integrity of the genu in Schizophrenia<br />
Jhih-Wei He 1 , C-M. Liu 2 , H-G. Hwu 2 , C-C. Liu 2 ,<br />
Fang-Cheng Yeh 3 , Wen-Yang Chiang 4 , W-Y. Tseng 5,1,6<br />
1 Institute of Biomedical engineering, National Taiwan<br />
University, Taipei, Taiwan, 2 Department of Psychiatry,<br />
National Taiwan University Hospital, Taipei, Taiwan,<br />
3 Department of Biomedical Engineering, Carnegie<br />
Mellon University, Pittsburgh, PA, 4 Department of<br />
Biomedical Engineering, Texas A&M University, College<br />
Station, TX, 5 Department of Medical Imaging, National<br />
Taiwan University Hospital, Taipei, Taiwan, 6 Center <strong>for</strong><br />
Optoelectronic Biomedicine, National Taiwan University<br />
College of Medicine, Taipei, Taiwan<br />
54 HBM 2011 >> <strong>abstracts</strong><br />
587<br />
588<br />
589<br />
590<br />
591<br />
The Fiber Pathways of the Forebrain as a Woven<br />
orthogonal grid<br />
Van Wedeen 1,2 , Guangping Dai 1,2 , Ruopeng Wang 3,2 ,<br />
Douglas Rosene 4 , Jon Kaas 5 , Wen-Yih Tseng 6,7<br />
1 Department of Radiology, Massachusetts General<br />
Hospital and the Harvard Medical School, Boston, MA,<br />
2 Martinos Center <strong>for</strong> Biomedical Imaging, Charlestown,<br />
MA, 3 Massachusetts General Hospital, Boston, MA,<br />
4 Department of Anatomy and Neurobiology, Boston<br />
University Medical Campus, Boston, MA, 5 Department<br />
of Psychology, College of Arts and Sciences, Vanderbilt<br />
University, Nashville, TN, 6 Center <strong>for</strong> Optoelectronic<br />
Biomedicine, National Taiwan University College of<br />
Medicine, Taipei, Taiwan, 7 Department of Medical Imaging,<br />
National Taiwan University Hospital, Taipei, Taiwan<br />
In vivo DWI at 7T with a 70 mT/m gradient coil:<br />
24- vs 32-channel head coil<br />
Ralf Luetzkendorf 1 , Robin Heidemann 2 , Alfred Anwander 2 ,<br />
Joerg Stadler 3 , Thorsten Feiweier 4 , Oliver Speck 5 ,<br />
Johannes Bernarding 1<br />
1 Department <strong>for</strong> Biometry and Medical In<strong>for</strong>matics,<br />
OvG University, Magdeburg, Germany, 2 Max Planck<br />
Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig,<br />
Germany, 3 Leibniz Institute <strong>for</strong> Neurobiology, Magdeburg,<br />
Germany, 4 Siemens Healthcare, Erlangen, Germany,<br />
5 Biomedical Magnetic Resonance, OvG University,<br />
Magdeburg, Germany<br />
alternate grids <strong>for</strong> diffusion weighted imaging and<br />
associated reconstruction algorithms<br />
Cory Ahrens 1 , Stefan van der Walt 2 , Fernando Perez 3<br />
1 Tech-X Corporation, Boulder, CO, 2 University of<br />
Stellenbosch, Stellenbosch, South Africa, 3 University of<br />
Cali<strong>for</strong>nia, Berkeley, Oakland, United States<br />
The Voxel-Based Comparison of Fractional anisotropy<br />
between elderly and young using LDDmm<br />
Yao-Chia Shih 1,2 , Makoto Miyakoshi 3 , Y.C. Hsu 4 ,<br />
Kayako Matsuo 2 , Annabel Chen 5 , Toshiharu Nakai 3 ,<br />
Wen-Yih Isaac Tseng 2,1,6<br />
1 Institute of Biomedical Engineering, National Taiwan<br />
University, Taipei, Taiwan, Republic of China, 2 Center <strong>for</strong><br />
Optoelectronic Biomedicine, National Taiwan University<br />
College of Medicine, Taipei, Taiwan, Republic of China,<br />
3 National Center <strong>for</strong> Geriatrics and Gerontology, Aichi,<br />
Japan, 4 epartment of Biomedical Engineering and<br />
Environmental Sciences, National Tsing Hua University,<br />
Hsinchu, Taiwan, Republic of China, 5 Division of<br />
Psychology, School of <strong>Human</strong>ities and Social Sciences,<br />
Nanyang Technological University, Singapore, Singapore,<br />
6 Department of Medical Imaging, National Taiwan<br />
University Hospital, Taipei, Taiwan, Republic of China<br />
reproducibility of Diffusion Tensor measurements with<br />
geographically Separated mrI Scanners<br />
Jeffry Alger 1 , Teena Moody 2 , Jorge Almeida 3 ,<br />
Mary Phillips 3 , Lori Altshuler 2<br />
1 Department of Neurology, David Geffen School<br />
of Medicine at UCLA, Los Angeles, United States,<br />
2 Department of Psychiatry and Biobehavioral Sciences,<br />
David Geffen School of Medicine at UCLA, Los Angeles,<br />
CA, 3 University of Pittsburgh, Pittsburgh, PA
Imaging Methods<br />
Diffusion MRI, continued<br />
592<br />
593<br />
594<br />
595<br />
596<br />
597<br />
598<br />
Callosal contributions to bimanual coordination:<br />
influence of task complexity and sensory feedback<br />
Jolien Gooijers 1 , Karen Caeyenberghs 2 ,<br />
Alexander Leemans 3 , Helene Sisti 2 , Marcus Heitger 2 ,<br />
Stephan Swinnen 2<br />
1 KU Leuven, 2 KU Leuven, Leuven, Belgium, 3 University<br />
Medical Center Utrecht, Utrecht, Netherlands<br />
Clinical Quality Fiber Tracking and Connectome<br />
mapping in Neurosurgery & Traumatic <strong>Brain</strong> Injury<br />
Walter Schneider 1 , Kevin Jarbo 1 , Samuel Sin 2 ,<br />
Timothy Verstynen 1 , Sudhir Pathak 1 , Juan Fernandez-<br />
Miranda 2 , David Okonkwo 2 , Fernando Boada 2<br />
1 University of Pittsburgh, Pittsburgh, PA,<br />
2 University of Pittsburgh Medical Center, Pittsburgh, PA<br />
analysis of diffusion data in Parkinson’s Disease:<br />
multiple directions or multiple acquisitions?<br />
Charlotte Rae 1 , Marta Correia 1 , Ellemarije Altena 2 ,<br />
Laura Hughes 1,2 , James Rowe 1,2<br />
1 MRC Cognition and <strong>Brain</strong> Sciences Unit, Cambridge,<br />
United Kingdom, 2 Department of Clinical Neurosciences,<br />
University of Cambridge, Cambridge, United Kingdom<br />
Histogrambased analysis of DTI-derived values<br />
using different parameters <strong>for</strong> data acquisition<br />
Alexandra Hellerbach1 , Davide Laneri2 , Miriam Bauer3 ,<br />
Andreas Jansen1 , Jens Sommer1 1Department of Psychiatry and Psychotherapy, Section of<br />
<strong>Brain</strong>Imaging, University of Marburg, Marburg, Germany,<br />
2Department of Psychiatry and Psychotherapy, Section of<br />
<strong>Brain</strong>Imaging, University of Marburg, Marburg, Germany,<br />
3Department of Neurosurgery, University of Marburg,<br />
Marburg, Germany<br />
roC analysis of DTI metrics in <strong>Brain</strong> Tissue:<br />
optimal measures <strong>for</strong> gray and White matter<br />
Mark Lowe1 , Ken Sakaie2 , Micheal Phillips3 1Cleveland Clinic Foundatoin, Cleveland, United States,<br />
2 3 Cleveland Clinic, CLEVELAND, OH, Cleveland Clinic,<br />
Cleveland, OH<br />
Probabilistic maps of connectivity with visual<br />
cortex in patients with Periventricular Leukomalacia<br />
Minhee Um 1 , MAENG-KEUN OH 2 , Jong Doo Lee 1,3 ,<br />
Hae-Jeong Park 1,3<br />
1 BK21 Project <strong>for</strong> Medical Science, Yonsei University<br />
College of Medicine, Seoul, Republic Of Korea, 2 Yonsei<br />
University Health System, Seoul, Republic Of Korea,<br />
3 Department of Radiology and Division of Nuclear<br />
Medicine, Yonsei University College of Medicine, Seoul,<br />
Republic Of Korea<br />
a Comparison of Pre- Versus Post-Perfusion<br />
DTI Tractography in Cadaveric <strong>Brain</strong> Tissue<br />
Nathan Hageman 1 , Jonathan Wisco 2 , Arthur Toga 1<br />
1 Laboratory of Neuroimaging, UCLA School of Medicine,<br />
Los Angeles, CA, 2 Department of Anatomy, UCLA School<br />
of Medicine, Los Angeles, CA<br />
599<br />
600<br />
601<br />
602<br />
603<br />
604<br />
605<br />
Can Psychotherapy Change White matter in the<br />
Chronic Pain <strong>Human</strong> <strong>Brain</strong>? a DTI Study<br />
Gregory Lieberman 1 , Trevor Andrews 1,2 , Michael<br />
Krauthamer 1 , Christopher Filippi 1 , John Mantegna 1 ,<br />
Magdalena Naylor 1<br />
1 University of Vermont, Burlington, VT, USA,<br />
2 Philips Healthcare, Best, Netherlands<br />
Clinical usefulness of diffusion tensor imaging in<br />
preterm infants with bilateral PVL<br />
Hee Kyung Cho 1 , Su Min Son 1 , Sung Ho Jang 1 ,<br />
Sang Ho Ahn 1 , Yoon Woo Cho 1 , Sang Seok Yeo 1<br />
1 Department of Physical Medicine and Rehabilitation,<br />
College of Medicine, Yeungnam University, Daegu,<br />
Korea, Republic of<br />
White matter changes in patients with Friedreich<br />
ataxia after treatment with erythropoietin<br />
Karl Egger 1 , Tom Ballinger 2 , Christian Kremser 3 ,<br />
Marek Kubicki 2 , Werner Nachbauer 3 , Michael Schocke 4 ,<br />
Martha Shenton 2<br />
1 Brigham and Womens Hospital, 2 PNL, Boston, United<br />
States, 3 MUI, Innsbruck, Austria, 4 Medical University<br />
Innsbruck, Innsbruck, Austria<br />
High spatial resolution diffusion weighted imaging<br />
with removal of correlated noise and its application<br />
in the case of mild <strong>for</strong>m of Canavan Disease<br />
Goran Vucurevic 1 , Georg Kutschke 2 , Wibke Müller-Forell 3<br />
1 Institute of Neuroradiology, Mainz, Germany, 2 Children<br />
Hospital, Mainz, Germany, 3 Institute of Neuroradiology,<br />
Mainz, Germany<br />
White matter Integrity and Five-Factor Personality<br />
measures in Healthy adults<br />
Jiansong Xu 1 , Marc Potenza 1<br />
1 Yale University, New Haven, CT<br />
general strategy <strong>for</strong> the distortion correction of the<br />
DWI using simulated DWI data<br />
Haewon Nam 1 , Hae-Jeong Park 2<br />
1 IMS, Ewha Womans University, Seoul, Republic of<br />
Korea, 2 Yonsei University, Seoul, Republic Of Korea<br />
Diffusion tensor image finding in neurologically<br />
asymptomatic patients with end stage renal disease<br />
Han Sun Kim 1 , Dai Seg Bai 2 , Ji Heon Hong 1 , Jin Young<br />
Jeong 2 , Jong Won Park 3 , Sung-Ho Jang 1<br />
1 Department of Physical Medicine and Rehabilitation,<br />
College of Medicine, Yeungnam University, Daegu,<br />
Korea, Republic of, 2 Department of psychiatry, College of<br />
Medicine, Yeungnam University, Daegu, Korea, Republic<br />
of, 3 Department of Internal Medicine, College of Medicine,<br />
Yeungnam University, Daegu, Korea, Republic of<br />
HBM 2011 >> <strong>abstracts</strong> 55<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Imaging Methods<br />
Diffusion MRI, continued<br />
606<br />
607<br />
mammillotegmental Tract in <strong>Human</strong> <strong>Brain</strong> : Diffusion<br />
Tensor Tractography Study<br />
Jeong Pyo Seo 1 , Mi Young Lee 2 , YONG HYUN KWON 3 ,<br />
Sung Ho Jang 4 , HYEOK GYU KWON 1 , Su Min Son 4<br />
1 Department of Physical Therapy, Graduate School of<br />
Rehabilitation Science, Daegu University, Daegu, Korea,<br />
Republic of, 2 Department of Physical Therapy, College<br />
of Health and Therapy, Daegu Haany University, Daegu,<br />
Korea, Republic of, 3 Department of Physical Therapy,<br />
Yeungnam College of Science and Technology, Daegu,<br />
Korea, Republic of, 4 Department of Physical Medicine and<br />
Rehabilitation, College of Medicine, Yeungnam University,<br />
Daegu, Korea, Republic of<br />
Diffusion tensor tractography demonstrated the focal<br />
lesion of medial lemniscus in patients<br />
Su Min Son 1 , Sung Ho Jang 1 , Hee Kyung Cho 1 ,<br />
Yong Jae Jung 1 , Dong Gyu Lee 1 , Sang Seok Yeo 1<br />
1 Department of Physical Medicine and Rehabilitation,<br />
College of Medicine, Yeungnam University, Daegu,<br />
Korea, Republic of<br />
Imaging Methods<br />
Non-BOLD fMRI<br />
608* Comparison of DfmrI, Se- and gre-BoLD fmrI<br />
responses using group analysis, (o-m1)<br />
Toshihiko Aso1 , Shin-ichi Urayama2 , Hidenao Fukuyama3 ,<br />
Denis Le Bihan4 1<strong>Human</strong> <strong>Brain</strong> Research Center, Kyoto University Graduate<br />
School of Medicine, 2Kyoto University, 3HBRC Kyoto<br />
University School Of Medicine, Kyoto, Japan, 4Neurospin/ CEA, Gif Sur Yvette, France<br />
609<br />
610<br />
611<br />
612<br />
Ir-TSe VaSo fmrI of the motor cortex<br />
Fabiola Cretti 1 , Paul E. Summers 1 , Carlo A. Porro 1<br />
1 Università Modena Reggio Emilia, Modena, Italy<br />
White matter fmrI using dual-spin echo ePI<br />
Guoxiang Liu 1 , Tsutom Murata 1<br />
1 National Institute of In<strong>for</strong>mation and Communications<br />
Technology, Kobe, Japan<br />
grey and white matter cerebrovascular reactivity<br />
mapping in cardiovascular disease patients<br />
Udunna Anazodo 1,2 , J K Shoemaker 3 , N Suskin 4 ,<br />
J Wang 5 , K St Lawrence 1,2<br />
1 Lawson Health Research Institute, London, Ontario,<br />
2 Department of Medical Biophysics, UWO, London,<br />
Ontario, Canada, 3 Neurovascular Research Laboratory,<br />
School of Kinesiolog, London, Ontario, 4 London Health<br />
Science Cardiology Rehabilitation Program, London,<br />
Ontario, 5 Department of Neurology, UCLA, Almanson-<br />
Lovelace <strong>Brain</strong> <strong>Mapping</strong> Center, London, Ontario<br />
Functional mrI of the Thoracic Spinal Cord During<br />
Vibration Sensation<br />
Jennifer Kornelsen 1 , Stephen Smith 2 , Theresa McIver 2 ,<br />
Uta Sboto-Frankenstein 1 , Donghui Yin 1 , Peter Latta 1 ,<br />
Boguslaw Tomanek 1<br />
1 National Research Council Canada, Institute <strong>for</strong><br />
Biodiagnostics, Winnipeg, Canada, 2 University of<br />
Winnipeg, Winnipeg, Canada<br />
56 HBM 2011 >> <strong>abstracts</strong><br />
613<br />
614<br />
Theoretical solution <strong>for</strong> cross-term suppression in<br />
twice-refocusing DW sequence<br />
Shin-ichi Urayama 1 , Tetsuya Yamamoto 2 , Toshihiko Aso 1 ,<br />
Hidenao Fukuyama 1 , Denis Le Bihan 3,1<br />
1 HBRC Kyoto University School Of Medicine, Kyoto,<br />
Japan, 2 Kokoro Research Center, Kyoto University, Kyoto,<br />
Japan, 3 Neurospin/CEA, Gif Sur Yvette, France<br />
Insights into <strong>Brain</strong> Processing of acute and<br />
Chronic Itch revealed by arterial Spin Labeled mrI<br />
ALEXANDRU PAPOIU 1 , Robert Coghill 1 , Liliana Banari 1 ,<br />
Robert Kraft 2 , Gil Yosipovitch 1<br />
1 Wake Forest University School of Medicine, Winston-<br />
Salem, NC, 2 Wake Forest University & Virginia Tech,<br />
Winston-Salem, NC<br />
Modeling and Analysis Methods<br />
Image Registration and Computational Anatomy<br />
615** model-driven Con<strong>for</strong>mal Parameterization of the<br />
Cortical Surface<br />
Guillaume Auzias1 , Julien Lefèvre1 , Arnaud Le Troter1 ,<br />
Jean Régis2 , Olivier Coulon1 1 2 LSIS lab, CNRS, Marseille, France, Stereotactic and<br />
Functional Neurosurgery Department, Timone Hospital,<br />
A.P.M., Marseille, France<br />
616**<br />
617<br />
618<br />
619<br />
Whole <strong>Brain</strong> Diffeomorphic mapping via the integration<br />
of Sulcal Curves, Cortical Surfaces and Images<br />
Jia Du 1 , Anqi Qiu 1,2,3<br />
1 Division of Bioengineering, National University of<br />
Singapore, Singapore, Singapore, 2 Clinical Imaging<br />
Research Center, National University of Singapore,<br />
singapore, Singapore, 3 Singapore Institute <strong>for</strong> Clinical<br />
Sciences, the Agency <strong>for</strong> Science, Technology and<br />
Research, Singapore, Singapore<br />
automatic Surface-based Interhemispheric<br />
registration with FreeSurfer<br />
Douglas Greve 1 , Mert Sabuncu 2 , Randy Buckner 3 ,<br />
Bruce Fischl 4<br />
1 Massachusetts General Hospital, Harvard Medical School,<br />
Boston, MA, 2 Massachusetts General Hospital, Boston,<br />
MA, 3 Harvard University, Department of Psychology,<br />
Cambridge, MA, 4 Massachusetts General Hospital,<br />
Harvard Medical School, MIT HST/CSAIL, Boston,<br />
United States<br />
a graph matching-based method <strong>for</strong> sulcal pattern<br />
analysis: abnormal sulcal pattern in polymicrogyria<br />
Kiho Im 1 , Michael Paldino 2 , Rudolph Pienaar 3 ,<br />
Patricia Grant 4<br />
1 Children’s Hospital Boston, Harvard Medical School,<br />
Boston, USA, 2 Children’s Hospital Boston, Boston,<br />
United States, 3 Children’s Hospital Boston, Boston, MA,<br />
4 Fetal-Neonatal Neuroimaging & Developmental Science<br />
Center, Children’s Hospital Boston, Boston, MA<br />
Searching scale space changes everything<br />
Lu Zhao 1 , Maxime Boucher 1 , Pedro Rosa-Neto 1 ,<br />
Alan Evans 1<br />
1 McGill University, Montreal, Canada
Imaging Methods<br />
Image Registration and Computational Anatomy, continued<br />
620<br />
621<br />
622<br />
623<br />
624<br />
625<br />
626<br />
Do manual and voxel-based morphometry measure<br />
the same – a prove of concept study<br />
Holger Mohr 1 , Niels Focke 2 , Sarah Trost 1 , Walter Paulus 2 ,<br />
Peter Falkai 1 , Oliver Gruber 1<br />
1 Center <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Georg August University,<br />
Göttingen, Germany, 2 Dept. of Clinical Neurophysiology,<br />
Georg August University, Göttingen, Germany<br />
Comparison of cortical surface reconstructions<br />
from mP2rage data at 3T and 7T<br />
Kyoko Fujimoto 1 , Jonathan Polimeni 1,2 , Andre van der<br />
Kouwe 1,2 , Tobias Kober 3,4 , Martin Reuter 1,5,6 ,<br />
Thomas Benner 1,2 , Bruce Fischl 1,2,6 , Lawrence Wald 1,2,7<br />
1 A.A. Martinos Center <strong>for</strong> Biomedical Imaging,<br />
Massachusetts General Hospital, Charlestown, MA,<br />
United States, 2 Department of Radiology, Harvard Medical<br />
School, Boston, MA, United States, 3 Laboratory <strong>for</strong><br />
functional and metabolic imaging, Ecole Polytechnique<br />
Fédérale de Lausanne, Lausanne, Switzerland,<br />
4 Advanced Clinical Imaging Technology, Siemens Suisse<br />
SA - CIBM, Lausanne, Switzerland, 5 Department of<br />
Neurology, Massachusetts General Hospital, Boston, MA,<br />
United States, 6 Computer Science and AI Lab (CSAIL),<br />
Massachusetts Institute of Technology, Cambridge, MA,<br />
United States, 7 Harvard-MIT Division of Health Sciences<br />
and Technology, Massachusetts Institute of Technology,<br />
Cambridge, MA, United States<br />
unbiased Longitudinal Processing of Structural<br />
mrI Data<br />
Martin Reuter 1,2 , H. Diana Rosas 1 , Bruce Fischl 1,2<br />
1 MGH/HMS/MIT Athinoula A. Martinos Center <strong>for</strong><br />
Biomedical Imaging, Charlestown, MA, 2 Massachusetts<br />
Institute of Technology, Cambridge, MA<br />
Tetrahedral mesh-based morphometry of<br />
<strong>Brain</strong> Surfaces and Volumes<br />
Anand Joshi 1 , Carl Lederman 1 , Ivo Dinov 1 ,<br />
Shantanu Joshi 1 , Arthur Toga 1 , John Van Horn 1<br />
1 UCLA School of Medicine, Department of Neurology,<br />
Los Angeles, United States<br />
atlas-based Clustering of Sulcal patterns –<br />
application to the Left Inferior Frontal Sulcus<br />
Olivier Coulon 1,2 , Vladimir Fonov 2 , Louis Collins 2<br />
1 LSIS lab, CNRS, Marseille, France, 2 McConnell <strong>Brain</strong><br />
Imaging Centre, Montreal, Canada<br />
a unified Variational approach to Structural<br />
<strong>Brain</strong> registration<br />
Carl Lederman1 , Anand Joshi1 , Ivo Dinov1 , Kevin Chan1 ,<br />
Luminita Vese1 , Arthur Toga2 , John Van Horn1 1University of Cali<strong>for</strong>nia, Los Angeles, Los Angeles, CA,<br />
2UCLA School of Medicine, Department of Neurology,<br />
Los Angeles, CA<br />
Is manual landmark labelling necessary <strong>for</strong><br />
optimal macro-anatomical cortex alignment?<br />
Martin Frost 1 , Rainer Goebel 1<br />
1 Maastricht University, Maastricht, Netherlands<br />
627<br />
628<br />
629<br />
630<br />
631<br />
632<br />
633<br />
634<br />
a modified SoBI method <strong>for</strong> Structural Data on the<br />
Cerebral Cortex<br />
David Wheland 1 , Dimitrios Pantazis 2 , Richard Leahy 1<br />
1 University of Southern Cali<strong>for</strong>nia, Los Angeles, United<br />
States, 2 McGovern Institute <strong>for</strong> <strong>Brain</strong> Research, Boston, MA<br />
Diffeometric anatomical registration on the Surface<br />
Rachel Yotter 1 , Paul Thompson 2 , Christian Gaser 1<br />
1 Structural <strong>Brain</strong> <strong>Mapping</strong> Group, Department of<br />
Psychiatry, University of Jena, Jena, Germany,<br />
2 Laboratory of Neuro Imaging, Dept. of Neurology,<br />
UCLA School of Medicine, Los Angeles, United States<br />
using Curvature Weighted meshes in a Dijkstra-based<br />
Similarity measure <strong>for</strong> FreeSurfer Surfaces<br />
Rudolph Pienaar 1 , Daniel Ginsburg 2 , Patricia Grant 3<br />
1 Childrens Hospital Boston, Boston, United States,<br />
2 Children’s Hospital Boston, Boston, MA, 3 Fetal-Neonatal<br />
Neuroimaging & Developmental Science Center, Children’s<br />
Hospital Boston, Boston, MA<br />
Strategies <strong>for</strong> robust Structural-to-Functional Image<br />
registration in fmrI<br />
Wen-Ming Luh 1 , Kristen Duthie 1 , Javier Gonzalez-Castillo 1 ,<br />
Chia-Yueh Carlton Chu 1 , Ziad S. Saad 1 , Peter Bandettini 1<br />
1 National Institutes of Health, Bethesda, MD<br />
Individualized Localization and Surface-based<br />
registration of Semi-chronic Intracranial electrodes<br />
Andrew Dykstra 1,2 , Alexander Chan 1,2 , Rodrigo Zepeda 2 ,<br />
Corey Keller 2 , Brian Quinn 3 , Sydney Cash 2<br />
1 Harvard-MIT Division of Health Sciences and Technology,<br />
Cambridge, MA, 2 Cortical Physiology Laboratory,<br />
Department of Neurology, Massachusetts General Hospital<br />
and Harvard Medical School, Boston, MA, 3 Comprehensive<br />
Epilepsy Center, New York University School of Medicine,<br />
New York, NY<br />
a comparative analysis of methods used to localize<br />
subdural electrodes onto the cortical surface<br />
Thomas Pieters1 , Michael DiSano1 , Christopher Conner1 ,<br />
Timothy Ellmore1 , Nitin Tandon1 1University of Texas Medical School at Houston,<br />
Houston, TX<br />
Comparison of registration algorithms <strong>for</strong> capturing<br />
intraoperative brain shift<br />
Arne Hans 1 , Neil Weisenfeld 1 , Mark Alexiuk 2 ,<br />
John Saunders 2 , Einat Liebenthal 3 , Adam Wittek 4 ,<br />
Grand Joldes 4 , Karol Miller 4 , Simon Warfield 1<br />
1 Children’s Hospital Boston and Harvard Medical School,<br />
Boston, MA, USA, 2 IMRIS, Winnipeg, Canada, 3 Medical<br />
College of Wisconsin, Milwaukee, United States,<br />
4 University of Western Australia, Perth, Australia<br />
Computational model of <strong>Brain</strong> atrophy<br />
Veronika Brázdová 1 , Jorge Manuel Cardoso 1 ,<br />
Marie Chupin 2 , Sebastien Ourselin 3 , Louis Lemieux 4<br />
1 UCL, London, United Kingdom, 2 UPMC, Paris, France,<br />
3 Centre <strong>for</strong> Medical Image Computing, London,<br />
4 UCL Institute of Neurology, London, United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 57<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Modeling and Analysis Methods<br />
Image Registration and Computational Anatomy, continued<br />
635<br />
636<br />
Voxel-based volumetric results without ⁄with image<br />
correction using the two segmentation algorithms<br />
Takashi Shizukuishi 1 , Osamu Abe 1 , Hidenori Yamasue 2 ,<br />
Hidemasa Takao 3 , Takuya Aizawa 1 , Masakuni Sakaguchi 1 ,<br />
Masami Goto 4 , Hiroki Sasaki 3 , Wataru Gonoi 3 , Hiroyuki<br />
Kabasawa 5 , Kiyoto Kasai 2 , Shigeki Aoki 6<br />
1 Nihon University School of Medicine Department of<br />
Radiology, Tokyo, Japan, 2 University of Tokyo Department<br />
of Neuropsychiatry, Tokyo, Japan, 3 University of Tokyo<br />
Department of Radiology, Tokyo, Japan, 4 University of<br />
Tokyo Hospital Department of Radiological Technology,<br />
Tokyo, Japan, 5 Japan Applied Science Laboratory, GE<br />
Yokogawa Medical Systems Ltd., Tokyo, Japan, 6 Juntendo<br />
University Department of Radiology, Tokyo, Japan<br />
<strong>Brain</strong> extraction via de<strong>for</strong>mable registration<br />
Leonid Teverovsky 1 , Julie Price 2 , Howard Aizenstein 3 ,<br />
Meryl Butters 3 , Robert Tamburo 4 , Oscar Lopez 3 ,<br />
James Becker 3<br />
1 Carnegie Mellon University, Pittsburgh, PA, 2 University of<br />
Pittsburgh Medical Center, Pittsburgh, PA, 3 University of<br />
Pittsburgh, Pittsburgh, PA, 4 Intel, Pittsburgh, PA<br />
Modeling and Analysis Methods<br />
Motion Correction and Preprocessing<br />
637 Dynamic unwarping of multi echo ePI data<br />
Eelke Visser1,2 , Benedikt Poser3,4,1 , Markus Barth1,4 ,<br />
Marcel Zwiers1,2 1Donders Institute <strong>for</strong> <strong>Brain</strong>, Cognition and Behaviour,<br />
Radboud University Nijmegen, Nijmegen, Netherlands,<br />
2Department of Cognitive Neuroscience, Radboud<br />
University Nijmegen Medical Centre, Nijmegen,<br />
Netherlands, 3University of Hawaii, John A. Burns School of<br />
Medicine, Honolulu, Hawaii, United States, 4Erwin L Hahn<br />
Institute <strong>for</strong> Magnetic Resonance Imaging,<br />
University Duisburg-Essen, Essen, Germany<br />
638<br />
639<br />
640<br />
The effects of preprocessing optimization on<br />
test-retest reliability in fmrI<br />
Nathan Churchill 1 , Anita Oder 2 , Robyn Spring 3 ,<br />
Stephen Strother 4<br />
1 University of Toronto, 2 Rotman Research Institute, Toronto,<br />
Ontario, 3 University of Toronto, Toronto, Ontario, 4 Rotman<br />
Reserch Institute, Baycrest, Toronto, Canada<br />
a gPu accelerated motion Correction algorithm <strong>for</strong><br />
real-time fmrI<br />
Dustin Scheinost 1 , Michelle Hampson 2 , Jitendra Bhawnani 2 ,<br />
Maolin Qiu 2 , R. Todd Constable 3 , Xenophon Papademetris 3<br />
1 Department of Biomedical Engineering, Yale University,<br />
New Haven, CT, 2 Department of Diagnostic Radiology,<br />
Yale University, New Haven, CT, 3 Department of Diagnostic<br />
Radiology; Department of Biomedical Engineering,<br />
Yale University, New Haven, CT<br />
Increased Intra-Slice Functional Correlation:<br />
Problem and Solution<br />
Alexandre Franco 1 , Jaemin Shin 2 , Ki Sueng Choi 2 ,<br />
Richard Craddock 3 , Helen Mayberg 4 , Xiaoping Hu 2<br />
1 Emory University, Atlanta, GA, 2 Emory University/Georgia<br />
Tech, Atlanta, GA, 3 Baylor College of Medicine, Atlanta,<br />
United States, 4 Emory University, Atlanta, United States<br />
58 HBM 2011 >> <strong>abstracts</strong><br />
641<br />
642<br />
643<br />
644<br />
645<br />
Influence of acquisition parameters and paradigm<br />
type on slice timing correction efficiency<br />
Ronald Sladky 1 , Ross Cunnington 2 , Ewald Moser 1 ,<br />
Christian Windischberger 1<br />
1 MR Centre Of Excellence, Medical University Of Vienna,<br />
Vienna, Austria, 2 Queensland <strong>Brain</strong> Institute, University Of<br />
Queensland, St Lucia, Australia<br />
adaptation of Nonlocal means to fmrI. Initial results<br />
Juan J Lull 1 , Jose Manjon 1 , Luis Martí-Bonmatí 2 , Gracián<br />
Garcia-Marti 2 , Julio Sanjuan 3 , Nuria Lull 4 , María de la<br />
Iglesia-Vayá 5 , Montse Robles 1<br />
1 IBIME Research Group. Universidad Politécnica de<br />
Valencia, Valencia, Spain, 2 Hospital Quirón Valencia,<br />
Valencia, Spain, 3 Psychiatrich Unit. Faculty of Medicine.<br />
Clinical Hospital, University of Valencia, Valencia, Spain,<br />
4 CEU-UCH Universidad Cardenal Herrera, Valencia, Spain,<br />
5 Centro de Excelencia de Imagen Biomédica (CEIB)<br />
Consellería de Sanitat, Valencia, Spain<br />
The Influence of skull stripping on the localisation of<br />
speech – when normalising lesioned brains<br />
Florian Fischmeister 1,2 , Katharina Merksa 1,2 , Ilse Höllinger 1,2 ,<br />
Nikolaus Klinger 1,2 , Alexander Geissler 1,2 , Moritz Wurnig 1,2 ,<br />
Jakob Rath 1,2 , Simon Robinson 3,2 , Siegfried Trattnig 3,2 ,<br />
Roland Beisteiner 1,2<br />
1 Study Group Clinical fMRI, Department of Neurology,<br />
Medical University of Vienna, Vienna, Austria, 2 MR Center<br />
of Excellence, Medical University of Vienna, Vienna,<br />
Austria, 3 Department of Radiology, Medical University of<br />
Vienna, Vienna, Austria<br />
mrI Denoising based on Sparseness and Self-Similarity<br />
Jose Manjon 1 , Antonio Buades 2 , Louis Collins 3 , Pierrick<br />
Coupe 3 , Montse Robles 4<br />
1 IBIME Research Group. Universidad Politecnica de<br />
Valencia, Valencia, Spain, 2 Université Paris Descartes,<br />
Paris, France, 3 McConnell <strong>Brain</strong> Imaging Centre, Montreal,<br />
Canada, 4 IBIME Research Group. Universidad Politécnica<br />
de Valencia, Valencia, Spain<br />
rapid motions in Pediatric and Clinical Populations<br />
Paul Mazaika 1 , Gary Glover 2 , Allan Reiss 3<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA, United States, 2 Stan<strong>for</strong>d<br />
University, Stan<strong>for</strong>d, United States, 3 Stan<strong>for</strong>d Univ School<br />
Of Medicine Dept Of Psyc & Behavioral, Stan<strong>for</strong>d, United<br />
States<br />
Modeling and Analysis Methods<br />
Multivariate Modeling<br />
646** gaussian processes <strong>for</strong> whole-brain feature selection<br />
and classification in fmrI<br />
Ekaterina Lomakina1,2 , Kay Brodersen1,2 , Timothy Behrens3 ,<br />
Joachim Buhmann1 , Klaas Enno Stephan2,4 1 2 ETH Zurich, Zurich, Switzerland, University of Zurich,<br />
Zurich, Switzerland, 3Ox<strong>for</strong>d Centre <strong>for</strong> Functional MRI of<br />
the <strong>Brain</strong> (FMRIB), Ox<strong>for</strong>d, United Kingdom, 4University College, London, United Kingdom
Modeling and Analysis Methods<br />
Multivariate Modeling, continued<br />
647**<br />
648<br />
649<br />
650<br />
651<br />
652<br />
653<br />
group in<strong>for</strong>mation guided ICa <strong>for</strong> analysis of multisubject<br />
fmrI data<br />
Yuhui Du 1,2 , Yong Fan 3<br />
1 National Laboratory of Pattern Recognition, Institute of<br />
Automation, Chinese Academy of Sciences, Beijing,China,<br />
2 College of In<strong>for</strong>mation and Communication Engineering,<br />
North University of China, Taiyuan, China, 3 National<br />
Laboratory Of Pattern Recognition, Institute Of Automation,<br />
Chinese Academy of Sciences, Beijing, China<br />
multivariate cortical shape modeling based on sparse<br />
representation<br />
Seongho Seo 1 , Moo K. Chung 1,2 , Kim M. Dalton 2 ,<br />
Richard J. Davidson 2<br />
1 Seoul National University, Seoul, Korea, 2 University of<br />
Wisconsin, Madison, WI<br />
The 3dsvm plugin <strong>for</strong> aFNI now enables support vector<br />
machine-based real-time fmrI<br />
Jonathan Lisinski 1 , Ziad S. Saad 2 , Richard Reynolds 2 ,<br />
Jason White 3 , Stephen LaConte 1<br />
1 Virginia Tech Carilion Research Institute, Roanoke, VA,<br />
2 Scientific and Statistical Computing Core, National<br />
Institute of Mental Health, NIH, Bethesda, MD, 3 Baylor<br />
College of Medicine, Houston, TX<br />
multivariate neuroimaging substrates <strong>for</strong> five cognitive<br />
domains in aging and focal neurodegeneration<br />
Brian Avants 1 , Philip Cook 2 , David Libon 3 , Corey McMillan 2 ,<br />
James Gee 2 , Murray Grossman 2<br />
1 University of Pennsylvania, Philadelphia, United States,<br />
2 University of Pennsylvania, Philadelphia, PA, 3 Drexel<br />
University, Philadelphia, PA<br />
Structural adaptive Smoothing methods <strong>for</strong> fmrI and<br />
its Implementation in r<br />
Karsten Tabelow 1 , Henning Voss 2 , Joerg Polzehl 1<br />
1 WIAS, Berlin, Germany, 2 Citigroup Biomedical Imaging<br />
Center, Weill Cornell Medical College, New York City, NY<br />
Validating Divergence as a Tool <strong>for</strong> assessment of<br />
group Differences in a JICa Fusion Framework<br />
Rogers Silva 1,2 , Vince Calhoun 1,2<br />
1 Mind Research Network, Albuquerque, United States,<br />
2 Electrical & Computer Engineering Department at UNM,<br />
Albuquerque, United States<br />
a multi-subject Parallel ICa method <strong>for</strong> Simultaneous<br />
eeg-fmrI resting Data analysis<br />
Lei Wu 1,2 , Tom Eichele 3 , Vince Calhoun 1,2<br />
1 The Mind Research Network, Albuquerque, NM, USA,<br />
2 Dept. of ECE, University of New Mexico, Albuquerque,<br />
NM, USA, 3 University of Bergen, Bergen, Norway<br />
654<br />
655<br />
656<br />
657<br />
658<br />
659<br />
a Comparison of PLS and NPaIrS analysis<br />
approaches in a fmrI Virtual reality experiment<br />
Ryan Cassidy 1,2 , Richard Mraz 3 , Stephen Strother 1,4,5 ,<br />
Simon Graham 1,3,4,6<br />
1 Rotman Research Institute, Toronto, Canada, 2 Institute <strong>for</strong><br />
Biomaterials and Biomedical Engineering, University of<br />
Toronto, Toronto, Canada, 3 Sunnybrook Research Institute,<br />
Toronto, Canada, 4 Department of Medical Biophysics,<br />
University of Toronto, Toronto, Canada, 5 Institute of Medical<br />
Science, University of Toronto, Toronto, Canada, 6 Heart and<br />
Stroke Foundation of Ontario Centre <strong>for</strong> Stroke Recovery,<br />
Toronto, Canada<br />
Progression of <strong>Brain</strong> atrophy in Preclinical<br />
Huntington’s Disease: ordinal Trend analysis of<br />
mrI Data<br />
Yilong Ma 1 , Shichun Peng 1 , Christian Habeck 2 ,<br />
Peter Kingsley 1 , Andrew Feigin 1 , David Eidelberg 1<br />
1 Feinstein Institute <strong>for</strong> Medical Research, Manhasset, NY,<br />
2 Columbia University, New York, NY<br />
Neuroparser: open-source software <strong>for</strong> fitting sparse<br />
structured models to large neuroimaging data<br />
Logan Grosenick 1 , Bradley Klingenberg 2 , Genevera Allen 3 ,<br />
Jonathan Taylor 4<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States, 2 Stan<strong>for</strong>d,<br />
3 Baylor College of Medicine, Houston, TX, 4 Stan<strong>for</strong>d<br />
University, Stan<strong>for</strong>d, CA<br />
a simulation toolbox <strong>for</strong> fmrI data: simtb<br />
Erik Erhardt 1 , Yonghua Wei 2 , Elena Allen 3 , Tom Eichele 4 ,<br />
Vince Calhoun 5<br />
1 The MIND Research Network, Albuquerque, United States,<br />
2 University of New Mexico, Albuquerque, NM, 3 Mind<br />
Research Network, Albuquerque, United States, 4 University<br />
of Bergen, Bergen, Norway, 5 The Mind Research Network,<br />
Albuquerque, United States<br />
The classification of motor imagery and motor intention<br />
using multivariate pattern analysis<br />
Dongha Lee 1 , Joong Il Kim 1 , Hae-Jeong Park 1,2<br />
1 <strong>Brain</strong> Korea 21 Project <strong>for</strong> Medical Science, Yonsei<br />
University College of Medicine, Seoul, Korea, Republic<br />
of, 2 Department of Radiology and Division of Nuclear<br />
Medicine, Yonsei University College of Medicine, Seoul,<br />
Korea, Republic of<br />
estimating <strong>Brain</strong>map-based ICa dimensionality using<br />
cluster-based models<br />
Kimberly Ray 1 , P Mickle Fox 2 , Reese McKay 3 , Peter Fox 4 ,<br />
Angela R. Laird 5 , Stephen Smith 6 , Christian Beckmann 7<br />
1 Research Imaging Institute, University of Texas Health<br />
Science Center at San Antonio, San Antonio, Tx, 2 Research<br />
Imaging Center, University of Texas Health Science Center<br />
at San Antonio, San Antonio, TX, 3 Research Imaging<br />
Institute, United States, 4 University Of Texas Health<br />
Science Center At San Antonio, San Antonio, United<br />
States, 5 Research Imaging Institute, University of Texas<br />
Health Science Center at San Antonio, San Antonio,<br />
TX, 6 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 7 University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 59<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Modeling and Analysis Methods<br />
Multivariate Modeling, continued<br />
660<br />
661<br />
662<br />
663<br />
664<br />
665<br />
666<br />
667<br />
668<br />
Perception and Covert Production of Song and Speech:<br />
New Findings using multi-Voxel Pattern analysis<br />
Dirk Goldhahn 1 , Daniel Callan 2 , Johannes Stelzer 1 ,<br />
Gabriele Lohmann 1 , Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 ATR Computational<br />
Neuroscience Laboratories, Kyoto, Japan<br />
Kernel methods in fmrI<br />
Mariléa Gomes-Vilela 1 , Vanessa Gómez Verdejo 1 ,<br />
Antonio Oliviero 2 , Stefan Posse 3 , Manel Martinez-Ramon 1<br />
1 Universidad Carlos III de Madrid, Leganés, Madrid, Spain,<br />
2 FENNSI Group, Hospital Nacional de Parapléjicos de<br />
Toledo, Toledo, Spain, 3 University of New Mexico School of<br />
Medicine, Dept. of Neurology, Albuquerque, United States<br />
Whole-<strong>Brain</strong> Spatio-Temporal Dimension reduction<br />
via Sparse generalized PCa<br />
Genevera Allen 1,2 , Logan Grosenick 3 , Jonathan Taylor 3<br />
1 Baylor College of Medicine, Houston, TX, 2 Rice University,<br />
Houston, TX, 3 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA<br />
a Toolbox <strong>for</strong> representational Similarity analysis<br />
Hamed Nili 1 , Cai Wingfield 2 , Li Su 3 , Nikolaus Kriegeskorte 4<br />
1 MRC CBSU, 2 University of Bath, Bath, United Kingdom,<br />
3 MRC’s Cognition And <strong>Brain</strong> Sciences Unit, United<br />
Kingdom, 4 MRC CBSU, Cambrige, United Kingdom<br />
artifacts and Spatial Dominance Constraints using<br />
Canonical Correlation analysis in Functional mrI<br />
Dietmar Cordes 1 , Mingwu Jin 2 , Tim Curran 3 , Rajesh Nandy 4<br />
1 University Of Colorado-Denver, Aurora, United States,<br />
2 University of Colorado-Denver, Aurora, United States,<br />
3 University of Colorado-Boulder, Boulder, United States,<br />
4 UCLA, Los Angeles, United States<br />
Development of the Complex general Linear model<br />
to fmrI - from Single Subject to group analysis<br />
Daniel Rio 1 , Jodi Gilman 2 , Robert Rawlings 3 , Lawrence<br />
Woltz 4 , Daniel Hommer 5<br />
1 NIH, Betheda, United States, 2 NIH, Bethesda, MD, 3 NIH<br />
retired, Bethesda, MD, 4 NIH consultant, Bethesda, MD,<br />
5 NIAAA/NIH, Bethesda, United States<br />
Prediction of fmrI data using fmrI data:<br />
Full-brain auto-regressive modeling<br />
Rahul Garg 1 , Guillermo Cecchi 1 , Ravishankar Rao 1<br />
1 IBM T. J. Watson Research Center, Yorktown Heights, NY<br />
machine learning <strong>for</strong> fmrI in Python:<br />
inverse inference with scikit-learn<br />
Gael Varoquaux 1 , Vincent Michel 2 , Fabian Pedregosa 2 ,<br />
Alexandre Gram<strong>for</strong>t 3 , Bertrand Thirion 4<br />
1 INSERM/Neurospin, Gif-sur-Yvette, France, 2 INRIA/<br />
Neurospin, Gif sur Yvette, France, 3 INRIA - CEA Neurospin,<br />
France, 4 INRIA Futurs, Orsay, France<br />
Smoothed sandwich to replace mFX in<br />
longitudinal fmrI<br />
Thomas Nichols 1 , Lourens Waldorp 2<br />
1 University of Warwick, Dept. of Statistics, Coventry,<br />
United Kingdom, 2 University of Amsterdam, Amsterdam,<br />
Netherlands<br />
60 HBM 2011 >> <strong>abstracts</strong><br />
Modeling and Analysis Methods<br />
PET Modeling and Analysis<br />
669* Persistent Network Homology from the Perspective<br />
of Dendrograms, (o-Th2)<br />
Hyekyoung Lee1 , Moo K. Chung2,1 , Hyejin Kang1 ,<br />
Boong-Nyun Kim1 , Dong Soo Lee1 1Seoul National University, Seoul, Korea, Republic of,<br />
2University of Wisconsin, Madison, WI<br />
670<br />
<strong>Brain</strong> network from sparse and topological point<br />
of view<br />
Hyekyoung Lee 1 , Moo K. Chung 2,1 , Hyejin Kang 1 ,<br />
Boong-Nyun Kim 1 , Dong Soo Lee 1<br />
1 Seoul National University, Seoul, Korea, Republic of,<br />
2 University of Wisconsin, Madison, WI<br />
Modeling and Analysis Methods<br />
Segmentation and Parcellation<br />
671 Whole brain tractography-based parcellation reveals<br />
functionally segregated regions<br />
Saad Jbabdi1 , Stephen Smith1 , Timothy Behrens1 1FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d,<br />
United Kingdom<br />
672<br />
673<br />
674<br />
675<br />
676<br />
a method to Identify <strong>Brain</strong> Clusters with Different<br />
Structure-Function Correlation between Two groups<br />
Andrew Michael 1 , Margaret King 1 , Vince Calhoun 1,2,3<br />
1 The Mind Research Network, Albuquerque, USA, 2 Dept.<br />
of ECE, University of New Mexico, Albuquerque, USA,<br />
3 School of Medicine, Yale University, New Haven, USA<br />
effect of non-local means denoising on cortical<br />
segmentation accuracy with FaCe<br />
Simon Eskildsen 1,2 , Pierrick Coupe 1 , Vladimir Fonov 1 ,<br />
Lasse Østergaard 2 , D. Louis Collins 1<br />
1 McConnell <strong>Brain</strong> Imaging Centre, Montreal Neurological<br />
Institute, Montreal, Canada, 2 Department of Health Science<br />
and Technology, Aalborg University, Aalborg, Denmark<br />
Toward an automatic Cerebellar Parcellation method<br />
robust to anatomical Variation<br />
John Bogovic 1 , Pierre-Louis Bazin 1 , Jerry Prince 1 ,<br />
Sarah Ying 1<br />
1 Johns Hopkins University, Baltimore, MD<br />
Partitioning of the brain using graph-cut<br />
Robert Dahnke 1 , Rachel Yotter 1 , Christian Gaser 1<br />
1 Structural <strong>Brain</strong> <strong>Mapping</strong> Group, Department of<br />
Psychiatry, University of Jena, Jena, Germany<br />
Improved multi-atlas based segmentation of<br />
subcortical structures using exhaustive registration<br />
M. Mallar Chakravarty 1 , Rebecca Calcott 1 ,<br />
D. Louis Collins 2 , Jason Lerch 1<br />
1 Mouse Imaging Centre, The Hospital <strong>for</strong> Sick Children,<br />
Toronto, Ontario, 2 McConnell <strong>Brain</strong> Imaging Centre,<br />
Montreal Neurological Institute, Montreal, Canada
Modeling and Analysis Methods<br />
Segmentation and Parcellation, continued<br />
677<br />
678<br />
679<br />
680<br />
681<br />
682<br />
Cortex Parcellation And Connectivity Data<br />
Simulation <strong>for</strong> a group of subjects<br />
Pauline Roca 1 , Denis Rivière 2 , Alan Tucholka 3 ,<br />
jean-francois mangin 4<br />
1 Neurospin, CEA, Paris, France, 2 NeuroSpin, CEA,<br />
Orsay, France, 3 INRIA Saclay, PARIETAL, Paris, France,<br />
4 Neurospin, CEA, Gif sur Yvette, France<br />
Improved segmentation with high-resolution<br />
3D MR images in MS<br />
Sushmita Datta 1 , Xiaojun Sun 1 , Karan Shukla 1 ,<br />
Ponnada Narayana 1<br />
1 The University of Texas Health Science Center at<br />
Houston, Houston, United States<br />
Accounting <strong>for</strong> changes in data and labeling protocol:<br />
improving atlas-based hippocampal segmentation<br />
Courtney Bishop 1 , Dorit Merhof 2 , Jerome Declerck 3 ,<br />
Mark Jenkinson 4 , the Alzheimer’s Disease Neuroimaging<br />
Initiative (ADNI) ,5<br />
1 FMRIB Centre, University Of Ox<strong>for</strong>d, Ox<strong>for</strong>d,<br />
United Kingdom, 2 University of Konstanz, Konstanz,<br />
Germany, 3 Siemens Molecular Imaging, Ox<strong>for</strong>d, United<br />
Kingdom, 4 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d,<br />
United Kingdom, 5 NIA ADEAR Center, Bathesda, MD<br />
Fully Automated Pipeline <strong>for</strong> Quantification and<br />
Localization of White Matter Hyperintensity<br />
Seun Jeon 1 , Uicheul Yoon 2 , Jun Sung Park 1 ,<br />
Sang Won Seo 3 , Jung-Hyun Kim 4 , Sun I. Kim 1 ,<br />
Duk L. Na 3 , Jong-Min Lee 1<br />
1 Hanyang University, Seoul, Korea, Republic of,<br />
2 Department of Biomedical Engineering, Hanyang<br />
University, Seoul, Korea, Republic of, 3 Sungkyunkwan<br />
University School of Medicine, Seoul, Korea, Republic of,<br />
4 Sungkyunkwan University School of Medicine,<br />
Seoul, Seoul, Korea, Republic of<br />
Automatical segmentation of hippocampus based on<br />
tissue segmented image and elder group template<br />
Dong-Kyun Lee 1 , Uicheul Yoon 2 , Hak Young Rhee 3 ,<br />
Sun I. Kim 2 , Geon-Ho Jahng 4 , Jong Min Lee 2<br />
1 Department of Biomedical Engineering, Hanyang<br />
University, Seoul, Republic Of Korea, 2 Department of<br />
Biomedical Engineering, Hanyang University, Seoul,<br />
Korea, Republic of, 3 Department of Neurology, Kyung Hee<br />
University Hospital at Gangdong, Seoul, Korea, Republic<br />
of, 4 Department of Radiology, Kyung Hee University,<br />
Seoul, Korea, Republic of<br />
Gender Differences in the Cytoarchitectural<br />
Parcellation of <strong>Human</strong> Corpus Callosum<br />
Yi-Ping Chao 1,2 , En-Chi Tsui 1 , Wei-Hsun Yeh 1 ,<br />
Yu-Ting Chen 1 , Ching-Po Lin 3<br />
1 School of Applied In<strong>for</strong>mation Sciences, Chung Shan<br />
Medical University, Taichung, Taiwan, Republic of China,<br />
2 Department of Medical Imaging, Chung Shan Medical<br />
University Hospital, Taichung, Taiwan, Republic of China,<br />
3 Institute of Neuroscience, National Yang Ming University,<br />
Taipei, Taiwan, Republic Of China<br />
683<br />
684<br />
685<br />
686<br />
687<br />
688<br />
Withdrawn<br />
Automatic segmentation of ex-vivo MRI images using<br />
CVS in FreeSurfer<br />
Lilla Zollei 1 , Bruce Fischl 2<br />
1 MGH, Boston, United States, 2 Harvard Medical School<br />
and Massachusetts General Hospital, Boston,<br />
United States<br />
Segmenting area V5/MT using resting-state correlations<br />
Bruce Fischl 1,2,3 , Jonathan Polimeni 1,2<br />
1 A. A. Martinos Center <strong>for</strong> Biomedical Imaging, Harvard<br />
Medical School, Massachusetts General Hospital,<br />
Charlestown, MA, United States, 2 Harvard Medical School,<br />
Boston, MA, United States, 3 CSAIL, Massachusetts Institute<br />
of Technology, Cambridge, MA, United States<br />
An Interactive Sulcal Fundi Editor in <strong>Brain</strong>visa<br />
Arnaud Le Troter 1 , Denis Rivière 2 , Olivier Coulon 1<br />
1 LSIS Laboratory, CNRS, Marseille, France, 2 NeuroSpin,<br />
CEA, Gif/Yvette, France<br />
Fully automatic hippocampus segmentation using<br />
graph cuts<br />
Ki-Chang Kwak 1 , Uicheul Yoon 1 , Dong-Kyun Lee 1 ,<br />
Hackjoon Shim 2 , Sang Won Seo 3 , Sun I. Kim 1 ,<br />
Duk L. Na 3 , Jong-Min Lee 1<br />
1 Department of Biomedical Engineering, Hanyang<br />
University, Seoul, South Korea, 2 School of Electrical<br />
Engineering, BK21 Research Division <strong>for</strong> IT, ASRI, Seoul<br />
National University, Seoul, South Korea, 3 Department<br />
of Nerology, Samsung Medical Center, Sungkyunkwan<br />
University School of Medicine, Seoul, South Korea<br />
Automated Measurement of the Ventricular Dilation<br />
Metric Evans’ Index<br />
Nazahah Mustafa 1 , Trevor Ahearn 1 , Asha Neelakantan 2 ,<br />
Gordon Waiter 3 , Sima Salarirad 3 , Alison Murray 1<br />
1 Aberdeen Biomedical Imaging Centre, Aberdeen,<br />
United Kingdom, 2 Aberdeen Royal Infirmary, Aberdeen,<br />
United Kingdom, 3 University of Aberdeen, Aberdeen,<br />
United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 61<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Modeling and Analysis Methods<br />
Segmentation and Parcellation, continued<br />
689<br />
690<br />
691<br />
692<br />
693<br />
694<br />
Fully automated segmentation of corpus callosum from<br />
diffusion tensor and mrI 3D-T1 weighted images<br />
Eloy Martinez-de-las-Heras 1 , Sara Llufriu 2 , Robinson<br />
Sandoval 3 , Alberto Prats-Galino 4 , Iñigo Gabilondo 2 ,<br />
Yolanda Blanco 5 , Nuria Bargallo 6 , Francesc Graus 5 ,<br />
Albert Saiz 5 , Carles Falcon 7<br />
1 Neuroimmunology group. Fundacio Clinic. Laboratori<br />
Analisi per la Imatge - IDIBAPS, Barcelona, Spain,<br />
2 Neuroimmunology group. Hospital Clinic Barcelona.<br />
IDIBAPS, Barcelona, Spain, 3 Unitat Analisi per la Imatge.<br />
Laboratori Analisi per la Imatge - IDIBAPS, Barcelona,<br />
Spain, 4 Laboratory of Surgical NeuroAnatomy (LSNA).<br />
Facultat de Medicina. Universitat de Barcelona,<br />
Barcelona, Spain, 5 Neuroimmunology Group. Neurology<br />
Service. Hospital Clinic Barcelona, Barcelona, Spain,<br />
6 Neuroradiology Unit. Imaging Diagnostic Center. Hospital<br />
Clinic Barcelona. IDIBAPS, Barcelona, Spain, 7 Unitat<br />
Analisi per la Imatge. Laboratori Analisi per la Imatge.<br />
IDIBAPS, Barcelona, Spain<br />
Validation Tools <strong>for</strong> Cortical reconstruction algorithms<br />
Navid Shiee 1 , Jennifer Cuzzocreo 1 , Bhaskar Kishore 1 ,<br />
Christopher Walling 2 , Pierre-Louis Bazin 3 , Jerry Prince 1 ,<br />
Dzung Pham 1,2<br />
1 Johns Hopkins University, Baltimore, MD, 2 Center <strong>for</strong><br />
Neuroscience and Regenerative Medicine, Bethesda,<br />
MD, 3 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
Tools to study development, aging and genetics of<br />
intersubject variability in cortical morphology<br />
Peter Kochunov 1 , William Rogers 1 , Jack Lancaster 1 ,<br />
olivier coulon 2 , jean-francois mangin 2<br />
1 The University of Texas Health Science Center at San<br />
Antonio, San Antonio, United States, 2 Neurospin, CEA,<br />
Gif sur Yvette, France<br />
Fully automated White matter Hyperintensity<br />
Segmentation without FLaIr<br />
Jordan Muraskin1 , Frank Provenzano2 , Adam Brickman2 1 2 Columbia University, New York,USA, Columbia University,<br />
New York, NY<br />
effect of motion artifacts on mrI segmentation<br />
accuracy<br />
Alan Barnett 1 , Beth Verchinski 1 , Herve Lemaitre 2 ,<br />
Venkata Mattay 3<br />
1 National Institute of Mental Health, Clinical <strong>Brain</strong><br />
Disorders Branch, Bethesda, MD, 2 INSERM - CEA -<br />
Faculté de Médecine Paris Sud 11, Orsay, France,<br />
3 National Institute of Mental Health, National Institutes of<br />
Health, Bethesda, MD<br />
Segmentation Priors From Texture Features Without<br />
Population-Based Templates or registration<br />
Ziad Saad 1 , Andrej Vovk 2 , Dusan Suput 2 , Janez Stare 3 ,<br />
Robert Cox 1<br />
1 Scientific and Statistical Computing Core, National<br />
Institute of Mental Health, NIH, Bethesda, MD, 2 Institute<br />
of Pathophysiology, University of Ljubljana, Ljubljana,<br />
Slovenia, 3 Institute <strong>for</strong> Biostatistics and Medical<br />
In<strong>for</strong>matics, University of Ljubljana, Ljubljana, Slovenia<br />
62 HBM 2011 >> <strong>abstracts</strong><br />
695<br />
696<br />
697<br />
698<br />
699<br />
aDisc – a pipeline <strong>for</strong> adaptive Disconnection based<br />
brain hemisphere segmentation in 3D mrI<br />
Lu Zhao 1 , Jussi Tohka 2<br />
1 Montreal Neurological Institute, Montreal, Canada,<br />
2 Tampere University of Technology, Tampere, Finland<br />
geometrical modelling of the human hippocampus<br />
Jan De Munck 1 , Hugo Vrenken 2 , Ronald van Schijndel 3 ,<br />
Anneke Van der Reijden 3 , Henk Huisman 3 , Theo Faes 3 ,<br />
Frederik Barkhof 4<br />
1 Amsterdam, Netherlands, 2 VU University Medical Center,<br />
3 VU University Medical Center, Amsterdam, Netherlands,<br />
4 VU Medical Centre, Amsterdam, Netherlands<br />
Individual brain parcellation based on single<br />
subject ICa<br />
Erik van Oort 1 , David Norris 1<br />
1 Radboud University Nijmegen, Donders Institute For <strong>Brain</strong>,<br />
Cognition And Behaviour, Nijmegen, Netherlands<br />
Parcellation of the lateral frontal cortex from resting<br />
state fmrI<br />
ALEXANDROS GOULAS 1 , Peter Stiers 1<br />
1 Maastricht University, Maastricht, Netherlands<br />
Changes in body fat percentage assessed by automatic<br />
whole body mrI analysis<br />
Jan Kassubek 1 , Denise Kehle 1 , Alexander Unrath 1 , Albert<br />
Ludolph 1 , Heiko Neumann 1 , Hans-Peter Müller 1<br />
1 University of Ulm, Ulm, Germany<br />
Modeling and Analysis Methods<br />
Task-Independent and Resting-State Analysis<br />
700** rehabilitation in Chronic Stroke Normalizes motor<br />
System resting State Connectivity<br />
George Wittenberg1,2 , Lauren Jones-Lush2 , Albert Lo3,4 ,<br />
Lorie Richards5,6 , Steven Roys2 , Rao Gullapalli7 1VA Maryland Health Care System, Baltimore, MD,<br />
2 3 University of Maryland, Baltimore, MD, Providence<br />
Veterans Affairs Medical Center, Providence, RI, 4Brown University, Providence, RI, 5Malcom Randall Veterans<br />
Administration Medical Center, Gainesville, FL, 6University of Florida, Gainesville, FL, 7University Of Maryland,<br />
Baltimore, United States<br />
701<br />
Functional and structural connectivity markers <strong>for</strong><br />
tinnitus cortical stimulation therapy<br />
Rey Ramírez 1 , Gang Chen 2 , Wolfgang Gaggl 2,3 ,<br />
David Friedland 4 , Christopher Butson 1,5 , Shi-Jiang Li 2,6 ,<br />
Sylvain Baillet 1,2 , Brian Kopell 5<br />
1 Department of Neurology, Medical College of Wisconsin,<br />
Milwaukee, United States, 2 Department of Biophysics,<br />
Medical College of Wisconsin, Milwaukee, United States,<br />
3 Department of Radiology, Medical College of Wisconsin,<br />
Milwaukee, United States, 4 Department of Otolaryngology<br />
and Communication Sciences, Medical College of<br />
Wisconsin, Milwaukee, United States, 5 Department of<br />
Neurosurgery, Medical College of Wisconsin, Milwaukee,<br />
United States, 6 Department of Psychiatry and Behavioral<br />
Medicine, Medical College of Wisconsin, Milwaukee, WI
Modeling and Analysis Methods<br />
Task-Independent and Resting-State Analysis, continued<br />
702**<br />
703<br />
704<br />
705<br />
706<br />
707<br />
708<br />
709<br />
Combined fmrI/eeg to map non-genomic effects of<br />
exogeneous cortisol<br />
Sara Kiem 1 , Katia Andrade 1 , Roberto Goya-Maldonado 1 ,<br />
Höhn David 1 , Victor Spoormaker 1 , Torsten Klengel 1 , Florian<br />
Holsboer 1 , Michael Czisch 1 , Philipp Sämann 1<br />
1 Max Planck Institute of Psychiatry, Munich, Germany<br />
S-club Distance - Quantifying Separation of<br />
Functional <strong>Brain</strong> Networks<br />
Alexander Schäfer 1 , Daniel Margulies 1 , Arno Villringer 1 ,<br />
Gabriele Lohmann 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
resting State Network Study of Quantitative<br />
Perfusion Fluctuations<br />
Jingyi Xie 1 , Peter Jezzard 1 , Thomas Okell 1 , Karla Miller 1 ,<br />
Michael Chappell 1 , Stephen Smith 1<br />
1 Nuffield Department of Clinical Neurosciences (FMRIB<br />
Centre), University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom<br />
Network centrality and in<strong>for</strong>mation flow in the<br />
human brain functional connectome<br />
Xi-Nian Zuo 1,2 , Ross Ehmke 3 , Maarten Mennes 4 ,<br />
Davide Imperati 4 , F. Xavier Castellanos 2 , Olaf Sporns 3 ,<br />
Michael Milham 4<br />
1 Institute of Psychology, Chinese Academy of Sciences,<br />
Beijing, Beijing, 2 Institute <strong>for</strong> Pediatric Neuronscience at<br />
NYU Langone Medical Center, New York, NY, 3 Indiana<br />
University, Bloomington, IN, 4 Institute <strong>for</strong> Pediatric<br />
Neuroscience at NYU Langone Medical Center,<br />
New York, NY<br />
analysis of spontaneous eeg/meg by ICa of<br />
time-frequency tensor<br />
Aapo Hyvarinen 1<br />
1 University of Helsinki, Finland<br />
Intrinsic connectivity within and between the default,<br />
attention and control networks of the brain<br />
R. Nathan Spreng 1 , Jorge Sepulcre 2 , Daniel Schacter 1<br />
1 Department of Psychology, Harvard University,<br />
Cambridge, MA, 2 Howard Hughes Medical Institute,<br />
Harvard University, Cambridge, MA<br />
relating spontaneous BoLD oscillatory power scale<br />
to brain functional and structural organization<br />
Ali Mansour 1 , Marwan Baliki 1 , Alex Baria 1 , Leijan Huang 1 ,<br />
Vania Apkarian 1<br />
1 Northwestern University, Chicago, IL<br />
Quantifying Contralateral resting-State Homology<br />
across the Whole Cortex<br />
Hang Joon Jo 1 , Ziad S. Saad 1 , Steve Gotts 2 , Daniel Glen 1 ,<br />
Alex Martin 2 , Robert Cox 1<br />
1 Scientific and Statistical Computing Core, National<br />
Institute of Mental Health, NIH, Bethesda, MD, 2 Laboratory<br />
of <strong>Brain</strong> and Cognition, National Institute of Mental Health,<br />
NIH, Bethesda, MD<br />
710<br />
711<br />
712<br />
713<br />
714<br />
715<br />
716<br />
SWI and resting-state fmrI can give a better inference<br />
about functional activation cortical maps?<br />
Marta Maieron 1 , Barbara Tomasino 2 , Serena D’Agostini 3 ,<br />
Renato Padovani 4 , Miran Skrap 5<br />
1 Department of Medical Physics AOU SMM Udine,<br />
UDINE, Italy, 2 IRCCS Medea: Nostra Famiglia, Pasian di<br />
Prato, Udine, Udine, Italy, 3 Department of Neuroradiology<br />
AOU SMM Udine, udine, Italy, 4 Department of Medical<br />
Physics AOU SMM Udine, Udine, Italy, 5 Department of<br />
Neurosurgery AOU SMM Udine, Udine, Italy<br />
Functional parcellation of the motor cortex: Children<br />
with autism vs. typically developing children<br />
Mary Beth Nebel 1,2 , Suresh Joel 1,2 , John Muschelli 3 , Anita<br />
Barber 1,2 , Brian Caffo 3 , James Pekar 1,2 , Stewart Mostofsky 1,2<br />
1 Johns Hopkins University School of Medicine, Baltimore,<br />
MD, 2 Kennedy Krieger Institute, Baltimore, MD, 3 Johns<br />
Hopkins Bloomberg School of Public Health, Baltimore, MD<br />
Focal Pontine Lesions Provide evidence That<br />
Functional Connectivity Depends on anatomic<br />
Connectivity<br />
Jie Lu 1,2 , Hesheng Liu 2 , Miao Zhang 1 , Danhong Wang 2 ,<br />
Yanxiang Cao 1 , Qingfeng Ma 1 , Dongdong Rong 1 , Xiaoyi<br />
Wang 1 , Randy Buckner 3,2,4 , Kuncheng Li 5<br />
1 Xuanwu Hospital of Capital Medical University, Beijing,<br />
China, 2 Massachusetts General Hospital, Charlestown, MA,<br />
3 Harvard University, Department of Psychology and Center<br />
<strong>for</strong> <strong>Brain</strong> Science, Cambridge, MA, 4 HHMI, Cambridge,<br />
MA, 5 Department of Radiology, Xuanwu Hospital of Capital<br />
Medical University, Beijing, China, Beijing, China<br />
Caffeine Increases the Temporal Variability of<br />
resting-State Functional Connectivity<br />
Anna Leigh Rack-Gomer 1 , Thomas Liu 1<br />
1 UCSD Center <strong>for</strong> Functional MRI, La Jolla, CA<br />
revealing the architecture of the human brain<br />
neural network with connected iterative scan<br />
Xiaodan Yan 1 , Stephen Kelley 1 , Mark Goldberg 1<br />
1 Rensselaer Polytechnic Institute, Troy, United States<br />
Spontaneous fmrI activity reflects a dynamic<br />
image of brain state<br />
Marta Bianciardi 1 , Masaki Fukunaga 1 , Jacco de Zwart 1 ,<br />
Jeff Duyn 1<br />
1 Advanced MRI Section, LFMI, NINDS, National Institutes<br />
of Health, Bethesda, MD, United States<br />
Time-frequency investigation of fmrI resting state<br />
networks with the use of wavelet coherence<br />
Janine Bijsterbosch 1 , Kwang-Hyuk Lee 1 , Michael Hunter 1 ,<br />
Iain Wilkinson 2 , Peter Woodruff 1<br />
1 ScanLab, Academic Clinical Psychiatry, University of<br />
Sheffield, Sheffield, United Kingdom, 2 Academic Unit<br />
of Radiology, University of Sheffield, United Kingdom,<br />
Sheffield, United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 63<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Modeling and Analysis Methods<br />
Task-Independent and Resting-State Analysis, continued<br />
717<br />
718<br />
719<br />
720<br />
721<br />
722<br />
relation Between Cerebral Blood Flow and resting<br />
State Connectivity under Pharmacological Conditions<br />
Najmeh Khalili Mahani 1,2 , Matthias J. P. van Osch 1 ,<br />
Christian F Beckmann 3 , Joop Van Gerven 4,1 ,<br />
Serge Rombouts 1,2<br />
1 Leiden University Medical Center, Leiden, Netherlands,<br />
2 Leiden Institute <strong>for</strong> <strong>Brain</strong> and Cognition, Leiden,<br />
Netherlands, 3 University Of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 4 Center <strong>for</strong> <strong>Human</strong> Drug Research, Leiden<br />
University Medical Center, Leiden, Netherlands<br />
Networks correlated to beta-band activity at rest in<br />
sensorimotor cortex using iceeg-fmrI<br />
David Carmichael 1 , Serge Vulliemoz 1,2 , Roman Rodionov 1 ,<br />
Matthew Walker 1 , Karin Rosenkranz 1 , Andrew McEvoy 3 ,<br />
Louis Lemieux 1<br />
1 UCL Institute of Neurology, London, United Kingdom,<br />
2 University of Geneva, Geneva, Switzerland, 3 National<br />
Hospital <strong>for</strong> Neurology and Neurosurgery, London, United<br />
Kingdom<br />
Periods of rest in fmrI contain transient events which<br />
are related to slow spontaneous fluctuations<br />
Natalia Petridou 1,2 , Cesar Caballero Gaudes 3,2 ,<br />
Ian Dryden 4 , Susan Francis 2 , Penny Gowland 2<br />
1 Rudolf Mangus Institute / Radiology, UMC Utrecht,<br />
Utrecht, Netherlands, 2 SPMMRC, University of Nottingham,<br />
Nottingham, United Kingdom, 3 CIBM - HUG - UNIGE,<br />
Geneve, Switzerland, 4 Department of Statistics, University<br />
of South Carolina, Columbia, United States<br />
Spectral centroid and spectral median as new tools<br />
<strong>for</strong> analyzing fmrI data<br />
Gabriele Lohmann 1 , Dirk Goldhahn 1 , Daniel Margulies 2 ,<br />
Annette Horstmann 3 , Burkhard Pleger 4 , Joeran Lepsien 1 ,<br />
Haiko Schloegl 5 , Michael Stumvoll 6 , Arno Villringer 1 ,<br />
Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Berlin School of Mind and<br />
<strong>Brain</strong>, Humboldt University, Berlin , Germany, 3 MPI <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany,<br />
4 Max-Planck-Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Science, Leipzig, Germany, 5 Department of Medicine,<br />
University of Leipzig, Leipzig, Germany, 6 IFB Adiposity<br />
Diseases, University of Leipzig, Leipzig, Germany<br />
Hypothalamic functional connectivity in Polycystic<br />
ovary Syndrome versus obese and lean controls<br />
Matthew Schroeder 1 , Lei Wang 1 , John Csernansky 2 ,<br />
Andrea Dunaif 2<br />
1 Northwestern University Feinberg School of Medicine<br />
Department of Psychiatry and Behavioral Sciences,<br />
Chicago, United States, 2 Northwestern University Feinberg<br />
School of Medicine, Chicago, United States<br />
Functional Network Stability<br />
Suresh Joel 1,2 , Craig Jones 1,2 , Brian Caffo 1 , Peter van Zijl 1,2 ,<br />
James Pekar 1,2<br />
1 Johns Hopkins University, Baltimore, United States,<br />
2 Kennedy Krieger Institute, Baltimore, United States<br />
64 HBM 2011 >> <strong>abstracts</strong><br />
723<br />
724<br />
725<br />
726<br />
727<br />
728<br />
729<br />
Criticality in the resting brain: an meg study<br />
Oren Shriki1 , Sreenivasan Nadar1 , Frederick Carver1 ,<br />
Tom Holroyd1 , Richard Coppola1 , Dietmar Plenz1 1National Institute of Mental Health, Bethesda, MD,<br />
United States<br />
Time-Frequency Dynamics of resting State<br />
effective Connectivity in the Default mode Network<br />
Gopikrishna Deshpande 1,2 , Zhihao Li 3 , Xiaoping Hu 3<br />
1 AU MRI Research Center, Department of Electrical<br />
and Computer Engineering, Auburn University, Auburn,<br />
AL, United States, 2 Department of Psychology, Auburn<br />
University, Auburn, AL, United States, 3 Coulter Department<br />
of Biomedical Engineering, Georgia Institute of Technology<br />
and Emory University, Atlanta, GA, United States<br />
rethinking SNr <strong>for</strong> resting-State fmrI Quality Control<br />
David Gutman 1 , Maarten Mennes 2 , Stan Colcombe 3 ,<br />
Clare Kelly 2 , Xi-Nian Zuo 4 , F Xavier Castellanos 5,6 ,<br />
Michael Milham 7,6<br />
1 New York University School of Medicine, New York, NY,<br />
2 Phyllis Green and Randolph Cōwen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
United States, 3 Nathan S. Kline Institute <strong>for</strong> Psychiatric<br />
Research, Orangeburg, NY, 4 Institute of Psychology,<br />
Chinese Academy of Sciences, Beijing, Beijing, 5 Phyllis<br />
Green and Randolph Cōwen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
NY, 6 Nathan Kline Institute <strong>for</strong> Psychiatric Research,<br />
Orangeburg, NY, 7 Phyllis Green and Randolph Cōwen<br />
Institute <strong>for</strong> Pediatric Neuroscience, NYU Langone Medical<br />
Center, N, New York, NY<br />
Intrinsic functional organization of the Default-mode<br />
network revealed by spatial ICa<br />
Vincent Perlbarg 1 , Salma Mesmoudi 1 ,<br />
Mélanie Pélégrini-Issac 1 , Habib Benali 1,2<br />
1 INSERM / UPMC Univ. Paris 06, UMR_S678, LIF, Paris,<br />
France, 2 Université de Montréal, MIC/UNF, Montréal,<br />
Canada<br />
Functional Normalization through ICa (ICa-fNorm)<br />
with Intrinsic Networks as Functional Templates<br />
Siddharth Khullar 1,2 , Andrew Michael 1 , Nathan Cahill 2 ,<br />
Stefi Baum 2 , Vince Calhoun 1,2<br />
1 Mind Research Network, Albuquerque, NM, 2 Rochester<br />
Institute of Technology, Rochester, NY<br />
Functional mrI time series fractality changes in mCI<br />
and aD patients<br />
Alle Meije Wink 1 , Frederik Barkhof 1 , Maja Binnewijzend 1<br />
1 VU Medical Centre, Amsterdam, Netherlands<br />
resting state frequency domain Tomographic ICa<br />
Maria L Bringas 1 , Ivonne Pedroso 1 , Vanessa Perez-<br />
Bocourt 2 , Valia Rodriguez 3 , Jose Sanchez-Bornot 4 ,<br />
Pedro Valdes-Sosa 3<br />
1 International Center <strong>for</strong> Neurological Restoration CIREN,<br />
Havana, Cuba, 2 Faculty of Psychology, University of<br />
Havana, Havana, Cuba, 3 Cuban Neuroscience Center,<br />
Havana, Cuba, 4 Institute of Cybernetics, Mathematics and<br />
Physics, Havana, Cuba
Modeling and Analysis Methods<br />
Task-Independent and Resting-State Analysis, continued<br />
730<br />
731<br />
732<br />
733<br />
734<br />
735<br />
736<br />
regional Homogeneity of resting State fmrI Signals<br />
Predicts Stop Signal Task Per<strong>for</strong>mance<br />
Lixia Tian 1 , Juejing Ren 2 , Yufeng Zang 2<br />
1 Department of Biomedical Engineering, Beijing Jiaotong<br />
University, Beijing, China, 2 State Key Laboratory of<br />
Cognitive Neuroscience and Learning, Beijing Normal<br />
University, Beijing, China<br />
Neural Correlates of Inhibitory Control and<br />
Inconsistency in the Stop-signal task<br />
Natan Vega Potler 1 , Maarten Mennes 1 , Michelle<br />
VanTieghem 1 , Clare Kelly 1 , Adriana Di Martino 1 , F. Xavier<br />
Castellanos 1,2 , Michael Milham 1,2<br />
1 Phyllis Green and Randolph Cōwen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
United States, 2 Nathan Kline Institute <strong>for</strong> Psychiatric<br />
Research, Orangeburg, NY<br />
Can PDe-based smoothing strategies bring<br />
improvements on resting state fmrI analyses?<br />
Xiu-Xia Xing1 , Jonathan Adelstein2 , You-Long Zhou3 ,<br />
Xi-Nian Zuo4 1College of Applied Sciences, Beijing University of<br />
Technology, Beijing, Beijing, 2Institute <strong>for</strong> Pediatric<br />
Neuroscience at NYU Langone Medical Center, New York,<br />
NY, 3Department of Acupuncture, Henan University of<br />
Traditional Chinese Medicine, Zhengzhou, Henan,<br />
4Institute of Psychology, Chinese Academy of Sciences,<br />
Beijing, Beijing<br />
Sliding temporal window ICa reveals spatiotemporal<br />
variation of default mode network<br />
Vesa Kiviniemi 1,2 , Tapani Vire 3 , Jukka Remes 3 , Ahmed Abou<br />
Elseoud 3 , Tuomo Starck 3 , Osmo Tervonen 3 , Juha Nikkinen 3<br />
1 Diagnostic Radiology, Oulu,Finland, 2 Diagnostic Institute,<br />
Oulu, Finland, 3 Diagnostic Radiology, Oulu, Finland<br />
Heavy Tailed Distributions in the avalanche Statistics<br />
of meg Signal<br />
Jeff Alstott 1,2 , Edward Bullmore 2 , Dietmar Plenz 1<br />
1 National Institute of Mental Health, Bethesda, United<br />
States, 2 University of Cambridge <strong>Brain</strong> <strong>Mapping</strong> Unit,<br />
Cambridge, United Kingdom<br />
resting State Networks in children with and<br />
without autism<br />
Peng You 1,2 , Wayne Lee 2 , Jin Fan 3 , Latha Soorya 3 ,<br />
Ting Wang 3 , Margot Taylor 1,2 , Evdokia Anagnostou 1,3,4<br />
1 University of Toronto, Toronto, Canada, 2 Hospital <strong>for</strong> Sick<br />
Children, Toronto, Canada, 3 Mount Sinai Medical Center,<br />
New York, United States, 4 Bloorview Research Institute,<br />
Toronto, Canada<br />
The effects of flip angle on estimated fmrI<br />
functional connectivity<br />
Daniel Handwerker 1 , Javier Gonzalez-Castillo 1 ,<br />
Cambrie Starkel 1 , Jerzy Bodurka 2 , Peter Bandettini 1<br />
1 Section on Functional Imaging Methods, NIMH / NIH<br />
/ DHHS, Bethesda, MD, 2 Laureate Institute <strong>for</strong> <strong>Brain</strong><br />
Research, Tulsa, OK<br />
737<br />
738<br />
739<br />
740<br />
741<br />
742<br />
743<br />
Intrinsic connectivity networks: replication with<br />
extension to adolescent individual differences<br />
Krista Wisner1 , Robert Krueger1 , Angus MacDonald1 1University of Minnesota, Twin Cities, Minneapolis, MN,<br />
USA<br />
measuring whole brain resting state correlations<br />
in high gamma frequency band with meg<br />
Daniel Rubinstein 1 , Frederick Carver 1 , Stephen Robinson 1 ,<br />
Tom Holroyd 1 , Richard Coppola 1<br />
1 NIMH, Bethesda, MD<br />
Connectivity of resting state brain networks:<br />
time-of-day modulation<br />
Janusch Blautzik 1 , Isabella Peres 2 , Céline Vetter 2 ,<br />
Evgeny Gutyrchik 3 , Ernst Poeppel 4 , Till Roenneberg 2 ,<br />
Maximilian Reiser 1 , Thomas Meindl 1<br />
1 Institute of Clinical Radiology, Ludwig Maximilian<br />
University, Munich, Germany, 2 Institute of Medical<br />
Psychology, Ludwig Maximilian University, Munich,<br />
Germany, 3 IMP / HWZ, Ludwig Maximilian University,<br />
Munich, Germany, 4 <strong>Human</strong> Science Center, Munich,<br />
Germany<br />
ultra-high field 7T resting state fmrI <strong>for</strong> preoperative<br />
localization of eloquent brain areas<br />
Karsten Wrede 1,2 , Stefan Maderwald 1 , Philipp Damman 2 ,<br />
Christian Beckmann 3 , Mark Ladd 1,4 , Ulrich Sure 2 ,<br />
Thomas Gasser 2<br />
1 Erwin L. Hahn Institute <strong>for</strong> Magnetic Resonance Imaging,<br />
Essen, Germany, 2 Department of Neurosurgery, University<br />
Hospital Essen, Essen, Germany, 3 Donders Centre<br />
<strong>for</strong> Cognitive Neuroimaging, Nijmegen, Netherlands,<br />
4 Department of Diagnostic and Interventional Radiology<br />
and Neuroradiology, University Hospital Essen, Essen,<br />
Germany<br />
Intersubject variability in default mode network masks<br />
reduced hippocampal recruitment in epilepsy<br />
George Andrew James 1 , Jeffrey Ojemann 2 , Daniel Drane 3<br />
1 University of Arkansas <strong>for</strong> Medical Sciences, Little Rock,<br />
AR, 2 University of Washington, Seattle, WA, 3 Emory<br />
University, Atlanta, GA<br />
Inter-Subject Correlation matrix Clustering in<br />
Naturalistic Stimulus fmrI<br />
Jukka-Pekka Kauppi1 , Iiro Jääskeläinen2 , Mikko Sams2 ,<br />
Jussi Tohka1 1Tampere University of Technology, Tampere, Finland,<br />
2Aalto University School of Science and Technology,<br />
Espoo, Finland<br />
Intra-group variability of default-mode networks:<br />
Does a group-level statistic matter?<br />
Yong-Hwan Kim 1 , Jong-Hwan Lee 1<br />
1 Dept. of <strong>Brain</strong> and Cognitive Engineering, Korea<br />
University, Seoul, Korea, Republic of<br />
HBM 2011 >> <strong>abstracts</strong> 65<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Modeling and Analysis Methods<br />
Task-Independent and Resting-State Analysis, continued<br />
744<br />
745<br />
746<br />
747<br />
748<br />
749<br />
Investigating the regional rhythms of resting <strong>Human</strong><br />
<strong>Brain</strong> with Functional magnetic resonance Imaging<br />
Lianghua He1,2 , Die Hu3 , Pengwei Wang4 , Zhishun Wang5 1Brian image lab, Columbia University, New York,NY,<br />
2 3 Tongji University, Shanghai, China, Fudan University,<br />
Shanghai, China, 4Shandong University, Jinan, China,<br />
5Department of Psychiatry, Columbia University,<br />
New York, NY<br />
Functional covariance networks revealed by acrosssubject<br />
amplitude of low-frequency fluctuations<br />
Zhiqiang Zhang 1 , Xi-Nian Zuo 2 , Wei Liao 3 , Zhengge Wang 1 ,<br />
Yuan Zhong 1 , Lu Guangming 1 , Yijun Liu 4<br />
1 Department of Radiology, Jinling Hospital, Nanjing<br />
University School of Medicine, Nanjing, China, 2 Institute<br />
of Psychology, Chinese Academy of Sciences, Beijing,<br />
Beijing, 3 School of Life Science and Technology, University<br />
of Electronic Science and Technology of China, Chengdou,<br />
Sichuan, 4 Department of Psychiatry& Neuroscience,<br />
University of Florida, Gainesville, FL<br />
reproducible Differences between eyes open and<br />
eyes Closed resting States<br />
Dongqiang Liu 1 , Zhangye Dong 2 , Jue Wang 1,2 ,<br />
Yufeng Zang 1,2<br />
1 Center <strong>for</strong> <strong>Human</strong> <strong>Brain</strong> Research and Affiliated Hospital,<br />
Hangzhou Normal University, Hangzhou, China, 2 State<br />
Key Laboratory of Cognitive Neuroscience and Learning,<br />
Beijing Normal University, Beijing, China<br />
males exhibit higher functional connectivity in the<br />
DmN during resting state activity<br />
Gianluca Mingoia 1 , kerstin Langbein 2 , Maren Dietzek 2 ,<br />
Christian Gaser 3 , Heinrich Sauer 2 , Igor Nenadic 2<br />
1 Department of Psychiatry, Friedrich-Schiller University<br />
of Jena, 2 Department of Psychiatry, Friedrich-Schiller<br />
University of Jena, Jena, Germany, 3 Structural <strong>Brain</strong><br />
<strong>Mapping</strong> Group, Department of Psychiatry, University of<br />
Jena, Jena, Germany<br />
Wavelet-based amplitude of low-frequency<br />
fluctuations (waLFF)<br />
Ting Xu 1 , Raymond Chan 1 , Michael Milham 2 ,<br />
Yu-Feng Zang 3 , Xi-Nian Zuo 1<br />
1 Institute of Psychology, Chinese Academy of Sciences,<br />
Beijing, China, 2 Institute <strong>for</strong> Pediatric Neuroscience at NYU<br />
Langone Medical Center, New York, United States, 3 State<br />
Key Laboratory of Cognitive Neuroscience and Learning,<br />
Beijing Normal University, Beijing, China<br />
resting State analysis Sensitively and Specifically<br />
Identifies the Presence of Parkinson Disease<br />
Frank Skidmore 1 , Mark Yang 2 , Lewis Baxter 2 , Karen von<br />
Deneen 2 , Joanna Collingwood 3 , Guojun He 2 , Dmitriy<br />
Korenkevych 2 , Alex Savenkov 2 , Keith White 2 , Kenneth<br />
Heilman 2 , Mark Gold 2 , Yijun Liu 2<br />
1 University of Florida, North Florida/South Georgia VA<br />
Medical Center, USA, 2 University of Florida, North Florida,<br />
USA, 3 Warwick University, Warwick, United Kingdom<br />
66 HBM 2011 >> <strong>abstracts</strong><br />
750<br />
751<br />
752<br />
753<br />
754<br />
755<br />
756<br />
Consistent BoLD responses to eyes Closing<br />
and opening<br />
Alexander Zhigalov 1 , Pin-Yu Chen 2 , Michelle Liou 1 ,<br />
Wen-Yih Isaac Tseng 2<br />
1 Institute of Statistical Science, Academia Sinica, Taipei,<br />
Taiwan, Republic of China, 2 Center <strong>for</strong> Optoelectronic<br />
Biomedicine, National Taiwan University College of<br />
Medicine, Taipei, Taiwan, Republic of China<br />
The Default mode Network and its association with<br />
empathy and autistic Traits in Neurotypical adults<br />
Kaat Alaerts 1 , Daniel Woolley 1 , Evelien Nackaerts 1 ,<br />
Stephan Swinnen 2 , Nicole Wenderoth 1<br />
1 Katholieke Universiteit Leuven, Leuven, Belgium,<br />
2 K.U.Leuven, Leuven, Belgium<br />
Intelligence and the resting <strong>Brain</strong><br />
Kenia Martínez 1 , Ana Beatriz Solana 2 , Miguel Burgaleta 1 ,<br />
Juan Antonio Hernández-Tamames 2,3,4 , María Ángeles<br />
Quiroga 5 , Juan Álvarez-Linera 2,4 , Roberto Colom 1<br />
1 Universidad Autónoma, Madrid, Spain, 2 Center <strong>for</strong><br />
Biomedical Technology - UPM, Pozuelo de Alarcon,<br />
Spain, 3 Universidad Rey Juan Carlos, Mostoles, Spain,<br />
4 Fundación CIEN-Fundación Reina Sofía, Madrid, Spain,<br />
5 Universidad Complutense, Madrid, Spain<br />
Intrinsic connectivity networks in eyes open vs.<br />
eyes Closed eeg-fmrI<br />
Lei Wu 1,2 , Vince Calhoun 1,3 , Tom Eichele 4,1<br />
1 The Mind Research Network, Albuquerque, NM, USA,<br />
2 Dept of ECE, University of New Mexico, Albuquerque,<br />
NM, USA, 3 Dept. of ECE, University of New Mexico,<br />
Albuquerque, NM, USA, 4 University of Bergen, Bergen,<br />
Norway<br />
Diminished resting-State Functional Connectivity In<br />
Lateral occipital Cortex In early HIV Infection<br />
Paul Foryt1,2 , Xue Wang1 , Renee Ochs1 , Jae-Hoon Chung1,2 ,<br />
Ying Wu3 , Todd Parrish1 , Ann Ragin1 1Radiology, Northwestern University, Chicago, IL,<br />
2Engineering, Northwestern University, Evanston, IL,<br />
3Radiology, NorthShore University Health System,<br />
Evanston, IL<br />
establishing methodology <strong>for</strong> resting State roI<br />
analysis to Distinguish Task Specific motor Networks<br />
William Sohn 1 , Duk Na 2 , Kwangsun Yoo 3 , Yong Jeong 4<br />
1 KAIST, Daejeon, 2 Samsung Medical Center, Seoul, Korea,<br />
Republic of, 3 KAIST, Daejeon, Korea, Republic of, 4 KAIST,<br />
Daejeon, Republic Of Korea<br />
resting state functional connectivity: influence of<br />
age, gender and Down syndrome<br />
Wenqi Sun 1 , Alexander Moiseev 2 , Faisal Beg 1 ,<br />
Naznin Virji-Babul 3 , Arif Babul 4 , Farouk Nathoo 4<br />
1 Simon Fraser University, Burnaby, B.C., 2 Down Syndrome<br />
Research Foundation, Burnaby, British Columbia,<br />
3 University of British Columbia, Vancouver, B.C.,<br />
4 University of Victoria, Victoria, B.C.
Modeling and Analysis Methods<br />
Task-Independent and Resting-State Analysis, continued<br />
757<br />
758<br />
759<br />
Does the model matter in defining the default mode<br />
network?<br />
Charisa Ng 1 , Anita Oder 1 , Omer Grigg 2 , Karen Campbell 2 ,<br />
Stephen Strother 1 , Cheryl Grady 1<br />
1 Rotman Research Institute, Toronto, Ontario,<br />
2 University of Toronto, Toronto, Ontario<br />
apathy and Depression Have reliable alterations in<br />
resting activity in Parkinson Disease<br />
Frank Skidmore 1 , Mark Yang 2 , Lewis Baxter 2 , Karen von<br />
Deneen 2 , Joanna Collingwood 3 , Guojun He 2 , Rajiv Tandon 2 ,<br />
Dmitriy Korenkevych 2 , Alex Savenkov 2 , Kenneth Heilman 2 ,<br />
Mark Gold 2 , Yijun Liu 2<br />
1 University of Florida, North Florida/South Georgia VA<br />
Medical Center, USA, 2 University of Florida, North Florida,<br />
USA, 3 Warwick University, United Kingdom<br />
The consistency of functional connectivity among<br />
independent component time courses at rest<br />
Bum seok Jeong 1 , Jeewook Choi 2 , Ji-woong Kim 3<br />
1 Eulji University Hospital, Daejeon, 2 Catholic University,<br />
Daejong St. Mary’s Hospital, Daejeon, Korea, Republic of,<br />
3 Konyang University Hospital, Daejeon, Korea, Republic of<br />
Modeling and Analysis Methods<br />
Univariate Modeling<br />
760 HrF model Selection in fmrI using multiple-model<br />
Kalman Filters<br />
Paulo Rosa1 , Carlos Silvestre1 , Patrícia Figueiredo1 1Institute <strong>for</strong> Systems and Robotics / Instituto Superior<br />
Técnico, Lisbon, Portugal<br />
761<br />
762<br />
agree to Differ? Spatial Variance Drives Patterns of<br />
Significant Difference<br />
John Suckling 1 , Christine Ecker 2 , Patrick Johnston 2 ,<br />
Meng-chuan Lai 3 , Michael Lombardo 3 , Simon Baron-<br />
Cohen 4 , Declan Murphy 5 , Edward Bullmore 6<br />
1 University of Cambridge, Cambridge, United Kingdom,<br />
2 Department of Forensic and Neurodevelopmental<br />
Sciences, Institute of Psychiatry, Kings College, London,<br />
United Kingdom, 3 Autism Research Centre, Department<br />
of Psychiatry, University of Cambridge, Cambridge,<br />
United Kingdom, 4 Autism Research Centre, Department<br />
of Psychiatry,University of Cambridge, Cambridge,<br />
United Kingdom, 5 Department of Forensic and<br />
Neurodevelopmental Sciences, Institute of Psychi, London,<br />
United Kingdom, 6 Department of Psychiatry, University Of<br />
Cambridge, Cambridge, United Kingdom<br />
effective degrees of freedom and the rFT resel count<br />
Gerard Ridgway 1,2 , Gareth Barnes 1 , Karl Friston 1<br />
1 Wellcome Trust Centre <strong>for</strong> Neuroimaging, London,<br />
United Kingdom, 2 UCL Institute of Neurology, London,<br />
United Kingdom<br />
763<br />
764<br />
765<br />
766<br />
767<br />
repeated-measures Designs overestimate Between-<br />
Subject effects In fmrI Packages using one error Term<br />
Donald McLaren 1,2 , Aaron Schultz 3 , Joseph Locascio 1 ,<br />
Reisa Sperling 4 , Alireza Atri 1,2<br />
1 Dept. Neurology, Massachusetts General Hospital/Harvard<br />
Medical School, Boston, MA, 2 GRECC, Bed<strong>for</strong>d VA Medical<br />
Center, Bed<strong>for</strong>d, MA, 3 Dept. Psychiatry, Massachusetts<br />
General Hospital, Boston, MA, 4 Center <strong>for</strong> Alzheimer<br />
Research and Treatment/Dept. Neurology, BWH/Dept.<br />
Neurology, MGH, Boston, MA<br />
New Statistical Tools <strong>for</strong> multi-modality Image<br />
regression<br />
Xue Yang 1 , Lori Beason-Held 2 , Susan Resnick 2 ,<br />
Bennett Landman 1<br />
1 Vanderbilt University, Nashville, TN, 2 National Institute of<br />
Aging, National Institute of Health, Baltimore, MD<br />
Withdrawn<br />
Development of Powermap: a software package <strong>for</strong><br />
power analysis in neuroimaging studies<br />
Karen Joyce 1 , Satoru Hayasaka 1<br />
1 Wake Forest University, Winston-Salem, United States<br />
univariate autoregressive modeling of Functional<br />
echo-Volumar magnetic resonance Imaging Data<br />
Radu Mutihac 1 , Stefan Posse 2<br />
1 1 University of New Mexico, Albuquerque, NM,<br />
2 1 Univesrsity of New Mexico, Albuquerque, NM<br />
Modeling and Analysis Methods<br />
Other Methods<br />
768* Volumetric Computational model <strong>for</strong> Neurovascular<br />
Coupling and BoLD fmrI, (o-m4)<br />
Zikuan Chen1 , Vince Calhoun2 1 2 Mind Research Network, Mind Research Network,<br />
Albuquerque, NM<br />
769**<br />
770**<br />
771<br />
Inferring <strong>Brain</strong> activation from Spatial modulations of<br />
fmrI BoLD Distribution<br />
Bernard Ng 1 , Rafeef Abugharbieh 1 , Jean Baptiste Poline 2 ,<br />
Bertrand Thirion 2<br />
1 UBC, Vancouver, Canada, 2 INRIA, Gif Sur Yvette, France<br />
utilization, Congestion and Blocking in Large-scale<br />
<strong>Brain</strong> Networks<br />
Bratislav Misic1 , Anthony McIntosh1 1Rotman Research Institute - Baycrest Centre,<br />
Toronto, Canada<br />
The motor System Shows region-specific Time-of-Day<br />
Differences in the elderly<br />
Isabella Peres 1 , Evgeny Gutyrchik 1,2 , Céline Vetter 1 ,<br />
Janusch Blautzik 3 , Maximilian Reiser 3 , Ernst Poeppel 2,1 ,<br />
Till Roenneberg 1 , Thomas Meindl 3<br />
1 Institute of Medical Psychology, Munich, Germany,<br />
2 <strong>Human</strong> Science Center, Munich, Germany, 3 Institute of<br />
Clinical Radiology, Munich, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 67<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Modeling and Analysis Methods<br />
Other Methods, continued<br />
772<br />
773<br />
774<br />
775<br />
776<br />
777<br />
778<br />
779<br />
780<br />
Having your cake and eating it too: model Free<br />
Detection analysis of er-fmrI data<br />
Johan Jansma 1 , Maura Furey 2 , Nick Ramsey 1<br />
1 Rudolf Magnus Institute of Neuroscience, UMC Utrecht,<br />
Utrecht, Netherlands, 2 Experimental Therapeutics and<br />
Pathophysiology Branch, NIH/NIMH, Bethesda, MD, USA<br />
Spectral and approximate eeg entropy: a comparative<br />
study in disorders of consciousness patients<br />
Quentin Noirhomme 1 , Rémy Lehembre 2 , Marie-Aurelie<br />
Bruno 3 , Camille Chatelle 4 , Audrey Vanhaudenhuyse 5 ,<br />
Olivia Gosseries 3 , Victor Cologan 6 , Christophe Phillips 7 ,<br />
Steven Laureys 3 , Andrea Soddu 6<br />
1 University of Liege, 2 University of Liege, Liège, Belgium,<br />
3 University of Liege, Belgium, Liege, Belgium, 4 University<br />
of Liège, Liège, Belgium, 5 Cyclotron Resaerch Center,<br />
University of Liège, Liège, Belgium, 6 University of Liege,<br />
Liege, Belgium, 7 University of Liege, Sart Tilman,<br />
Liege, Belgium<br />
Integrated pipeline of brain extraction and<br />
inhomogeneity correction <strong>for</strong> difficult mrI data sets<br />
Joost Mulders 1 , Rainer Goebel 2<br />
1 <strong>Brain</strong> Innovation, Maastricht, Netherlands,<br />
2 Maastricht University, Maastricht, Netherlands<br />
reproducibility of structural BoLD and DTI data<br />
between identical scanners and after major repair<br />
X Wang 1 , L Huang 1 , M Baliki 1 , T Parrish 1 , V Apkarian 1<br />
1 Northwestern University, Chicago, IL<br />
multi-slice T2* Spectrum estimation with echo<br />
relaxation Imaging<br />
Jennifer Evans1 , Wenming Luh2 , Peter Bandettini2 1 2 NIMH/NIH & CNRM/HJF, Bethesda, MD, NIMH/NIH,<br />
Bethesda, MD<br />
Conveying Confidence Intervals in fmrI activation<br />
maps<br />
Philip Burton 1 , Stephen Engel 1<br />
1 University of Minnesota, Minneapolis, MN<br />
optimization of Contrast Detection Power using<br />
Probabilistic Behavioral In<strong>for</strong>mation<br />
Dietmar Cordes 1 , Mingwu Jin 2 , Tim Curran 3 , Rajesh Nandy 4<br />
1 University Of Colorado Denver, Aurora, United States,<br />
2 University of Colorado-Denver, Aurora, United States,<br />
3 University of Colorado, Boulder, United States, 4 UCLA,<br />
Los Angeles, United States<br />
Comparison Between FWe and FDr Corrections <strong>for</strong><br />
Threshold Free Cluster enhancement maps<br />
Krzysztof Gorgolewski 1 , Amos Storkey 1 , Mark Bastin 1 ,<br />
Cyril Pernet 1<br />
1 University of Edinburgh, Edinburgh, United Kingdom<br />
Fuzzy clustering <strong>for</strong> outlier detection: applications in<br />
Functional mapping in epilepsy<br />
Xiaohui Zhang 1 , jagriti Arora 2 , R. Todd Constable 3<br />
1 Yale University, 2 Yale University, New Haven, CT,<br />
3 Department of Diagnostic Radiology; Department of<br />
Biomedical Engineering, Yale University, New Haven, CT<br />
68 HBM 2011 >> <strong>abstracts</strong><br />
781<br />
782<br />
783<br />
784<br />
785<br />
786<br />
movement Trajectory monitoring using Conventional<br />
Image Processing <strong>for</strong> fmrI Studies<br />
Toshiharu Nakai 1 , Junichi Hasegawa 2 , Wataru Hatanaka 3 ,<br />
Makoto Miyakoshi 4 , Ichiro Takashima 5 , Ayuko Tanaka 6 ,<br />
Kayako Matsuo 7<br />
1 Neuroimaging & In<strong>for</strong>matics Lab, NCGG, Ohbu, Aichi,<br />
Japan, 2 Graduate School of Computer & Cognitive<br />
Science, Chukyo University, Toyota, Aichi, 3 LSST, Chukyo<br />
University, Toyota, Aichi, 4 Neuroimaging & In<strong>for</strong>matics Lab,<br />
NCGG, Ohbu, Aichi, 5 HTRI, AIST, Tsukuba, Ibaragi, 6 NIPH,<br />
Wako, Saitama, 7 National Taiwan University, Taipei, Taiwan,<br />
Republic of China<br />
Simulating fmrI Data with realistic noise using<br />
neuRosim<br />
Marijke Welvaert1 , Yves Rosseel1 1Department of Data Analysis, Ghent University,<br />
Gent, Belgium<br />
<strong>Brain</strong>Net Viewer: a graph-based brain network<br />
mapping tool<br />
Mingrui Xia 1 , Jinhui Wang 1 , Yong He 1<br />
1 State Key laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing, China<br />
Dynamic experiments in functional magnetic<br />
resonance imaging<br />
Lydia Hellrung 1 , Maurice Hollmann 1 , Oliver Zscheyge 1 ,<br />
Torsten Schlumm 2 , Arno Villringer 1,3,4 , Burkhard Pleger 1,3,4<br />
1 Dept. Neurology, Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany, 2 Dept.<br />
NMR, Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany, 3 Clinic <strong>for</strong> Cognitive<br />
Neurology, University Hospital, Leipzig, Germany, 4 Mind &<br />
<strong>Brain</strong> Institute, Berlin School of Mind and <strong>Brain</strong>, Humboldt-<br />
University, Berlin, Germany<br />
The Pitfalls of Pooling evidence: Insights gained<br />
in a re-analysis of Three Published meta-analyses<br />
Wolfgang Huf 1,2,3 , Klaudius Kalcher 1,2,3 , Gerald Pail 1 ,<br />
Roland Boubela 1,2,3 , Lukas Pezawas 1 , Christian<br />
Windischberger 2 , Ewald Moser 2 , Michaela-Elena Friedrich 1 ,<br />
Peter Filzmoser 3 , Siegfried Kasper 1<br />
1 Department of Psychiatry and Psychotherapy, Medical<br />
University of Vienna, Vienna, Austria, 2 Center <strong>for</strong> Medical<br />
Physics and Biomedical Engineering, Medical University<br />
of Vienna, Vienna, Austria, 3 Department of Statistics<br />
and Probability Theory, Vienna University of Technology,<br />
Vienna, Austria<br />
a novel artifact reduction strategy <strong>for</strong> detecting<br />
changes in muscle activity during fmrI<br />
Jaimie Dougherty1 , Karen Moxon1 , Chris Conklin2 ,<br />
Scott Faro2 , Feroze Mohamed2 1 2 Drexel University, Philadelphia, PA, Temple University,<br />
Philadelphia, PA
Modeling and Analysis Methods<br />
Other Methods, continued<br />
787<br />
788<br />
789<br />
790<br />
791<br />
792<br />
793<br />
Implementation of the NINDS Traumatic <strong>Brain</strong> Injury<br />
Common Data Elements using caBIG AIM Model<br />
Ashish Hinger 1 , Dzung Pham 1 , Pattanasak Mongkolwat 2 ,<br />
John Butman 3<br />
1 Center <strong>for</strong> Neuroscience and Regenerative Medicine,<br />
Henry M. Jackson Foundation, Bethesda, MD,<br />
2 Department of Radiology, Northwestern University,<br />
Chicago, IL, 3 Diagnostic Radiology Department,<br />
National Institutes of Health, Bethesda, MD<br />
Applications of stereoscopic 3D in morphometric and<br />
functional imaging<br />
Gonzalo Rojas 1 , Marcelo Galvez 2 , Jorge Cordovez 2 , Daniel<br />
Margulies 3 , F Xavier Castellanos 4,5 , Michael Milham 4,5<br />
1 Laboratory of Medical Image Processing, Department<br />
of Radiology, Las Condes Clinic., Santiago, Chile,<br />
2 Department of Radiology, Las Condes Clinic, Santiago,<br />
Chile, 3 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 4 Phyllis Green and Randolph<br />
Cōwen Institute <strong>for</strong> Pediatric Neuroscience, NYU Langone<br />
Medical Center, New York, NY, 5 Nathan Kline Institute <strong>for</strong><br />
Psychiatric Research, Orangeburg, NY<br />
A System <strong>for</strong> Addressing Incidental Findings in<br />
Neuroimaging Research<br />
Steven Cramer 1 , Jennifer Wu 1 , Joseph Hanson 1 ,<br />
Sarvenaz Nouri 1 , Diraj Karnani 1 , Tony Chuang 1 , Vu Le 1<br />
1 University of Cali<strong>for</strong>nia, Irvine, Irvine, CA<br />
NeuroDebian: versatile plat<strong>for</strong>m <strong>for</strong> brain<br />
imaging research<br />
Michael Hanke 1,2 , Yaroslav Halchenko 1 , James Haxby 1<br />
1 Dartmouth College, Hanover, NH, USA, 2 University of<br />
Magdeburg, Magdeburg, Germany<br />
Skull Stripping Influence on Cortical Surface<br />
Reconstruction : A Landmark Validation<br />
Aaron Carass 1 , Min Chen 1 , Jennifer Cuzzocreo 2 ,<br />
Jerry Prince 1<br />
1 Johns Hopkins University, Baltimore, MD,<br />
2 Johns Hopkins School of Medicine, Baltimore, MD<br />
Physiological and Haemodynamical Analysis<br />
of Cerebral Blood Volume Changes During<br />
<strong>Brain</strong> Activation<br />
Steffen Krieger 1 , Markus Streicher 1 , Robert Trampel 2 ,<br />
Robert Turner 2<br />
1 Max-Plank-Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
Visualization and Modular Plug-In based Data-Analysis<br />
of Real-Time fMRI Data<br />
Claudia Hänel 1 , Charles Mueller 1 , Johannes Bernarding 1<br />
1 IBMI, Otto-Von-Guericke-University, Magdeburg, Germany<br />
794<br />
795<br />
796<br />
797<br />
Multivariate approaches <strong>for</strong> NIRS: Very low frequency<br />
oscillations in the prefrontal cortex<br />
Joachim Ortmann 1 , Christoph Kaller 2 , Johannes<br />
Ackermann 2 , Linda Sommerlade 1 , Jens Timmer 1 ,<br />
Cornelius Weiller 2 , Matthias Schroeter 3 , Bjoern Schelter 1<br />
1 Center <strong>for</strong> Data Analysis and Modeling, University of<br />
Freiburg, Freiburg, Germany, 2 FBI, Neurology Department,<br />
University Medical Center Freiburg, Freiburg, Germany,<br />
3 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
Comparing GLM, ICA and combined approaches <strong>for</strong><br />
fMRI data with possible inaccuracy<br />
Michal Mikl 1 , Radek Marecek 2 , Radovan Přikryl 3 ,<br />
Milan Brazdil 2<br />
1 Masaryk University, Brno, 2 First Department of Neurology,<br />
Masaryk University, St. Anne’s Faculty Hospital, Pekarska<br />
53, Brno 65, Brno, Czech Republic, 3 Department of<br />
psychiatry, Masaryk University, Brno, Czech Republic<br />
Withdrawn<br />
Comparison of brain SPECT analysis with SPM and<br />
NeuroGam in Patients with Headache<br />
KyungAh Chun 1 , IhnHo Cho 1 , JuHye Jeong 1 ,<br />
EunJung Kong 1<br />
1 Yeungnam University Hospital, Daegu, Korea, Republic of<br />
Language<br />
Language Acquisition<br />
798 Learning and Fast-<strong>Mapping</strong> Meanings to Novel<br />
Object in Children: A MEG Study<br />
Charline Urbain1,2 , Rémy Schmitz1 , Mathieu Bourguignon2 ,<br />
Marc Op De Beeck2 , Sophie Galer1,2 , Xavier De Tiège2 ,<br />
Patrick Van Bogaert2 , Philippe PEIGNEUX1 1UR2NF - Neuropsychology and Functional Neuroimaging<br />
Research Unit, Université Libre de Bruxelles, Bruxelles,<br />
Belgium, 2LCFC - Laboratoire de Cartographie<br />
Fonctionnelle du Cerveau, Hôpital Erasme,<br />
Bruxelles, Belgium<br />
799<br />
800<br />
Prosodic Network in the Neonatal <strong>Brain</strong><br />
Fumitaka Homae 1 , Hama Watanabe 2 , Takayuki Otobe 3 ,<br />
Tamami Nakano 4 , Tohshin Go 5,6 , Yukuo Konishi 7,6 ,<br />
Gentaro Taga 2,8<br />
1 Tokyo Metropolitan University, Tokyo, Japan, 2 University<br />
of Tokyo, Tokyo, Japan, 3 Jin-ai Women’s College, Fukui,<br />
Japan, 4 Juntendo University, Tokyo, Japan, 5 Kyoto<br />
University, Kyoto, Japan, 6 Tokyo Women’s Medical<br />
University, Tokyo, Japan, 7 Doshisha University, Kyoto,<br />
Japan, 8 CREST/JST, Kawaguchi, Japan<br />
Childrens’ Language Comprehension depends on<br />
Gray Matter Density in the left Inferior Parietal Lobe<br />
Anja Hubert 1 , Lars Meyer 1 , Michael Skeide 1 ,<br />
Angela Friederici 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 69<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Language<br />
language Acquisition, continued<br />
801<br />
802<br />
803<br />
804<br />
Differential effects of age of acquisition of bilingualism<br />
on white matter neuroplastic changes<br />
Ana Sanjuán 1 , Gabriele Garbin 1 , Aina Rodríguez Pujadas 1 ,<br />
Noelia Ventura-Campos 2 , Maria Antonia Parcet 1 ,<br />
César Ávila Rivera 2<br />
1 Universitat Jaume I, Castellón, Spain, 2 Universitat<br />
Jaume I, Castellon, Spain<br />
Handedness and Language Lateralization in Children<br />
Jerzy Szaflarski 1 , Anna Byars 2 , Lisa Jacola 3 , Vincent<br />
Schmithorst 2 , Mekibib Altaye 2 , Mark Schapiro 2 , Akila<br />
Rajagopal 4 , Elena Plante 5 , Scott Holland 6<br />
1 University of Cincinnati, Cincinnati, United States,<br />
2 Cincinnati Children’s Hospital Medical Center, Cincinnati,<br />
OH, 3 University of Cincinnati Department of Psychology,<br />
Cincinnati, OH, 4 Pediatric Neuroimaging Research<br />
Consortium, Cincinnati, United States, 5 University of<br />
Arizona, Tucson, AZ, 6 Cincinnati Children’s Hospital,<br />
University of Cincinnati, Cincinnati, United States<br />
a fNIrS investigation of newborn abilities to<br />
discriminate maternal and <strong>for</strong>eign languages<br />
Berta González-Frankenberger 1,2,3 , Natacha Paquette 1,2 ,<br />
Phetsamone Vannasing 1 , Julie Tremblay 1 , Olivia Florea 2 ,<br />
Beland Renée 2 , Fabrice Wallois 4 , Franco Lepore 2 ,<br />
Maryse Lassonde 2<br />
1 Research Center, University Hospital Center Sainte-<br />
Justine, Montréal, QC, Canada, 2 Centre de Recherche en<br />
Neuropsychologie et Cognition, Université de Montréal,<br />
Montréal, QC, Canada, 3 Instituto de Neurobiología,<br />
Universidad Nacional Autónoma de México, Querétaro,<br />
México, 4 GRAMFC, Neurophysiology Laboratory, Faculty<br />
of Medicine, University of Picardie, Amiens, France<br />
The Neural Correlates of Second Language Learning:<br />
Cross-linguistic Transfer effects<br />
Ladan Ghazi Saidi 1,2 , Ana Inés Ansaldo 2<br />
1 University of Montreal, 2 CRIUGM, Montreal, Canada<br />
language<br />
Language Comprehension and Semantics<br />
805* The multimodal cortex of the superior temporal sulcus:<br />
a hotspot of language evolution?, (o-T3)<br />
Patricia Morosan1 , Katrin Amunts1,2,3 , Karl Zilles1,3,4 1Institute of Neuroscience and Medicine, Research Centre<br />
Juelich, Juelich, Germany, 2Department of Psychiatry<br />
and Psychotherapy, RWTH Aachen University, Aachen,<br />
Germany, 3Juelich – Aachen Research Alliance (JARA),<br />
Juelich-Aachen, Germany, 4C.&O. Vogt Institute of <strong>Brain</strong><br />
Research, Düsseldorf, Germany<br />
806* Tracking Neural Coding of Perceptual and Semantic<br />
attributes during Word Comprehension, (o-T3)<br />
Gustavo Sudre1 , Dean Pomerleau2 , Leila Wehbe1 ,<br />
Alona Fyshe1 , Mark Palatucci1 , Tom Mitchell1 1Carnegie Mellon University, Pittsburgh, PA,<br />
2Intel Labs, Pittsburgh, PA<br />
70 HBM 2011 >> <strong>abstracts</strong><br />
807*<br />
Developmental Changes in audiovisual Integration of<br />
Speech and accompanying gestures, (o-T3)<br />
Susan Lee 1 , Serene Habayeb 2 , Loisa Bennetto 2<br />
1 University of Rochester School of Medicine & Dentistry,<br />
Rochester, NY, 2 University of Rochester, Rochester, NY<br />
808 Decoding Semantic Categories from Pictures,<br />
Words and Natural Sounds<br />
Irina Simanova 1 , Marcel van Gerven 2 , Robert Oostenveld 2 ,<br />
Peter Hagoort 3<br />
1 Max Planck Institute <strong>for</strong> Psycholinguistics, N/A,<br />
2 Donders Institute <strong>for</strong> <strong>Brain</strong>, Cognition and Behaviour,<br />
Nijmegen, Netherlands, 3 Max Planck Institute <strong>for</strong><br />
Psycholinguistics, Nijmegen, Netherlands<br />
809<br />
810<br />
811<br />
812<br />
813<br />
814<br />
The locative alternation: Linguistic processing cost<br />
and error signals in Broca’s region<br />
Ken Christensen 1 , Mikkel Wallentin 2<br />
1 Aarhus University, Aarhus C, Denmark, 2 CFIN,<br />
Aarhus University, Aarhus C, Denmark<br />
Temporal organization of Neural Processing <strong>for</strong> the<br />
Constituent Structure of Sentences: an meg study<br />
Masaki Maruyama 1,2 , Stanislas Dehaene 3,2,4,5<br />
1 Inserm U.992 - Neuroimagerie Cognitive, CEA, DSV/I2BM,<br />
NeuroSpin Center, F-91191 Gif/Yvette, France,<br />
2 CEA, DSV/I2BM, NeuroSpin Center, F-91191 Gif/Yvette,<br />
France, 3 INSERM, U992, Cognitive Neuroimaging Unit,<br />
CEA, DSV/I2BM, NeuroSpin Center, F-91191 Gif/Yvette,<br />
France, 4 Univ Paris-Sud, Univ Paris-Sud, France, 5 Collège<br />
de France, F-75005 Paris, France<br />
Like cat and dog? Neural correlates of positive and<br />
negative emotional associations in depression<br />
Katharina Sass 1,2 , Ute Habel 1,2 , Thilo Kellermann 1,2 ,<br />
Klaus Mathiak 1,3,2 , Siegfried Gauggel 1 , Tilo Kircher 4<br />
1 RWTH Aachen University, Aachen, Germany, 2 JARA –<br />
Translational <strong>Brain</strong> Medicine, Germany, 3 Research Centre<br />
Jülich, Germany, Jülich, Germany, 4 Philipps-University<br />
Marburg, Marburg, Germany<br />
Hierarchical Semantic Clustering and Cosine Similarity<br />
of fmrI response in right Fusi<strong>for</strong>m gyrus<br />
Rose Bruffaerts1 , Patrick Dupont1 , Ronald Peeters2 ,<br />
Gerrit Storms1 , Simon De Deyne1 , Rik Vandenberghe1 1 2 KU Leuven, Leuven, Belgium, UZ Leuven, Leuven,<br />
Belgium<br />
Neural Correlates of ambiguous and unambiguous<br />
Verb Processing<br />
Aya Meltzer Asscher 1 , Julia Schuchard 1 , Dirk-Bart den<br />
Ouden 2 , Cynthia Thompson 1<br />
1 Northwestern University, Evanston, IL, 2 University of<br />
South Carolina, Columbia, SC<br />
The influence of novelty and context on hemispheric<br />
recruitment in processing metaphors<br />
Michele Diaz1 , Kyle Barrett2 , Larson Hogstrom2 1 2 Duke University, Durham, United States, Duke University,<br />
Durham, NC
Language<br />
language Comprehension and Semantics, continued<br />
815<br />
816<br />
817<br />
818<br />
819<br />
820<br />
821<br />
822<br />
an meg study of the negative polarity item any to<br />
assess sentence-level semantic processing<br />
Graciela Tesan 1 , Blake Johnson 2 , Stephen Crain 3<br />
1 Macquarie University, Macquarie Park, Australia,<br />
2 Macquarie University, Sydney, New South Wales,<br />
3 Macquarie University, Sydney, Australia<br />
Hemispheric involvement in the resolution of semantic<br />
ambiguity depends on phonological ambiguity<br />
Tali Bitan 1 , Asaf Kaftory 1 , Adi Leib 1 , Andrey Markus 1 ,<br />
Orna Peleg 1 , Zohar Eviatar 1<br />
1 University of Haifa, Haifa, Israel<br />
The Conceptual <strong>Brain</strong>: Telicity modulates neural<br />
activity in verb processing cortical areas<br />
Domenica Romagno 1 , Giuseppina Rota 2 , Emiliano<br />
Ricciardi 2,3 , Pietro Pietrini 2,3<br />
1 Department of Linguistics–University of Pisa, Pisa, Italy,<br />
2 Laboratory of Clinical Biochemistry and Molecular Biology,<br />
University of Pisa, Pisa, Italy, 3 Department of Laboratory<br />
Medicine and Molecular Diagnostics, Azienda Ospedaliero<br />
Universitaria Pisana, Pisa, Italy<br />
Flexibility in embodied lexical-semantic representations<br />
Wessel van Dam 1 , Margriet van Dijk 1 , Harold Bekkering 1 ,<br />
Shirley-Ann Rueschemeyer 1<br />
1 Radboud University, Nijmegen, Netherlands<br />
Investigating oscillatory dynamics of lexical-semantic<br />
processing using a semantic priming paradigm<br />
Monika Mellem 1 , Andrei Medvedev 2 , Rhonda Friedman 3<br />
1 Interdisciplinary Program in Neuroscience, Georgetown<br />
University, Washington, DC, 2 Center <strong>for</strong> Functional and<br />
Molecular Imaging, Dept. of Neurology, Georgetown<br />
University Medical Cntr, Washington, DC, 3 Center <strong>for</strong><br />
Aphasia Research and Rehabilitation, Dept. of Neurology,<br />
Georgetown University, Washington, DC<br />
Progression of Word Processing from occipital to<br />
Left Inferior Temporal Cortex<br />
Melissa Rundle 1 , Andrew Connolly 1 , Richard Granger 1<br />
1 Dartmouth College, Hanover, NH<br />
The role of Language age of acquisition and<br />
Proficiency In and Noun and Verb Processing in<br />
Bilingua<br />
Monica Consonni 1 , Riccardo Cafiero 1 , Dario Marin 2 ,<br />
Marco Tettamanti 3 , Franco Fabbro 4 , Daniela Perani 5<br />
1 Vita-Salute San Raffaele University, Milano, Italy, 2 IRCCS<br />
“E. Medea”, Polo del Friuli Venezia Giulia, Udine, Italy,<br />
3 Department of Nuclear Medicine and Division of<br />
Neuroscience, Scientific Institute San Raffaele, Milano,<br />
Italy, 4 Department of Philosophy, University of Udine,<br />
Udine, Italy, 5 Faculty of Psychology, Vita-Salute San<br />
Raffaele University, Milano, Italy, Milano, Italy<br />
The concreteness effect in implicit and explicit<br />
memory tests by directed <strong>for</strong>getting paradigm<br />
Xin Xiao 1 , Chunyan Guo 1<br />
1 Capital Normal University, Beijing, China<br />
823<br />
824<br />
825<br />
826<br />
827<br />
828<br />
829<br />
The Neural Basis of Linguistic Prosody<br />
Discrimination in Healthy Children and young adults<br />
David Henkel 1 , Kenneth Eaton 1 , Scott Holland 1 ,<br />
Vincent Schmithorst 1 , Jennifer Vannest 1<br />
1 Cincinnati Children’s Hospital Medical Center, Pediatric<br />
Neuroimaging Research Consortium, Cincinnati, OH<br />
Coupling Differences between Wernicke and Broca’s<br />
areas according to Lexicality in Normal adults<br />
Autumn McIlraith 1,2,3 , Jordan Green 1,2 , Tiffany Hogan 1,2 ,<br />
Tony Wilson 3,4<br />
1 University of Nebraska - Lincoln, Lincoln, NE,<br />
2 Neurogenetic Communication Disorders Consortium,<br />
Munroe-Meyer Institute, University of Nebraska Medical<br />
Center, Omaha, NE, 3 Center <strong>for</strong> Magnetoencephalography,<br />
Omaha, NE, 4 Department of Pharmacology & Experimental<br />
Neuroscience, University of Nebraska Medical Center,<br />
Omaha, NE<br />
Sex Differences in Neural recruitment <strong>for</strong><br />
Improved Verb generation Per<strong>for</strong>mance<br />
Jane Allendorfer 1 , Miriam Siegel 1 , Christi Banks 1 ,<br />
Christopher Lindsell 1 , Jennifer Vannest 2 , Scott Holland 3 ,<br />
Jerzy Szaflarski 1<br />
1 University of Cincinnati, Cincinnati, United States,<br />
2 Cincinnati Children’s Hospital, Cincinnati, United States,<br />
3 Cincinnati Children’s Hospital, University of Cincinnati,<br />
Cincinnati, United States<br />
Wisconsin Word Sorting Task: mapping the common<br />
and specific regions involved in phonological and s<br />
France Simard 1 , Simona Maria Brambati 1 , Cecile Madjar 1 ,<br />
Oury Monchi 1<br />
1 Functional Neuroimaging Unit, CRIUGM & University of<br />
Montreal, Montreal, QC, Canada<br />
activation of voice-selective brain areas in response<br />
to written and auditory quotations<br />
Bo Yao 1 , Pascal Belin 2 , Christoph Scheepers 1<br />
1 University of Glasgow, Glasgow, United Kingdom, 2 Centre<br />
<strong>for</strong> Cognitive Neuroimaging, Glasgow, United Kingdom<br />
The differential role of the left and right aTL <strong>for</strong><br />
semantic processing of pictures and names<br />
Simona Maria Brambati 1 , Maximiliano Wilson 2 ,<br />
Sylvie Belleville 3 , Yves Joanette 3 , Isabelle Rouleau 4 ,<br />
Sven Joubert 5<br />
1 Centre de Recherche - IUGM, Montréal, QC, Canada,<br />
2 Centre de recherche - IUGM, Montréal, QC, 3 Centre de<br />
recherche - IUGM, Montreal, Quebec, 4 Département de<br />
psychologie, Université du Québec à Montréal (UQAM),<br />
Montreal, Quebec, 5 Centre de recherche - IUGM,<br />
Montreal, Canada<br />
Neural Correlates of Semantic Comprehension of<br />
abstract and Concrete Words : evidence from meg<br />
Jacinthe Lacombe 1,2 , Stephan Grimault 1 , Yann Potiez 1 ,<br />
Sophie Benoit 3 , Pierre Jolicoeur 1 , Sven Joubert 1,2<br />
1 CERNEC, Université de Montréal, Montreal, Canada,<br />
2 CRIUGM, Montreal, Canada, 3 Université du Québec à<br />
Montréal, Montreal, Canada<br />
HBM 2011 >> <strong>abstracts</strong> 71<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Language<br />
language Comprehension and Semantics, continued<br />
830<br />
831<br />
832<br />
833<br />
834<br />
835<br />
836<br />
837<br />
Integration of written words assessed by High<br />
resolution eeg sources reconstruction<br />
Gaetan Yvert 1 , Marcela Perrone-Bertolotti 2 , Olivier David 3 ,<br />
Monica Baciu 2<br />
1 Laboratoire de Psychologie et Neurocognition, UMR<br />
CNRS 5105, UPMF, Grenoble, France, 2 LPNC, Grenoble,<br />
France, 3 GIN, Grenoble, France<br />
modulation effect of perceptual, motor and affective<br />
content in auditory story comprehension<br />
Ho Ming Chow 1 , Allen Braun 1<br />
1 NIDCD/NIH, Bethesda, United States<br />
Category-Dependent effect in Neural Processing<br />
of Semantic relatedness<br />
Masahiro Hata 1 , Hidekazu Yarimizu 1 , Lisa Sugiura 1 ,<br />
Fumitaka Homae 1 , Hiroko Hagiwara 1<br />
1 Tokyo Metropolitan University, Tokyo, Japan<br />
Neural Correlates of Inferential Processing in the<br />
Comprehension of utterances<br />
Sung-en Lee 1 , Shin-ae Yoon 2 , Eun Joo Kim 3 , Joohan Kim 4 ,<br />
Hae-Jeong Park 2<br />
1 Department of Radiology, Nuclear Medicine and Research<br />
Institute of Radiological Science, Yonsei Uni, 2 Department<br />
of Radiology and Psychiatry, Severance Biomedical<br />
Science Institute, Yonsei University, Seoul, Korea, Republic<br />
of, 3 The department of the graduate School of Education,<br />
Yonsei University, Seoul, Korea, Republic of, 4 The<br />
department of graduate school of Communication, Yonsei<br />
University, Seoul, Korea, Republic of<br />
erP Investigation of argument Structure and Semantic<br />
Processing in Healthy and aphasic adults<br />
Aneta Kielar 1 , Cynthia Thompson 2<br />
1 Northwestern University, Evanston, Illinois, USA,<br />
2 Northwestern University, Evanston, Illinois, USA<br />
action Verbs yield BoLD response in LPmT, anterior to<br />
V5, During Story Comprehension<br />
Mikkel Wallentin 1 , Andreas Nielsen 2 , Peter Vuust 2 ,<br />
Anders Dohn 2 , Andreas Roepstorff 2 , Torben Lund 2<br />
1 CFIN, Aarhus University, Aarhus C, Denmark,<br />
2 Aarhus University, Aarhus C, Denmark<br />
Why not say it directly? Neural basis of indirect<br />
speech comprehension<br />
Midori Shibata 1 , Yuri Terasawa 1 , Satoshi Umeda 2<br />
1 Center <strong>for</strong> Advanced Research on Logic and Sensibility<br />
(CARLS), Keio University, Tokyo, Japan, 2 Keio University,<br />
Tokyo, Japan<br />
Neural correlates of treatment effects on abstract<br />
and concrete words in aphasia: a pilot study<br />
Chaleece Sandberg 1 , Swathi Kiran 1<br />
1 Boston University, Boston, USA<br />
72 HBM 2011 >> <strong>abstracts</strong><br />
838<br />
839<br />
840<br />
Processing of Factually Correct and Incorrect<br />
Sentences Involves Different Processes<br />
Tao Yu 1 , Simone Lang 2 , Alexandra Markl 3 ,<br />
Dominik Vogel 3 , Friedemann Mueller 3 , Ranganatha<br />
Sitaram 4 , Boris Kotchoubey 1<br />
1 Institute of Medical Psychology and Behavioral<br />
Neurobiology, University of Tuebingen, Tuebingen,<br />
Germany, 2 Institute of Psychology, University of Heidelberg,<br />
Heidelberg, Germany, 3 Clinic of Neurology, Bad Aibling,<br />
Bad Aibling, Germany, 4 IInstitute of Medical Psychology<br />
and Behavioral Neurobiology, University of Tuebingen,<br />
Tuebingen, Germany<br />
Investigating neural networks in quantifiers:<br />
Logical quantifiers versus Numerical quantifiers<br />
Sailee Shikhare 1 , Stefan Heim 2,3,4 , Elise Klein 1,5,6 ,<br />
Klaus Willmes 1,5<br />
1 Section Neuropsychology, RWTH Aachen University,<br />
Germany, 2 Department of Psychiatry, Psychotherapy<br />
and Psychosomatics, RWTH Aachen University,<br />
Aachen, Germany, 3 Research Centre Jülich, Institute of<br />
Neurosciences and Medicine (INM-1), Jülich, Germany,<br />
4 Jülich-Aachen Research Alliance (JARA-BRAIN),<br />
Jülich, Germany, 5 Interdisciplinary Center <strong>for</strong> Clinical<br />
Research Aachen, RWTH Aachen, Germany, 6 Department<br />
of Psychology, Eberhard Karls University, Tuebingen,<br />
Germany<br />
Differences in neural substrates of comprehension<br />
in L1 in bilinguals and monolinguals<br />
Aina Rodríguez Pujadas 1 , Patricia Román 2 ,<br />
Noelia Ventura-Campos 1 , Ana Sanjuán 3 , Julio González 1 ,<br />
César Ávila Rivera 1<br />
1 Neuropsychology & functional Neuroimaging. Universitat<br />
Jaume I, Castellon, Spain, 2 Max Planck Institute, Leipzig,<br />
Germany, 3 Neuropsychology & functional Neuroimaging.<br />
Universitat Jaume I, Castellón, Spain<br />
learning and Memory<br />
Implicit Memory<br />
841*<br />
842<br />
Image-Invariant Neural Priming of Faces is associated<br />
with Changes in Functional Connectivity of FFa, (o-T4)<br />
W. Dale Stevens 1 , R. Nathan Spreng 1 , Brendan Gaesser 1 ,<br />
Daniel Schacter 1<br />
1 Harvard University, Cambridge, MA<br />
Distinct Neural mechanisms underlying multiple<br />
repetition effects during Working memory retrieval<br />
Chunyan Guo 1,2 , Brian Gold 3,4 , Yang Jiang 2,4<br />
1 Capital Normal University, Beijing Key Laboratory of<br />
Learning and Cognition, Beijing, China, 2 University of<br />
Kentucky, Department of Behavioral Science, Lexington,<br />
KY United States, 3 University of Kentucky Department of<br />
Anatomy and Neurobiology, Lexington, KY United States,<br />
4 MRISC and Sanders Brown Center on Aging, College of<br />
Medicine, Lexington, KY United States
learning and Memory<br />
Long-Term Memory (Episodic and Semantic)<br />
843*<br />
844<br />
845<br />
846<br />
847<br />
848<br />
849<br />
retrieving out-of-body experiences:<br />
Hippocampus activity depends on the encoded<br />
visual perspective, (o-T4)<br />
Loretxu Bergouignan 1 , Lars Nyberg 2 , H Ehrsson 1<br />
1 Karolinska Institute, Stockholm, Sweden, 2 Umeå<br />
University, Umeå, Sweden<br />
Dynamic Neural Networks Supporting<br />
autobiographical memory retrieval<br />
Peggy StJacques1 , Philip Kragel2 1 2 Harvard University, Cambridge, MA, Duke University,<br />
Durham, NC<br />
mediotemporal correlates of metamemory:<br />
an ieeg study<br />
Anne Do Lam 1<br />
1 Epileptology, University of Bonn, Bonn, Germany<br />
relating brain network variability to the unfolding of<br />
human memory processes<br />
Jennifer Heisz 1 , Judith Shedden 2 , Anthony McIntosh 1<br />
1 Rotman Research Institute, Toronto, Canada, 2 McMaster<br />
University, Hamilton, Ontario<br />
Structural alterations in the left temporal cortex<br />
related to episodic memory scores in HIV patients<br />
Charlotte Bernard 1,2 , Bixente Dilharreguy 1 , Michèle Allard 1,2 ,<br />
Hélène Amieva 3 , Fabrice Bonnet 3,4 , Frédéric Dauchy 4 ,<br />
Carine Greib 4 , Mathias Bruyand 3 , Gwénaëlle Catheline 1,2 ,<br />
the ANRS C03 Aquitaine cohort group 3<br />
1 Université de Bordeaux, INCIA, CNRS UMR 5287,<br />
Bordeaux, France, 2 EPHE, Bordeaux, France, 3 ISPED,<br />
INSERM U 897, Bordeaux, France, 4 CHU, Bordeaux,<br />
France<br />
The genetics of cognitive changes of older adults:<br />
an fmrI study of memory monitoring and the<br />
serotonin transporter<br />
Jennifer Pacheco 1 , John McGeary 2 , Christopher Beevers 1 ,<br />
David Schnyer 1<br />
1 Department of Psychology, The University of Texas At<br />
Austin, Austin, TX, 2 Providence VA Medical Center and<br />
Center <strong>for</strong> Alcohol and Addiction Studies, Brown University,<br />
Providence, RI<br />
The Neural Correlates of Perceptual richness in<br />
Complex episodic memory retrieval<br />
Marie St-Laurent 1,2 , Morris Moscovitch 3 ,<br />
Mary Pat McAndrews 4<br />
1 University of Toronto, Ontario, Canada, 2 Toronto Western<br />
Research Institute and Krembil Neuroscience Center,<br />
Toronto, Ontario, Canada, 3 University of Toronto, Toronto,<br />
Canada, 4 University Health Network - U of Toronto,<br />
Toronto, Canada<br />
850<br />
851<br />
852<br />
853<br />
854<br />
855<br />
856<br />
857<br />
Hippocampus maintains activation <strong>for</strong> the retrieval of<br />
remote episodic but not semanticized memories<br />
Caroline HARAND1 , Françoise BERTRAN1 , Renaud La<br />
Joie1 , Brigitte Landeau1 , Florence Mézenge1 , Hervé<br />
Platel1 , Béatrice Desgranges1 , Philippe Peigneux2 , Bruno<br />
Bontempi3 , Francis Eustache1 , Géraldine RAUCHS1 1Inserm-EPHE-UCBN, Unité U923, Caen, France,<br />
2Université Libre de Bruxelles, UR2NF, Bruxelles, Belgium,<br />
3CNRS UMR 5228, CNIC, Université de Bordeaux 1,<br />
Talence, France<br />
anticipatory “replay” response in the hippocampus<br />
while viewing and reviewing a dynamic video<br />
Philip Kohn 1 , Anees Benferhat 1 , Jonathan Kippenhan 1 ,<br />
Daniel Eisenberg 1 , Karen Berman 1<br />
1 National Institutes of Health, Bethesda, MD<br />
Hippocampal volume and stress reactivity in stressful<br />
versus non-stressful testing environments<br />
Shireen Sindi 1 , Robert-Paul Juster 2 , Catherine Lord 3 ,<br />
Sonia Lupien 3 , Jens Pruessner 2<br />
1 McGill University, 2 McGill University, Montreal, Quebec,<br />
3 University of Montreal, Montreal, Quebec<br />
memory <strong>for</strong> emotional details, how the middle-aged<br />
brain fares<br />
Halle Zucker 1 , Elizabeth Kensinger 1<br />
1 Boston College, Chestnut Hill, MA<br />
Hippocampal and amygdalar responses to the<br />
Novelty of Future Simulations<br />
Valerie van Mulukom 1,2 , Daniel Schacter 3 ,<br />
Michael Corballis 1,2 , Donna Rose Addis 4,2<br />
1 Dept. of Psychology, University of Auckland, Auckland,<br />
New Zealand, 2 Centre <strong>for</strong> <strong>Brain</strong> Research, University of<br />
Auckland, Auckland, New Zealand, 3 Dept. of Psychology,<br />
Harvard University, Cambridge, MA, 4 Dept. of Psychology,<br />
The University of Auckland, Auckland, New Zealand<br />
<strong>Brain</strong> networks <strong>for</strong> associative memory revealed by<br />
structural equation modeling<br />
Yoon-Kyoung Yim1 , Hyejin Kang1 , Heejung Kim1 ,<br />
Hyojin Park1 , Dong Soo Lee1 , Eunjoo Kang2 1Seoul National University, Seoul, Korea, Republic of,<br />
2Kangwon National University, Chuncheon, Republic<br />
Of Korea<br />
Interaction between semantic and episodic memory in<br />
alzheimer’s disease and normal aging:a meg study<br />
Valentina La Corte 1,2,3 , Nathalie George 1,2,3 , Jean-Didier<br />
Lemaréchal 1,2,3 , Gianfranco Dalla Barba 1,2,3,4<br />
1 Université Pierre et Marie Curie-Paris VI, CRICM,<br />
UMR-S975, Paris, France, 2 INSERM, U 975, Paris, France,<br />
3 CNRS, UMR 7225, Paris, France, 4 AP-HP, Hôpital Henri<br />
Mondor, Service de Neurologie, Créteil, France<br />
White matter maturation in prefrontal cortex<br />
contributes to the development of declarative memory<br />
Xiaoqian Chai 1 , Noa Ofen 1 , Elizabeth Gutierrez 1 ,<br />
Satrajit Ghosh 1 , John Gabrieli 1<br />
1 MASSACHUSETTS INSTITUTE OF TECHNOLOGY,<br />
CAMBRIDGE, MA, United States<br />
HBM 2011 >> <strong>abstracts</strong> 73<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Learning and Memory<br />
long-Term Memory (Episodic and Semantic), continued<br />
858<br />
859<br />
860<br />
861<br />
862<br />
863<br />
Prefrontal and medial temporal contributions to<br />
recognition memory over short retention intervals<br />
Craig Brozinsky1 , Mark D’Esposito1 1Helen Wills Neuroscience Institute, UC Berkeley,<br />
Berkeley, CA<br />
gender Differences in autobiographical memory recall<br />
Kymberly Young1 , Patrick Bellgowan1 , Wayne Drevets1,2 1Laureate Institute <strong>for</strong> <strong>Brain</strong> Research, Tulsa, OK,<br />
2Oklahoma University College of Medicine, Dept. of<br />
Psychiatry, Tulsa, OK<br />
Neural mechanisms of semantic organizational<br />
strategies in normal aging: an erP study<br />
Julie Fortin 1 , Sophie Blanchet 1<br />
1 Centre <strong>for</strong> Interdisciplinary Research in Rehabilitation<br />
and Social Integration, Québec,Canada<br />
Impact of divided attention on associative strategy<br />
during episodic encoding: an erP study<br />
Andrée-Anne Paradis-Giroux 1 , Michel Pépin 2 ,<br />
Blanchet Sophie 3<br />
1 Centre of Interdisciplinary Research in Rehabilitation<br />
and Social Integration (CIRRIS), 2 Laval University,<br />
Québec, Quebec, 3 Centre of Interdisciplinary Research<br />
in Rehabilitation and Social Integration (CIRRIS),<br />
Quebec, Quebec<br />
Basal functional connectivity within anterior temporal<br />
network and declarative memory per<strong>for</strong>mances<br />
Natalina Gour 1,2,3 , Jean-Philippe Ranjeva 2,3 ,<br />
Mathieu Ceccaldi 1,3 , Sylviane Con<strong>for</strong>t-Gouny 2,3 ,<br />
Emmanuel Barbeau 4,5 , Elisabeth Soulier 2,3 , Maxime Guye 2,3 ,<br />
Mira Didic 1,3 , Olivier Felician 1,3<br />
1 Laboratoire Epilepsies et Cognition, INSERM U751,<br />
Marseille, France, 2 Centre de Résonance Magnétique<br />
Biologique et Médicale (CRMBM), UMR CNRS 6612,<br />
Marseille, France, 3 Assistance Publique-Hôpitaux de<br />
Marseille, Hôpital de la Timone, Marseille, France,<br />
4 Université de Toulouse; UPS; Centre de Recherche<br />
Cerveau et Cognition, Toulouse, France, 5 CNRS, CerCo,<br />
Toulouse, France<br />
The effects of emotions on associative memory:<br />
an fmrI study,<br />
David Luck 1 , Martin Lepage 2<br />
1 McGill University, 2 McGill University, Montreal, Canada<br />
74 HBM 2011 >> <strong>abstracts</strong><br />
learning and Memory<br />
Neural Plasticity and Recovery of Function<br />
864*<br />
865**<br />
866<br />
867<br />
868<br />
869<br />
870<br />
Transient Neural Plasticity in <strong>Human</strong> motor<br />
Cortex, (o-T4)<br />
Hanzhang Lu1 , KC Tung1 , Jinsoo Uh1 , Feng Xu1 1University of Texas Southwestern Medical Center,<br />
Dallas, TX<br />
The effects of the training of multi tasks on<br />
brain structures<br />
Hikaru Takeuchi 1 , Yasuyuki Taki 1 , Rui Nouchi 1 ,<br />
Hiroshi Hashizume 1 , Atsushi Sekiguchi 1 , Yuka Kotozaki 1 ,<br />
Seishu Nakagawa 1 , Carlos Makoto Miyauchi 1 , Yuko Sassa 1 ,<br />
Ryuta Kawashima 1<br />
1 IDAC, Tohoku University, Sendai, Japan<br />
Lack of cross-modal plasticity in Leber’s congenital<br />
amaurosis patients receiving gene therapy<br />
Laura Cyckowski 1 , Manzar Ashtari 2 , Kathleen Marshall 2 ,<br />
Albert Maguire 3 , Kenneth Shindler 3 , Jean Bennett 3<br />
1 Children’s Hospital of Philadelphia, Philadephia, PA, US,<br />
2 Children’s Hospital of Philadelphia, Philadelphia, PA,<br />
3 Scheie Eye Institute, University of Pennsylvania School<br />
of Medicine, Philadelphia, PA<br />
Neural Substrates of Plasticity in Working memory<br />
in aging<br />
Stephan Heinzel1 , Robert Lorenz1 , Christine Stelzel1 ,<br />
Michael Rapp1 1Psychiatric University Hospital, Charité Campus Mitte,<br />
Berlin, Germany<br />
ultra-fast recovery from right neglect after<br />
“awake surgery” <strong>for</strong> slow-growing tumor<br />
Francois Bonnetblanc 1 , Hugues Duffau 2 , Etienne Sallard 3<br />
1 INSERM U887, Dijon, France, 2 Hopital Gui de Chauliac &<br />
INSERM, Institut des Neurosciences de la Méditerranée,<br />
Montpellier, France, 3 Université de Lausanne, Lausanne,<br />
Switzerland<br />
The effects of the training of simple numerical<br />
calculation on brain structures<br />
Tomomi Nagase1 , Hikaru Takeuchi2 , Yasuyuki Taki2 ,<br />
Yuko Sassa2 , Hiroshi Hashizume2 , Ryuta Kawashima2 1 2 TOHOKU UniV, Sendai,Japan, IDAC, TOHOKU UniV,<br />
Sendai, Japan<br />
Changes in functional connectivity in patients with<br />
Broca’s aphasia following intensive therapy<br />
Catherine Wan 1 , Sarah Marchina 1 , Andrea Norton 1 ,<br />
Gottfried Schlaug 1<br />
1 Beth Israel Deaconess Medical Center / Harvard Medical<br />
School, Boston, United States
Learning and Memory<br />
Neural Plasticity and Recovery of Function, continued<br />
871<br />
872<br />
873<br />
874<br />
Spatiotemporal <strong>Brain</strong> markers of Neuroplasticity in<br />
Carpal Tunnel Syndrome<br />
RUPALI DHOND 1 , Emily Ruzich 1 , Thomas Witzel 1 ,<br />
Wei-Ta Chen 2 , Pia Hugus 1 , Yumi Maeda 1 , Cristina<br />
Malatesta 3 , Leslie Morse 3 , Joseph Audette 4 ,<br />
Vitaly Napadow 1<br />
1 Harvard Medical School - MGH, Martinos Center <strong>for</strong><br />
Biomedical Imaging, Charlestown, MA, USA, 2 Neurological<br />
Institute, Taipei Veterans General Hospital, Taipei, Taiwan,<br />
Republic of China, 3 Department of Physical Medicine and<br />
Rehabilitation Spaulding Rehabilitation Hospital, Med<strong>for</strong>d,<br />
MA, 4 Department of Pain Medicine, Harvard Vanguard<br />
Medical Associates, Atrius Health, Charlestown, MA, USA<br />
Neural Plasticity Correlates of The Thumb extension<br />
recovery after Tendon Transfer. a Case Study<br />
Olivier MARTIN1 , Fabrizio Pizzagalli2 , Chantal Delon-<br />
Martin3 , Michel Dojat4 , Franck QUAINE5 , François<br />
MOUTET6 1GIPSA-lab, CNRS, Grenoble University, Grenoble, France,<br />
2Grenoble University & INSERM U836, Grenoble, France,<br />
3 4 INSERM U836, La Tronche, France, INSERM / CEA / Univ.<br />
Joseph Fourier Grenoble 1 / CHU, U836 GIN, Grenoble,<br />
France, 5GIPSA-lab CNRS UMR 5216, Grenoble, France,<br />
6Grenoble University Hospital, Unit of Hand Surgery,<br />
Grenoble , France<br />
altered corticomotor excitability in patients with<br />
subcortical stroke after interleaved practice<br />
Chien-Ho Janice Lin 1 , Barbara Knowlton 2 , Ming-Chang<br />
Chiang 3 , Parima Udompholkul 4 , Marco Iacoboni 5 , Allan Wu 6<br />
1 Ucla, United States, 2 Psychology, UCLA, Los Angeles, CA,<br />
3 Laboratory of Neuro Imaging, Dept. of Neurology, UCLA<br />
School of Medicine, 4 Neurology, UCLA, Los Angeles, CA,<br />
5 UCLA BRAIN MAPPING CENTER, Los Angeles, United<br />
States, 6 Neurology, UCLA, Los Angeles , CA<br />
Binaural Processing is abnormal in Children<br />
receiving Bilateral Cochlear Implants Sequentially<br />
Daniel Wong 1 , Karen Gordon 1<br />
1 The Hospital <strong>for</strong> Sick Children, Toronto, Canada<br />
lifespan Development<br />
Aging<br />
875*<br />
876*<br />
CACNA1C polymorphism modulates age-related<br />
changes in brain circuitry during memory retrieval,<br />
(o-W1)<br />
Michael White 1 , John Muse 1 , Kristin Bigos 1 ,<br />
Roberta Rasetti 1 , Saumitra Das 1 , Joseph Callicot 1 ,<br />
Venkata Mattay 1 , Daniel Weinberger 1<br />
1 National Institute of Mental Health, National Institutes of<br />
Health, Bethesda, MD, USA<br />
regional reduction in fractional anisotropy as an early<br />
marker of glucose-related brain damage, (o-W1)<br />
Heike Wersching 1,2 , Michael Deppe 2 , Christoph Stehling 3 ,<br />
Stefan Knecht 2 , Thomas Duning 2<br />
1 Institute of Epidemiology and Social Medicine, University<br />
of Münster, Münster, Germany, 2 Department of Neurology,<br />
University of Münster, Münster, Germany, 3 Department<br />
of Clinical Radiology, University of Münster, Münster,<br />
Germany<br />
877*<br />
878*<br />
879*<br />
880<br />
881<br />
882<br />
executive function is associated with white matter<br />
integrity of the prefrontal cortex during aging, (o-W1)’<br />
Paul Borghesani 1 , Elizabeth Aylward 2 , Tara Madhyastha 3 ,<br />
Warner Schaie 3 , Sherry Willis 3<br />
1 University Of Washington, Seattle, WA, 2 Seattle Children’s<br />
Research Institute, Seattle, WA, 3 University of Washington,<br />
Seattle, WA<br />
reduced organization of the Default mode Network in<br />
the aging <strong>Brain</strong>: association with Cognition, (o-W1)<br />
Tyler Triggs 1 , Douglas Greve 2 , J Chen 2 , H. Diana Rosas 3 ,<br />
David Salat 4<br />
1 MGH Neurology/MGH/MIT/HMS Athinoula A. Martinos<br />
Center <strong>for</strong> Biomedical Imaging, Charlestown , MA, 2 MGH<br />
Radiology/MGH/MIT/HMS Athinoula A. Martinos Center <strong>for</strong><br />
Biomedical Imaging, Charlestown, MA, 3 MGH Neurology/<br />
MGH/MIT/HMS Athinoula A. Martinos Center <strong>for</strong> Biomedical<br />
Imaging, Charlestown, MA, 4 MGH Radiology/MGH/MIT/<br />
HMS Athinoula A. Martinos Center <strong>for</strong> Biomedical Imaging;<br />
Boston VA Healthcare, Charlestown, MA<br />
Impact of lifestyle parameters on accelerated brain<br />
aging in healthy elderly subjects, (o-W1)<br />
Katja Franke 1 , Michael Ristow 2 , Christian Gaser 1<br />
1 Structural <strong>Brain</strong> <strong>Mapping</strong> Group, Department of<br />
Psychiatry, University of Jena, Jena, Germany, 2 Dept. of<br />
<strong>Human</strong> Nutrition, Institute of Nutrition, University of Jena,<br />
Jena, Germany<br />
modulation of BoLD variability between brain states is<br />
influenced by age and cognitive per<strong>for</strong>mance<br />
Douglas Garrett 1 , Natasa Kovacevic 2 , Anthony McIntosh 1 ,<br />
Cheryl Grady 3<br />
1 Rotman Research Institute, Baycrest; Department of<br />
Psychology, University of Toronto, Toronto, Ontario,<br />
Canada, 2 Rotman Research Institute, Baycrest, Toronto,<br />
Ontario, Canada, 3 Rotman Research Institute, Baycrest;<br />
Departments of Psychology and Psychiatry, University of<br />
Toronto, Toronto, Ontario, Canada<br />
age-related alterations in the modular organization of<br />
structural cortical network<br />
Zhang Chen 1 , Gaolang Gong 2 , Yong He 3 ,<br />
Pedro Rosa-Neto 4 , Alan Evans 5<br />
1 <strong>Brain</strong> Imaging Center, Montreal Neurological Institute,<br />
Montreal, QC, 2 Montreal neurological institute, Montreal,<br />
Quebec, 3 State Key Labortory of Cognitive Neuroscience<br />
and Learning, Beijing, China, 4 Mcgill University, Montreal,<br />
Canada, 5 McGill University, Montreal, Canada<br />
exploring the payback of physical fitness on the brain’s<br />
architecture with VBm and DTI<br />
Traute Demirakca 1 , Matthias Ruf 2 , Mareike Unkrig 1 ,<br />
Gabriele Ende 1<br />
1 Central Institut of Mental Health, Mannheim, Germany,<br />
2 Central Institute of Mental Health, Mannheim, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 75<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Lifespan Development<br />
Aging, continued<br />
883<br />
884<br />
885<br />
886<br />
887<br />
888<br />
multivariate pattern analysis of resting-state functional<br />
connectivity mrI predicts subject age<br />
Koene Van Dijk 1,2 , Trey Hedden 1 , Randy Buckner 1,2,3 ,<br />
Mert Sabuncu 1<br />
1 Athinoula A. Martinos Center <strong>for</strong> Biomedical Imaging,<br />
Massachusetts General Hospital, Charlestown, MA,<br />
2 Center <strong>for</strong> <strong>Brain</strong> Science, Harvard University, Cambridge,<br />
MA, 3 Howard Hughes Medical Institute at Harvard<br />
University, Cambridge, MA<br />
Fiber crossing consideration in DTI: age-related effect<br />
on white matter in elderly<br />
Olivier Periot 1,2 , Bassem Hiba 3 , Gwénaëlle Catheline 4,2 ,<br />
Bixente Dilharreguy 2 , Jean-François Dartigues 5 , Karine<br />
Pérès 5 , Michèle Allard 2,1,4<br />
1 CHU de Bordeaux, Bordeaux, France, 2 Université de<br />
Bordeaux, INCIA, UMR CNRS 5287, Bordeaux, France,<br />
3 Université de Bordeaux, RMSB, UMR CNRS 5536,<br />
Bordeaux, France, 4 EPHE, Bordeaux, France, 5 Université<br />
de Bordeaux, ISPED, INSERM U 593, Bordeaux, France<br />
Persistently Variable resting-State Functional<br />
Connectivity across adult Lifespan<br />
Wang Jinhui 1 , Yong He 1<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing, China<br />
Correlating cortical thickness and white matter<br />
integrity in normal aging: a multimodal mrI study<br />
Judit Haász 1 , Erlend Hodneland 1 , Astri Lundervold 1 ,<br />
Arvid Lundervold 1<br />
1 University of Bergen, Bergen, Norway<br />
aging effects on the profile of recovery cycle in<br />
primary auditory cortex: an meg study<br />
Chia-Hsiung Cheng 1,2,3 , Yung-Yang Lin 1,4,5,6,2,3,7<br />
1 Institute of <strong>Brain</strong> Science, National Yang-Ming University,<br />
Taipei, Taiwan, Republic of China, 2 Laboratory of<br />
Neurophysiology, Taipei Veterans General Hospital,<br />
Taipei, Taiwan, Republic of China, 3 Integrated <strong>Brain</strong><br />
Research Laboratory, Taipei Veterans General Hospital,<br />
Taipei, Taiwan, Republic of China, 4 Department of<br />
Neurology, National Yang-Ming University, Taipei, Taiwan,<br />
Republic of China, 5 Institute of Physiology, National Yang-<br />
Ming University, Taipei, Taiwan, Republic of China, 6 Institute<br />
of Clinical Medicine, National Yang-Ming University, Taipei,<br />
Taiwan, Republic of China, 7 Department of Neurology,<br />
Taipei Veterans General Hospital, Taipei, Taiwan,<br />
Republic of China<br />
multivariate composite measures of age-related<br />
tissue properties changes<br />
Ferath Kherif 1,2,3 , Gunther Helms 4 , Nikolaus Weiskopf 3 ,<br />
Richard Frackowiak 1,2 , Bogdan Draganski 1,2,5<br />
1 Département des neurosciences cliniques, CHUV, UNIL,<br />
Lausanne, Switzerland, 2 Laboratoire de recherche en<br />
neuroimagerie (LREN), Lausanne, Switzerland, 3 Wellcome<br />
Trust Centre <strong>for</strong> Neuroimaging, UCL, London, United<br />
Kingdom, 4 MR-Research in Neurology and Psychiatry,<br />
Universitymedicine Goettingen, Goettingen, Germany,<br />
5 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
76 HBM 2011 >> <strong>abstracts</strong><br />
889<br />
890<br />
891<br />
892<br />
893<br />
894<br />
895<br />
age-related changes in the functional network<br />
underlying face processing<br />
Hana Burianova 1,2 , Yunjo Lee 3,2 , Cheryl Grady 2 ,<br />
Morris Moscovitch 3,2<br />
1 Macquarie University, Sydney, Australia, 2 Rotman<br />
Research Institute at Baycrest, Toronto, Canada,<br />
3 University of Toronto, Toronto, Canada<br />
age-related differences in the functional neuroanatomy<br />
of episodic encoding: a joint DTI/fmrI study<br />
Alireza Salami 1 , Lars Nyberg 1 , Johan Eriksson 2<br />
1 Umeå University, Umeå, Sweden, 2 Umeå University<br />
Differential relationships among White matter Lesion<br />
Volume, Cortical Thickness, and Cognition<br />
ELIZABETH LERITZ 1,2 , David Salat 3 , Victoria Williams 4 ,<br />
Juli Dolzhenko 4 , Lewis Lipsitz 5 , William Milberg 6 ,<br />
Regina McGlinchey 6<br />
1 VA Boston Healthcare System, BOSTON, United States,<br />
2 Brigham & Women’s Hospital, Boston, MA, 3 Athinoula A.<br />
Martinos Center <strong>for</strong> Biomedical Imaging, Charlestown,<br />
United States, 4 Athinoula A. Martinos Center <strong>for</strong> Biomedical<br />
Imaging, Boston, MA, 5 Beth Israel Deaconess Medical<br />
Center, Boston, MA, 6 VA Boston Healthcare System,<br />
Boston, MA<br />
Prevalence and regional distribution FLaIr lesions in<br />
mexican-americans: epidemiological mrI study<br />
Peter Kochunov1 , David Glahn2 , Anderson Winkler2 ,<br />
Jack Kent3 , Ravi Duggirala3 , Jack Lancaster1 , Peter Fox1 ,<br />
John Blangero3 1University Of Texas Health Science Center At San Antonio,<br />
San Antonio, United States, 2Yale University, Hart<strong>for</strong>d, CT,<br />
3Southwest Foundation <strong>for</strong> biomedical research,<br />
San Antonio, TX<br />
age dependent functional de-differentiation across<br />
different cognitive domains: an fmrI study<br />
Christian Roski 1 , Svenja Caspers 1 , Silke Lux 2 ,<br />
Simon Eickhoff 3 , Karl Zilles 4<br />
1 Institute of Neuroscience and Medicine, INM-2, Research<br />
Center Juelich GmbH, Juelich, Germany, 2 Institute of<br />
Neuroscience and Medicine, INM-1, Research Center<br />
Juelich GmbH, Juelich, Germany, 3 Department of<br />
Psychiatry and Psychotherapy, Aachen, Germany, 4 Institute<br />
of Neuroscience and Medicine, Research Center Juelich<br />
GmbH, Juelich, Germany<br />
The relationship of rCBF Task activation to Baseline<br />
Flow and aging: Quantitative Xe and CaSL Data<br />
Georg Deutsch1 , Hrishikesh Deshpande1 , Beverly Corbitt1 ,<br />
Jan denHollander1 1University of Alabama at Birmingham, Birmingham, AL,<br />
USA<br />
Cardiovascular risk and Longitudinal Changes in<br />
resting <strong>Brain</strong> Function<br />
Lori Beason-Held 1 , Madhav Thambisetty 1 , Gerard Deib 2 ,<br />
Jitka Sojkova 1 , Bennett Landman 3 , Alan Zonderman 1 ,<br />
Luigi Ferrucci 1 , Michael Kraut 2 , Susan Resnick 4<br />
1 National Institute on Aging, NIH, Baltimore, MD, 2 Johns<br />
Hopkins University School of Medicine, Baltimore, MD,<br />
3 Vanderbilt University, Nashville, TN, 4 National Institute of<br />
Aging, NIH, Baltimore, MD
Lifespan Development<br />
Aging, continued<br />
896<br />
897<br />
898<br />
899<br />
900<br />
Impact of dietary interventions on resting state<br />
functional connectivity in healthy elderly subjects<br />
Veronica Witte 1 , Daniel Margulies 2 , Lucia Kerti 1 , Henrike<br />
Rupp 1 , Jochen Fiebach 3 , Agnes Flöel 1<br />
1 Neurology, Charite University Berlin, Berlin, Germany,<br />
2 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 3 Center <strong>for</strong> Stroke Research<br />
and Dept. Neurology, Charité, Berlin, Germany<br />
regional diffusivity changes in the <strong>for</strong>nix –<br />
correlation with hippocampal volumes and age<br />
David Chen 1 , Danielle DeSouza 2 , Udi Blankstein 3 ,<br />
Karen Davis 3 , Mojgan Hodaie 4<br />
1 Division of Neurosurgery, University of Toronto, Toronto,<br />
Canada, 2 Institute of Medical Science, University of<br />
Toronto, Toronto, Canada, 3 Toronto Western Hospital,<br />
Toronto, Canada, 4 Division of Neurosurgery and Institute of<br />
Medical Science, University of Toronto, Toronto, Canada<br />
Neuroimaging of aging: links between cardiovascular<br />
health, cerebral hemodynamics and cognition<br />
Claudine Gauthier 1,2 , Muriel Le<strong>for</strong>t 3 , Cécile Madjar 2 ,<br />
Laurence Desjardins-Crépeau 4,2 , Said Mekary 5,2 ,<br />
Nadjia Kachenoura 3 , Olivier Dupuy 5,6 , Alban Redheuil 3 ,<br />
Frédérique Frouin 3 , Louis Bherer 4,2 , Richard Hoge 1,2<br />
1 Université de Montréal, Physiology/Biomedical<br />
Engineering Department, Montreal, Canada, 2 CRIUGM,<br />
Montreal, Canada, 3 Inserm 678, UPMC, CHU Pitié<br />
Salpêtrière, Paris, France, 4 Université du Québec à<br />
Montréal, Montreal, Canada, 5 Université de Montréal,<br />
Montreal, Canada, 6 Faculté des sciences du sport,<br />
Université de Poitiers., Poitiers, France<br />
educational/occupational attainment is Positively<br />
Correlated with Wm Integrity in Healthy Seniors<br />
Nathan Johnson 1 , Brian Gold 1,2,3 , Chobok Kim 1 , Cilles Sara 1<br />
1 Department of Anatomy and Neurobiology, University of<br />
Kentucky, Lexington, KY, 2 Magnetic Resonance Imaging<br />
and Spectroscopy Center, Lexington, KY, 3 Sanders-Brown<br />
Center on Aging, Lexington, KY<br />
aging-related decline of paired-pulse inhibition on the<br />
neuromagnetic somatosensory responses<br />
Chia-Hsiung Cheng 1,2,3 , Yung-Yang Lin 1,4,5,6,2,3,7<br />
1 Institute of <strong>Brain</strong> Science, National Yang-Ming University,<br />
Taipei, Taiwan, Republic of China, 2 Laboratory of<br />
Neurophysiology, Taipei Veterans General Hospital, Taipei,<br />
Taiwan, Republic of China, 3 Integrated <strong>Brain</strong> Research<br />
Laboratory, Taipei Veterans General Hospital, Taipei,<br />
Taiwan, Republic of China, 4 Department of Neurology,<br />
National Yang-Ming University, Taipei, Taiwan, Republic<br />
of China, 5 Institute of Physiology, National Yang-Ming<br />
University, Taipei, Taiwan, Republic of China, 6 Institute of<br />
Clinical Medicine, National Yang-Ming University, Taipei,<br />
Taiwan, Republic of China, 7 Department of Neurology,<br />
Taipei Veterans General Hospital, Taipei, Taiwan, Republic<br />
of China<br />
901<br />
902<br />
903<br />
904<br />
905<br />
906<br />
907<br />
908<br />
Verbal fluency per<strong>for</strong>mances underpinned by white<br />
matter alterations in a healthy elderly population<br />
amandine pelletier 1,2 , Bixente Dilharreguy 1 , Michèle<br />
Allard 1,2 , Olivier Periot 1 , Karine Pérès 3 , Amiéva Hélène 3 ,<br />
Jean-François Dartigues 3 , Gwénaëlle Catheline 1,2<br />
1 Université de Bordeaux, INCIA, CNRS UMR 5287,<br />
Bordeaux, France, 2 EPHE, Bordeaux, France, 3 ISPED,<br />
INSERM U 897, Bordeaux, France<br />
Task effects on resting-State Functional Connectivity<br />
Dynamics in the Default Network of old adults<br />
Omer Grigg 1 , Cheryl Grady 1<br />
1 Rotman Research Institute, Toronto, Canada<br />
age-related Changes in White matter microstructure<br />
and the effect on Language Functioning<br />
Kiely Donnelly 1 , Jane Allendorfer 2 , Judd Storrs 1 ,<br />
Christi Banks 3 , Scott Holland 4 , Jerzy Szaflarski 2<br />
1 University of Cincinnati, 2 University of Cincinnati,<br />
Cincinnati, United States, 3 University of Cincinnati<br />
Academic Health Center, Cincinnati, OH, 4 Cincinnati<br />
Children’s Hospital, University of Cincinnati, Cincinnati,<br />
United States<br />
Comparison of two approaches to the resting state:<br />
spatial ICa and eeg alpha-band correlates<br />
Makoto Miyakoshi 1 , Satoru Miyauchi 2 , Takahiko Koike 2 ,<br />
Shigeyuki Kan 2 , Toshiharu Nakai 1<br />
1 National Center <strong>for</strong> Geriatrics and Gerontology,<br />
Ohbu, Japan, 2 National Institute of In<strong>for</strong>mation and<br />
Communications Technology, Kobe, Japan<br />
effects of age and gender on neuroanatomical volumes<br />
Sachiko Inano 1 , Hidemasa Takao 1 , Naoto Hayashi 1 ,<br />
Naoki Yoshioka 1 , Kuni Ohtomo 1<br />
1 University of Tokyo, Tokyo, Japan<br />
Flexibility of adaptive mechanisms of cognitive<br />
reserve in normal aging<br />
Jennyfer Ansado 1 , Oury Monchi 2 , Nourane Ennabil 3 ,<br />
Yves Joanette 4<br />
1 Faculty of medicine, Université de Montréal & Université<br />
de Nice-Sophia Antipolis, Montreal, CANADA & Nice,<br />
FRANCE, 2 University of Montreal, Montreal, Canada,<br />
3 Faculty of medicine, Université de Montréal, Montreal<br />
, Canada, 4 Faculty of medicine, Université de Montréal,<br />
Montreal, Canada<br />
age sculpts brain signal complexity in human auditory<br />
and visual systems<br />
Andreea Oliviana Diaconescu 1 , Natasa Kovacevic 1 ,<br />
Anthony McIntosh 1<br />
1 Rotman Research Institute, Toronto, Canada<br />
age-related changes in functional connectivity<br />
predict per<strong>for</strong>mance on a delayed-recognition task<br />
Jason Steffener 1 , Christian Habeck 1 , Yaakov Stern 1<br />
1 Columbia University, New York, NY<br />
HBM 2011 >> <strong>abstracts</strong> 77<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Lifespan Development<br />
Aging, continued<br />
909<br />
910<br />
911<br />
912<br />
913<br />
914<br />
age-related changes in whole-brain functional<br />
connectivity resting-state networks<br />
S.H. Annabel Chen 1 , Rui-Ping Lua 1 , Makoto Miyakoshi 2 ,<br />
Chiao-Yi Wu 1 , Kayako Matsuo 3 , Keren E 1 , M-H Ringo Ho 1 ,<br />
Atsunobu Suzuki 4 , W-Y Isaac Tseng 3 , Toshiharu Nakai 2<br />
1 Nanyang Technological University, Singapore, 2 Functional<br />
<strong>Brain</strong> Imaging Lab NCGG, Ohbu, Aichi, Japan, 3 National<br />
Taiwan University, Taipei, Taiwan, 4 Nagoya University,<br />
Nagoya, Aichi, Japan<br />
Traumatic Lifetime Stress and Frontostriatal<br />
Hypometabolism in normal elderly people<br />
Heyeon Park 1 , Sang Soo Cho 2 , Sang Eun Kim 2 ,<br />
Jeanyung Chey 1<br />
1 Department of Psychology, Seoul National University,<br />
Seoul, Republic of Korea, 2 Department of Nuclear<br />
Medicine, Seoul National University College of Medicine,<br />
Seoul, Republic of Korea<br />
Functional mrI entropy measurements of age-related<br />
brain changes<br />
Moses Sokunbi 1 , Roger Staff 2 , Gordon Waiter 1 ,<br />
George Cameron 1 , Trevor Ahearn 1 , Alison Murray 1<br />
1 Aberdeen Biomedical Imaging Centre, University of<br />
Aberdeen, Aberdeen, United Kingdom, 2 Aberdeen Royal<br />
Infirmary, Aberdeen, United Kingdom<br />
estradiol reversal of anticholinergic-related brain<br />
activation in postmenopausal women<br />
Julie Dumas 1 , Julia Johnson 2 , Amanda Kutz 3 ,<br />
Magdalena Naylor 3 , Paul Newhouse 1<br />
1 University of Vermont, 2 University of Massachusetts<br />
School of Medicine, Worcester, MA, 3 University of Vermont,<br />
Burlington, VT<br />
automatic measurement of Periventricular Halo<br />
In an elderly Cohort<br />
Nazahah Mustafa 1 , Trevor Ahearn 1 , Gordon Waiter 2 ,<br />
George Cameron 1 , Sima Salarirad 2 , Alison Murray 1<br />
1 Aberdeen Biomedical Imaging Centre, Aberdeen,<br />
United Kingdom, 2 University of Aberdeen, Aberdeen,<br />
United Kingdom<br />
The impact of blue light on non-visual brain functions<br />
changes with age<br />
Véronique Daneault 1,2 , Gilles Vandewalle 1,2 , Marc Hébert 3 ,<br />
Julien Doyon 1,4 , Marie Dumont 2 , Julie Carrier 1,2,4<br />
1 Functional Neuroimaging Unit, University of Montreal<br />
Geriatric Institute, Montreal, Quebec, Canada, 2 Center <strong>for</strong><br />
Advanced Research in Sleep Medicine, Hôpital du Sacré-<br />
Cœur de Montréal, Montréal, Québec, Canada, 3 Centre<br />
de recherche Université Laval Robert-Giffard, Québec,<br />
Canada, 4 Centre de recherche en neuropsychologie et<br />
en cognition, Department of Psychology, University of<br />
Montreal, Montréal, Québec, Canada<br />
78 HBM 2011 >> <strong>abstracts</strong><br />
915<br />
916<br />
917<br />
918<br />
919<br />
920<br />
921<br />
922<br />
aging of the alpha response function:<br />
an eeg/fmrI study<br />
Jan De Munck 1 , Roberto Mamoliti 2 , Sonia Goncalves 3 ,<br />
Gert Kwakkel 4 , Ruud Verdaasdonk 4 , Fernando Lopes da<br />
Silva 5 , Erwin Van Wegen 4<br />
1 Amsterdam, Netherlands, 2 Centro Sclerosi Multipla,<br />
Cagliari, Italy, 3 Coimbra Academic Hospitals, Coimbra,<br />
Portugal, 4 VU University Medical Center, Amsterdam,<br />
Netherlands, 5 University of Amsterdam, Amsterdam,<br />
Netherlands<br />
elderly bilinguals dinamically disengage right frontal<br />
activity <strong>for</strong> efficient interference control<br />
Daniel Adrover-Roig 1 , Pierluc Massicotte 2 , Nicole Caza 2 ,<br />
Ana Inés Ansaldo 2<br />
1 Centre de Recherche de l’Institut Universitaire de Gériatrie<br />
de Montréal, 2 CRIUGM, Montreal, Canada<br />
age-related differences in the neural processing of<br />
emotional stimuli: a midlife crossroads?<br />
Eric Allard 1 , Elizabeth Kensinger 1<br />
1 Boston College, Chestnut Hill, MA<br />
Neural signatures of cognition in aging across<br />
multiple imaging modalities<br />
Jason Steffener1 , Adam Brickman1 , Christian Habeck1 ,<br />
Timothy Salthouse2 , Yaakov Stern1 1 2 Columbia University, New York, NY, University of Virginia,<br />
Charlottesville, VA<br />
effects of age on BoLD response during per<strong>for</strong>ming<br />
Negative Priming tasks<br />
Gebhard Sammer 1 , Eva Bauer 1 , Miriam Prager 1 ,<br />
Nadja Stein 1 , Helge Gebhardt 1 , Bernd Gallhofer 1<br />
1 University of Gießen, Giessen, Germany<br />
The relationship between Cognitive reserve and<br />
measures of DTI in older Healthy Subjects<br />
Joanna Connolly 1 , David Delany 2 , Jonathan McNulty 3 ,<br />
Richard Roche 4 , Joshua Balsters 5 , Arun Bokde 6<br />
1 Institute of Neuroscience, Trinity College Dublin, Ireland,<br />
2 6 Centre <strong>for</strong> Academic Practice and Student Learning,<br />
Trinity College Dublin, Dublin, Ireland, 3 School of Medicine<br />
and Medical Science, University College Dublin, Dublin,<br />
Ireland, 4 4 Department of Psychology, National University<br />
of Ireland – Maynooth, Kildare, Ireland, 5 Dublin, Ireland,<br />
6 Trinity College Dublin, Dublin, Ireland<br />
age-related Preferences toward affective Stimuli<br />
in an oddball Task: Positivity Preference in older<br />
Juan Li1 , Jing Yu1 1Institute of Psychology, Chinese Academy of Sciences,<br />
Beijing, China<br />
Training attentional control in normal aging:<br />
an fmrI study<br />
Sylvie Belleville 1 , Bianca Bier 2 , Chloé DeBoysson 2 ,<br />
Jean-Francois Demonet 3 , Samira Mellah 2<br />
1 Centre de recherche de l’Institut universitaire de gériatrie<br />
de Montréal and Université de Montréal, Montreal,<br />
Quebec, 2 Institut Universitaire de Gériatrie de Montréal,<br />
Montreal, Canada, 3 INSERM, Toulouse, France
Lifespan Development<br />
Aging, continued<br />
923<br />
age effect on Cerebral Blood Flow in adults using<br />
Pseudo-Continuous aSL<br />
Kazushi Suzuki 1,2 , Yuri Koide 2 , Wataru Gonoi 3 , Toshihiro<br />
Hayashi 4,2 , Kenichi Aizawa 1 , Kurumi Fujii 2 , Masaki<br />
Katsura 3 , Shinya Kodashima 1 , Yoshiko Mizuno 1 , Tomoko<br />
Nakao 1 , Yumiko Oike 1 , Toru Suzuki 1 , Shoji Tsuji 2 , Tsutomu<br />
Yamazaki 1 , Akira Kunimatsu 3 , Atsushi Iwata 4,2<br />
1 Center <strong>for</strong> Epidemiology and Preventive Medicine,<br />
University of Tokyo Hospital, Tokyo, Japan, 2 Department<br />
of Neurology, University of Tokyo School of Medicine,<br />
Tokyo, Japan, 3 Department of Radiology, University of<br />
Tokyo School of Medicine, Tokyo, Japan, 4 Department of<br />
Molecular Neuroscience on Neurodegeneration, University<br />
of Tokyo School of Medicine, Tokyo, Japan<br />
Neuroanatomy<br />
Anatomy and Function<br />
924*<br />
925*<br />
926**<br />
927<br />
Clear Tonotopic maps in <strong>Human</strong> auditory Cortex<br />
measured with 7T fmrI, (o-Th3)<br />
Sandra Da Costa 1 , Wietske van der Zwaag 2 ,<br />
José Marques 2 , Richard Frackowiak 3 , Stephanie Clarke 4 ,<br />
Melissa Saenz 1<br />
1 LREN Neuroimaging Research Lab, Centre Hospitalier<br />
Universitaire Vaudois (CHUV), Lausanne, Switzerland,<br />
2 University of Lausanne, Lausanne, Switzerland,<br />
3 Department of Clinical Neuroscience, Centre Hospitalier<br />
Universitaire Vaudois (CHUV), Lausanne, Switzerland,<br />
4 CHUV, Lausanne, Switzerland<br />
Task-based functional connectivity of two<br />
cytoarchitectonic visual areas on the human<br />
fusi<strong>for</strong>m gyrus, (o-T2)<br />
Julian Caspers 1 , Karl Zilles 2 , Katrin Amunts 3 ,<br />
Simon Eickhoff 4<br />
1 C.&O. Vogt Institute <strong>for</strong> <strong>Brain</strong> Research, University<br />
of Düsseldorf, Düsseldorf, Germany, 2 Institute of<br />
Neuroscience and Medicine, Jülich, Germany, 3 Research<br />
Center Juelich, INM-1, Jülich, Germany, 4 Department of<br />
Psychiatry and Psychotherapy, Aachen, Germany<br />
Structure and Function of the Subthalamic Nucleus<br />
Birte Forstmann 1 , Sara Jahfari 2 , Max Keuken 1 , Jane<br />
Neumann 3 , Andreas Schaefer 4 , Alfred Anwander 5 ,<br />
Robert Turner 5<br />
1 University of Amsterdam, Amsterdam, Netherlands,<br />
2 University Of Amsterdam, Netherlands, 3 Max-Planck-<br />
Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong> Science., Leipzig,<br />
Germany, 4 Max-Planck-Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany, 5 Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
The human insula: multiarchitectonic organization and<br />
correlation with mr imaging<br />
David Gallay 1 , Marc Gallay 1 , Angelika Baechler 1 ,<br />
Michael Wyss 2 , Anne Morel 1<br />
1 Center <strong>for</strong> Clinical Research, University Hospital Zurich,<br />
Zurich, Switzerland, 2 Institute <strong>for</strong> Biomedical Ingeneering,<br />
University Hospital Zurich, Zurich, Switzerland<br />
928<br />
929<br />
930<br />
931<br />
932<br />
933<br />
934<br />
935<br />
ultra-high field FmrI of the human amygdala.<br />
Parcellation of emotional human non-linguistic sounds<br />
Eugenia Solano-Castiella 1 , Bibek Dhital 1 ,<br />
Domenica Wilfling 1 , Tom Fritz 1 , Paul Schmude 1 , Erik Türke 1 ,<br />
Enrico Reimer 1 , Andreas Schäfer 1 , Robert Trampel 1 ,<br />
Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
on the role of the anterior prefrontal cortex in complex<br />
cognitive “branching” tasks: an fmrI study<br />
Oliver Gruber 1 , Alexandra Tinnermann 1 , Esther Diekhof 1<br />
1 Center <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Georg August University,<br />
Göttingen, Germany<br />
Lateralization of Working memory related activity in<br />
the Cerebellum<br />
Christina Ledbetter 1 , James Patterson 1<br />
1 LSUHSC, Shreveport, LA<br />
Statistical analysis of hippocampal volumes shows<br />
similar variance throughout adult life<br />
Abderazzak Mouiha 1 , Anna Caroli 2 , Giovanni Frisoni 2 ,<br />
Simon Duchesne 1,3<br />
1 Centre de recherche Universite Laval Robert-Giffard,<br />
Quebec, Canada, 2 LENITEM, Brescia, Italy, 3 Université<br />
Laval, Quebec, Canada<br />
Postcentral Sulcus and Somatosensory Cortex:<br />
anatomical-Functional relationship<br />
Veronika Zlatkina 1 , Jurgen Germann 1 , Michael Petrides 1<br />
1 Montreal Neurological Institute, Montreal, Canada<br />
Segmentation of Corpus Callosum using Diffusion<br />
Tensor Tractography with Intrinsic activated regions<br />
Jun-Cheng Weng 1,2 , Yu-Ting Ke 1 , Chun-Che Lo 1 ,<br />
Chia-Lin Chen 1,2<br />
1 School of Medical Imaging and Radiological Sciences,<br />
Chung Shan Medical University, Taichung, Taiwan,<br />
2 Department of Medical Imaging, Chung Shan Medical<br />
University Hospital, Taichung, Taiwan<br />
7T microstructural mr mapping of the Border between<br />
Primary motor and Somatosensory Cortex in <strong>Human</strong>s<br />
Stefan Geyer 1 , Marcel Weiss 1 , Katja Reimann 1 ,<br />
Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Dept. Neurophysics, Leipzig, Germany<br />
Segregation of cerebro-thalamo-cerebellar<br />
sensorimotor networks defined by rs-fcmrI<br />
Judy Kipping 1 , Wolfgang Grodd 2 , Arno Villringer 1 ,<br />
Daniel Margulies 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Department of Psychiatry,<br />
Psychotherapy and Psychosomatics, University Hospital<br />
Aachen, Aachen, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 79<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Neuroanatomy<br />
Anatomy and Function, continued<br />
936<br />
937<br />
938<br />
939<br />
940<br />
941<br />
942<br />
943<br />
entorhinal Verrucae geometry is Coincident and<br />
Correlated with entorhinal Island Contrast<br />
Kristen Huber 1 , Gheorghe Postelnicu 2,1 , Ruopeng Wang 1 ,<br />
Sita Kakunoori 1 , Andre van der Kouwe 1 , Matthew Frosch 3 ,<br />
Thor Stein 3 , Bruce Fischl 1,4 , Jean Augustinack 1<br />
1 MGH/MIT/HMS Athinoula A. Martinos Center <strong>for</strong><br />
Biomedical Imaging, Charlestown, MA, 2 Google, Inc.,<br />
Zurich, Switzerland, 3 Department of Neuropathology, MGH,<br />
Boston, MA, 4 CSAIL/HST, MIT, Cambridge, MA<br />
The Wu-minn <strong>Human</strong> Connectome Project Consortium<br />
David Van Essen 1 , Kamil Ugurbil 2<br />
1 Washington University, St. Louis, MO,<br />
2 University of Minnesota, Minneapolis, MN<br />
Joining Volume and Surface representations<br />
of fmrI Data<br />
Virgile Fritsch1,2 , Bertrand Thirion1,2 1 2 Inria, Orsay, France, CEA, I²BM, Neurospin, Saclay,<br />
France<br />
The effects of BDNF Val66met and Childhood Trauma<br />
on <strong>Brain</strong> morphometry in Healthy Volunteers<br />
Courtney Gallen 1 , Xiaochu Zhang 2 , Xiujuan Geng 3 ,<br />
Pradeep Kurup 1 , Thomas Ross 1 , Colin Hodgkinson 4 , David<br />
Goldman 4 , Mary-Anne Enoch 4 , Elliot Stein 1 , Mary Lee 1<br />
1 NIDA-IRP, NIH, Baltimore, United States, 2 USTC, Hefei,<br />
China, 3 University of North Carolina, Chapel Hill, United<br />
States, 4 NIAAA-IRP, NIH, Rockville, United States<br />
a Structural and Diffusion anatomical Study of the<br />
aqueduct of Sylvius and Cerebrospinal Fluid<br />
Patrick Schweder 1 , Louisa Gill 1 , Peter Hansen 2 ,<br />
Alexander Green 1 , Tipu Aziz 1<br />
1 University of Ox<strong>for</strong>d, Department of Neurosurgery, Ox<strong>for</strong>d,<br />
United Kingdom, 2 University of Ox<strong>for</strong>d, Department<br />
of Physiology, Anatomy and Genetics, Ox<strong>for</strong>d, United<br />
Kingdom<br />
The multivariate relation of <strong>Brain</strong> Structure and<br />
Cognitive Per<strong>for</strong>mance in Healthy Children<br />
Gabriel Ziegler 1 , Rachel Yotter 1 , Christian Gaser 1<br />
1 Structural <strong>Brain</strong> <strong>Mapping</strong> Group, Department of<br />
Psychiatry, University of Jena, Jena, Germany<br />
Temporal Pole Subregions are Functionally Linked to<br />
Distinct <strong>Brain</strong> Networks<br />
Belen Pascual 1 , Joseph Masdeu 2 , Mark Hollenbeck 1 ,<br />
Brad<strong>for</strong>d Dickerson 1<br />
1 Massachusetts General Hospital, Boston, MA,<br />
2 National Institutes of Health, Bethesda, DC<br />
The relationship between structural brain features<br />
and trait impulsivity in healthy individuals<br />
Eliza Congdon 1 , Jessica Cohen 2 , Adriana Galvan 1 ,<br />
Akram Bakour 3 , Jeanette Mum<strong>for</strong>d 3 , Edythe London 1 ,<br />
Russell Poldrack 4<br />
1 University of Cali<strong>for</strong>nia Los Angeles, Los Angeles, CA,<br />
United States, 2 University of Cali<strong>for</strong>nia Berkeley, Berkeley,<br />
CA, United States, 3 University of Texas at Austin, Austin,<br />
TX, United States, 4 University of Texas at Austin, Austin,<br />
CA, United States<br />
80 HBM 2011 >> <strong>abstracts</strong><br />
944<br />
Cerebral structural development of the hand<br />
areas of handicapped children using sequential mrI<br />
Yumi Okoshi 1 , Toshinori Kato 2<br />
1 Tobu Rehabilitation Center, Tokyo, Japan,<br />
2 KATOBRAIN CO.,LTD., Tokyo, Japan<br />
Neuroanatomy<br />
White Matter Anatomy, Fiber Pathways<br />
and Connectivity<br />
945**<br />
946**<br />
947<br />
948**<br />
Standardized parieto-frontal connectivity map<br />
obtained with cortico-cortical evoked potentials<br />
Riki Matsumoto 1 , Tomoyuki Fumuro 1 , Dileep Nair 2 ,<br />
Akio Ikeda 1 , Eric LaPresto 2 , Nobuhiro Mikuni 3 , Susumu<br />
Miyamoto 4 , William Bingaman 2 , Hidenao Fukuyama 5 ,<br />
Ryosuke Takahashi 1 , Imad Najm 2 , Hiroshi Shibasaki 6 ,<br />
Hans Lüders 7<br />
1 Dept. Neurology, Kyoto University Graduate School of<br />
Medicine, Kyoto, Kyoto, 2 Epilepsy Center, Cleveland Clinic,<br />
Cleveland, OH, 3 Dept. Neurosurgery, Sapporo Medical<br />
University, Sapporo, Hokkaido, 4 Dept. Neurosurgery,<br />
Kyoto University Graduate School of Medicine, Kyoto,<br />
Kyoto, 5 HBRC Kyoto University School Of Medicine, Kyoto,<br />
Japan, 6 Dept. Neurology, Takeda General Hospital, Kyoto,<br />
Kyoto, 7 Epilepsy Center, Case Western Reserve University,<br />
Cleveland, OH<br />
FIBraTLaS: a method <strong>for</strong> cerebral white matter tracts<br />
dissection monitoring and 3D reconstruction<br />
Ilyess Zemmoura 1,2,3 , Barthélémy Serres 4 , Frederic<br />
Andersson 5 , Clovis Tauber 3 , Gilles Venturini 4 , Christophe<br />
Destrieux 3,2,1<br />
1 CHRU de Tours, Service de Neurochirurgie, Tours, France,<br />
2 Laboratoire d’Anatomie, Université François Rabelais de<br />
Tours, Tours, France, 3 UMR_S Imagerie et Cerveau, Inserm<br />
U 930, CNRS ERL 3106, Université François Rabelais de<br />
Tours, Tours, France, 4 EA2101, Laboratoire d’in<strong>for</strong>matique,<br />
Université François Rabelais de Tours, Tours, France,<br />
5 IFR135 Imagerie fonctionnelle, Tours, France<br />
Heritability and reliability of the <strong>Human</strong> Connectome<br />
mapped using 4T HarDI in 156 young adult twins<br />
Neda Jahanshad 1 , Katie McMahon 2 , Greig de Zubicaray 3 ,<br />
Nicholas Martin 4 , Margaret Wright 4 , Arthur Toga 1 ,<br />
Paul Thompson 1<br />
1 Laboratory of Neuro Imaging, Dept. of Neurology, UCLA<br />
School of Medicine, Los Angeles, United States, 2 University<br />
of Queensland, Centre <strong>for</strong> Advanced Imaging, Brisbane,<br />
Australia, 3 University of Queensland, School of Psychology,<br />
Brisbane, Australia, 4 Queensland Institute of Medical<br />
Research, Brisbane, Australia<br />
TBSS of the Neonatal <strong>Brain</strong>: Depiction of Specific<br />
Neural Phenotypes<br />
Rafael Ceschin 1 , Natasha Lepore 2 , Marvin Nelson 3 ,<br />
Ashok Panigrahy 4<br />
1 Radiology, Children’s Hospital of Pittsburgh, Pittsburgh,<br />
PA, United States, 2 Department of Radiology, University of<br />
Southern Cali<strong>for</strong>nia and Children’s Hospital Los Angeles,<br />
Los Angeles, CA, 3 4Department of Radiology, University of<br />
Southern Cali<strong>for</strong>nia and Children’s Hospital Los Angeles,<br />
Los Angeles, CA, 4 Children’s Hospital of Pittsburgh, UPMC,<br />
Pittsburgh, PA
Neuroanatomy<br />
White Matter Anatomy, Fiber Pathways and Connectivity, continued<br />
949*<br />
950<br />
951<br />
952<br />
953<br />
954<br />
955<br />
Functional Zones within the <strong>Human</strong> Subthalamic<br />
Nucleus, (o-T2)<br />
Christian Lambert 1 , Ludvic Zrinzo 2 , Zoltan Nagy 1 ,<br />
Antoine Lutti 1 , Marwan Hariz 2 , Thomas Foltynie 2 ,<br />
Bogdan Draganski 3 , John Ashburner 1 , Richard Frackowiak 3<br />
1 Wellcome Trust Centre <strong>for</strong> Neuroimaging, London,<br />
United Kingdom, 2 UCL Institute of Neurology, London,<br />
United Kingdom, 3 Centre Hospitalier Universitaire Vaudois,<br />
Lausanne, Switzerland<br />
The Per<strong>for</strong>ant Tract in the <strong>Human</strong> <strong>Brain</strong> revealed by<br />
3D-Polarized Light Imaging<br />
David Graessel 1 , Markus Axer 1 , Melanie Kleiner 1 ,<br />
Timo Dickscheid 1 , Timo Huetz 1 , Julia Reck<strong>for</strong>t 1 , Jürgen<br />
Dammers 2 , Uwe Pietrzyk 2 , Karl Zilles 3 , Katrin Amunts 1<br />
1 Institute of Neuroscience and Medicine (INM-1),<br />
Research Centre Juelich, Juelich, Germany, 2 Institute of<br />
Neuroscience and Medicine (INM-4), Research Centre<br />
Juelich, Juelich, Germany, 3 Institute of Neuroscience<br />
and Medicine (INM-2), Research Centre Juelich, Juelich,<br />
Germany<br />
Histological evidence of Complex White matter<br />
architecture in the <strong>Human</strong> <strong>Brain</strong>: Significance <strong>for</strong> DTI<br />
Jacopo Annese 1 , Paul Maechler 1 , Natalie Schenker 1<br />
1 University of Cali<strong>for</strong>nia, San Diego, San Diego, CA<br />
Tract length and microstructure variability:<br />
implications <strong>for</strong> conduction delays in neuroimaging<br />
John Griffiths 1 , Lorraine Tyler 2<br />
1 University of Cambridge, Cambridge, United Kingdom,<br />
2 University Of Cambridge, Cambridge, United Kingdom<br />
a new quantitative mrI contrast <strong>for</strong> measuring<br />
white matter myelin<br />
Aviv Mezer 1 , Nikola Stikov 2 , Kendrick Kay 1 ,<br />
Robert Dougherty 1 , Josef Parvizi 1 , Jason Yeatman 1 ,<br />
Kim Butts-Pauly 1 , Brian Wandell 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States,<br />
2 McGill University, Montreal, Canada<br />
White matter Structural Connectivity without<br />
Diffusion Tensor Imaging<br />
Seung-Goo Kim 1 , Moo K. Chung 2 , Jamie Hanson 3 ,<br />
Brian Avants 4 , James Gee 5 , Richard J. Davidson 2 ,<br />
Seth Pollak 2<br />
1 Seoul National University, Seoul, Korea, Republic<br />
of, 2 University of Wisconsin, Madison, WI, 3 University<br />
of Wisconsin-Madison, Madison, WI, 4 University of<br />
Pennsylvania, Philadelphia, United States,<br />
5 University of Pennsylvania, Philadelphia, PA<br />
altered global and Local Network Topology in<br />
22q11DS: a graph Theoretical Study<br />
Marie-Christine OTTET 1,2 , Marie Schaer 2 ,<br />
Leila Cammoun 3 , Jean-Philippe Thiran 3 , Stephan Eliez 4<br />
1 University of Geneva, Switzerland, 2 Office Médico-<br />
Pédagogique Research Unit, Department of Psychiatry,<br />
Geneva, Switzerland, 3 EPFL, Lausanne, Switzerland,<br />
4 Office Médico-Pédagogique Research Unit, Department<br />
of Psychiatry, University of Geneva, Geneva, Switzerland<br />
956<br />
957<br />
958<br />
959<br />
960<br />
961<br />
962<br />
Subcortical Connections in the Internal Capsule<br />
of a macaque<br />
Kyle Taljan 1,2 , Cameron McIntyre 1 , Ken Sakaie 1<br />
1 Cleveland Clinic, Cleveland, OH, USA, 2 Cleveland State<br />
University, Cleveland, OH, USA<br />
Temporo-Frontal Compartments of the arcuate<br />
Fasciculus<br />
Nina Dronkers 1 , And Turken 2 , Paule Toussaint 3 ,<br />
Odile Plaisant 4<br />
1 VA Northern Cali<strong>for</strong>nia Health Care System/UC Davis,<br />
Martinez, United States, 2 VA Northern Cali<strong>for</strong>nia Health<br />
Care System, Martinez, CA, 3 LIF, GHU Pitie-Salpetriere,<br />
UPMC, INSERM, Paris, France, 4 University of Paris<br />
Descartes/GH Pitié Salpêtrière, Epilepsy Unit and Pain<br />
Centre, Paris, France<br />
Probabilistic fibre tract analysis of human inferior<br />
parietal areas reveals similarities to macaques<br />
Svenja Caspers 1 , Simon Eickhoff 2 , Tobias Rick 3 ,<br />
Anette von Kapri 3 , Torsten Kuhlen 3 , Ruiwang Huang 4 ,<br />
Nadim Shah 5 , Karl Zilles 6<br />
1 Institute of Neuroscience and Medicine, INM-2,<br />
Research Center Julich, Julich, Germany, 2 Department<br />
of Psychiatry and Psychotherapy, Aachen, Germany,<br />
3 Institute <strong>for</strong> Scientific Computing, Virtual Reality Group,<br />
RWTH Aachen University, Aachen, Germany, 4 Center <strong>for</strong><br />
the Study of Applied Psychology and Imaging Center <strong>for</strong><br />
<strong>Brain</strong> Research, SCNU, Guangzhou, China, 5 Institute of<br />
Neuroscience and Medicine, INM-4, Research Centre<br />
Julich, Julich, Germany, 6 Institute of Neuroscience and<br />
Medicine, INM-2, Research Centre Julich, Julich, Germany<br />
measures of brain size as proxies <strong>for</strong> inter-hemispheric<br />
connection length<br />
John Lewis 1 , Vladimir Fonov 1 , Rebecca Theilmann 2 ,<br />
Jeanne Townsend 2 , Alan Evans 1<br />
1 Montreal Neurological Institute, Montreal, Canada,<br />
2 University of Cali<strong>for</strong>nia, San Diego, La Jolla, CA<br />
anatomic Connectivity metrics: Track Counts Versus<br />
Tissue Integrity<br />
Ken Sakaie 1 , Robert Bermel 1 , Lael Stone 1 , Micheal Phillips 1 ,<br />
Mark Lowe 1<br />
1 Cleveland Clinic, Cleveland, OH, United States<br />
White matter Differences between Deaf aSL Signers<br />
and Hearing english Speakers<br />
Rosalia Tungaraza 1 , Sonya Mehta 1 , Karen Emmorey 2 ,<br />
Thomas Grabowski 1<br />
1 Integrated <strong>Brain</strong> Imaging Center, Department of<br />
Radiology, University of Washington, Seattle, United States,<br />
2 Laboratory <strong>for</strong> Language and Cognitive Neuroscience,<br />
San Diego State University, San Diego, United States<br />
a Fiber Navigator <strong>for</strong> Neurosurgical Planning<br />
Olivier Vaillancourt1 , Arnaud Boré1 , Gabriel Girard1 ,<br />
Maxime Descoteaux1 1MOIVRE center, Université de Sherbrooke, Sherbrooke,<br />
Canada<br />
HBM 2011 >> <strong>abstracts</strong> 81<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Neuroanatomy<br />
White Matter Anatomy, Fiber Pathways and Connectivity, continued<br />
963<br />
964<br />
965<br />
966<br />
967<br />
968<br />
Independent Component analysis of DTI reveals<br />
microstructural Correlations of <strong>Human</strong> <strong>Brain</strong><br />
Yiou Li 1 , Fan-Pei Yang 1 , Christopher Nguyen 2 ,<br />
Shelly Cooper 1 , Sara LaHue 1 , Sandya Venugopal 1 ,<br />
Pratik Mukherjee 1<br />
1 University of Cali<strong>for</strong>nia San Francisco, San Francisco,<br />
United States, 2 University of Cali<strong>for</strong>nia Los Angeles,<br />
Los Angeles, United States<br />
White-matter organization after early Deafness<br />
revealed by magnetization Transfer Imaging<br />
Martha Shiell1,2 , François Champoux3 , Bruce Pike1 ,<br />
Robert Zatorre1,2,4 1Montreal Neurological Institute, McGill University,<br />
Montreal, Canada, 2BRAMS, Montreal, Canada,<br />
3 4 Université de Montréal, Montreal, Canada, CIRMMT,<br />
Montreal, Canada<br />
White matter Connectivity in Bilaterally Deaf Individuals<br />
vs. Hearing Controls<br />
Therese Chevalier 1 , Manohar Bance 2 , Vanessa Lim 3 ,<br />
Heather Maessen 4 , Aaron Newman 2<br />
1 Dalhousie University, 2 Dalhousie University, Halifax,<br />
Canada, 3 University of Aukland, Aukland, New Zealand,<br />
4 Nova Scotia Hearing and Speech, Halifax, Canada<br />
Preferential Posterior Damage of Central Visual<br />
Pathways in Children with PVL<br />
Rafael Ceschin 1 , Arabhi Nagasunder 2 , Natasha Lepore 3 ,<br />
Marvin Nelson 4 , Stefan Bluml 5 , Ashok Panigrahy 6<br />
1 Radiology, Children’s Hospital of Pittsburgh of UPMC,<br />
Pittsburgh, PA, United States, 2 Radiology, Children’s<br />
Hospital Los Angeles, Los Angeles, CA, 3 Department of<br />
Radiology, University of Southern Cali<strong>for</strong>nia and Children’s<br />
Hospital Los Angeles, Los Angeles, CA, 4 4Department of<br />
Radiology, University of Southern Cali<strong>for</strong>nia and Children’s<br />
Hospital Los Angeles, Los Angeles, CA, 5 Radiology,<br />
Childrens Hospital Los Angeles, Los Angeles, CA,<br />
6 Children’s Hospital of Pittsburgh, UPMC, Pittsburgh, PA<br />
Plasticity of the superior and middle cerebellar<br />
peduncles in musicians revealed by DTI<br />
Ihssan Abdul-Kareem 1 , Jamaan AlGhamdi 1 , Andrej<br />
Stancak 1 , Laura Parkes 2 , Vanessa Sluming 1<br />
1 Magnetic Resonance and Image Analysis Research<br />
Centre, University of Liverpool, LIVERPOOL, United<br />
Kingdom, 2 Department of Imaging Science and<br />
Biomedical Engineering, University of Manchester,<br />
Manchester, United Kingdom<br />
Isotropic High resolution Diffusion Imaging of the<br />
<strong>Human</strong> Habenula in vivo at 7T<br />
Barbara Strotmann 1 , Alfred Anwander 1 , Robin Heidemann 1 ,<br />
Eugenia Solano-Castiella 1 , Arno Villringer 1 , Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
82 HBM 2011 >> <strong>abstracts</strong><br />
969<br />
970<br />
971<br />
972<br />
973<br />
974<br />
975<br />
Changes in <strong>Brain</strong> Functional Connectivity Precede<br />
changes in Structural Connectivity<br />
Pawel Skudlarski 1,2 , Leslie Wolfson 3 , Michael Stevens 4 ,<br />
Godfrey Pearlson 5,2<br />
1 Hart<strong>for</strong>d Hospital/IOL, Hart<strong>for</strong>d, CT, 2 Yale School of<br />
Medicine, New Haven, CT, 3 University of Connecticut/<br />
Hart<strong>for</strong>d Hospital, Hart<strong>for</strong>d, CT, 4 Olin Neuropsychiatry<br />
Research Center, Hart<strong>for</strong>d, United States, 5 Hart<strong>for</strong>d<br />
Hospital, Hart<strong>for</strong>d, CT<br />
a novel thalamo-cortical tracts atlas to quantify<br />
connectivity damage after traumatic brain injury<br />
Letizia Squarcina 1 , Alessandra Bertoldo 1 , David Sharp 2<br />
1 University of Padova, Department of In<strong>for</strong>mation<br />
Engineering, Padova, Italy, 2 The Division of Experimental<br />
Medicine, Imperial College London, London, United<br />
Kingdom<br />
Sexual dimorphism in corpus callosum microstructure:<br />
a critical re-evaluation<br />
Rene Westerhausen 1 , Kristiina Kompus 1 , Margaretha<br />
Dramsdahl 1 , Liv Falkenberg 1 , Renate Grüner 2 , Helene<br />
Hjelmervik 1 , Karsten Specht 3 , Kerstin von Plessen 4 ,<br />
Kenneth Hugdahl 5<br />
1 University of Bergen, Bergen, Norway, 2 Haukeland<br />
University Hospital, Bergen, Norway, 3 Department of<br />
Biological and Medical Psychology, University of Bergen,<br />
Bergen, Norway, 4 University of Copenhagen, Copenhagen,<br />
Denmark, 5 Division of Psychiatry and Bergen Mental Health<br />
Center, Haukeland University Hospital, Bergen, Norway<br />
Involvement of the corpus callosum in rare motor<br />
neuron disorders, as assessed by DTI<br />
Alexander Unrath 1 , Hans-Peter Müller 1 , Albert Ludolph 1 ,<br />
Jan Kassubek 1<br />
1 University of Ulm, Ulm, Germany<br />
Diffusion Tensor Imaging reveals Structural<br />
Connectivity between <strong>Human</strong> auditory and<br />
Visual Cortex<br />
Anton Beer 1 , Tina Plank 1 , Mark Greenlee 1<br />
1 Universität Regensburg, Regensburg, Germany<br />
right and left temporoparietal junctions exhibit<br />
different structural connectivity profiles<br />
Aaron Kucyi 1 , Massieh Moayedi 2 , Irit Weissman-Fogel 3 ,<br />
Karen Davis 4<br />
1 University of Toronto, 2 University of Toronto, Toronto,<br />
Canada, 3 Toronto Western Research Institute, University<br />
Health Network, Toronto, Ontario, 4 Toronto Western<br />
Hospital, Toronto, Canada<br />
measurement of Callosal motor Fiber Location related<br />
Foot movement in the <strong>Human</strong> <strong>Brain</strong> using DTT-fmrI<br />
Dong Hoon Lee 1 , Cheol Pyo Hong 1 , Woo Ho Shin 1 ,<br />
Sung Ho Jang 2 , Ji Won Park 3<br />
1 Department of Radiological Science, College of Health<br />
Science, Yonsei University, Wonju, Gangwondo, Korea,<br />
Republic of, 2 Department of Physical Medicine and<br />
Rehabilitation, College of Medicine, Yeungnam University,<br />
Daegu, Korea, Republic of, 3 Department of Physical<br />
Therapy, College of Health Science, Catholic University of<br />
Daegu, Daegu, Korea, Republic of
Neuroanatomy<br />
White Matter Anatomy, Fiber Pathways and Connectivity, continued<br />
976<br />
977<br />
978<br />
979<br />
980<br />
981<br />
982<br />
Lateralization of white matter diffusion within arcuate<br />
fasciculus fiber bundles<br />
Ralph Suarez1 , Michael Paldino1 , Simon Warfield1 1Children’s Hospital Boston, Harvard Medical School,<br />
Boston, MA<br />
Leptin-dependent correlations between gray and<br />
white matter structure in obese and lean women<br />
Karsten Mueller 1 , Annette Horstmann 1 , Harald Möller 1 ,<br />
Alfred Anwander 1 , Matthias Schroeter 1 , Joeran Lepsien 1 ,<br />
Arno Villringer 1 , Burkhard Pleger 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
DTI measures in motor and cognitive pathways<br />
differ between mS and controls<br />
Katherine Koenig 1 , Erik Beall 2 , Jian Lin 2 , Blessy Mathew 2 ,<br />
Lael Stone 3 , Stephen Rao 2 , Robert Bermel 3 , Micheal<br />
Phillips 2 , Mark Lowe 2 , Steven Jones 2<br />
1 Cleveland Clinic, Cleveland, United States, 2 Cleveland<br />
Clinic, Cleveland, OH, 3 The Cleveland Clinic, Cleveland,<br />
OH<br />
Location and Symmetry evaluation of Hand motor<br />
Corticospinal Tract in the Corona radiata<br />
Dong Hoon Lee 1 , Cheol Pyo Hong 1 , Woo Ho Shin 1 ,<br />
Sung Ho Jang 2 , Ji Won Park 3<br />
1 Department of Radiological Science, College of Health<br />
Science, Yonsei University, Wonju, Gangwondo, Korea,<br />
Republic of, 2 Department of Physical Medicine and<br />
Rehabilitation, College of Medicine, Yeungnam University,<br />
Daegu, Korea, Republic of, 3 Department of Physical<br />
Therapy, College of Health Science, Catholic University of<br />
Daegu, Daegu, Korea, Republic of<br />
DTI measures in posterior cinguate and entorhinal<br />
cortex correlate with per<strong>for</strong>mance on the PaSaT<br />
Katherine Koenig 1 , Jian Lin 2 , Ken Sakaie 3 , Stephen Rao 2 ,<br />
Bruce Trapp 2 , Mark Lowe 2 , Micheal Phillips 2<br />
1 Cleveland, United States, 2 Cleveland Clinic, Cleveland,<br />
OH, 3 Cleveland Clinic, CLEVELAND, OH<br />
Voxel-Based analysis by DTI Imaging on major<br />
Depression in young adults<br />
Nianming Zuo1 , Jiliang Fang2 , Yang Hong2 , Tao Li3 ,<br />
Xueyu Lv3 , Haibing Tong2 , Xiaoling Wang2 , Weidong<br />
Wang3 , Yuan Zhou4 , Tianzi Jiang5 1NLPR&LIAMA, Institute of Automation, Chinese Academy<br />
Of Science, Beijing, China, 2Department Of Radiology,<br />
Guang’anmen Hospital, China Academy of Chinese<br />
Medical Sciences, Beijing, China, 3Department Of<br />
Psychology, Guang’anmen Hospital, China Academy of<br />
Chinese Medical Sciences, Beijing, China, 4Institute of<br />
Psychology, Chinese Academy of Sciences, Beijing, China,<br />
5Institute Of Automation, Chinese Academy Of Sciences,<br />
Beijing, China<br />
a DTI-based Study in Long-term meditators<br />
Eileen Luders 1 , Kristi Clark 1 , Katherine Narr 1 , Arthur Toga 1<br />
1 UCLA School of Medicine, Department Of Neurology,<br />
Los Angeles, United States<br />
983<br />
anatomical Location and angle measurements of<br />
Corticospinal Tract in the Internal Capsule<br />
Dong Hoon Lee 1 , Cheol Pyo Hong 1 , Woo Ho Shin 1 ,<br />
Sung Ho Jang 2 , Ji Won Park 3<br />
1 Department of Radiological Science, College of Health<br />
Science, Yonsei University, Wonju, Gangwondo, Korea,<br />
Republic of, 2 Department of Physical Medicine and<br />
Rehabilitation, College of Medicine, Yeungnam University,<br />
Daegu, Korea, Republic of, 3 Department of Physical<br />
Therapy, College of Health Science, Catholic University of<br />
Daegu, Daegu, Korea, Republic of<br />
Perception and Attention<br />
Attention: Auditory/Tactile/Motor<br />
984<br />
985<br />
986<br />
987<br />
988<br />
Top-down controlled alpha band activity in<br />
somatosensory areas determines discrimination<br />
per<strong>for</strong>mance<br />
Saskia Haegens 1 , Ole Jensen 1<br />
1 Radboud University Nijmegen, Donders Institute <strong>for</strong><br />
<strong>Brain</strong>, Cognition and Behaviour, Nijmegen, Netherlands<br />
rapid tuning of non-primary auditory cortex neurons<br />
supports selective listening in humans<br />
Jyrki Ahveninen 1 , Matti Hämäläinen 1 , Iiro Jääskeläinen 2 ,<br />
Seppo Ahl<strong>for</strong>s 1 , Samantha Huang 1 , Fa-Hsuan Lin 1,3 ,<br />
Tommi Raij 1 , Mikko Sams 2 , Christos Vasios 1 , John<br />
Belliveau 1<br />
1 Harvard Medical School - Martinos Center, Department<br />
of Radiology, Massachusetts General Hospital,<br />
Charlestown, MA, 2 Department of Biomedical Engineering<br />
and Computational Science, Aalto University School<br />
of Science, Espoo, Finland, 3 Institute of Biomedical<br />
Engineering, National Taiwan University, Tapei, Taiwan<br />
BoLD correlates of erP topography can dissociate<br />
between specific and non-specific task features<br />
Ilan Laufer 1 , Michiro Negishi 1 , Cheryl Lacadie 1 ,<br />
Xenophon Papademetris 2 , R. Todd Constable 2<br />
1 Department of Diagnostic Radiology, Yale University,<br />
New Haven, CT, 2 Department of Diagnostic Radiology;<br />
Department of Biomedical Engineering, Yale University,<br />
New Haven, CT<br />
Neural Correlates of Changing Stimulus–response<br />
Probabilities in Speeded Choice reactions<br />
Robert Langner 1 , Witali Pomjanski 2 , Oliver Jakobs 2 ,<br />
Karl Zilles 3 , Simon Eickhoff 1<br />
1 Dept. of Psychiatry, Psychotherapy and Psychosomatics,<br />
RWTH Aachen University, Aachen, Germany, 2 C. &<br />
O. Vogt Institute <strong>for</strong> <strong>Brain</strong> Research, University of<br />
Duesseldorf, Duesseldorf, Germany, 3 Institute of<br />
Neuroscience and Medicine (INM-2), Research Centre<br />
Juelich, Juelich, Germany<br />
a 3-D Virtual reality based sensory oddball task <strong>for</strong><br />
eliciting P300<br />
Kai-Chiun Li 1 , Chun-Chuan Chen 1 , Shih-Ching Yeh 2<br />
1 Graduate Institute of Biomedical Engineering,National<br />
Central University, Taiwan, Taoyuan, Taiwan, Republic of<br />
China, 2 Department of Computer Science and In<strong>for</strong>mation<br />
Engineering, National Central University, Taiwan, Taoyuan,<br />
Taiwan, Republic of China<br />
HBM 2011 >> <strong>abstracts</strong> 83<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Perception and Attention<br />
Attention: Auditory/Tactile/Motor, continued<br />
989<br />
an electroencephalographic investigation of the<br />
filled-duration illusion<br />
Takako Mitsudo 1 , Caroline Gagnon 1 , Hiroshige Takeichi 2 ,<br />
Simon Grondin 1<br />
1 École de psychologie, Université Laval, Québec,<br />
Canada, 2 Laboratory <strong>for</strong> Mathematical Neuroscience,<br />
<strong>Brain</strong> Science Institute, RIKEN, Saitama, Japan<br />
Perception and Attention<br />
Attention: Visual<br />
990*<br />
991<br />
992<br />
993<br />
994<br />
995<br />
Category-specific preparatory bias in lateral occipital<br />
complex facilitates rapid target detection, (o-Th3)<br />
Chun Siong Soon1 , Praneeth Namburi1 , Michael Chee1 1Duke-NUS Graduate Medical School, Singapore,<br />
Singapore<br />
Behavioral and <strong>Brain</strong> effects of Cholinergic<br />
enhancement of Selective attention to Faces<br />
and Houses<br />
Emiliano Ricciardi 1,2 , Pietro Pietrini 1,2 , Giacomo<br />
Handjaras 1 , Joanna Szczepanik 3 , James Haxby 4 ,<br />
Maura Furey 3<br />
1 Laboratory of Clinical Biochemistry and Molecular<br />
Biology, University of Pisa, Pisa, Italy, 2 Department<br />
of Laboratory Medicine and Molecular Diagnostics,<br />
Azienda Ospedaliero Universitaria Pisana, Pisa, Italy,<br />
3 Experimental Therapeutics and Pathophysiology Branch,<br />
NIH/NIMH, Bethesda, MD, 4 Dartmouth College, Hanover,<br />
NH<br />
Spatiotopic Structural Connectivity underlying<br />
Visual attention<br />
Adam Greenberg 1 , Timothy Verstynen 2 , Walter Schneider 2 ,<br />
Marlene Behrmann 1<br />
1 Carnegie Mellon University, Pittsburgh, PA, 2 University of<br />
Pittsburgh, Pittsburgh, PA<br />
Timing and amplitude of gamma-band deactivation in<br />
default-mode network is correlated with behavior<br />
Tomas Ossandon 1 , Karim Jerbi 1 , Juan Vidal 1 , Olivier<br />
Bertrand 1 , Philippe Kahane 2 , Jean-Philippe Lachaux 1<br />
1 INSERM U1028, CNRS UMR5292, Lyon Neuroscience<br />
Research Center, <strong>Brain</strong> Dynamics and Cognition Team,<br />
Lyon, France, 2 INSERM U836 and University Joseph<br />
Fourier, Grenoble, France<br />
Fronto-parietal interactions in top-down and<br />
bottom-up selection<br />
Jane Klemen 1 , Chris Chambers 2 , Mareike Menz 3<br />
1 School of Psychology and Cardiff University <strong>Brain</strong><br />
Research and Imaing Centre, 2 Cardiff University, United<br />
Kingdom, 3 Deparment of Systems Neuroscience,<br />
University Medical Center Hamburg-Eppendorf, Germany,<br />
Hamburg, Germany<br />
Novel fmrI Paradigm reveals attentional Field<br />
Topography<br />
Alexander Puckett 1 , Yan Ma 2 , Jed Mathis 1 , Edgar DeYoe 1<br />
1 Medical College of Wisconsin, Milwaukee, United States,<br />
2 Marquette University, Milwaukee, United States<br />
84 HBM 2011 >> <strong>abstracts</strong><br />
996<br />
997<br />
998<br />
999<br />
1000<br />
1001<br />
Heightened PCC-DLPFC interactions are linked to<br />
slower current-trial rT but to faster next-trial rT<br />
Jérôme Prado 1 , Daniel Weissman 2<br />
1 Northwestern University, Evanston, IL, 2 Department of<br />
Psychology, University of Michigan, Ann Arbor, MI<br />
TmS on aIP disrupts perceptual enhancement of<br />
action relevant features<br />
Tjerk Gutteling 1 , J. Kenemans 2 , Soon Park 1 , Sebastiaan<br />
Neggers 3<br />
1 Rudolf Magnus Institute <strong>for</strong> Neuroscience, Utrecht,<br />
Netherlands, 2 University of Utrecht, Utrecht, Netherlands,<br />
3 University Medical Center Utrecht & Rudolf Magnus<br />
Institute <strong>for</strong> Neuroscience, Utrecht , Utrecht<br />
Decoding visuospatial attention from local activity<br />
patterns in the human frontal cortex<br />
Christian Kalberlah 1,2 , Yi Chen 1,2 , Jakob Heinzle 2 ,<br />
John-Dylan Haynes 3,1,4<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany, 2 Bernstein<br />
Center <strong>for</strong> Computational Neuroscience, Charité -<br />
Universitätsmedizin Berlin, Berlin, Germany, 3 Bernstein<br />
Center <strong>for</strong> Computational Neuroscience Charité -<br />
Universitätsmedizin Berlin, Berlin, Germany, 4 Graduate<br />
School of Mind and <strong>Brain</strong>, Humboldt-Universität, Berlin,<br />
Germany<br />
Stimulus value biases β- and β- rhythms in monkey<br />
fronto-cingulate cortex during attentional control<br />
Martin Vinck 1 , Stefan Everling 2 , Daniel Kaping 3 ,<br />
Thilo Womelsdorf 2<br />
1 University of Amsterdam, Amsterdam, The Netherlands,<br />
2 Robarts Research Institute, London, Canada,<br />
3 Department of Physiology and Pharmacology, University<br />
of Western Ontario, London, Canada<br />
Timing of motion-based visual attention networks<br />
explored using fmrI-neuronavigated TmS<br />
Bonnie Alexander 1 , Robin Laycock 1 , Sheila Crewther 2 ,<br />
David Crewther 3<br />
1 La Trobe University, Melbourne, Australia, 2 La Trobe<br />
University, Melbourne , Australia, 3 Swinburne University,<br />
Melbourne, Australia<br />
Sustained gamma-band responses as neural correlate<br />
of top-down processes<br />
Tomas Ossandon 1 , Juan Vidal 2 , Karim Jerbi 2 , Philippe<br />
Kahane 3 , Olivier Bertrand 4 , Jean-Philippe Lachaux 4<br />
1 Lyon, France, 2 INSERM U1028, CNRS UMR5292,<br />
Lyon Neuroscience Research Center, <strong>Brain</strong> Dynamics<br />
and Cognition Team, Lyon, France, 3 INSERM U836 and<br />
University Joseph Fourier, Grenoble, France, 4 INSERM<br />
U1028, CNRS UMR5292, Lyon Neuroscience Research<br />
Center, <strong>Brain</strong> Dynamics and Cognition Team, Ly,<br />
Lyon, France
Perception and Attention<br />
Attention: Visual, continued<br />
1002<br />
1003<br />
1004<br />
1005<br />
1006<br />
1007<br />
effects of autonomic stimulation on the brain at<br />
rest and during a cognitive task: an fmrI study<br />
Barbara Basile 1 , Andrea Bassi 2 , Giovanni Calcagnini 3 ,<br />
Pietro Cortelli 4 , Carlo Caltagirone 2,5 , Marco Bozzali 1<br />
1 Neuroimaging Laboratory, Santa Lucia Foundation,<br />
Rome, Italy, 2 Department of Clinical and Behavioural<br />
Neurology, Santa Lucia Foundation, Rome, Italy,<br />
3 Department of Technology and Health, Italian Institute of<br />
Health, Rome, Italy, 4 Department of Neurological Science,<br />
University of Bologna, Bologna, Italy, 5 Department of<br />
Neuroscience, University of Rome ‘Tor Vergata’,<br />
Rome, Italy<br />
Sleep deprivation hinders distractor suppression<br />
during selective attention<br />
Danyang Kong1,2 , Chun Siong Soon2 , Michael Chee2 1National University of Singapore, Singapore, Singapore,<br />
2Duke-NUS Graduate Medical School, Singapore,<br />
Singapore<br />
Cortico-tectal connectivity mediates TmS effects on<br />
visuo-attentional networks: a DTI study<br />
Romain Quentin 1 , Raffaella Migliaccio 1 , Lorena Chanes 1,2 ,<br />
Antoni Valero-Cabré 1,3,4<br />
1 Centre de Recherche de l’institut du Cerveau et de la<br />
Môelle, CR-ICM, CNRS UMR 7225, INSERM UMRS 975,<br />
Paris, France, 2 Ecole des Neurosciences de Paris, Paris,<br />
France, 3 Laboratory <strong>for</strong> Cerebral Dynamics Plasticity &<br />
Rehabilitation, Boston University School of Medicine,<br />
Boston, MA, 4 Cognitive Neuroscience and In<strong>for</strong>mation<br />
Technology Research Program, Open University of<br />
Catalonia (UOC), Barcelona, Spain<br />
Childhood maltreatment is associated with altered<br />
Cue-evoked <strong>Brain</strong> activation in adulthood<br />
Suzanne Clerkin 1 , Voula Galanopoulos 2 , Olga Berwid 1,2 ,<br />
Kurt Schulz 1 , Jeffrey Halperin 1,2<br />
1 Mount Sinai School of Medicine, New York, NY, 2 Queens<br />
College, City University of New York, Flushing, NY<br />
The right anterior Insula activations Irrespective of<br />
Stimulus modality and Laterality<br />
Yoshimi Ohgami 1 , Yasunori Kotani 1 , Tetsuji Tsukamoto 2 ,<br />
Shigeru Kiryu 3 , Yusuke Inoue 4<br />
1 Tokyo Institute of Technology, Meguro, Tokyo, Japan,<br />
2 GE Healthcare Japan, Tokyo, Japan, 3 The University<br />
of Tokyo, Minato-ku, Tokyo, 4 Kitasato University,<br />
Sagamihara, Kanagawa<br />
Changes in hemispheric asymmetry across the<br />
menstrual cycle in left-right decision task<br />
Helene Hjelmervik 1 , Marco Hirnstein 2 , Berge Osnes 1 ,<br />
Cecilie Byholt Endresen 3 , Markus Hausmann 2 ,<br />
Kenneth Hugdahl 4 , Karsten Specht 5<br />
1 University of Bergen, Bergen, Norway, 2 Department of<br />
Psychology, Durham University, Durham, United Kingdom,<br />
3 University of Bergen, 4 Division of Psychiatry and Bergen<br />
Mental Health Center, Haukeland University Hospital,<br />
Bergen, Norway, 5 Department of Biological and Medical<br />
Psychology, University of Bergen, Bergen, Norway<br />
1008<br />
1009<br />
1010<br />
1011<br />
1012<br />
1013<br />
The disparity between cognitive vigilance and<br />
intra-operative vigilance in surgery: an fNIrS study<br />
Colin Sugden 1 , Daniel Leff 2 , Felipe Orihuela-Espina 2 ,<br />
David James 2 , Kenko Fujii 2 , Ara Darzi 3 ,<br />
Guang-Zhong Yang 2<br />
1 Imperial College London, 2 Imperial College, London,<br />
United Kingdom, 3 Imperial Collge, London,<br />
United Kingdom<br />
Deviation between eye movements and attention<br />
causes change blindness<br />
Andrei Nikolaev 1 , Peter Jurica 2 , Chie Nakatani 2 ,<br />
Gijs Plomp 3 , Cees van Leeuwen 2<br />
1 Riken <strong>Brain</strong> Science Institute, Wako-shi, Japan,<br />
2 RIKEN <strong>Brain</strong> Science Institute, Wako-shi, Japan,<br />
3 École Politechnique Fédérale de Lausanne,<br />
Lausanne, Switzerland<br />
Frequency of attention-related gamma Band activity<br />
Decreases with Severity of Hepatic encephalopathy<br />
Nina Kahlbrock 1 , Markus Butz 1,2 , Elisabeth May 1 ,<br />
Meike Brenner 1 , Gerald Kircheis 3 , Dieter Häussinger 3 ,<br />
Alfons Schnitzler 1<br />
1 Institute of Clinical Neuroscience and Medical<br />
Psychology, Heinrich-Heine-University, Duesseldorf,<br />
Germany, 2 University College London Institute of<br />
Neurology, London, United Kingdom, 3 Heinrich-Heine-<br />
University, Duesseldorf, Germany<br />
The effect of Task Difficulty on effective Connectivity<br />
of right anterior Insular Cortex<br />
Yasunori Kotani 1 , Yoshimi Ohgami 1 , Tetsuji Tsukamoto 2 ,<br />
Shigeru Kiryu 3 , Yusuke Inoue 4<br />
1 Tokyo Institute of Technology, Meguro, Tokyo, Japan,<br />
2 GE Healthcare Japan, Hino, Tokyo, Japan, 3 The<br />
University of Tokyo, Minato, Tokyo, 4 Kitasato University,<br />
Sagamihara, Kanagawa<br />
Intracranial gamma-band activity and the role of<br />
category in<strong>for</strong>mation in visual search<br />
Carlos Hamamé 1 , Juan Vidal 1 , Tomas Ossandon 1 ,<br />
Karim Jerbi 1 , Sarang Dalal 2 , Jean-Philippe Lachaux 3<br />
1 INSERM U1028, CNRS UMR5292, Lyon Neuroscience<br />
Research Center, <strong>Brain</strong> Dynamics and Cognition Team,<br />
Lyon, France, 2 INSERM U821, France, 3 INSERM U821,<br />
Lyon, France<br />
Sex Difference in Correlation between Cognitive<br />
Style and <strong>Brain</strong> activity in Visual DmTS in Children<br />
Kohei Asano 1 , Yasuyuki Taki 1 , Hiroshi Hashizume 2 ,<br />
Yuko Sassa 3 , Michiko Asano 4 , Hikaru Takeuchi 5 , Mijin<br />
Lee 1 , Ryuta Kawashima 6<br />
1 IDAC, Tohoku University, Sendai, Japan, 2 IDAC, Tohoku<br />
University, Japan, 3 Division of Developmental Cognitive<br />
Neuroscience, Institute of Development, Aging and<br />
Cancer (IDAC), Sendai, Japan, 4 IDAC, Sendai, Japan,<br />
5 Smart Ageing International Research Center, Institute of<br />
Development, Aging and Cancer, Tohoku Unive, sendai,<br />
Japan, 6 SAIRC, IDAC, TOHOKU UniV, Sendai, Japan<br />
HBM 2011 >> <strong>abstracts</strong> 85<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Perception and Attention<br />
Chemical Senses: Olfaction, Taste<br />
1014<br />
1015<br />
evidence <strong>for</strong> ventral and dorsal streams in the<br />
chemical senses<br />
Johannes Frasnelli 1 , Johannes Gerber 2 , Thomas<br />
Hummel 3 , Johan Lundstrom 4 , Simona Negoias 2 ,<br />
Franco Lepore 5<br />
1 Université de Montréal, 2 University of Dresden Medical<br />
School, Dresden, Germany, 3 Technische Universität<br />
Dresden, Dresden, Germany, 4 Monell Chemical Senses<br />
Center, Philadelphia, PA, 5 Université de Montréal,<br />
Montréal, Canada<br />
assessment of olfactory reactivity of different brain<br />
areas with fmrI<br />
Elena Molina 1 , Ana Beatriz Solana 1 , Juan Antonio<br />
Hernández-Tamames 1,2,3 , susana borromeo 2 ,<br />
Guillermo Luna 2 , Juan Álvarez-Linera 1,3,4<br />
1 Center <strong>for</strong> Biomedical Technology - UPM, Pozuelo de<br />
Alarcon, Spain, 2 Universidad Rey Juan Carlos, Mostoles,<br />
Spain, 3 Fundación CIEN-Fundación Reina Sofía, Madrid,<br />
Spain, 4 Hospital Ruber Internacional, Madrid, Spain<br />
Perception and Attention<br />
Consciousness and Awareness<br />
1016*<br />
1017<br />
1018<br />
measuring intracortical communication in<br />
non-communicating patients, (o-Th1)<br />
Mario Rosanova 1 , Olivia Gosseries 2 , Silvia Casarotto 1 ,<br />
Melanie Boly 3 , Adenauer Casali 1 , Giulio Tononi 4 ,<br />
Steven Laureys 2 , Marcelo Massimini 1<br />
1 University of Milan, Milan, Italy, 2 University of Liege,<br />
Belgium, Liege, Belgium, 3 University of Liege, Liege,<br />
Belgium, 4 University of Wisconsin, Madison, WI<br />
Preserved bottom-up but impaired top-down<br />
processing in the vegetative state<br />
Melanie Boly 1 , Marta Garrido 2 , Olivia Gosseries 3 ,<br />
Marie-Aurelie Bruno 3 , Pierre Boveroux 3 , Caroline<br />
Schnakers 3 , Marcelo Massimini 4 , Vladimir Litvak 5 ,<br />
Steven Laureys 3 , Karl Friston 6<br />
1 University of Liege, Liege, Belgium, 2 Wellcome Trust<br />
Centre <strong>for</strong> Neuroimaging, London, United Kingdom,<br />
3 University of Liege, Belgium, Liege, Belgium, 4 University<br />
of Milan, 5 University College London, London, United<br />
Kingdom, 6 Wellcome Trust Centre <strong>for</strong> Neuroimaging, UCL,<br />
Lodnon, United Kingdom<br />
reduced global functional connectivity in patients<br />
with a disorder of consciousness. an fmrI study<br />
Julia Sophia Crone 1 , Gunther Ladurner 2,3 ,<br />
Stefan Golaszewski 4 , Martin Kronbichler 5,2<br />
1 Neuroscience Institute, Christian Doppler Clinic,<br />
Salzburg, Salzburg, Austria, 2 Neuroscience Institute,<br />
Christian-Doppler-Clinic, Salzburg, Austria, 3 Department<br />
of Psychology, University of Salzburg, Salzburg, Austria,<br />
4 Department of Neurology, Christian-Doppler-Clinic,<br />
Salzburg, Austria, 5 University of Salzburg, Salzburg,<br />
Austria<br />
86 HBM 2011 >> <strong>abstracts</strong><br />
1019<br />
1020<br />
1021<br />
1022<br />
1023<br />
1024<br />
1025<br />
Changes in effective Connectivity during Propofol<br />
Sedation<br />
Francisco Gómez 1 , Andrea Soddu 2 , Christophe Phillips 1 ,<br />
Melanie Boly 1 , Audrey Vanhaudenhuyse 1 , Pierre<br />
Boveroux 1 , Severine Lauwick 3 , Eduardo Romero 4 ,<br />
Steven Laureys 1 , Quentin Noirhomme 1<br />
1 Coma Science Group, Cyclotron Research Centre,<br />
University of Liege, Liege, Belgium, 2 University of Liege,<br />
Liege, Belgium, 3 CHU Sart Tilman Hospital, University of<br />
Liege, Liege, Belgium, 4 Bioingenium Research Group,<br />
Faculty of Medicine, Universidad Nacional de Colombia,<br />
Bogota, Colombia<br />
Distinct Language activation and Connectivity Profiles<br />
in Infants Sedated with Nembutal and Propofol<br />
Mark DiFrancesco1 , Brian Zappia1 , Sara Robertson1 ,<br />
Daniel Choo1 , Scott Holland1 1Cincinnati Children’s Hospital Medical Center, Cincinnati,<br />
OH USA<br />
Investigating mind-wandering and attention during<br />
focused meditation<br />
Wendy Hasenkamp 1,2 , Christine Wilson-Mendenhall 1,3 ,<br />
Erica Duncan 1,2 , Lawrence W. Barsalou 1<br />
1 Emory University, Atlanta, GA, 2 Atlanta VA Medical<br />
Center, Decatur, GA, 3 Northeastern University, Boston, MA<br />
anesthetic sedation modulates resting connectivity of<br />
the left inferior frontal gyrus<br />
Emmanuel Stamatakis 1 , Ram Adapa 2 , Anthony Absalom 3 ,<br />
David Menon 2<br />
1 Queens’ College, Cambridge, United Kingdom,<br />
2 University of Cambridge, Cambridge, United Kingdom,<br />
3 University Medical Center, Groningen, The Netherlands<br />
Disruption of Cortical Integration during anesthesia<br />
Michel van Putten 1,2<br />
1 Clinical Neurophysiology Group, MIRA, University<br />
of Twente, Enschede, Netherlands, 2 Department of<br />
Neurology and Clinical Neurophysiology, Medisch<br />
Spectrum Twente, Enschede, Netherlands<br />
Source Localization of middle Latency auditory<br />
evoked Potentials Indicates effects of anesthesia<br />
Denis Jordan 1 , Rüdiger Ilg 2 , Sabine Paprotny 1 ,<br />
Eberhard Kochs 1 , Gerhard Schneider 3<br />
1 Department of Anesthesiology, Technische Universität<br />
München, Munich, Germany, 2 Department of Neurology,<br />
Technische Universität München, Munich, Germany,<br />
3 Department of Anesthesiology, Universität Witten/<br />
Herdecke, Wuppertal, Germany<br />
eeg evoked responses to repeated Names in<br />
Propofol-altered States of Consciousness<br />
Mariana Babo Rebelo 1 , Audrey Vanhaudenhuyse 2 ,<br />
Andrea Soddu 2 , Pierre Boveroux 2 , Severine Lauwick 2 ,<br />
Marie-Aurelie Bruno 2 , Melanie Boly 2 , Christophe Phillips 3 ,<br />
Steven Laureys 2 , Quentin Noirhomme 2<br />
1 University of Liege, Liege, Belgium, 2 Coma Science<br />
Group, Liege, Belgium, 3 Cyclotron Research Center,<br />
Liege, Belgium
Perception and Attention<br />
Consciousness and Awareness, continued<br />
1026<br />
1027<br />
1028<br />
environmental influences on activity patterns in<br />
altered states of consciousness<br />
Philippe PEIGNEUX 1 , An-Sofie DE WEER 2 , Marc DA ROS 2 ,<br />
Jacques BERRE 3 , Christian MELOT 3 , Serge GOLDMAN 4<br />
1 Université Libre de Bruxelles (ULB), Bruxelles, Belgium,<br />
2 UR2NF - Neuropsychology and Functional Neuroimaging<br />
Research Unit, ULB, Bruxelles, Belgium, 3 Intensive<br />
Care Unit, University Hospital Erasme, ULB, Bruxelles,<br />
Belgium, 4 Department of Nuclear Medicine and PET/<br />
Biomedical Cyclotron Unit, University Hospital Erasme,<br />
ULB, Bruxelles, Belgium<br />
Changing Patterns of Correlations Between resting<br />
State Networks During Different Tasks<br />
Klaus B. Bærentsen 1 , Johannes Damsgaard Bruhn 1 ,<br />
Mark Fosnæs 1 , Mads Hansen 1 , Cecilie Møller 1 ,<br />
Hans Stødkilde-Jørgensen 2<br />
1 University of Aarhus, Dpt. of Psychology, Århus C,<br />
Denmark, 2 Aarhus University Hospital, Skejby, Århus,<br />
Denmark<br />
Thalamic hyperexcitability but cortico-cortical<br />
disconnection under propofol anesthesia<br />
Melanie Boly1 , Rosalyn Moran2 , Michael Murphy3 ,<br />
Pierre Boveroux4 , Marie-Aurelie Bruno4 , Quentin<br />
Noirhomme5 , Didier Ledoux4 , Jean-Francois Brichant4 ,<br />
Giulio Tononi6 , Steven Laureys4 , Karl Friston7 1 2 University of Liege, Liege, Belgium, University College<br />
London, London, United Kingdom, 3Department of<br />
Psychiatry, University of Wisconsin, Madison, WI,<br />
4 5 University of Liege, Belgium, Liege, Belgium, University<br />
of Liege, 6University of Wisconsin, Madison, WI,<br />
7Wellcome Trust Centre <strong>for</strong> Neuroimaging, UCL, Lodnon,<br />
United Kingdom<br />
Perception and Attention<br />
Sleep and Wakefulness<br />
1029<br />
1030<br />
electrographic transients during non-rem sleep<br />
and their associated haemodynamic changes<br />
David Rollings 1 , Andrew Bagshaw 1<br />
1 University of Birmingham, Birmingham, United Kingdom<br />
Corresponding changes of rSN and eeg connectivity<br />
of the brain during propofol anesthesia<br />
Rüdiger Ilg 1 , Denis Jordan 2 , Anna Schorer 1 , Manuel<br />
Schröter 3 , Victor Spoormaker 3 , Susanne Neufang 4 ,<br />
Christine Preibisch 4 , Eberhard Kochs 2 , Bernhard<br />
Hemmer 1 , Claus Zimmer 4 , Afra Wohlschläger 4 , Gerhard<br />
Schneider 5<br />
1 Department of Neurology, Technische Universität<br />
München, München, Germany, 2 Department of<br />
Anesthesiology, Technische Universität München,<br />
München, Germany, 3 Max Planck Institute of<br />
Psychiatry Munich, München, Germany, 4 Department<br />
of Neuroradiology, Technische Universität München,<br />
München, Germany, 5 Department of Anesthesiology,<br />
Universität Witten/Herdecke, Wuppertal, Germany<br />
1031<br />
1032<br />
1033<br />
1034<br />
1035<br />
1036<br />
1037<br />
1038<br />
Sleep deprivation increases tonic and reduces<br />
phasic activation: a combined fmrI/pCaSL study<br />
Thomas Fischer 1,2 , Kersten Diers 1 , Danny Wang 3 , Robert<br />
Langner 4 , Hans Herzog 5 , Burkhard Brocke 1 , Walter Sturm 2<br />
1 TU Dresden, Dresden, Germany, 2 University Hospital<br />
Aachen, Aachen, Germany, 3 Department of Neurology,<br />
University of Cali<strong>for</strong>nia Los Angeles, Los Angeles, CA,<br />
4 RWTH Aachen University, Aachen, Germany, 5 Research<br />
Center Juelich, Juelich, Germany<br />
eeg correlates of behavioural changes in vigilance<br />
in vegetative state and minimally conscious state<br />
Marie-Aurelie Bruno 1 , Eric Landsness 2 , Quentin<br />
Noirhomme 3 , Brady Riedner 2 , Olivia Gosseries 1 ,<br />
Caroline Schnakers 1 , Marcelo Massimini 4 , Steven<br />
Laureys 1 , Giulio Tononi 2 , Melanie Boly 5<br />
1 University of Liege, Belgium, Liege, Belgium,<br />
2 University of Wisconsin, Madison, WI, 3 University of<br />
Liege, 4 University of Milan, 5 University of Liege,<br />
Liege, Belgium<br />
Sleep spindles and emotional intelligence in<br />
school aged children<br />
Kerstin Hoedlmoser 1 , Judith Roell 1 , Philippe Peigneux 2 ,<br />
Wolfgang Klimesch 1 , Manuel Schabus 1<br />
1 University of Salzburg, Salzburg, Austria, 2 Université<br />
Libre de Bruxelles, UR2NF, Bruxelles, Belgium<br />
Deep brain modulations guided by eeg-feedback<br />
can be probed by simultaneous fmrI<br />
Sivan Kinreich 1<br />
1 Tel Aviv University, Tel Aviv, Israel<br />
Withdrawn<br />
Sleep Deprivation Impairs effective Connectivity<br />
During resting State<br />
Giovanni Piantoni 1 , Bing Leung Cheung 2 , Barry Van Veen 2 ,<br />
Nico Romeijn 1 , Brady Riedner 2 , Giulio Tononi 2 , Ysbrand<br />
Van Der Werf 1,3 , Eus J.W. Van Someren 1,4<br />
1 Netherlands Institute <strong>for</strong> Neuroscience, Amsterdam,<br />
Netherlands, 2 University of Wisconsin, Madison,<br />
WI, 3 VUmc University Medical Centre, Amsterdam,<br />
Netherlands, 4 VU University, Amsterdam, Netherlands<br />
Correlated fluctuations in vigilance and skin<br />
temperature: an erP study<br />
Jennifer Ramautar 1 , german gomez herrero 1,2 ,<br />
Nico Romeijn 1 , Eus van Someren 1,2<br />
1 Netherlands Institute <strong>for</strong> Neuroscience, Amsterdam,<br />
Netherlands, 2 Department of Integrative Neurophysiology,<br />
Center <strong>for</strong> Neurogenomics and Cognitive Research,<br />
Neuroscience Campus Amsterdam, VU University,<br />
Amsterdam, Netherlands<br />
measures of global brain dynamics define differences<br />
in neural state<br />
David Politte 1 , John Zempel 1 , Tracy Nolan 1 , Fred Prior 1 ,<br />
Linda Larson-Prior 1<br />
1 Washington University in St. Louis, St. Louis, MO<br />
HBM 2011 >> <strong>abstracts</strong> 87<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Physiology, Metabolism and<br />
Neurotransmission<br />
Cerebral Metabolism and Hemodynamic<br />
1039*<br />
1040*<br />
1041*<br />
1042<br />
1043<br />
The BOLD MRI post-stimulation undershoot in<br />
human primary motor cortex is not caused by elevated<br />
CBV, (O-W4)<br />
Peter Dechent 1 , Gunther Helms 1 , Dietmar Merboldt 2 ,<br />
Jens Frahm 2<br />
1 MR-Research in Neurology and Psychiatry,<br />
Universitymedicine Goettingen, Goettingen, Germany,<br />
2 Biomedizinische NMR Forschungs GmbH am MPI fuer<br />
biophysikalische Chemie, Goettingen, Germany<br />
Alteration in cerebral blood flow during a change in<br />
glycemic state., (O-W4)<br />
Peter Kochunov 1 , Monica Way 1 , Peter Fox 1 , Danny Wang 2 ,<br />
Paul Higgins 3 , Anthony Comuzzie 3 , Saroja Voruganti 3<br />
1 University Of Texas Health Science Center At San<br />
Antonio, san antonio, TX, 2 UCLA, Los Angeles, United<br />
States, 3 Southwest Foundation <strong>for</strong> Biomedical Research,<br />
san antonio, TX<br />
Cortical Depth-Dependent Temporal Dynamics of the<br />
BOLD Response in the <strong>Human</strong> <strong>Brain</strong>, (O-W4)<br />
Jeroen Siero 1,2,3 , Natalia Petridou 1,2,3 , Johannes<br />
Hoogduin 1,2,3 , Peter Luijten 2,3 , Nick Ramsey 1,2<br />
1 Rudolf Magnus Institute, Utrecht, Netherlands, 2 University<br />
Medical Center Utrecht, Utrecht, Netherlands, 3 Radiology,<br />
Utrecht, Netherlands<br />
The role of NAA and NAAG in brain activation:<br />
new insights revealed by fMRS<br />
Gabriela Castellano 1,2 , Li Min Li 3,2 , Carlos Dias 1,2 ,<br />
Bernd Foerster 4,2 , Roberto Covolan 1,2<br />
1 Neurophysics Group, Gleb Wataghin Physics Institute,<br />
University of Campinas - UNICAMP, Campinas - SP,<br />
Brazil, 2 CInAPCe Program (Cooperação Interinstitucional<br />
de Apoio a Pesquisas sobre o Cérebro), São Paulo State,<br />
Brazil, 3 Neurology Department, Medical Sciences School,<br />
University of Campinas - UNICAMP, Campinas - SP,<br />
Brazil, 4 Philips Medical Systems, São Paulo - SP, Brazil<br />
Non-invasive measure of oxygen consumption<br />
changes during cortical activation in<br />
premature neonates<br />
Nadege Roche-Labarbe 1 , Angela Fenoglio 2 , Harsha<br />
Radakrishnan 1 , Marcia Kocienski-Filip 3 , Andrea Surova 1 ,<br />
Stefan Carp 1 , David Boas 1 , Patricia Grant 2 , Maria Angela<br />
Franceschini 1<br />
1 Martinos Center <strong>for</strong> Biomedical Imaging, Boston, MA,<br />
2 Fetal-Neonatal Neuroimaging & Developmental Science<br />
Center, Children’s Hospital Boston, Boston, MA, 3 Newborn<br />
Medicine, Brigham and Women’s Hospital, Boston, MA<br />
88 HBM 2011 >> <strong>abstracts</strong><br />
1044<br />
1045<br />
1046<br />
Computation of the baseline Oxygen Extraction<br />
Fraction from combined BOLD-fMRI and NIRS<br />
measurements<br />
Louis Gagnon 1 , Meryem Yucel 2 , Katherine Perdue 3 ,<br />
Juliette Selb 2 , David Boas 1<br />
1 Martinos Center <strong>for</strong> Biomedical Imaging, MGH &<br />
Harvard-MIT Division of Health Sciences and Technology,<br />
Charlestown, MA, USA, 2 Martinos Center <strong>for</strong> Biomedical<br />
Imaging, MGH, Charlestown, MA, USA, 3 Martinos Center<br />
<strong>for</strong> Biomedical Imaging, MGH & Dartmouth College,<br />
Charlestown, MA, USA<br />
Relationship Between Cardiovascular Fitness and<br />
Cerebral Oxygenation in Young Adults<br />
Said Mekary 1 , Paul-Olivier Leclerc 2 , Claudine Gauthier 1 ,<br />
Laurence Desjardins-Crépeau 3 , Olivier Dupuy 1 , Laurent<br />
Bosquet 4 , Richard Hoge 1 , Louis Bherer 3<br />
1 Université de Montréal, Montréal, Canada, 2 École<br />
Polytechnique Montréal, Montréal, Canada, 3 Université<br />
du Québec à Montréal, Montréal, Canada, 4 Université de<br />
Poitiers, Poitiers, France<br />
Reliability of ASL Perfusion Measurements<br />
Cecilie Byholt Endresen 1 , Helene Hjelmervik 1 , Berge<br />
Osnes 1 , Kenneth Hugdahl 1,2 , Karsten Specht 1,3<br />
1 Department of Biological and Medical Psychology,<br />
University of Bergen, Bergen, Norway, 2 Division of<br />
Psychiatry, Haukeland University Hospital, Bergen,<br />
Norway, 3 Department of Clinical Engineering, Haukeland<br />
University Hospital, Bergen, Norway<br />
Physiology, Metabolism and<br />
Neurotransmission<br />
Neurophysiology of Imaging Signals<br />
1047*<br />
1048**<br />
Variability of the Electro-physiologic Hemodynamic<br />
Relationship Across Cortical Regions in <strong>Human</strong>s,<br />
(O-W4)<br />
Christopher Conner1 , Timothy Ellmore1 , Thomas Pieters1 ,<br />
Michael DiSano1 , Nitin Tandon1 1University of Texas Medical School at Houston,<br />
Houston, TX<br />
Induced visual gamma amplitude increases<br />
monotonically with stimulus size<br />
Krish Singh 1 , Gavin Perry 1 , Suresh Muthukumaraswamy 1 ,<br />
Lisa Brindley 1 , Panagiotis Covanis 1 , Khalid Hamandi 2<br />
1 CUBRIC, School of Psychology, Cardiff University,<br />
Cardiff, United Kingdom, 2 The Epilepsy Unit, University<br />
Hospital of Wales, Cardiff, United Kingdom
Physiology, Metabolism and Neurotransmission<br />
Neurophysiology of Imaging Signals, continued<br />
1049<br />
1050<br />
1051<br />
1052<br />
Negative BoLD/CBF responses are predicted by<br />
natural variations in erPs to a median nerve stimulus<br />
Karen Julia Mullinger 1 , Stephen Mayhew 2 , Andrew<br />
Bagshaw 3 , Richard Bowtell 1 , Susan Francis 1<br />
1 University of Nottingham, Nottingham, United Kingdom,<br />
2 University of Birmingham, Birimingham, United Kingdom,<br />
3 University of Birmingham, Birmingham, United Kingdom<br />
explaining suppression of the default network during<br />
cognitive per<strong>for</strong>mance: effects of respiration<br />
Willem Huijbers 1,2 , Cyriel Pennartz 1 , Ewa Beldzik 3,1 ,<br />
Aleksandra Domagalik 3,1 , Martin Vinck 1 , Winni Hofman 1 ,<br />
Roberto Cabeza 4 , Sander Daselaar 4,1<br />
1 University of Amsterdam, Amsterdam, Netherlands,<br />
2 Harvard University, Boston, MA, 3 Jagiellonian University,<br />
Krakow, Poland, 4 Duke University, Durham, NC<br />
Spatiotemporal correlation between BoLD and<br />
electrophysiology in language function<br />
Dora Hermes 1 , Kai Miller 2 , Mariska Vansteensel 3 , Cyrille<br />
Ferrier 3 , Martin Bleichner 3 , Erik Aarnoutse 3 , Nick Ramsey 4<br />
1 Rudolf Magnus Institute of Neuroscience, 2 Department<br />
of Neurobiology and Behavior, University of Washington,<br />
Seattle, WA, 3 Rudolf Magnus Institute of Neuroscience,<br />
Utrecht, Netherlands, 4 Rudolf Magnus Institute of<br />
Neuroscience, UMC Utrecht, Utrecht, Netherlands<br />
a generalized procedure <strong>for</strong> calibrated mrI<br />
incorporating hyperoxia and hypercapnia<br />
Claudine Gauthier 1,2 , Richard Hoge 3,2<br />
1 Université de Montréal, Physiology/Biomedical<br />
Engineering Department, Montreal, Canada, 2 CRIUGM,<br />
Montreal, Canada, 3 Université de Montréal, Physiology/<br />
Biomedical Engineering, Montreal, Canada<br />
Physiology, Metabolism and<br />
Neurotransmission<br />
Pharmacology and Neurotransmission<br />
1053<br />
1054<br />
understanding the effects of ketamine on the brain:<br />
combining BoLD phmrI, CBF and subjective ratings<br />
Sara De Simoni 1 , Owen O’Daly 1 , Fernando Zelaya 1 ,<br />
Adam Schwarz 2 , Stephanie Stephenson 1 , Steven<br />
Williams 1 , Mitul Mehta 1<br />
1 King’s College London, London, United Kingdom,<br />
2 Eli Lilly and Company, Indianapolis, United States<br />
modulation of resting State Networks by Zolpidem<br />
using a group ICa with Dual regression analysis<br />
Lisa Nickerson 1,2 , Steven Lowen 1,2 , George Trksak 1,2 ,<br />
Scott Lukas 1,2 , Stephanie Licata 1,2<br />
1 McLean Hospital, Belmont, MA, 2 Harvard Medical<br />
School, Boston, MA<br />
1055<br />
1056<br />
1057<br />
1058<br />
Blocking Cholinergic activity Differentially modulates<br />
encoding based on attended Stimulus Features<br />
Maura Furey 1 , Andrew Speer 2 , Elana Hoffman 2 ,<br />
Carlos Zarate 2 , Wayne Drevets 3<br />
1 Experimental Therapeutics and Pathophysiology Branch,<br />
NIH/NIMH, Bethesda, MD, 2 NIMH/NIH, Bethesda, MD,<br />
3 Laureate Institute <strong>for</strong> <strong>Brain</strong> Research, Tulsa, OK<br />
restingstate alterations under antidepressant<br />
treatment: Bupropion and Paroxetine versa Placebo<br />
Coraline Metzger 1 , Heiko Graf 2 , Dorothea Irene Horn 1 ,<br />
Antonie Hartmann 2 , Georg Grön 2 , Angela Seeringer 3 ,<br />
Julia Stingl 3 , Martin Walter 1 , Birgit Abler 2<br />
1 Clinical Affective Neuroimaging Laboratory, Department<br />
of Psychiatry, Otto-von-Guericke University, Magdeburg,<br />
Germany, 2 Department of Psychiatry, University of Ulm,<br />
Ulm, Germany, 3 Institute of Pharmacology of Natural<br />
Products & Clinical Pharmacology, University of Ulm,<br />
Ulm, Germany<br />
Cholinergic enhancement modulates Neural activity<br />
on Large Scale representations of Faces and Houses<br />
Giacomo Handjaras 1 , Emiliano Ricciardi 1,2 ,<br />
James Haxby 3 , Pietro Pietrini 1,2 , Maura Furey 4<br />
1 Laboratory of Clinical Biochemistry and Molecular<br />
Biology, University of Pisa, Pisa, Italy, 2 Department of<br />
Laboratory Medicine and Molecular Diagnostics,<br />
Azienda Ospedaliero Universitaria Pisana, Pisa, Italy,<br />
3 Department of Psychological & <strong>Brain</strong> Sciences,<br />
Dartmouth College, Hanover, NH, 4 Experimental<br />
Therapeutics and Pathophysiology Branch, NIH/NIMH,<br />
Bethesda, MD<br />
Cingulate histology and glutamate mrS predict<br />
ketamine effects on its functional rs-connectivity<br />
Martin Walter 1 , Milan Scheidegger 2,3 , Coraline Metzger 1 ,<br />
Alexander Fuchs 4 , Heinz Boeker 3 , Erich Seifritz 5 ,<br />
Peter Boesiger 2 , Anke Henning 2 , Simone Grimm 6,3<br />
1 Clinical Affective Neuroimaging Laboratory, Department<br />
of Psychiatry, Otto-von-Guericke University, Magdeburg,<br />
Germany, 2 Institute <strong>for</strong> Biomedical Engineering, ETH<br />
Zurich, Zurich, Switzerland, 3 Clinic of Affective Disorders<br />
and General Psychiatry, Psychiatric University Hospital<br />
Zurich, Zurich, Switzerland, 4 Institute <strong>for</strong> Biomedical<br />
Engineering, ETH Zurich, Zurich, Switzerland, Zurich,<br />
Switzerland, 5 Clinic <strong>for</strong> Affective Disorders and<br />
General Psychiatry, Psychiatric Hospital Zurich, Zurich,<br />
Switzerland, 6 Cluster Languages of Emotion, Freie<br />
Universität Berlin, Berlin, Germany<br />
1059 role of the cholinergic system <strong>for</strong> rhythmic human<br />
brain activity in a spatial visual attention task<br />
Markus Bauer 1 , Christian Kluge 1 , Dominik Bach 1 ,<br />
Raymond Dolan 1 , Jon Driver 1<br />
1 Wellcome Trust Centre <strong>for</strong> Neuroimaging, UCL,<br />
London, United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 89<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Social Neuroscience<br />
Self Processes<br />
1060* experienced meditators reveal State and Trait<br />
Changes In Default-mode activity and<br />
Connectivity, (o-Th4)<br />
Judson Brewer1 , Hedy Kober1 , Patrick Worhunsky1 ,<br />
Jeremy Gray2 , Jochen Weber3 1Yale University School of Medicine, New Haven, CT,<br />
2 3 Yale University, New Haven, CT, Columbia University,<br />
New York, NY<br />
1061*<br />
1062**<br />
1063**<br />
1064<br />
1065<br />
1066<br />
a 7T fmrI study on primary somatosensory cortex<br />
activity during observed touch of self and others,<br />
(o-Th4)<br />
Esther Kuehn 1 , Robert Trampel 1 , Karsten Mueller 1 ,<br />
Robert Turner 1 , Simone Schuetz-Bosbach 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
“Increased connectivity of emotional brain systems<br />
after criticism in neurotic women ”<br />
M.N. Servaas 1 , H. Riese 2 , R.J. Renken 1 , J. Ormel 2 ,<br />
A. Aleman 1<br />
1 Neuroimaging Center, RuG and UMC Groningen,<br />
Groningen, Netherlands, 2 Interdisciplinary Center <strong>for</strong><br />
Psychiatric Epidemiology (ICPE), UMC Groningen,<br />
Groningen, Netherlands<br />
effects of a reattribution Training on Neural Correlates<br />
of Feedback Processing in Children<br />
Jale Özyurt 1 , Andrea Anschütz 2 , Barbara Moschner 2 ,<br />
Ilka Parchmann 3 , Sascha Bernholt 3 , Christiane Thiel 1<br />
1 Biological Psychology Lab, Department of Psychology,<br />
Carl von Ossietzky University, Oldenburg, Germany,<br />
2 Department of Educational Sciences, Carl von Ossietzky<br />
University, Oldenburg, Germany, 3 Leibniz Institute of<br />
Sciences and Mathematics Education, Department of<br />
Chemistry Education, Kiel, Germany<br />
Self-concept threat priming modulates self-face<br />
recognition - an erP study<br />
Chenbo Wang 1 , Yina Ma 2 , Shaojuan Yang 2 , Shihui Han 2<br />
1 Peking University, 2 Peking University, Beijing, China<br />
graceful or heroic? - The cerebral substrates of<br />
gender stereotypes during self-evaluation<br />
Katharina Pauly1,2 , Anita Wojnar1 , Lena Hünefeld3 ,<br />
Frank Schneider1,2 , Heather Hofmeister3 , Ute Habel1,2 1RWTH Aachen University, Department of Psychiatry,<br />
Psychotherapy and Psychosomatics, Medical School,<br />
Aachen, Germany, 2JARA-BRAIN Research Alliance,<br />
Translational <strong>Brain</strong> Medicine, Jülich - Aachen, Germany,<br />
3RWTH Aachen University, Department of Sociology,<br />
Aachen, Germany<br />
Culture seen with death in mind<br />
Verena Graupmann 1 , Isabella Peres 2,1 , Tonia Michaely 1 ,<br />
Thomas Meindl 1 , Dieter Frey 1 , Kai Fehse 1 , Evgeny<br />
Gutyrchik 1<br />
1 Ludwig Maximilian University, Munich, Germany,<br />
2 Institute of Medical Psychology, Munich, Germany<br />
90 HBM 2011 >> <strong>abstracts</strong><br />
1067<br />
1068<br />
1069<br />
Neural correlates of mental ef<strong>for</strong>t evaluation –<br />
The involvement of the anterior Insular Cortex<br />
Tobias Otto1 , Fred Zijlstra2 , Rainer Goebel2 1 2 Maastricht University, Maastricht University, Maastricht,<br />
Netherlands<br />
altered Visual and auditory Processing in Sunyata<br />
meditation: a combined NIrS and eeg experiment<br />
Michael Erb 1 , Ann-Christine Ehlis 2 , Lena Ernst 3 ,<br />
Van-Hung Nguyen Quang Chieu 4 , Master Thich Thong<br />
Triet 5 , Andreas Fallgatter 3 , Ranganatha Sitaram 6<br />
1 Universtity Hospital Tuebingen, Tuebingen, Germany,<br />
2 University of Tuebingen, Department of Psychiatry and<br />
Psychotherapy, Tuebingen, Germany, 3 Psychophysiology<br />
and Optical Imaging, University Hospital Tuebingen,<br />
Tuebingen, Germany, 4 ōōnyatō Meditation Stuttgart,<br />
Stuttgart, Germany, 5 ōōnyatō Meditation Center Perris,<br />
Riverside, CA, 6 Institute of medical psychology and<br />
behavioral neurobiology, Tuebingen, Germany<br />
Where is the self in the midline regions?<br />
Pengmin Qin 1 , Xuchu Weng 2 , Georg Northoff 1<br />
1 University of Ottawa Institute of Mental Health Research,<br />
Ottawa, Canada, 2 Institute of Psychology, Chinese<br />
Acadamey of Sciences, Beijing, China<br />
Social Neuroscience<br />
Social Cognition<br />
1070*<br />
1071**<br />
1072<br />
The effects of oxytocin on the neural correlates of<br />
paternal attachment, (o-Th4)<br />
Dina Schardt 1,2 , Johanna Gründing 1,2 , Matthias Wittfoth 3,2 ,<br />
Anna Buchheim 4 , Heinrich Lanfermann 5,2 , Harald Gündel 6 ,<br />
Christiane Waller 6<br />
1 Institute of Neuroradiology, Hannover Medical School,<br />
Hannover, Germany, 2 NICA- Neuroimaging and Clinical<br />
Applications, Hannover, Germany, 3 Department of<br />
Neurology, Hannover Medical School, Hannover,<br />
Germany, 4 Department of Psychology, Clinical<br />
Psychology, University of Innsbruck, Innsbruck, Austria,<br />
5 Institue of Neuroradiology, Hannover Medical School,<br />
Hannover, Germany, 6 Department of Psychosomatic<br />
Medicine, University Clinic Ulm, Ulm, Germany<br />
Political orientation relates to structural brain<br />
volume differences<br />
Andries van der Leij 1 , Ap Dijksterhuis 2 , Rick Van Baaren 2 ,<br />
Victor Lamme 1 , H. Steven Scholte 1<br />
1 University of Amsterdam, Amsterdam, Netherlands,<br />
2 Radboud University Nijmegen, Nijmegen, Netherlands<br />
The modular neuroarchitecture of social judgments<br />
on faces<br />
Danilo Bzdok 1 , Robert Langner 1 , Karl Zilles 2 ,<br />
Simon Eickhoff 1<br />
1 Department of Psychiatry and Psychotherapy, Aachen,<br />
Germany, 2 Institute of Neuroscience and Medicine,<br />
Juelich, Germany
Social Neuroscience<br />
Social Cognition, continued<br />
1073<br />
1074<br />
1075<br />
1076<br />
1077<br />
1078<br />
a multivariate searchlight approach in fmrI to the<br />
neural processing of social traits from voices<br />
Phil McAleer 1 , Marianne Latinus 1 , Patricia E. G.<br />
Bestelmeyer 1 , Kate Sully 2 , Marc Becirspahic 2 ,<br />
Frances Crabbe 1 , Alex Todorov 3 , Pascal Belin 1,4<br />
1 Institute of Neuroscience and Psychology, University<br />
of Glasgow, Glasgow, United Kingdom, 2 School of<br />
Psychology, University of Glasgow, Glasgow, United<br />
Kingdom, 3 Department of Psychology and Center <strong>for</strong> the<br />
Study of <strong>Brain</strong>, Mind and Behavior, Princeton University,<br />
New Jersey, U.S.A, 4 Laboratory <strong>for</strong> <strong>Brain</strong>, Music and<br />
Sound (BRAMS), Université de Montréal and McGill<br />
University, Quebec, Canada<br />
autism-associated genetic variation in the oxytocin<br />
system impacts social processing<br />
Carina Sauer 1 , Christian Montag 2 , Christiane Wörner 1 ,<br />
André Spachmann 1 , Daniela Mier 1 , Peter Kirsch 1 ,<br />
Martin Reuter 2<br />
1 Central Institute of Mental Health, Mannheim, Germany,<br />
2 University of Bonn, Bonn, Germany<br />
Intrinsic <strong>Brain</strong> Functional Dynamics reflect relative<br />
Strength in affective or Cognitive empathy<br />
Christine Cox1 , Lucina Uddin2 , Adriana Di Martino1 ,<br />
F. Xavier Castellanos1,3 , Michael Milham1,3 , Clare Kelly1 1Phyllis Green and Randolph Cowen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
NY, 2Department of Psychiatry and Behavioral Sciences,<br />
Stan<strong>for</strong>d University School of Medicine, Stan<strong>for</strong>d, CA,<br />
3Nathan S. Kline Institute <strong>for</strong> Psychiatric Research,<br />
Orangeburg, NY<br />
Who are you angry with? The influence of<br />
self-relevance on anger processing<br />
Julie GREZES 1 , Lydia Pouga 1 , Michèle Chadwick 1 ,<br />
Marie-Sarah Adenis 1 , Jorge Armony 2<br />
1 INSERM U960 - ENS, Paris, France, 2 Douglas Institute,<br />
McGill University, Montreal, Canada<br />
minds at rest – revisited<br />
Leonhard Schilbach 1,2 , Kai Vogeley 1 , Peter Fox 3 ,<br />
Angela Laird 3 , Simon Eickhoff 4,5<br />
1 Department of Psychiatry, University of Cologne,<br />
Cologne, Germany, 2 Max-Planck-Institute <strong>for</strong> Neurological<br />
Research, Cologne, Germany, 3 Research Imaging<br />
Center, UT Health Science Center, San Antonio, TX,<br />
4 University Hospital Aachen, Aachen, Germany, 5 Institute<br />
of Neuroscience and Medicine, Research Center Juelich,<br />
Juelich, Germany<br />
your Flaws are my Pain: on the Neural Basis of<br />
Vicarious embarrassment<br />
Frieder Paulus1 , Christopher Cohrs2 , Jens Sommer1 ,<br />
Andreas Jansen1 , Tilo Kircher3 , Sören Krach1 1Department of Psychiatry, Section of <strong>Brain</strong>Imaging,<br />
Philipps-University Marburg, Marburg, Germany, 2School of Psychology, Queen’s University Belfast, Belfast, Ireland,<br />
3Department of Psychiatry, Philipps-University Marburg,<br />
Marburg, Germany<br />
1079<br />
1080<br />
1081<br />
1082<br />
1083<br />
Police Culture Inhibit the empathy <strong>Brain</strong> related<br />
activity in Women: a Neuro-ethnographical Proposal<br />
Roberto Mercadillo 1 , Jose luis Diaz 2 , Sarael Alcauter 3 ,<br />
Fernando Barrios 4<br />
1 Universidad Nacional Autonoma de Mexico,<br />
QUERETARO, MEX, 2 School of Medicine, UNAM, MEXICO<br />
D.F., 3 Instituto Nacional de Psiquiatria, INPRF, MEXICO<br />
D.F., 4 Universidad Nacional Autonoma de Mexico,<br />
QUERETARO, QRO<br />
meg responses to social attention and emotional<br />
expression cues from seen dynamic interacting faces<br />
José Luis Ulloa Fulgeri 1,2,3 , Aina Puce 4 , Laurent<br />
Hugueville 1,2,3 , Nathalie George 1,2,3<br />
1 CNRS, UMR 7225, CRICM, Paris, France, 2 Inserm U 975,<br />
Paris, France, 3 Université Pierre et Marie Curie-Paris 6,<br />
Paris, France, 4 Department of Psychological and <strong>Brain</strong><br />
Sciences, Indiana University, Bloomington, IN<br />
effects of Female Sex Hormones on the BoLD<br />
response to Faces<br />
Klara Mareckova 1,2 , Jennifer Perrin 3 , Irum Nawaz Khan 2 ,<br />
Tomas Paus 4<br />
1 Rotman Research Institute, Toronto, Canada, 2 University<br />
of Nottingham, Nottingham, United Kingdom, 3 University<br />
of Aberdeen, Aberdeen, United Kingdom, 4 Rotman<br />
Research Institute, University of Toronto, Toronto, Canada<br />
empathy modulates mirror system recruitment in<br />
sighted and congenitally blind individuals<br />
Daniela Bonino 1 , Emiliano Ricciardi 1,2,3 , Mario Guazzelli 4 ,<br />
Pietro Pietrini 1,2<br />
1 Laboratory of Clinical Biochemistry and Molecular<br />
Biology, University of Pisa, Pisa, Italy, 2 Department of<br />
Laboratory Medicine and Molecular Diagnostics, Azienda<br />
Ospedaliero Universitaria Pisana, Pisa, Italy, 3 MRI Lab,<br />
Fondazione Regione Toscana/CNR “G.Monasterio”, Pisa,<br />
Italy, 4 Clinial Psychology Chair, University of Pisa,<br />
Pisa, Italy<br />
rein<strong>for</strong>cement learning signals during the instruction<br />
of learners<br />
Matthew Apps1 , Elise Lesage2 , Narender Ramnani3 1Royal Holloway, University of London, London, UK,<br />
2University of Birmingham, Birmingham, United Kingdom,<br />
3Royal Holloway University of London, Egham, United<br />
Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 91<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Social Neuroscience<br />
Social Cognition, continued<br />
1084<br />
1085<br />
1086<br />
1087<br />
1088<br />
Personality of male adolescents predicts functional<br />
connectivity while viewing social stimuli<br />
Erin Dickie 1 , Amir Tahmasebi 1 , Natasa Kovacevic 1 ,<br />
E Artiges 2 , Tobias Banaschewski 3 , Gareth Barker 4 ,<br />
Ruediger Bruehl 5 , Christian Büchel 6 , Patricia Conrod 4 ,<br />
Herta Flor 7 , Hugh Garavan 8 , Juergen Gallinat 9 , Andreas<br />
Heinz 9 , Bernd Ittermann 5 , Eva Loth 4 , Klara Mareckova 1 ,<br />
Anthony McIntosh 1 , Jean-Luc Martinot 10 , Jean Baptiste<br />
Poline 11 , Marcella Rietschel 7 , Michael Smolka 12 ,<br />
Andreas Ströhle 9 , Gunter Schumann 4 , Tomas Paus 1,13,14 ,<br />
the IMAGEN Consortium 4<br />
1 Rotman Research Institute, University of Toronto,<br />
Toronto, Canada, 2 AP-HP Department of Adolescent<br />
Psychopathology and Medicine, Maison de Solenn,<br />
Cochin Hospital, Paris, France, 3 Department of Child and<br />
Adolescent Psychiatry, Central Institute of Mental Health,<br />
Mannheim, Germany, 4 Institute of Psychiatry, King’s<br />
College London, London, United Kingdom, 5 Physikalisch-<br />
Technische Bundesanstalt, Berlin, Germany, 6 University<br />
Medical Center Hamburg-Eppendorf, Hamburg,<br />
Germany, 7 Central Institute of Mental Health, Mannheim,<br />
Germany, 8 Trinity College Dublin, Dublin, Ireland,<br />
9 Department of Psychiatry and Psychotherapy, Campus<br />
Charité, Universitätsmedizin Berlin, Berlin, Germany,<br />
10 Institut National de la Santé et de la Recherche<br />
Médicale, Paris, France, 11 CEA-I2BM-Neurospin,<br />
12 Technische Universität Dresden, Dresden, Germany,<br />
13 School of Psychology, University of Nottingham,<br />
Nottingham, United Kingdom, 14 Montreal Neurological<br />
Institute, Montreal, Canada<br />
Neural oscillations of Interpersonal Coordination:<br />
an meg Study<br />
I Konvalinka 1 , M Bauer 2 , J Kilner 2 , A Roepstorff 3 , C Frith 2<br />
1 Aarhus University / UCL, Aarhus, Denmark, 2 UCL,<br />
London, United Kingdom, 3 Aarhus University, Aarhus,<br />
Denmark<br />
Different neural substrates engage in bottom-up and<br />
top-down contextual event simulation<br />
Yukihito Yomogida 1,2 , Motoaki Sugiura 1 , Yoritaka Akimoto 1 ,<br />
Carlos Makoto Miyauchi 1 , Ryuta Kawashima 3,1<br />
1 IDAC, Tohoku University, Sendai, Japan, 2 JSPS, Tokyo,<br />
Japan, 3 SAIRC, Tohoku University, Sendai, Japan<br />
abstract Social Intentions: an fmrI study about<br />
imitation of social gestures<br />
Alessandra Ghinato Mainieri 1,2 , Stefan Heim 3 ,<br />
Benjamin Straube 4 , Tilo Kircher 4<br />
1 Department of Psychiatry, Psychotherapy and<br />
Psychosomatics, RWTH Aachen University,<br />
Aachen,Germany, 2 JARA - Translational <strong>Brain</strong> Medicine,<br />
Aachen, Germany, 3 Department of Psychiatry,<br />
Psychotherapy and Psychosomatics, RWTH Aachen<br />
University, Aachen, Germany, 4 Department of Psychiatry<br />
und Psychotherapy, Philipps-University Marburg,<br />
Marburg, Germany<br />
Neural substrates of causal attribution of animated<br />
social behaviors<br />
Shihui Han 1<br />
1 Peking University, Beijing, China<br />
92 HBM 2011 >> <strong>abstracts</strong><br />
1089<br />
1090<br />
1091<br />
1092<br />
1093<br />
1094<br />
1095<br />
<strong>Human</strong>ized perception of potential victims in moral<br />
dilemmas recruits empathy-related brain areas<br />
Jasminka Majdandzic 1,2 , Christian Windischberger 2 ,<br />
Christian Langer 3 , Ewald Moser 2 , Herbert Bauer 1 ,<br />
Claus Lamm 1<br />
1 Social, Cognitive and Affective Neuroscience Unit,<br />
Faculty of Psychology, University of Vienna, Austria,<br />
2 MR Centre of Excellence, Medical University of Vienna,<br />
Austria, 3 Austrian Federal Ministry of Defence and Sports,<br />
Vienna, Austria<br />
Degree of perceived irony modulates amygdala<br />
activity: fmrI evidence<br />
Yoritaka Akimoto 1 , Motoaki Sugiura 1 , Yukihito Yomogida 1 ,<br />
Carlos Makoto Miyauchi 1 , Shiho Miyazawa 2 ,<br />
Ryuta Kawashima 3<br />
1 IDAC, Tohoku University, Sendai, Japan, 2 Graduate<br />
School of Medicine, Tohoku University, Sendai, Japan,<br />
3 SAIRC, IDAC, TOHOKU UniV, Sendai, Japan<br />
Individual Difference in Cognitive Processes during<br />
Thinking: an fmrI Study on “Who’s Done It” Task<br />
Motoaki Sugiura 1 , Yukihito Yomogida 1,2 , Yoko Mano 1 ,<br />
Atsushi Sekiguchi 1 , Toshimune Kambara 1,2,3 ,<br />
Ryuta Kawashima 1<br />
1 IDAC, Tohoku University, Sendai, Japan, 2 JSPS, Tokyo,<br />
Japan, 3 IIARE, Tohoku University, Sendai, Japan<br />
effect of empathic concern induction on neural<br />
responses during decisions in the ultimatum game<br />
Patrick Williams 1 , Jorge Barraza 1 , Paul Zak 1 ,<br />
Michael Spezio 2<br />
1 Claremont Graduate University, Claremont, CA,<br />
2 Scripps College, Claremont, CA<br />
The effect of visual perspective on the somatosensory<br />
excitability during pain observation<br />
Dora Linsey Canizales 1,2,3 , Pierre-Emmanuel Michon 2 ,<br />
Julien Voisin 2 , Michel-Pierre Coll 2,3 , Marc-André Roy 1 ,<br />
Philip Jackson 2<br />
1 Centre de recherche Université Laval Robert Giffard,<br />
Québec, Canada, 2 Centre Interdisciplinaire de Recherche<br />
en Réadaptation et Intégration Sociale, Québec, Canada,<br />
3 École de psychologie, Université Laval, Québec, Canada<br />
Temporal Components of Chinese Kinship<br />
representation: an erP Study<br />
Yue Ge 1 , Chunliang Feng 1 , Honghong Tang 1 ,<br />
Yue-Jia Luo 1 , Chao Liu 1<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing, China<br />
I know what you’ll feel: affective mentalizing in<br />
alexithymia, an fmrI Study<br />
Katharina Goerlich 1,2 , Andre Aleman 1 , Christine Hooker 2<br />
1 Neuroimaging Center, University of Groningen,<br />
Groningen, Netherlands, 2 Department of Psychology,<br />
Harvard University, Cambridge, MA
Social Neuroscience<br />
Social Cognition, continued<br />
1096<br />
1097<br />
1098<br />
1099<br />
emotion regulation Skills modulate the BoLD<br />
response to empathy <strong>for</strong> Pain<br />
Denise Dörfel 1,2 , Anke Karl 3 , Peter Richter 2 ,<br />
Annett Werner 4 , Gabriele Buruck 2<br />
1 Divison of Mind and <strong>Brain</strong> Research, Charitè<br />
Universitätsmedizin Berlin, Berlin, Germany, 2 Technische<br />
Universität Dresden, Department of Psychology, Work<br />
and <strong>Organization</strong>al Psychology, Dresden, Germany,<br />
3 University of Exeter, School of Psychology, Clinical<br />
Psychology, Exeter, United Kingdom, 4 Technische<br />
Universität Dresden, University Hospital Carl Gustav<br />
Carus, Department Neuroradiology, Dresden, Germany<br />
activity of mirror neuron system when observing<br />
unnatural actions of a Cg character<br />
Kazuma Oki 1 , Sotaro Shimada 2<br />
1 Meiji University, Japan, 2 Meiji University, Japan<br />
Differences of brain activities in perspective-taking<br />
with presented emotional situations<br />
Momo Kim 1 , Seungbok Lee 1 , Eunae Lee 1 , Jungwoo Son 2<br />
1 Department of Psychology, Chungbuk National<br />
University, Cheongju, Korea, Republic of, 2 Department of<br />
Neuropsychiatry, College of Medicine, Chungbuk National<br />
University, Cheongju, Korea, Republic of<br />
<strong>Brain</strong> activities during Judged Congruent Situation or<br />
Not on Social Perception;a preliminary study<br />
YoungSeok Shin 1 , Jae-Jin Kim 2 , Soo Hee Choi 3 ,<br />
Jinsick Park 1 , Kang Jun Yoon 4 , Hyeongrae Lee 1 ,<br />
Je Yeon Lee 1 , In Young Kim 1 , Sun I. Kim 1 , Yohan Son 1<br />
1 Hanyang University, Seoul, Korea, Republic of, 2 Institute<br />
of Behavioral Science in Medicin, Yonsei University<br />
College of Medicine, Seoul, Korea, Republic of,<br />
3 Department of Psychiatry, Yonsei University College of<br />
Medicine, Seoul, Korea, Republic of, 4 St. Peter’s Hospital,<br />
Seoul, Korea, Republic of<br />
Social Neuroscience<br />
Social Interaction<br />
1100*<br />
1101<br />
Decoding inter-individual relations from spatial<br />
similarity of brain activity, (o-Th4)<br />
Silke Anders 1 , John-Dylan Haynes 2 , Thomas Ethofer 3<br />
1 University of Luebeck, Luebeck, Germany, 2 Bernstein<br />
Center <strong>for</strong> Computational Neuroscience Charité -<br />
Universitätsmedizin, Berlin, Berlin, Germany, 3 Department<br />
of General Psychiatry, University of Tübingen,<br />
Tuebeingen, Germany<br />
Joint attention between individuals with normal and<br />
autism spectrum disorders using dual fmrI<br />
Hiroki Tanabe 1,2 , Hirotaka Kosaka 3 , Daisuke Saito 1,3 ,<br />
Toshio Munesue 4 , Hidehiko Okazawa 3 , Yuji Wada 3 ,<br />
Norihiro Sadato 1,2<br />
1 National Institute <strong>for</strong> Physiological Sciences, Okazaki,<br />
Aichi, Japan, 2 The Graduate University <strong>for</strong> Advanced<br />
Studies, Okazaki, Aichi, Japan, 3 University of Fukui,<br />
Eiheiji, Fukui, Japan, 4 Kanazawa University, Kanazawa,<br />
Ishikawa, Japan<br />
1102*<br />
1103**<br />
1104<br />
1105<br />
1106<br />
1107<br />
Imaging the social brain: a simultaneous multi-subject<br />
eeg hyperconnectivity study, (o-Th4)<br />
Laura Astolfi 1 , Fabrizio De Vico Fallani 1 , Jlenia Toppi 1 ,<br />
Febo Cincotti 2 , Christopher Wilke 3 , Han Yuan 3 , Alexander<br />
Doud 3 , Serenella Salinari 4 , Donatella Mattia 2 , Bin He 3 ,<br />
Fabio Babiloni 1<br />
1 University of Rome “ Sapienza” and Fondazione Santa<br />
Lucia IRCCS, Rome, Italy, 2 IRCCS Fondazione Santa<br />
Lucia, Rome, Italy, 3 University of Minnesota, Minneapolis,<br />
MN, United States, 4 University of Rome ‘Sapienza’,<br />
Rome, Italy<br />
Development of real-time mapping system <strong>for</strong><br />
interpersonal synchrony during hyperscan fmrI<br />
Chang-Won Jang 1,2 , Sunghyon Kyeong 1,2 , Dongha Lee 1,2 ,<br />
Hae-Jeong Park 1,2<br />
1 <strong>Brain</strong> Korea 21 Project <strong>for</strong> Medical Science, Yonsei<br />
University College of Medicine, SEOUL, Republic Of<br />
Korea, 2 Department of Radiology and Division of Nuclear<br />
Medicine, Yonsei University College of Medicine, SEOUL,<br />
Korea, Republic of<br />
The interpersonal interaction in a competitive Tetris<br />
game under implicit and explicit conditions<br />
Yun-An Huang1 , Tai-Li Chou2 , Keng-Chen Liang2 ,<br />
Jyh-Horng Chen3 1Dept. of Electrical Engineering, National Taiwan<br />
University, Taipei, Taiwan, 2Dept. of Psychology, National<br />
Taiwan University, Taipei, Taiwan, Republic of China,<br />
3National Taiwan University, Taipei, Taiwan, Republic of<br />
China<br />
Neural correlates of impulsivity in males with high<br />
and low trait aggressiveness<br />
Christina Pawliczek 1 , Birgit Derntl 2 , Thilo Kellermann 3 ,<br />
Ruben Gur 4 , Ute Habel 5<br />
1 Aachen, Germany, 2 University of Vienna, Vienna, Austria,<br />
3 RWTH Aachen University, Aachen, Germany, 4 University<br />
of Pennsylvania, Philadelphia, PA, 5 University of Aachen,<br />
Aachen, Germany<br />
Neural Correlates of Social Norm Compliance in<br />
Forensic Patients with Psychopathic Traits<br />
Leila Haddad 1 , Harald Dressing 2 , Daniela Mier 3 ,<br />
Ernst Fehr 4 , Andreas Meyer-Lindenberg 5 , Peter Kirsch 6<br />
1 Central Institute of Mental Health Mannheim,<br />
2 central Institute of Mental Health, Mannheim, Germany,<br />
3 Department of Clinical Psychology, Central Institute of<br />
Mental Health, Mannheim, Germany, 4 University of Zurich,<br />
Zurich, Switzerland, 5 Central Institute of Mental Health,<br />
6 Central Institute of Mental Health, Mannheim, Germany<br />
Spatial attention and response bias modulates<br />
oscillations during movement observation:<br />
a meg study<br />
Heng-Ru May Tan 1 , Hartmut Leuthold 2 , Joachim Gross 3<br />
1 University of Glasgow, GLASGOW, United Kingdom,<br />
2 University of Glasgow, Glasgow, United Kingdom,<br />
3 Glasgow, United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 93<br />
> > Monday, June 27: 13:00 – 15:30 (even numbers)<br />
> > Tuesday, June 28: 13:15 – 15:45 (odd numbers)
Social Neuroscience<br />
Social Interaction, continued<br />
1108<br />
1109<br />
1110<br />
1111<br />
1112<br />
1113<br />
1114<br />
Neural basis of interactive behaviour<br />
Bianca Backasch 1 , Benjamin Straube 1 , Martin Pyka 1 ,<br />
Kircher Tilo 1 , Dirk Leube 2<br />
1 Department of Psychiatry und Psychotherapy,<br />
Philipps-University Marburg, Marburg, Germany,<br />
2 Department of Psychiatry and Psychotherapy,<br />
Philipps-University, Marburg, Germany<br />
Schizophrenia, social emotional processing and<br />
the role of the left ventrolateral prefrontal cortex<br />
Lisette Van Der Meer 1 , Marieke Pijnenborg 2 , Willem<br />
Nolen 3 , Andre Aleman 4<br />
1 BCN Neuroimaging Center, Groningen, Netherlands,<br />
2 Rijksuniversiteit Groningen, Groningen, Netherlands,<br />
3 University Medical Center Groningen, Groningen,<br />
Netherlands, 4 BCN NeuroImaging Center, Groningen,<br />
Netherlands<br />
Neural substrates of social approach and avoidance<br />
Birgit Derntl 1,2 , Eva-Maria Seidel 2 , Simon Eickhoff 2 , Thilo<br />
Kellermann 2 , Ruben Gur 3 , Frank Schneider 2 , Ute Habel 2<br />
1 University of Vienna, Vienna, Austria, 2 RWTH Aachen<br />
University, Department of Psychiatry, Psychotherapy<br />
and Psychosomatics, Aachen, Germany, 3 University of<br />
Pennsylvania, Philadelphia, PA<br />
Neural Correlates of risk and ambiguity in<br />
Social Decision-making<br />
Nina Lauharatanahirun 1 , George Christopoulos 2 ,<br />
Stephanie Regan 3 , Brooks King-Casas 2,4,5<br />
1 Virginia Tech Carilion Research Institute, Roanoke, VA,<br />
2 Virginia Tech Carilion Research Institute, Roanoke,<br />
VA, 3 Harvard University, Boston, MA, 4 Department of<br />
Psychology, Virginia Tech, Blacksburg, VA, 5 Salem<br />
Veteran Affairs Medical Center, Salem, VA<br />
Directed altruism induced by “warm-glow” through<br />
empathy: an fmrI study<br />
Hiroaki Kawamichi 1 , Hiroki Tanabe 2 , Haruka Takahashi 3 ,<br />
Koji Shimada 3 , Norihiro Sadato 2<br />
1 National Insutitue <strong>for</strong> Physiological Sciences, Okazaki,<br />
Aichi, Japan, 2 National Institute For Physiological<br />
Sciences, Okazaki, Aichi, Japan, 3 The Graduate<br />
University <strong>for</strong> Advanced Studies, Okazaki, Aichi, Japan<br />
<strong>Brain</strong> responses to Social exclusion by Same and<br />
other gender Peers<br />
Danielle Bolling1 , Kevin Pelphrey2 , Brent Vander Wyk2 1 2 Yale Child Study Center, Yale Child Study Center,<br />
New Haven, CT<br />
Different Neural activity within Cooperative vs.<br />
Competitive context<br />
Shin-ae Yoon 1 , In young Shin 2 , Eun bi Lim 3 ,<br />
Joohan Kim 2 , Eun Joo Kim 3 , Hae-Jeong Park 4<br />
1 Department of Radiology, Nuclear Medicine and<br />
Research Institute of Radiological Science, Yonsei Uni,<br />
Seoul, Korea, Republic of, 2 The department of graduate<br />
school of Communication, Yonsei University, Seoul, Korea,<br />
Republic of, 3 The department of the graduate School of<br />
Education, Yonsei University, Seoul, Korea, Republic of,<br />
4 Department of Radiology and Psychiatry, Severance<br />
Biomedical Science Institute, Yonsei University, Seoul,<br />
Korea, Republic of<br />
94 HBM 2011 >> <strong>abstracts</strong><br />
1115<br />
1116<br />
1117<br />
gender Differences in Trust during economic<br />
exchange: an fmrI investigation<br />
Frank Krueger 1 , Jordan Grafman 2 , Kevin McCabe 3 ,<br />
Viren Vasudeva 4<br />
1 George Mason University, 2 NINDS, Bethesda, MD,<br />
3 George Mason University, Fairfax, VA, 4 Medical College<br />
of Georgia School of Medicine, Augusta, GA<br />
utilization of national traffic educational campaign<br />
<strong>for</strong> the Theory of mind research<br />
Jana Zelinkova 1 , Milan Brazdil 2 , Radek Marecek 2 ,<br />
Michal Mikl 2 , Tomas Urbanek 3<br />
1 First Department of Neurology, Masaryk University, St.<br />
Anne’s Faculty Hospital, Pekarska 53, Brno 65, 2 First<br />
Department of Neurology, Masaryk University, St. Anne’s<br />
Faculty Hospital, Pekarska 53, Brno 65, Brno, Czech<br />
Republic, 3 Institute of Psychology, Academy of Sciences<br />
of the Czech Republic, Veveri 97, 602 00 Brno, Brno,<br />
Czech Republic<br />
an fmrI Study on Fairness in Social Interaction<br />
under Competitive and Cooperative conditions<br />
Po-Yih Lee 1 , Yun-An Huang 1 , Tai-Li Chou 2,3 ,<br />
Jyh-Horng Chen 1,3<br />
1 Interdisciplinary MRI/MRS Lab, Department of Electrical<br />
Engineering, National Taiwan University, Taipei, Taiwan,<br />
Republic of China, 2 Dept. of Psychology, National<br />
Taiwan University, Taipei, Taiwan, Republic of China,<br />
3 Neurobiology and Cognitive Science Center, National<br />
Taiwan University, Taipei, Taiwan, Republic of China
Schedule of Poster Presentations<br />
Wednesday, June 29, 2011 and Thursday, June 30, 2011<br />
* Indicates poster will also be presented during an Oral Session. The Oral Session number is indicated in parantheses after the poster title.<br />
** Indicates poster will also be presented as an I-Poster. Please check the Program Book <strong>for</strong> I-Poster presentation times.<br />
In<strong>for</strong>mation listed, including author affiliations, appear as submitted.<br />
1*<br />
2**<br />
3**<br />
4<br />
5<br />
Disorders of the Nervous System<br />
Addictions<br />
Dissecting frontal lobe contributions to drug craving<br />
with fMRI and TMS, (O-T1)<br />
Takuya Hayashi 1,2 , Ji Hyun Ko 1,3 , Antonio Strafella 1,3 ,<br />
Alain Dagher 1<br />
1 Montreal Neurological Institute, McGill University,<br />
Montreal, Canada, 2 RIKEN Center <strong>for</strong> Moleculer Imaging<br />
Science, Kobe, Japan, 3 University of Tronto, Tronto,<br />
Canada<br />
OFC depicts approach preferences <strong>for</strong> alcohol stimuli<br />
in alcohol dependence<br />
Lena Ernst 1 , Michael Plichta 2 , Anna Zesewitz 3 ,<br />
Thomas Dresler 3 , Sara Tupak 3 , Matthias Fischer 3 ,<br />
Thomas Polak 3 , Ann-Christine Ehlis 1 , Andreas Fallgatter 1<br />
1 Psychophysiology and Optical Imaging, University<br />
Hospital Tuebingen, Tuebingen, Germany, 2 Department<br />
of Psychiatry, Division <strong>for</strong> Imaging in Psychiatry,<br />
Central Institute of Mental Health, Mannheim, Germany,<br />
3 Psychophysiology and Functional Imaging, University<br />
Hospital Wuerzburg, Wuerzburg, Germany<br />
Methamphetamine Dependent and Control Subjects<br />
Use Different Neural Strategies <strong>for</strong> Delay Discounting<br />
William Hoffman 1 , Daniel Schwartz 2 , David Lahna 2 ,<br />
Marilyn Huckans 3 , Suzanne Mitchell 2<br />
1 Veterans Affairs Medical Center, Portland, United States,<br />
2 Oregon Health & Science University, Portland, OR,<br />
3 Veterans Affairs Medical Center, Portland, OR<br />
Evidence <strong>for</strong> involvement of the insula in the<br />
psychotropic effects of THC in humans<br />
Hendrika van Hell 1 , Matthijs Bossong 1 , Johan Jansma 1 ,<br />
Gerry Jager 2 , Nick Ramsey 1<br />
1 Rudolf Magnus Institute, UMC Utrecht, Utrecht,<br />
Netherlands, 2 Division of <strong>Human</strong> Nutrition, Wageningen<br />
University, Wageningen, Netherlands<br />
Is Response Feedback Processing in Abstinent<br />
Smokers Under Nicotinic Modulation?<br />
Matthew Sutherland 1 , Allison Carroll 1 , Betty Jo Salmeron 1 ,<br />
Thomas Ross 1 , Elliot Hong 2 , Elliot Stein 1<br />
1 Neuroimaging Research Branch, National Institute<br />
on Drug Abuse, Baltimore, MD, 2 Maryland Psychiatric<br />
Research Center, Baltimore, MD<br />
6<br />
7<br />
8<br />
9<br />
Neural correlates of the phenotypic structure of<br />
externalising symptoms<br />
Patricia Conrod 1 , Natalie Castellanos-Ryan 2 ,<br />
Maren Struve 3 , Robert Whelan 4 , Jean-Baptiste Poline 5 ,<br />
Tobias Banaschewski 6 , Gareth Barker 7 , Christian Büchel 8 ,<br />
Herta Flor 3 , Bernd Ittermann 9 , Karl Mann 3 , Jean-Luc<br />
Martinot 10 , Tomas T Paus 11 , Marcella Rietschel 3 , Trevor<br />
Robbins 12 , Michael Smolka 13 , Andreas Ströhle 14 , Gunter<br />
Schumann 1 , Hugh Garavan 15<br />
1 King’s College London, Institute of Psychiatry, London,<br />
United Kingdom, 2 University de Montreal, Montreal,<br />
Quebec, 3 Central Institute of Mental Health, Mannheim,<br />
Germany, 4 Trinity University Dublin, Dublin, Iceland,<br />
5 CEA-I2BM-Neurospin, 6 Department of Child and<br />
Adolescent Psychiatry, Central Institute of Mental Health,<br />
Mannheim, Germany, 7 Institute of Psychiatry, King’s<br />
College, London, United Kingdom, 8 University Medical<br />
Center Hamburg-Eppendorf, Hamburg, Germany,<br />
9 Physikalisch-Technische Bundesanstalt, Berlin,<br />
Germany, 10 Institut National de la Santé et de la Recherche<br />
Médicale, Paris, France, 11 Rotman Research Institute,<br />
University of Toronto, Toronto, Canada, 12 University of<br />
Cambridge, Cambridge, United Kingdom, 13 Technische<br />
Universität Dresden, Dresden, Germany, 14 Department<br />
of Psychiatry and Psychotherapy, Campus Charité,<br />
Universitätsmedizin Berlin, Berlin, Germany, 15 Trinity<br />
College Dublin, Dublin, Ireland<br />
Support vector machine classification of nicotine<br />
dependent subjects’ crave-state<br />
Yash Shah 1 , Luis Hernandez-Garcia 2 , Douglas Noll 2 ,<br />
Kinh Luan Phan 2 , Mark Greenwald 3 , Jon-Kar Zubieta 2 ,<br />
Scott Peltier 2<br />
1 University Of Michigan, Ann Arbor, MI, USA, 2 University<br />
of Michigan, Ann Arbor, MI, USA, 3 Wayne State University,<br />
Detroit, MI, USA<br />
Neurobehavioral Effects of Cocaine Use in a Social<br />
Dominance Task<br />
Katherine McCurry 1 , Nina Lauharatanahirun 1 ,<br />
Richard De La Garza 2,3 , Thomas Newton 2,3 , Pearl Chiu 1,3,4,5 ,<br />
Brooks King-Casas 1,4,5<br />
1 Virginia Tech Carilion Research Institute, Roanoke, VA,<br />
2 Baylor College of Medicine, Houston, TX, 3 Michael E.<br />
Debakey Veteran Affairs Medical Center, Houston, TX,<br />
4 Department of Psychology, Virginia Tech, Blacksburg,<br />
VA, 5 Salem Veteran Affairs Medical Center, Salem, VA<br />
Reduced error processing in the rostral Cingulate Zone<br />
in smokers is modulated by dopamine<br />
Maartje Luijten 1 , Dick Veltman 2 , Lolke Pepplinkhuizen 3 ,<br />
Marion Smits 4 , Ingmar Franken 1<br />
1 Erasmus University Rotterdam - Institute of Psychology,<br />
Rotterdam, Netherlands, 2 VU University Medical Center,<br />
Department of Psychiatry, Amsterdam, Netherlands,<br />
3 Parnassia Bavo Group, Rotterdam, Netherlands,<br />
4 Erasmus MC, Rotterdam, Netherlands > > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
HBM 2011 >> <strong>abstracts</strong> 95<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Addictions, continued<br />
10<br />
11<br />
12<br />
13<br />
14<br />
15<br />
Impairment of driving abilities after cannabis smoking:<br />
the role of the anterior cingulate cortex<br />
Giovanni Battistella 1 , Eleonora Fornari 2 , Aurélien Thomas 3 ,<br />
Jean-Frédéric Mall 4 , Jean-Marie Annoni 5 , Monique<br />
Appenzeller 4 , Bernard Favrat 3 , Thierry Buclin 4 ,<br />
Christian Staub 3 , Patrice Mangin 3 , Christian Giroud 3 ,<br />
Philippe Maeder 1<br />
1 Dept. of Radiology, CHUV and University of Lausanne,<br />
Lausanne, Switzerland, 2 CIBM-CHUV Unit,Radiology Dept.,<br />
CHUV and University of Lausanne, Lausanne, Switzerland,<br />
3 University Center of Legal Medicine, Lausanne-Geneva,<br />
Switzerland, 4 Division of Clinical Pharmacology and<br />
Toxicology, CHUV and University of Lausanne, Lausanne,<br />
Switzerland, 5 Neurology Unit, dpt of Medicine, University<br />
Fribourg Medical Centre, Fribourg,Switzerland<br />
Learning to quit: The roles of amygdala and<br />
hippocampus in smoking cessation<br />
Shao-Hsuan Ho 1 , Hannah Chua 1 , James Abelson 1 ,<br />
Agnes Jasinska 1 , Israel Liberzon 1 , Victor Strecher 1<br />
1 University of Michigan, Ann Arbor, MI<br />
Prospect and anticipation in reward-Punishment<br />
Circuitry in Former & Current Cocaine users<br />
Krishna Pancholi 1 , Shashwath Meda 1 , Marc Potenza 2 ,<br />
Michael Stevens 1,2 , Godfrey Pearlson 1,2<br />
1 Olin Neuropsychiatry Research Center, Hart<strong>for</strong>d Hospital,<br />
Hart<strong>for</strong>d, CT, 2 Dept. of Psychiatry, Yale University School of<br />
Medicine, New Haven, CT<br />
Functional connectivity during reward mediates<br />
sensation seeking and substance use in at-risk youth<br />
Barbara Weiland 1 , Wai-Ying Wendy Yau 1 , Robert Welsh 2 ,<br />
Preeti Samudra 3 , Robert Zucker 4 , Jon-Kar Zubieta 3 ,<br />
Mary Heitzeg 3<br />
1 University of Michigan, Ann Arbor, MI, USA, 2 University<br />
of Michigan, Ann Arbor, United States, 3 University of<br />
Michigan, Ann Arbor, MI, 4 Univesity of Michigan, Ann<br />
Arbor, MI<br />
Structural deficits associated with cognitive<br />
dysfunction in methadone maintenance patients<br />
Chu-Chung Huang 1 , Wei-Che Lin 2 , Kun-Hsien Chou 3 ,<br />
Ching-Po Lin 4<br />
1 Institue Of Biomedical Imaging And Radiological<br />
Sciences, National Yang-Ming University, Taiwan- Republic<br />
Of China, 2 Department of Diagnostic Radiology, Chang<br />
Gung Memorial Hospital - Kaohsiung Medical Center,<br />
Kaohsiung, Taiwan, Republic of China, 3 National Yang<br />
Ming University, Taiwan- Republic Of China, 4 National<br />
Yang-Ming University, Taipei, Taiwan- Republic Of China<br />
Combined Structural and Functional measures in<br />
recreational users of d-amphetamine<br />
Marieke Schouw 1 , Kenichi Oishi 2 , Matthan Caan 1 ,<br />
Aart Nederveen 1 , Susumu Mori 2 , Liesbeth Reneman 1<br />
1 Academic Medical Center, University of Amsterdam,<br />
Department of Radiology, Amsterdam, the Netherlands,<br />
2 The Russell H. Morgan Dept. of Radiology and<br />
Radiological Sciences, Johns Hopkins School of Medicine,<br />
Baltimore, MD<br />
96 HBM 2011 >> <strong>abstracts</strong><br />
16<br />
17<br />
18<br />
19<br />
20<br />
21<br />
regional White matter Integrity in abstinent alcoholics<br />
Regina McGlinchey 1,2 , Catherine Fortier 3,4 , ELIZABETH<br />
LERITZ 5,6 , Jonathan Venne 7 , Victoria Williams 1 , William<br />
Milberg 1,2 , David Salat 8,9<br />
1 VA Boston Healthcare System, Boston, MA, 2 Harvard<br />
Medical School, Boston , MA, 3 VA Boston Healthcare<br />
System 182-JP, United States, 4 Harvard Medical School,<br />
Boston, MA, 5 BOSTON VA / ATHINOULA A. MARTINOS<br />
CENTER, MGH, BOSTON, United States, 6 Brigham and<br />
Women’s Hopsital, Boston , MA, 7 VA Boston Healthcare<br />
System, Boston , MA, 8 Massachusetts General Hospital<br />
Athinoula A. Martinos Center <strong>for</strong> Biomedical Imaging,<br />
Boston, MA, 9 VA Boston Healthcare Sytesm, Boston, MA<br />
FDg-PeT and anatomical mrI in non-abstinent<br />
alcohol-dependent subjects<br />
Monte Buchsbaum 1 , Simone Carvalho 2 , Samantha Lincoln 3 ,<br />
Chelain Goodman 3 , Alex DeCastro 4 , Jonathan Entis 3 ,<br />
Erin Hazlett 5<br />
1 University of Cali<strong>for</strong>nia, San Diego, 2 Mount Sinai School of<br />
Medicine, New York , NY, 3 Mount Sinai School of Medicine,<br />
New York, NY, 4 University of Cali<strong>for</strong>nia, San Diego, San<br />
Diego, CA, 5 J.J.P. VA Medical Center, New York, NY<br />
The influence of familial alcohol dependence on<br />
per<strong>for</strong>mance and BoLD-signal during planning<br />
Zsuzsika Sjoerds 1 , Marie-José Van Tol 2 , Wim Van den<br />
Brink 3 , Brenda Penninx 4 , Nic van der Wee 5 , Andre Aleman 6 ,<br />
Dick Veltman 7<br />
1 VU University Medical Centre, Amsterdam, Netherlands,<br />
2 Leiden University Medical Center, Leiden, Netherlands,<br />
3 Academic Medical Center, University of Amsterdam,<br />
Department of Psychiatry, Amsterdam, Netherlands,<br />
4 VUMC, Amsterdam, Netherlands, 5 LUMC, Leiden,<br />
Netherlands, 6 BCN NeuroImaging Center, Groningen,<br />
Netherlands, 7 VU University Medical Center, Department<br />
of Psychiatry, Amsterdam, Netherlands<br />
effects of extensive playing of violent video games in<br />
resting-state networks<br />
Bahram Mohammadi 1 , Gregor Szycik 2 , Christian F<br />
Beckmann 3 , Amir Samii 1 , Thomas Münte 4 , Bert Tewildt 2<br />
1 INI, Hannover, Germany, 2 Psychiatry, MHH, Hannover,<br />
Germany, 3 Univ Of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom,<br />
4 Neurology, University of Lübeck, Lübeck, Germany<br />
Structural brain alterations in heavy cannabis users<br />
Janna Cousijn 1 , Anna Goudriaan 2 , K. Ridderinkhof 1 ,<br />
Wim Van den Brink 2 , Dick Veltman 2 , Reinout Wiers 1<br />
1 University of Amsterdam, Department of Psychology,<br />
Amsterdam, Netherlands, 2 Academic Medical Center,<br />
University of Amsterdam, Department of Psychiatry,<br />
Amsterdam, Netherlands<br />
Lower White matter Diffusion in adolescent<br />
marijuana users<br />
Christine Cloak 1 , Jeff Sadino 1 , Linda Chang 1 , Caroline<br />
Jiang 1 , Daniel Alicata 1 , Thomas Ernst 1<br />
1 University of Hawaii, Manoa; JABSOM, Honolulu, HI
Disorders of the Nervous System<br />
Addictions, continued<br />
22<br />
23<br />
24<br />
25<br />
26<br />
27<br />
abnormal striatal morphology in methamphetamine<br />
and cannabis abusing adolescents<br />
John Churchwell 1,2 , Paul Carey 3 , Helen Ferrett 3 , Dan Stein 3 ,<br />
Bruce Spottiswoode 4 , Deborah Yurgelun-Todd 1,2<br />
1 The <strong>Brain</strong> Institute, University of Utah, Salt Lake City, UT,<br />
2 University of Utah Dept. of Psychiatry, Salt Lake City, UT,<br />
3 Department of Psychiatry, University of Stellenbosch,<br />
Cape Town, South Africa, 4 Cape Town University, Cape<br />
Town, South Africa<br />
an investigation into grey and white matter differences<br />
in current polydrug ecstasy users<br />
Brendan Behan 1 , Erik O’Hanlon 2 , Gloria Roberts 3 ,<br />
Hugh Garavan 1<br />
1 Trinity College Institute of Neuroscience, Dublin, Ireland,<br />
2 Royal College of Surgeons Ireland, Dublin, Ireland,<br />
3 The University of New South Wales, Sydney, Australia<br />
Functional response to drug-cues in patients with<br />
chronic addiction to cocaine and heroin<br />
Simona Gardini 1 , Luca Nocetti 2 , Cristian Toraci 3 ,<br />
Annalena Venneri 4,5<br />
1 Department of Neuroscience, University of Parma, Parma,<br />
Italy, 2 Servizio di Fisica Sanitaria, Azienda Ospedaliera,<br />
Policlinico di Modena, Modena, Italy, 3 Biolab, Department<br />
of Communication, Computer and System Science (DIST),<br />
University of Genoa, Genoa, Italy, 4 Clinical Neuroscience<br />
Centre, Univeristy of Hull, Hull, United Kingdom, 5 San<br />
Camillo Hospital, IRCCS, Venice, Italy<br />
Implicit emotional processing (fmrI) in alcoholdependent<br />
patients<br />
Katrin Charlet 1 , Karina Naundorf 1 , Lina Dornhof 1 ,<br />
Torsten Wüstenberg 1 , Florian Schlagenhauf 1 , Anne Beck 1 ,<br />
Andreas Heinz 1<br />
1 Department of Psychiatry and Psychotherapy, Charité –<br />
Universitätsmedizin Berlin, Berlin, Germany<br />
Prenatal drug exposure alters adolescent neural<br />
responses in a probabilistic reward/punishment task<br />
Betty Jo Salmeron 1 , Maureen Black 2 , Kelsey Cacic 3 ,<br />
Monique Ernst 4 , Tracy Riggins 5 , Julie Schweitzer 6 ,<br />
Pradeep Kurup 7<br />
1 NIDA-IRP, 2 University of Maryland, School of Medicine,<br />
Baltimore, MD, 3 NIDA-IRP, Baltimore, MD, 4 NIMH,<br />
Bethesda, MD, 5 University of Maryland, College Park,<br />
College Park, MD, 6 University of Cali<strong>for</strong>nia Davis School<br />
of Medicine, Sacramento, United States, 7 NIDA, NIH,<br />
Baltimore, United States<br />
Network analysis of Structural Connectivity from<br />
Diffusion Tensor Imaging in Chronic Cannabis users<br />
Dae-Jin Kim 1 , Hu Cheng 1 , Patrick Skosnik 2 , William<br />
Hetrick 1 , Brian O’Donnell 1 , Olaf Sporns 1 , Aina Puce 1 ,<br />
Sharlene Newman 1<br />
1 Psychological and <strong>Brain</strong> Sciences, Indiana University,<br />
Bloomington, IN, USA, 2 Department of Psychiatry, Yale<br />
University School of Medicine, New Haven, CT, USA<br />
28<br />
29<br />
White matter Hyperintensities in an Inner City<br />
Population<br />
Maia Love 1 , William Honer 2 , Donna Lang 2 , G. MacEwan 2 ,<br />
A. Vertinsky 2 , Fidel Vila-Rodriguez 2<br />
1 UBC (Vancouver BC) Medical resident, Vancouver,<br />
Canada, 2 UBC <strong>Brain</strong> Research Centre, Vancouver, B.C.<br />
Could We Predict Treatment outcome among Heroin<br />
Dependents Based on <strong>Brain</strong> activities Due to Craving?<br />
Hamed Ekhtiari 1 , Habib Ganjgahi 2 , Peyman Hassani-<br />
Abharian 3 , Zahra Alam-Mehrjerdi 4 , Mohammad Ali<br />
Oghabian 5<br />
1 Iranian National Center <strong>for</strong> Addiction Studies, Tehran, Iran,<br />
Islamic Republic Of, 2 Iranian National Center For Addiction<br />
Studies, Tehran, Iran, Islamic Republic Of, 3 Institute <strong>for</strong><br />
Cognitive Sciences Studies, Tehran, Iran, Islamic Republic<br />
Of, 4 Iranian National Center <strong>for</strong> Addiction Studies, Tehran,<br />
Iran, Islamic Replblic of, 5 Research Center <strong>for</strong> Science<br />
and Technologies, Tehran University of Medical Sciences,<br />
Tehran, Iran, Islamic Replblic of<br />
Disorders of the Nervous System<br />
Obsessive-Compulsive Disorder and<br />
Tourette Syndrome<br />
30**<br />
31<br />
32<br />
Increased intrinsic connectivity of the orbitofrontal<br />
cortex in obsessive-Compulsive Disorder<br />
Jan Beucke 1 , Jorge Sepulcre 2 , Tanveer Talukdar 3 ,<br />
Christian Kaufmann 1 , Norbert Kathmann 1<br />
1 Department of Psychology, Humboldt-Universität zu<br />
Berlin, Berlin, Germany, 2 Howard Hughes Medical Institute,<br />
Harvard University, Cambridge, MA, 3 Dartmouth<br />
Deficient response inhibition in unmedicated obsessive<br />
compulsive disorder patients: an fmrI study<br />
Stella De Wit 1,2 , Ysbrand Van Der Werf 3,2 , Dirk Heslenfeld 4 ,<br />
Eveline Veltman 1 , Dick Veltman 1,2 , Odile van den Heuvel 1,2<br />
1 Dept. of Psychiatry, VU University Medical Center,<br />
Amsterdam, Netherlands, 2 Neuroscience Campus<br />
Amsterdam, Amsterdam, Netherlands, 3 Dept. of Anatomy &<br />
Neuroscience, VU University Medical Center, Amsterdam,<br />
Netherlands, 4 Dept. of Cognitive Psychology, VU University,<br />
Amsterdam, Netherlands<br />
gray matter volume alterations in obsessivecompulsive<br />
disorder: absolute vs. relative differences<br />
Carles Soriano-Mas 1 , Jesus Pujol 2 , Pino Alonso 3 , Eva<br />
Real 3 , Rosa Hernández-Ribas 3 , Marina Lopez Sola 4 , Ben<br />
Harrison 5 , Hector Ortiz 2 , Oren Contreras 6 , Laura Blanco 6 ,<br />
Johan Deus 7 , José Menchón 3 , Narcis Cardoner 3<br />
1 Instituto Carlos III. Bellvitge University Hospital-IDIBELL,<br />
Barcelona, Spain, 2 CRC-Mar, Barcelona, Spain, 3 Bellvitge<br />
University Hospital-IDIBELL, Barcelona, Spain, 4 IDIBELL,<br />
Barcelona, Spain, 5 Melbourne Neuropsychiatry Centre,<br />
The University of Melbourne, Melboune, Australia, 6 CRC-<br />
Mar, IMIM, Barcelona, Spain, 7 Universitat Autonoma de<br />
Barcelona, Barcelona, Spain<br />
HBM 2011 >> <strong>abstracts</strong> 97<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Obsessive-Compulsive Disorder and Tourette Syndrome, continued<br />
33<br />
34<br />
35<br />
36<br />
37<br />
anterior cingulate cortex volume distinguishes from<br />
patients with resistant and non-resistant oCD<br />
Narcis Cardoner 1,2 , Carles Soriano-Mas 1 , Jesus Pujol 3 ,<br />
Eva Real 1 , CINTO SEGALÀS 1 , Ben Harrison 4 , Rosa<br />
Hernández-Ribas 1,2 , Marina Lopez Sola 5 , Esther Via 1 ,<br />
Oren Contreras-Rodríguez 3 , Laura Blanco 3 , Johan Deus 6 ,<br />
Pino Alonso 1,2 , José Menchón 1,2<br />
1 Bellvitge University Hospital-IDIBELL, Barcelona, Spain,<br />
2 CIBERSAM, Barcelona, Spain, 3 CRC-Hospital del Mar,<br />
Barcelona, Spain, 4 Melbourne Neuropsychiatry Centre,<br />
The University of Melbourne, Melbourne, Australia,<br />
5 IDIBELL-CIBERSAM, Barcelona, Spain, 6 Universitat<br />
Autonoma de Barcelona, Barcelona, Spain<br />
Lateral frontal cortex volume reduction in male adults<br />
with Tourette syndrome revealed by VBm<br />
Matthias Wittfoth 1 , Sarah Bornmann 2 , Kirsten Müller-Vahl 2<br />
1 of Neurology, Hannover Medical School;NICA<br />
(NeuroImaging and Clinical Applications), Hannover,<br />
Hannover, Germany, 2 Hannover Medical School,<br />
Hannover, Germany<br />
Symptom provocation paradigms shed light on the<br />
pathophysiology of obsessive Compulsive Disorder<br />
Paula Banca 1 , Fernando Pocinho 2 , João Relvas 2 ,<br />
Sérgio Tafula 3 , João Paulo Silva Cunha 3 ,<br />
Miguel Castelo-Branco 1<br />
1 IBILI-Faculty of Medicine of University of Coimbra,<br />
Coimbra, Portugal, 2 Hospital of the University of Coimbra,<br />
Coimbra, Portugal, 3 IEETA / DETI, University of Aveiro,<br />
Aveiro, Portugal<br />
Cortical Plasticity Following Surgical Cingulotomy <strong>for</strong><br />
obsessive-Compulsive Disorder<br />
Sameer Sheth 1 , Patrick Schweder 2 , Christian Strong 1 ,<br />
Darin Dougherty 1 , Emad Eskandar 1<br />
1 Massachusetts General Hospital, Boston, MA,<br />
2 University Of Ox<strong>for</strong>d, Department Of Neurosurgery,<br />
Ox<strong>for</strong>d, United Kingdom<br />
Structural covariance of the neostriatum in obsessivecompulsive<br />
disorder<br />
Carles Soriano-Mas 1 , Ben Harrison 2 , Jesus Pujol 3 ,<br />
Pino Alonso 4 , Eva Real 4 , Marina Lopez Sola 5 , Hector Ortiz 3 ,<br />
Rosa Hernández-Ribas 4 , Oren Contreras 6 , Laura Blanco 6 ,<br />
Johan Deus 7 , José Menchón 4 , Narcis Cardoner 4<br />
1 Instituto Carlos III. Bellvitge University Hospital-IDIBELL,<br />
Barcelona, Spain, 2 Melbourne Neuropsychiatry Centre, The<br />
University of Melbourne, Melbourne, Australia, 3 CRC-Mar,<br />
Barcelona, Spain, 4 Bellvitge University Hospital-IDIBELL,<br />
Barcelona, Spain, 5 IDIBELL, Barcelona, Spain, 6 CRC-<br />
Mar, IMIM, Barcelona, Spain, 7 Universitat Autonoma de<br />
Barcelona, Barcelona, Spain<br />
98 HBM 2011 >> <strong>abstracts</strong><br />
38<br />
39<br />
40<br />
41<br />
42<br />
an fmrI study with Towel of London paradigm in<br />
patients with obsessive-compulsive disorder<br />
Guemsook Shim 1 , Wi Hoon Jung 2 , Aram Song 2 , Byung Jik<br />
Kim 3 , Eun-Hoe Goo 4 , Jae Yeon Hwang 1 , Sung Nyun Kim 1 ,<br />
Go-Eun Jang 5 , Jun Soo Kwon 1<br />
1 Department of Psychiatry, Seoul National University,<br />
College of Medicine, Seoul, Korea, Republic of,<br />
2 Interdisciplinary Program in Neuroscience, College of<br />
Natural Sciences, Seoul National University, Seoul, Korea,<br />
Republic of, 3 <strong>Brain</strong> & Cognitive Sciences-WCU program,<br />
College of Natural Sciences, Seoul National University,<br />
Seoul, Korea, Republic of, 4 Department of Radiology<br />
and Clinical Research Institute, Seoul National University<br />
Hospital, Seoul, Korea, Republic of, 5 Clinical Cognitive<br />
Neuroscience Center, Neuroscience Institute, SNU-MRC,<br />
Seoul, Korea, Republic of<br />
Neural correlates of treatment response in oCD: effect<br />
of symptom dimensions<br />
Rosa Hernández-Ribas 1,2 , Carles Soriano-Mas 3 ,<br />
Jesus Pujol 4 , Pino Alonso 1,2 , CINTO SEGALÀS 1,2 ,<br />
Eva Real 1,2 , Esther Via 1 , Johan Deus 5 , Marina Lopez Sola 6,2 ,<br />
Ben Harrison 7 , José Menchón 1,2 , Narcis Cardoner 1,2<br />
1 Bellvitge University Hospital-IDIBELL, Barcelona,<br />
Spain, 2 CIBERSAM, Barcelona, Spain, 3 Instituto Carlos<br />
III. Neuroscience Group. Bellvitge University Hospital-<br />
IDIBELL, Barcelona, Spain, 4 IAT-CRC, Barcelona, Spain,<br />
5 Universitat Autonoma De Barcelona, Barcelona, Spain,<br />
6 IDIBELL, Barcelona, Spain, 7 Melbourne Neuropsychiatry<br />
Centre, The University of Melbourne, Melbourne, Australia<br />
Cognitive Control of a Simple mental Image in Patients<br />
with obsessive-Compulsive Disorder<br />
Orhan Kocak 1 , Ayōegül Yılmaz 2 , Cem Atbaōoōlu 2,3 ,<br />
Metehan Çiçek 4,3<br />
1 Kırıkkale University Psychiatry Department, Kırıkkale,<br />
Turkey, 2 Ankara University Psychiatry Department, Ankara,<br />
Turkey, 3 Ankara University <strong>Brain</strong> Research Center, Ankara,<br />
Turkey, 4 Ankara University Physiology Department, Ankara,<br />
Turkey<br />
White matter abnormalities in Pediatric<br />
obsessive-Compulsive Disorder <strong>Brain</strong><br />
Jian Chen 1,2 , Tim Silk 1 , Amanda Wood 3 , Marc Seal 1 ,<br />
Aldsdair Vance 4,5<br />
1 Murdoch Childrens Research Institute, Melbourne,<br />
Australia, 2 Monash University, Melbourne, Australia,<br />
3 University of Birmingham, Birmingham, United Kingdom,<br />
4 Royal Children’s Hospital, Melbourne, Australia,<br />
5 University of Melbourne, Melbourne, Australia<br />
The relationship of gray matter abnormalities to<br />
Cognitive deficits in obsessive-Compulsive Disorder<br />
Na Young Shin 1 , Wi Hoon Jung 1 , Jun Hwan Jang 2 ,<br />
Guemsook Shim 2 , Hye Yoon Park 2 , Jae Yeon Hwang 2 ,<br />
Sung Nyun Kim 2 , Jun Soo Kwon 2<br />
1 Clinical Cognitive Neuroscience Center, Neuroscience<br />
Institute, SNU-MCR, Seoul, Korea, 2 Department of<br />
Psychiatry, Seoul National University College of Medicine,<br />
Seoul, Korea
Disorders of the Nervous System<br />
Parkinson’s Disease and Movement Disorders<br />
43**<br />
44**<br />
45**<br />
46**<br />
47**<br />
mechanisms of perseveration of action in<br />
Parkinson’s Disease<br />
Laura Hughes1,2 , Ellemarije Altena1 , Roger Barker1 ,<br />
James Rowe1,2 1University of Cambridge, Cambridge, United Kingdom,<br />
2MRC Cognition and <strong>Brain</strong> Sciences Unit, Cambridge,<br />
United Kingdom<br />
effects of Parkinson’s disease and treatment on<br />
cortico-subcortical network functional connectivity<br />
David Cole1 , Bahram Mohammadi2 , Maria Milenkova3 ,<br />
Katja Kollewe4 , Christoph Schrader4 , Amir Samii2 ,<br />
Reinhard Dengler4 , Thomas Münte5 , Christian Beckmann6 1Imperial College London, London, United Kingdom,<br />
2 3 INI, Hannover, Germany, Dept. of Neurology, Medical<br />
University Sofia, Sofia, Bulgaria, 4Department of<br />
Neurology, Hannover Medical School, Hannover, Germany,<br />
5Neurology, University of Lübeck, Lübeck, Germany,<br />
6Donders Centre <strong>for</strong> Cognitive Neuroimaging, Nijmegen,<br />
Netherlands<br />
mapping connectivity in the cortical-subcortical<br />
motor circuits of Parkinson’s disease patients<br />
Mike Sharman 1,2 , Romain Valabregue 1,2,3 , Vincent Perlbarg 4 ,<br />
Linda Marrakchi-Kacem 5,6 , Cécile Galléa 1,2 , Cécile Zaros 7 ,<br />
André Troiano 8 , Hartwig Siebner 9 , Christine Klein 10 , Alexis<br />
Brice 1,3,7 , Stéphane Lehéricy 1,2,3<br />
1 UMR-S975, CRICM-INSERM-UPMC, Paris, France,<br />
2 Centre de NeuroImagerie de Recherche (CENIR),<br />
Hôpital Pitié-Salpêtrière, Paris, France, 3 CNRS UMR 7225,<br />
Paris, France, 4 UMR-S678, INSERM-UPMC, Laboratoire<br />
d’Imagerie Fonctionnelle, Paris, France, 5 NeuroSpin,<br />
CEA, Gif-Sur-Yvette, France, 6 IFR-49, Paris, France,<br />
7 Département de Génétique et Cytogénétique, Hôpital<br />
Pitié-Salpêtrière, Paris, France, 8 Neurology Department,<br />
Royal Brisbane and Women’s Hospital, Queensland,<br />
Australia, 9 Danish Research Centre <strong>for</strong> Magnetic<br />
Resonance, Hvidovre, Denmark, 10 Clinical and Molecular<br />
Neurogenetics, Department of Neurology, University of<br />
Luebeck, Luebeck, Germany<br />
Why spasmodic dysphonia affects speech - an<br />
interventional structural and functional mrI study<br />
Christian Alexander Kell 1 , Philippe Dejonckere 2 ,<br />
Katrin Neumann 3<br />
1 <strong>Brain</strong> Imaging Center, Frankfurt, Germany,<br />
2 Utrecht University Medical Center, Utrecht, Netherlands,<br />
3 Goethe University, Frankfurt, Germany<br />
Dopamine Synthesis and resting <strong>Brain</strong> activity in<br />
Parkinsonism associated with gaucher Disease<br />
Joseph Masdeu 1 , Ozlem Goker-Alpan 1 , Angela Ianni 1 ,<br />
Philip Kohn 1 , Daniel Eisenberg 1 , Grisel Lopez 1 ,<br />
Ellen Sidransky 1 , Karen Berman 1<br />
1 National Institutes of Health, Bethesda, MD<br />
48**<br />
49<br />
50<br />
51<br />
52<br />
motor per<strong>for</strong>mance in Friedreich ataxia correlates<br />
with diffusion changes of the dento-rubral tract<br />
Hamed Akhlaghi 1 , Louise Corben 2 , Nellie Georgiou-<br />
Karistianis 3 , John Bradshaw 3 , Elsdon Storey 4 ,<br />
Martin Delatycki 5 , Gary Egan 6<br />
1 Florey Neuroscience Institutes, Melbourne, Australia,<br />
2 Bruce Lefroy Centre <strong>for</strong> Genetic Health Research,<br />
Murdoch Childrens Research Institute, Melbourne,<br />
Australia, 3 Experimental Neuropsychology Research Unit,<br />
School of Psychology and Psychiatry, Melbourne, Australia,<br />
4 Department of Medicine (Neurosciences), Monash<br />
University (Alfred Hospital Campus) Prahran, Melbourne,<br />
Australia, 5 Department of Clinical Genetics, Austin Health,<br />
Melbourne, Australia, 6 Florey Neuroscience Institutes,<br />
Centre <strong>for</strong> Neuroscience, University of Melbourne,<br />
Melbourne, Australia<br />
Subthalamic microlesion effect due to electrode<br />
insertion in Parkinson’s disease: a fmrI study<br />
Robert Jech 1 , Karsten Müller 2 , Dušan Urgošík 3 ,<br />
Tomáš Sieger 4 , Štefan Holiga 2 , Filip Rōžiōka 3 , Petr Dušek 1 ,<br />
Petra Havránková 1 , Josef Vymazal 3 , Evžen Rōžiōka 1<br />
1 Dept. of Neurology and Center <strong>for</strong> Clinical Neuroscience,<br />
1st Faculty of Medicine, Charles University, Prague,<br />
Czech Republic, 2 Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany, 3 Dept.<br />
of Stereotactic Neurosurgery, Na Homolce Hospital,<br />
Prague, Czech Republic, 4 Dept. of Cybernetics, Faculty of<br />
Electrical Engineering, Czech Technical University, Prague,<br />
Czech Republic<br />
altered motor resting state fcmrI in Parkinson’s<br />
Disease with <strong>for</strong>ced exercise vs medication<br />
Erik Beall 1 , Jay Alberts 1 , Anil Thota 1 , Anneke Frankemolle 1 ,<br />
Micheal Phillips 1 , Mark Lowe 1<br />
1 Cleveland Clinic, Cleveland, OH, United States<br />
White matter tract integrity and cognition in<br />
Parkinson’s disease<br />
Tracy Melzer 1 , Richard Watts 2 , Michael MacAskill 1 ,<br />
Toni Pitcher 1 , Ross Keenan 3 , Leslie Livingston 1 ,<br />
John Dalrymple-Al<strong>for</strong>d 2 , Tim Anderson 1<br />
1 Van der Veer Institute/ University of Otago, Christchurch,<br />
New Zealand, 2 Van der Veer Institute/ University of<br />
Canterbury, Christchurch, New Zealand, 3 Christchurch<br />
Radiology Group, Christchurch, New Zealand<br />
Impaired emotion recognition and<br />
Functional Correlates of emotion Perception<br />
in Huntington’s Disease<br />
Imis Dogan 1,2,3 , Christian Sass 1 , Shahram Mirzazade 1,2,3 ,<br />
Alexandra Kleiman 1,2,3 , Cornelius Werner 1,2 , Ferdinand<br />
Binkofski 4,2,3 , Jörg Schulz 1,2 , Johannes Schiefer 1 ,<br />
N Shah 2,1,3 , Kathrin Reetz 1,2,3<br />
1 Department of Neurology, University Hospital RWTH<br />
Aachen, Aachen, Germany, 2 Institute of Neuroscience<br />
and Medicine, Research Center Jülich, Jülich, Germany,<br />
3 Jülich-Aachen Research Alliance (JARA <strong>Brain</strong>) -<br />
Translational <strong>Brain</strong> Medicine, Jülich-Aachen, Germany,<br />
4 Section <strong>for</strong> Neurological Cognition Research at the<br />
Department of Neurology, RWTH Aachen University,<br />
Aachen, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 99<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Parkinson’s Disease and Movement Disorders, continued<br />
53<br />
54<br />
55<br />
56<br />
57<br />
Increased resting state connectivity in<br />
Spinocerebellar ataxia type 7: an fmrI study<br />
Sarael Alcauter 1,2 , Victor Saenger 3 , Rosalinda Díaz 4 ,<br />
Maria de Lourdes Martinez 1 , Fernando Barrios 2 ,<br />
Juan Fernández-Ruiz 4<br />
1 Instituto Nacional de Psiquiatría, INPRF, Mexico D.F.,<br />
Mexico, 2 Universidad Nacional Autonoma de Mexico,<br />
QUERETARO, QRO, 3 Facultad de Ciencias, Universidad<br />
Nacional Autonoma de Mexico, Mexico D.F., Mexico,<br />
4 Facultad de Medicina, Universidad Nacional Autonoma<br />
de Mexico, Mexico D.F., Mexico<br />
attentional control in Huntington’s disease,<br />
an fmrI study<br />
Marcus Gray 1 , Ayaka Ando 1 , Alicia Dymowski 1 , Julie Stout 2 ,<br />
Andrew Churchyard 3 , Phyllis Chua 4 , Gary Egan 5 ,<br />
Nellie Georgiou-Karistianis 1<br />
1 Monash University, Melbourne, Australia, 2 Monash<br />
University, Australia, 3 Melbourne University, Melbourne,<br />
Australia, 4 Alfred Psychiatry Research Centre, Monash<br />
University, Melbourne, VIC, 5 Florey Neuroscience Institutes<br />
& Centre <strong>for</strong> Neuroscience, Parkville, Australia<br />
alertness-related brain activation and functional<br />
connectivity in preclinical Huntington’s disease<br />
Robert Christian Wolf 1 , Georg Grön 2 , Fabio Sambataro 3 ,<br />
Nenad Vasic 2 , Nadine Wolf 4 , Carsten Saft 5 , Philipp<br />
Thomann 6 , Bernhard Landwehrmeyer 7 , Michael Orth 7<br />
1 University of Heidelberg, Department of General<br />
Psychiatry, Heidelberg, Germany, 2 Department of<br />
Psychiatry and Psychotherapy III, University of Ulm,<br />
Ulm, Germany, 3 <strong>Brain</strong> Center <strong>for</strong> Motor and Social<br />
Cognition, Italian Institute of Technology, Parma, Germany,<br />
4 Central Institute of Mental Health, Mannheim, Germany,<br />
5 Department of Neurology, University of Bochum, Bochum,<br />
Germany, 6 Center of Psychosocial Medicine, Department<br />
of General Psychiatry, University of Heidelberg,<br />
Heidelberg, Germany, 7 Department of Neurology,<br />
University of Ulm, Ulm, Germany<br />
Striatal D2 receptor and gaBaergic functions in early<br />
idiopathic restless legs syndrome<br />
Yasuomi Ouchi 1 , Shunsuke Yagi 1 , Etsuji Yoshikawa 2 ,<br />
Masami Futatsubashi 2 , Toshihiko Kanno 3 , Yumi Oboshi 1 ,<br />
Satoshi Kono 1 , Noriyoshi Nakai 4 , Masanobu Sakamoto 3<br />
1 Hamamatsu University School of Medicine, Hamamatsu,<br />
Japan, 2 Hamamatsu Photonics KK, Hamamatsu, Japan,<br />
3 Hamamtsu Medical Center, Hamamatsu, Japan, 4 Nagoya<br />
Daini Red Cross Hospital, Nagoya, Japan<br />
Initiation and inhibition of hand movement: cerebral<br />
activation in patients with Parkinson’s disease<br />
Carolien Toxopeus 1 , Gopal Valsan 2 , Bernard Conway 2 ,<br />
Johannes van der Hoeven 3 , Klaus Leenders 1 ,<br />
Natasha Maurits 1 , Bauke de Jong 1<br />
1 University Medical Center Groningen, Dept. of Neurology,<br />
University of Groningen, Groningen, Netherlands,<br />
2 University of Strathclyde, Bioengineering Unit, Glasgow,<br />
United Kingdom, 3 University Medical Center Groningen,<br />
Depts. of Neurology and Clinical Neurophysiology,<br />
Groningen, Netherlands<br />
100 HBM 2011 >> <strong>abstracts</strong><br />
58<br />
59<br />
60<br />
61<br />
62<br />
Dynamical causal modeling of beta synchrony in<br />
parkinsonian networks<br />
Andre Marreiros 1 , Rosalyn Moran 2 , Karl Friston 2 ,<br />
Peter Brown 1<br />
1 Department of Clinical Neurology, University of Ox<strong>for</strong>d,<br />
London, United Kingdom, 2 Wellcome Trust Centre <strong>for</strong><br />
Neuroimaging, UCL, London, United Kingdom<br />
altered corticostriatal connectivity in<br />
Huntington disease<br />
christine delmaire 1,2,3 , Romain Valabregue 4,3,5 ,<br />
Nicolas Menjot de Champfleur 2 , Yulia Worbe 6 ,<br />
Alexandra Durr 7,5 , Stéphane Lehéricy 4,8,5<br />
1 Department of Neuroradiology, Lille,France, 2 Centre de<br />
Neuroimagerie de Recherche – CENIR, Pitie Salpetriere<br />
Hospital, Paris, France, 3 IFR49- Pitie Salpetriere Hospital,<br />
Paris, France, 4 CRICM-Centre de Neuroimagerie de<br />
Recherche – CENIR, Pitie Salpetriere Hospital, Paris,<br />
France, 5 Inserm U975- Pitie Salpetriere Hospital, Paris,<br />
France, 6 INSERM CIC 9503, Pitie Salpetriere Hospital,<br />
Paris, France, 7 Department of Genetics and Cytogenetics,<br />
and INSERM UMR S679,Pitie Salpetriere Hospital, Paris,<br />
France, 8 IFR 49- Pitie Salpetriere Hospital, Paris, France<br />
Compensatory cognitive neural mechanism in healthy<br />
carriers of the PD related g2019S LrrK2 mutation<br />
Avner Thaler 1 , Noa Bregman 2 , Anat Mirelman 3 ,<br />
Tanya Gurevich 3 , Nir Giladi 4 , Talma Hendler 5<br />
1 Movement Diorder Unit, Department of Neurology,<br />
Tel-Aviv Sourasky Medical Center, Tel-Aviv, Israel,<br />
2 Department of Neurology, Tel-Aviv Sourasky Medical<br />
Center, Tel-Aviv, Israel, 3 Movement Disorder Unit, Tel-Aviv<br />
Sourasky Medical Center, Tel-Aviv, Israel, 4 Department<br />
of Neurology, Tel-Aviv Sourasky Medical Center, Tel-<br />
Aviv, Israel, 5 Functional <strong>Brain</strong> Center, Wohl Institute <strong>for</strong><br />
Advanced Imaging, Tel Aviv Sourasky Medical Center,<br />
Tel Aviv, Israel<br />
Impairment of prefrontal activation and connectivity<br />
in Parkinson’s Disease: an fmrI & DTI study<br />
Sandra Evelyne Leh 1,2 , Alain Ptito 3 , Abbas Sadikot 2 ,<br />
Jen-Kai Chen 2 , Marc Bohlken 4 , Sonja Huntgeburth 2 ,<br />
Antonio Strafella 1,5<br />
1 Toronto Western Hospital & Research Institute, University<br />
of Toronto, Toronto, Canada, 2 Montreal Neurological<br />
Institute, McGill University, Montreal, Canada, 3 Department<br />
of Psychology, McGill University Health Centre, Montreal,<br />
Canada, 4 VU University, Amsterdam, Netherlands, 5 PET<br />
Imaging Centre, Centre <strong>for</strong> Addiction and Mental Health,<br />
University of Toronto, Montreal, Canada<br />
Cognitive profile affects fronto-striatal activation during<br />
set-shifting in Parkinson’s disease<br />
Oury Monchi 1 , Atsuko Nagano-Saito 2 , Claudine Habak 2 ,<br />
Beatriz Mejia-Constain 2 , Thomas Jubault 2 , Laura Monetta 3 ,<br />
Alain Ptito 4 , Antonio Strafella 5<br />
1 Functional Neuroimaging Unit, Montreal Geriatric’s<br />
Institute, University of Montreal, Montreal, Canada,<br />
2 Functional Neuroimaging Unit, Montreal Geriatric’s<br />
Institute, University of Montreal, Montreal, Quebec,<br />
3 Département de réadaptation, Université Laval, Quebec,<br />
Quebec, 4 Department of Psychology, McGill University<br />
Health Centre, Montreal, Canada, 5 CAMH, and Toronto<br />
Western Hospital, University of Toronto, Toronto, Canada
Disorders of the Nervous System<br />
Parkinson’s Disease and Movement Disorders, continued<br />
63<br />
64<br />
65<br />
66<br />
67<br />
Dopaminergic modulation of resting State Networks<br />
in Parkinson’s Disease<br />
Kathleen Poston 1 , William Shirer 1 , Fadi Tayim 1 ,<br />
Vinod Menon 2 , Michael Greicius 3<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA, 2 Stan<strong>for</strong>d University,<br />
Stan<strong>for</strong>d, United States, 3 Stan<strong>for</strong>d University Medical<br />
Center, Stan<strong>for</strong>d, United States<br />
Incidence of Cognitive Impairment in Cohorts with<br />
Longitudinal evaluation-PD: Neuroimaging results<br />
Cristina Nombela Otero 1 , Adam Hampshire 2 , David Breen 1 ,<br />
Tien Khoo Khoo 3 , Michael Firbank 3 , James Rowe 1,4 , Adrian<br />
Owen 2 , John O’Brien O’Brien 3 , David Burn 3 , Roger Barker 1<br />
1 Clinical Neuroscience Department. Cambridge University,<br />
Cambridge, United Kingdom, 2 Centre <strong>for</strong> <strong>Brain</strong> and Mind.<br />
University of Western Ontario, London, Ontario, Canada,<br />
3 Clinical Ageing Research Unit, Newcastle University,<br />
Newcastle upon Tyne, United Kingdom, 4 MRC-Cognition<br />
and <strong>Brain</strong> Sciences Unit, Cambridge, United Kingdom<br />
resting State Connectivity Patterns in<br />
Parkinson’s Disease<br />
Cornelius Werner 1,2 , Imis Dogan 1 , Alexandra Kleiman 1 ,<br />
Shahram Mirzazade 1 , Claudia Rottschy 1 , Christian Sass 1 ,<br />
Ferdinand Binkofski 1 , Nadim Shah 3 , Jörg Schulz 1 ,<br />
Kathrin Reetz 1<br />
1 RWTH Aachen University, Dept. of Neurology, Aachen,<br />
Germany, 2 Institute of Neuroscience and Medicine,<br />
Research Centre Juelich, Juelich, Germany, 3 Institute of<br />
Neuroscience and Medicine, INM-4, Research Centre<br />
Julich, Juelich, Germany<br />
Non-linear discriminant function analysis differentiates<br />
degenerative change in Huntington’s Disease<br />
Nellie Georgiou-Karistianis 1 , Marcus Gray 1 ,<br />
Alicia Dymowski 1 , Ayaka Ando 1 , Leigh Johnston 2 ,<br />
India Bohanna 1 , Julie Stout 3 , Andrew Churchyard 4 ,<br />
Phyllis Chua 5 , Gary Egan 6<br />
1 Monash University, Melbourne, Australia, 2 University<br />
of Melbourne, VIC, Australia, 3 Monash University,<br />
Australia, 4 Melbourne University, Melbourne, Australia,<br />
5 Alfred Psychiatry Research Centre, Monash University,<br />
Melbourne, VIC, 6 Florey Neuroscience Institutes, Centre<br />
<strong>for</strong> Neuroscience, University of Melbourne, Melbourne,<br />
Australia<br />
In vivo thalamo-pontine cholinergic alterations in<br />
Progressive Supranuclear Palsy and multiple Syst<br />
Joachim MAZERE 1 , Wassilios MEISSNER 2 , Igor SIBON 2 ,<br />
Willy MAYO 3 , Frederic LAMARE 4 , Denis GUILLOTEAU 5 ,<br />
françois TISON 6 , Michèle Allard 7<br />
1 Université de Bordeaux, UMR CNRS 5287, 2 Service de<br />
Neurologie, CHU de Bordeaux, Hôpital Pellegrin, Place<br />
Amélie Raba Léon, 33076 Bordeaux, F, BORDEAUX,<br />
France, 3 Université de Bordeaux, UMR CNRS 5287,<br />
BORDEAUX, France, 4 Service de Médecine Nucléaire,<br />
CHU de Bordeaux, Hôpital Pellegrin, Place Amélie Raba<br />
Léon, 33076 Bor, BORDEAUX, France, 5 INSERM U619,<br />
Université François Rabelais, 2 bis Boulevard Tonnellé,<br />
37032 Tours Cedex, France, TOURS, France, 6 UMR-CNRS<br />
5227, Université Victor Segalen Bordeaux 2, 146 rue Léo<br />
Saignat, case 117, 33076 Bordeaux, BORDEAUX, France,<br />
7 INCIA UMR CNRS 5287, Bordeaux, France<br />
68<br />
69<br />
70<br />
71<br />
72<br />
73<br />
Cortical Thinning in asymptomatic Parkin and<br />
PINK1 mutation Carriers?<br />
Alexandra Kleiman 1,2,3 , Ana Djarmati 4 , Johann Hagenah 4 ,<br />
Hartwig Siebner 5 , Christine Klein 4 , Ferdinand Binkofski 2,3,6 ,<br />
Kathrin Reetz 1,2,3<br />
1 Department of Neurology, University Hospital RWTH<br />
Aachen, Aachen, Germany, 2 Institute of Neuroscience<br />
and Medicine, Research Center Jülich, Jülich, Germany,<br />
3 Jülich-Aachen Research Alliance (JARA – <strong>Brain</strong>), Jülich-<br />
Aachen, Germany, 4 Department of Neurology, University<br />
of Luebeck, Luebeck, Germany, 5 Danish Research Centre<br />
<strong>for</strong> Magnetic Resonance, Copenhagen University Hospital<br />
Hvidovre, Hvidovre, Denmark, 6 Section <strong>for</strong> Neurological<br />
Cognition Research at the Department of Neurology, RWTH<br />
Aachen University, Aachen, Germany<br />
gray matter volume in cortical motor areas correlated<br />
with symptoms severity in essential tremor<br />
Lea Marais 1 , Cécile Gallea 1 , Traian Popa 1 , Sabine Meunier 1 ,<br />
Stéphane Lehéricy 1 , Marie Vidailhet 1<br />
1 CRICM, Paris, France<br />
Neural atrophy associated with Impulse Control<br />
Disorders (ICDs) in Parkinson’s disease: a VBm study<br />
Mauro Plebani 1 , Roberta Biundo 1 , Patrizia Formento-<br />
Dojot 1 , Laura Bernardi 1 , Luca Ghezzo 1 , Luciano Foscolo 1 ,<br />
Francesca Meneghello 1 , Annalena Venneri 1,2 , Angelo<br />
Antonini 1,3<br />
1 IRCSS San Camillo, Venice, Italy, 2 University of Hull, Hull,<br />
United Kingdom, 3 University of Padua, Padua, Italy<br />
TBSS analysis in mSa-P and mSa-C reveals<br />
Widespread White matter alterations<br />
Aaron Rulseh 1 , Jiōí Keller 1,2 , Robert Rusina 3 , Kateōina<br />
Zárubová 4 , Hana Brožová 5 , Petra Havránková 5 , Josef<br />
Vymazal 1,5<br />
1 Dept. of Radiology, Na Homolce Hospital, Prague,<br />
Czech Republic, 2 Charles University in Prague, 3rd Faculty<br />
of Medicine, Prague, Czech Republic, 3 Dept. of Neurology,<br />
Faculty Thomayer Hospital, Prague, Czech Republic,<br />
4 Dept. of Neurology, Charles University in Prague, 2rd<br />
Faculty of Medicine, Prague, Czech Republic, 5 Dept. of<br />
Neurology, Charles University in Prague, 1st Faculty of<br />
Medicine, Prague, Czech Republic<br />
resting State fmrI in Parkinson’s Disease<br />
Minjie Wu 1 , Tanya Simuni 1 , Todd Parrish 2 , Becky Stell 1 ,<br />
Darren Gitelman 1,2<br />
1 Neurology, Northwestern University, Chicago, IL,<br />
2 Radiology, Northwestern University, Chicago, IL<br />
The relationship between walking speed and brain<br />
volume in Type 2 Diabetes mellitus<br />
Brad Manor 1,2 , Ervin Sejdic 3 , Heli Valkeinen 3 , Vera Novak 3<br />
1 Beth Israel Deaconess Medical Center, 2 Harvard Medical<br />
School, Boston , MA, 3 Beth Israel Deaconess Medical<br />
Center, Boston, MA<br />
HBM 2011 >> <strong>abstracts</strong> 101<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Parkinson’s Disease and Movement Disorders, continued<br />
74<br />
75<br />
76<br />
77<br />
alteration of resting state functional connectivity in<br />
de novo Parkinson’s disease<br />
Bumhee Park 1,2 , Phil Hyu Lee 3 , MaengKeun Oh 2 ,<br />
Jong Doo Lee 2,1 , Hae-Jeong Park 2,1<br />
1 <strong>Brain</strong> Korea 21 Project <strong>for</strong> Medical Science, Yonsei<br />
University College of Medicine, Seoul, Korea, Republic<br />
of, 2 Department of Radiology and Division of Nuclear<br />
Medicine, Yonsei University College of Medicine, Seoul,<br />
Korea, Republic of, 3 Department of Neurology and <strong>Brain</strong><br />
Research Institute, Yonsei University College of Medicine,<br />
Seoul, Korea, Republic of<br />
altered functional connectivity and small-worldness<br />
in hemiplegia<br />
Bumhee Park 1,2 , MaengKeun Oh 2 , Jong Doo Lee 2,1 ,<br />
Hae-Jeong Park 2,1<br />
1 <strong>Brain</strong> Korea 21 Project <strong>for</strong> Medical Science, Yonsei<br />
University College of Medicine, Seoul, Korea, Republic<br />
of, 2 Department of Radiology and Division of Nuclear<br />
Medicine, Yonsei University College of Medicine, Seoul,<br />
Korea, Republic of<br />
DTI and VBm findings in Pantothenate Kinaseassociated<br />
Neurodegeneration (PKaN) Dystonia<br />
Peter Stoeter 1 , Rea Rodriguez-Raecke 2 , Paulo Dellani 3 ,<br />
Pedro Roa-Sanchez 4 , Herwin Speckter 4 , Rafael Fermin-<br />
Delgado 4 , Eddy Perez-Then 4 , Arndt Rolfs 5 , Bernd Foerster 6<br />
1 Hospital CEDIMAT, Santo Domingo, Dominican Republic,<br />
2 Medizinische Hochschule, Hannover, Germany,<br />
3 Universitäts-Medizin, Mainz, Germany, 4 CEDIMAT<br />
Hospital, Santo Domingo, Dominican Republic, 5 Albrecht-<br />
Kossel-Insttut, Rostock, Germany, 6 Philips Medical<br />
Systems, São Paulo - SP, Brazil<br />
Impaired activation of somatosensory cortex as fmrI<br />
correlate of limb-kinetic apraxia<br />
Thomas Foki 1,2 , Dietrich Haubenberger 3,4 , Walter Pirker 3 ,<br />
Alexander Geissler 1,2 , Markus Hilbert 1,2 , Ilse Höllinger 1,2 ,<br />
Katharina Merksa 1,2 , Moritz Wurnig 1,2 , Jakob Rath 1,5 ,<br />
Johann Lehrner 3 , Siegfried Trattnig 5,2 , Eduard Auff 3 ,<br />
Roland Beisteiner 1,2<br />
1 Study Group Clinical fMRI, Department of Neurology,<br />
Medical University of Vienna, Vienna, Austria, 2 MR Center<br />
of Excellence, Medical University of Vienna, Vienna,<br />
Austria, 3 Department of Neurology, Medical University of<br />
Vienna, Vienna, Austria, 4 <strong>Human</strong> Motor Control Section,<br />
Medical Neurology Branch, NINDS, NIH, Bethesda,<br />
Bethesda, MD, 5 Department of Radiology, Medical<br />
University of Vienna, Vienna, Austria<br />
102 HBM 2011 >> <strong>abstracts</strong><br />
78*<br />
79*<br />
Disorders of the Nervous System<br />
Schizophrenia and Psychotic Disorders<br />
80**<br />
81**<br />
82**<br />
a disrupted affective pathway in adolescent<br />
schizophrenia offspring evidenced using fmrI and<br />
DCm, (o-T1)<br />
Sunali Wadehra 1 , Simon Eickhoff 2 , Patrick Pruitt 3 ,<br />
Vaibhav Diwadkar 1<br />
1 Wayne State University School of Medicine, Detroit, MI,<br />
2 RWTH Aachen University, Aachen, Germany,<br />
3 University of Michigan, Ann Arbor, MI<br />
abnormal Prediction error signaling and dopamine<br />
levels in subjects at ultra-High risk of psychosis,<br />
(o-T1)<br />
Christopher Chaddock 1 , Oliver Howes 2 , Jon Roiser 3 ,<br />
Philip McGuire 1<br />
1 King’s College London, Institute of Psychiatry, London,<br />
United Kingdom, 2 King’s College London, Institute of<br />
Psychiatry; PET Psychiatry Centre, MRC Clinical Sciences<br />
Centre, London, United Kingdom, 3 Institute of Cognitive<br />
Neuroscience, University College London, London,<br />
United Kingdom<br />
The neurobiology of the psychosis continuum:<br />
evidence from working memory fmrI<br />
Christine Lycke Brandt 1 , Tom Eichele 2 , Ingrid Melle 3,1 ,<br />
Kjetil Sundet 1,4 , Ingrid Agartz 3,5,6 , Kenneth Hugdahl 2,7 ,<br />
Jimmy Jensen 8,1,3 , Ole Andreassen 3,1<br />
1 Division of Mental Health and Addiction, Oslo University<br />
Hospital, Oslo, Norway, 2 Department of Biological and<br />
Medical Psychology, University of Bergen, Bergen,<br />
Norway, 3 Institute of Clinical Medicine, University<br />
of Oslo, Oslo, Norway, 4 Department of Psychology,<br />
University of Oslo, Oslo, Norway, 5 Department of Clinical<br />
Neuroscience, Psychiatry Section, Karolinska Institutet,<br />
Stockholm, Sweden, 6 Department of Psychiatric Research,<br />
Diakonhjemmet Hospital, Oslo, Norway, 7 Division of<br />
Psychiatry, Haukeland University Hospital, Bergen,<br />
Norway, 8 Department of Psychiatry and Psychotherapy,<br />
Charité Universitätsmedizin, Berlin, Germany<br />
Source Based morphometry analysis of group<br />
Differences in Fractional anisotropy in Schizophrenia<br />
Chris Abbott 1 , Nora Perrone-Bizzozero 2 , Jin Sui 3 ,<br />
Jeremy Yamamoto 3 , Arvind Caprihan 4 , Godfrey Pearlson 5 ,<br />
Vince Calhoun 3<br />
1 University of New Mexico, 2 University of New Mexico,<br />
Albuquerque, NM, 3 Mind Research Network, Albuquerque,<br />
NM, 4 MIND Research Network, Abuquerque, United States,<br />
5 Hart<strong>for</strong>d Hospital, Hart<strong>for</strong>d, CT<br />
gene Dosage and Default mode Network in<br />
Schizophrenia<br />
Su-Chun Huang 1,2 , Chih-Min Liu 3 , Hai-Go Hwu 3 ,<br />
Chen-Chung Liu 3 , Fa-Hsuan Lin 1 , Wen-Yih Tseng 2,1<br />
1 Institute of Biomedical Engineering, National Taiwan<br />
University, Taipei, Taiwan, Republic of China, 2 Center <strong>for</strong><br />
Optoelectronic Biomedicine, National Taiwan University<br />
College of Medicine, Taipei, Taiwan, Republic of China,<br />
3 Department of Psychiatry, National Taiwan University<br />
Hospital, Taipei, Taiwan, Republic of China
Disorders of the Nervous System<br />
Schizophrenia and Psychotic Disorders, continued<br />
83<br />
84<br />
85<br />
86<br />
87<br />
88<br />
89<br />
Functional connectivity within limbic and paralimbic<br />
regions associated with criminal psychopathy<br />
Michelle Juarez 1 , Kent Kiehl 1 , Vince Calhoun 1<br />
1 Mind Research Network, Albuquerque, NM<br />
alterations in functional and structural connectivity<br />
in paranoid schizophrenia<br />
Sophia Mueller 1 , Daniel Keeser 2 , Kristina Hennig-Fast 2 ,<br />
Christina Fuchs 3 , Ute Coates 4 , Maximilian Reiser 4 ,<br />
Thomas Meindl 5<br />
1 Institute of Clinical Radiology, 2 Department of Psychiatry<br />
and Psychotherapy, Ludwig-Maximilian University, Munich,<br />
Germany, 3 Department of Psychiatry and Psychotherapy,<br />
Ludwig-Maximilian University, Muich, Germany, 4 Institute<br />
of Clinical Radiology, University Hospitals Munich, Munich,<br />
Germany, 5 University Munich, Munich, Germany<br />
Local Cortical gyrification Changes in Schizophrenia<br />
and effects of genetic Liability<br />
Shantanu Joshi 1 , Keith Nuechterlein 2 , Roger Woods 1 , Owen<br />
Phillips 1 , Robert Asarnow 2 , Arthur Toga 1 , Katherine Narr 1<br />
1 Laboratory of Neuro Imaging, UCLA, Los Angeles, United<br />
States, 2 Departments of Neurology and Psychiatry and<br />
Biobehavioral Sciences, UCLA School of Medicine, Los<br />
Angeles, United States<br />
Cortical gray matter mean Diffusivity Increases in<br />
Schizophrenia<br />
Owen Phillips1 , Kristi Clark1 , Roger Woods2 ,<br />
Robert Asarnow2 , Keith Nuechterlein2 , Arthur Toga3 ,<br />
Katherine Narr4 1 2 UCLA, Los Angeles, CA, UCLA, LOS ANGELES, CA,<br />
3Laboratory of Neuro Imaging, UCLA, Los Angeles, CA,<br />
4Laboratory of Neuroimaging, UCLA School of Medicine,<br />
Los Angeles, CA<br />
genomic risk <strong>for</strong> schizophrenic brain function<br />
analyzed by Parallel-ICa<br />
Jiayu Chen 1 , Jingyu Liu 2 , Vince Calhoun 2<br />
1 University of New Mexico, 2 The Mind Research Network,<br />
Albuquerque, United States<br />
effective connectivity of language circuitry in<br />
schizophrenia patients with auditory hallucinations<br />
Branislava Curcic-Blake 1 , Edith Liemburg 2 , Ans<br />
Vercammen 3 , Marte Swart 2 , Rikus Knegtering 4 , Richard<br />
Bruggeman 2 , Andre Aleman 5<br />
1 University Medical Center Groningen, Netherlands,<br />
2 University Medical Center Groningen, Groningen,<br />
Netherlands, 3 Prince Of Wales Medical Research,<br />
Australia, 4 Lentis, Groningen, Netherlands, 5 BCN<br />
NeuroImaging Center, Groningen, Netherlands<br />
BDNF genetic Variation Predicts Hippocampal<br />
activation in medication-Free Schizophrenia Patients<br />
Daniel Eisenberg 1 , Angela Ianni 1 , Philip Kohn 1 ,<br />
Bhaskar Kolachana 1 , Jose Apud 1 , Daniel Weinberger 1 ,<br />
Karen Berman 1<br />
1 National Institutes of Health, Bethesda, MD<br />
90<br />
91<br />
92<br />
93<br />
94<br />
95<br />
96<br />
effective connectivity of aKT1 working memory<br />
networks and pharmacogenetics in schizophrenia<br />
Hao Yang Tan 1 , Anthony Chen 2 , Bhaskar Kolachana 2 ,<br />
Jose Apud 3 , Venkata Mattay 2 , Joseph Callicott 2 ,<br />
Qiang Chen 2 , Daniel Weinberger 2<br />
1 nimh, 2 NIMH, Bethesda, United States, 3 National Institutes<br />
of Health, Bethesda, MD<br />
altered Structural <strong>Brain</strong> Developmental Trajectory<br />
in youth at Clinical risk <strong>for</strong> Psychosis<br />
Daqiang Sun 1 , Theo van Erp 2 , Kathleen Chak 1 , Wendy<br />
Lau 1 , Leila Kushan 1 , Carrie Bearden 1 , Sarah Jacobson 1 ,<br />
Arthur Toga 3 , Paul Thompson 3 , Tyrone Cannon 1<br />
1 Departments of Psychology & Psychiatry and<br />
Biobehavioral Sciences, UCLA, Los Angeles, United<br />
States, 2 Department of Psychiatry and <strong>Human</strong> Behavior,<br />
UC Irvine, Irvine, United States, 3 Laboratory of Neuro<br />
Imaging, Dept. of Neurology, UCLA School of Medicine,<br />
Los Angeles, United States<br />
<strong>Brain</strong> structure changes in schizophrenia patients:<br />
correlation with disease duration and functional<br />
Thomas Nickl-Jockschat 1 , Alena Pagel 2 , Angela R. Laird 3 ,<br />
Frank Schneider 4 , Peter Fox 5 , Simon Eickhoff 6<br />
1 RWTH Aachen University, 2 Department of Psychiatry,<br />
Psychotherapy and Psychosomatics, RWTH Aachen<br />
University, Aachen, Germany, 3 Research Imaging Center,<br />
University of Texas Health Science Center at San Antonio,<br />
San Antonio, TX, 4 RWTH Aachen University, Department of<br />
Psychiatry, Psychotherapy and Psychosomatics, Aachen,<br />
Germany, 5 Research Imaging Center, UT Health Science<br />
Center, San Antonio, TX, 6 Department of Psychiatry and<br />
Psychotherapy, Aachen, Germany<br />
Functional Imaging of the Sensory gating response<br />
in Schizophrenia<br />
Andrew Mayer 1,2 , David Ruhl 1 , Flannery Merideth 1 ,<br />
Faith Hanlon 1 , Juan Bustillo 2 , Jose Canive 2<br />
1 The Mind Research Network, Albuquerque, United States,<br />
2 University of New Mexico, Albuquerque, United States<br />
Withdrawn<br />
Distributed brain activity during working memory<br />
can be used to classify first-episode schizophrenia<br />
Ayna Nejad 1,2 , Kristoffer Madsen 1 , Bjørn Ebdrup 2 ,<br />
Hartwig Siebner 1 , Hans Rasmussen 2 , Bodil Aggernaes 2 ,<br />
Birte Glenthøj 2 , William Baaré 1<br />
1 Danish Research Centre <strong>for</strong> Magnetic Resonance,<br />
Copenhagen University Hospital, Hvidovre, Denmark,<br />
2 Center <strong>for</strong> Clinical Intervention and Neuropsychiatric<br />
Schizophrenia Research, Copenhagen, Denmark<br />
reduced Connectivity in the Self-reflection Network<br />
of Schizophrenia Patients with Poor Insight<br />
Etith Liemburg 1 , Lisette Van Der Meer 2 , Marte Swart 1 ,<br />
Branislava Curcic-Blake 3 , Rikus Knegtering 4 , Andre<br />
Aleman 5<br />
1 University Medical Center Groningen, Groningen,<br />
Netherlands, 2 BCN-Neuroimaging Center, Netherlands,<br />
3 University Medical Center Groningen, Netherlands,<br />
4 Lentis, Groningen, Netherlands, 5 BCN NeuroImaging<br />
Center, Groningen, Netherlands > > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
HBM 2011 >> <strong>abstracts</strong> 103<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Schizophrenia and Psychotic Disorders, continued<br />
97<br />
98<br />
99<br />
100<br />
101<br />
102<br />
103<br />
Progressive degeneration of thalamocortical<br />
circuitry in schizophrenia<br />
Derin Cobia 1 , Matthew Smith 1 , Lei Wang 1 ,<br />
John Csernansky 1<br />
1 Northwestern University Feinberg School of Medicine,<br />
Chicago, IL, United States<br />
auditory hallucinations and external auditory<br />
stimulation: a meta-analysis of neuroimaging studies<br />
Kristiina Kompus 1 , Rene Westerhausen 1 , Kenneth Hugdahl 2<br />
1 University of Bergen, Bergen, Norway, 2 Division of<br />
Psychiatry and Bergen Mental Health Center, Haukeland<br />
University Hospital, Bergen, Norway<br />
using mVPa of fmrI Data at encoding to Predict<br />
Subsequent memory in Patients with Psychosis<br />
Kristen Haut 1 , Theo van Erp 2 , Carrie Bearden 1 ,<br />
Tyrone Cannon 1<br />
1 University of Cali<strong>for</strong>nia, Los Angeles, Los Angeles,<br />
United States, 2 University of Cali<strong>for</strong>nia, Irvine, Irvine, CA<br />
Disrupted Functional Small-World Network <strong>for</strong><br />
Spatial Working memory in Schizophrenia Patients<br />
Seung Suk Kang 1 , Angus MacDonald III 1 , Matthew<br />
Chafee 1 , Chang-Hwan Im 2 , Selin Aviyente 3 , Edward<br />
Bernat 4 , Scott Sponheim 5<br />
1 University of Minnesota, Minneapolis, MN, 2 Hanyang<br />
University, Seoul, Korea, Republic of, 3 Michigan State<br />
University, East Lansing, MI, 4 Florida State University,<br />
Tallahassee, FL, 5 Department of Psychiatry and the<br />
Center <strong>for</strong> Magnetic Resonance Research, University of<br />
Minnesota, Minneapolis, MN<br />
evidence <strong>for</strong> aberrant salience processing in<br />
unmedicated schizophrenia patients<br />
Benjamin Wagner 1 , Martin Voss 1 , Björn Schott 1,2 ,<br />
Torsten Wüstenberg 1 , Joachim Behr 1,3<br />
1 Department of Psychiatry and Psychotherapy,<br />
Charité University, Berlin, Germany, 2 Leibniz Institute<br />
<strong>for</strong> Neurobiology, Magdeburg, Germany, 3 Institute of<br />
Neurophysiology, Charité University, Berlin, Germany<br />
glu, Naa and gaBa levels in Hippocampus in<br />
Schizophrenia as measured by 3T 1H-mrS<br />
Yan Fang 1 , Perry Mihalakos 1 , Ana Stan 1 , Carol Tamminga 1 ,<br />
Changho Choi 1<br />
1 UT Southwestern, Dallas, TX<br />
genetic background of gamma (40Hz)-oscillations:<br />
The role of Neuregulin 1 and erbB4<br />
Christoph Mulert 1,2,3 , Gregor Leicht 1,2 , Ina Giegling 1 ,<br />
Susanne Karch 1 , Oliver Pogarell 1 , Ulrich Hegerl 4 ,<br />
Dan Rujescu 1<br />
1 Department of Psychiatry, Munich, Germany, 2 Department<br />
of Psychiatry, Hamburg, Germany, 3 Neuroimage Nord<br />
(NIN), Hamburg, Germany, 4 Department of Psychiatry,<br />
Leipzig, Germany<br />
104 HBM 2011 >> <strong>abstracts</strong><br />
104<br />
105<br />
106<br />
107<br />
108<br />
109<br />
110<br />
111<br />
Striatal activation during salience attribution and<br />
reward in first episode schizophrenia patients<br />
Christine Esslinger 1 , Peter Kirsch 1 , Susanne Englisch 1 ,<br />
Dragos Inta 1 , Franziska Rausch 1 , Wadim Bowl 2 ,<br />
Dagmar Gass 1 , Daniela Mier 1 , Andreas Meyer-Lindenberg 1 ,<br />
Mathias Zink 1<br />
1 Central Institute of Mental Health, Mannheim, Germany,<br />
2 Justus Liebig University, Giessen, Germany<br />
a combined fmrI and 1H-mr Spectroscopy (mrS)<br />
study of the hippocampus in schizophrenia<br />
Nathan Hutcheson 1 , David White 1 , Meredith Reid 1 ,<br />
Kathy Avsar 1 , Jan den Hollander 1 , Adrienne Lahti 1<br />
1 University of Alabama at Birmingham, Birmingham, AL<br />
Neural activity in schizophrenia patients and healthy<br />
controls during associative memory encoding<br />
Paul Metzak1,2 , Alex Leung1,2 , Todd Woodward1,2 1University of British Columbia, Vancouver, Canada,<br />
2BC Mental Health and Addictions Research Institute,<br />
Vancouver, Canada<br />
amplitude of low frequency fluctuations test-retest<br />
reliability in schizophrenia<br />
Jessica Turner1 , Christopher Abbott2 , Hongji Chen1 ,<br />
Andrew Mayer1 , Elena Allen1 , Juan Bustillo2 1Mind Research Network, Albuquerque, NM, United States,<br />
2University of New Mexico, Albuquerque, NM,<br />
United States<br />
White matter alterations in VCFS/22q11.2DS Patients<br />
with and without Prodromal Symptoms and Siblings<br />
Petya Radoeva 1 , Ioana Coman 1 , Kevin Antshel 1 ,<br />
Wanda Fremont 1 , Christopher McCarthy 1 , Ashwini Kotkar 1 ,<br />
Robert Shprintzen 1 , Wendy Kates 1<br />
1 SUNY Upstate Medical University, Syracuse, NY<br />
Proton magnetic resonance Spectroscopy of the<br />
Substantia Nigra in Schizophrenia<br />
Meredith Reid1 , Nina Kraguljac1 , David White1 ,<br />
Kathy Avsar1 , Jan den Hollander1 , Adrienne Lahti1 1University of Alabama at Birmingham, Birmingham, AL,<br />
United States<br />
Characterization of the Failure of Deactivation in<br />
Default mode Network in Schizophrenia<br />
Kayako Matsuo 1 , S.H. Annabel Chen 2 , Chih-Min Liu 3 ,<br />
Chen-Chung Liu 3 , Hai-Go Hwu 3 , Wen-Yih Isaac Tseng 1<br />
1 Center <strong>for</strong> Optoelectronic Biomedicine, National Taiwan<br />
University College of Medicine, Taipei, Taiwan, Republic<br />
of China, 2 Division of Psychology, School of <strong>Human</strong>ities<br />
and Social Sciences, Nanyang Technological University,<br />
Singapore, Singapore, 3 Department of Psychiatry,<br />
National Taiwan University Hospital, Taipei, Taiwan,<br />
Republic of China<br />
Probabilistic independent component analysis of<br />
fractional anisotropy maps in schizophrenia<br />
René Mandl 1 , Martijn van den Heuvel 1 , Heleen Boos 1 ,<br />
Wiepke Cahn 1 , René Kahn 1 , Hilleke Hulshoff Pol 1<br />
1 Rudolf Magnus Institute of Neuroscience, University<br />
Medical Center Utrecht, Utrecht, Netherlands
Disorders of the Nervous System<br />
Schizophrenia and Psychotic Disorders, continued<br />
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113<br />
114<br />
115<br />
an fmrI investigation of delay discouting in<br />
schizophrenia<br />
Kathy Avsar 1 , David White 2 , Meredith Reid 3 , Mark Bolding 4 ,<br />
Luke Stoeckel 5 , James Cox 1 , Rosalyn Weller 1 ,<br />
Adrienne Lahti 2<br />
1 Department of Psychology, University of Alabama<br />
at Birmingham, Birmingham, AL, 2 Neuroimaging and<br />
Translational Research Lab, University of Alabama at<br />
Birmingham, Birmingham, AL, 3 Department of Biomedical<br />
Engineering, University of Alabama at Birmingham,<br />
Birmingham, AL, 4 Department of Vision Sciences,<br />
University of Alabama at Birmingham, Birmingham,<br />
AL, 5 Department of Psychiatry, Massachusetts General<br />
Hospital, Boston, MA<br />
PhmrI study of endocannabinoid involvement in<br />
working memory function in schizophrenia<br />
Matthijs Bossong 1 , Johan Jansma 2 , Hendrika van Hell 1 ,<br />
Gerry Jager 3 , Nick Ramsey 4<br />
1 RMI, UMC Utrecht, Utrecht, Netherlands, 2 Rudolf Magnus<br />
Institute, UMC Utrecht, Utrecht, Netherlands, 3 Division of<br />
<strong>Human</strong> Nutrition, Wageningen University, Wageningen,<br />
Netherlands, 4 Rudolf Magnus Institute, Utrecht,<br />
Netherlands<br />
Sex, age and illness duration affect gyrification<br />
index in schizophrenia<br />
Adham Mancini-Marie 1 , Uicheul Yoon 2 , Jose Jiminez 3 ,<br />
Cherine Fahim 4 , Stephane Potvin 3 , Joshua Grant 5 ,<br />
Danièle Laverdure-Dupont 6 , Audrey-Anne Dubé 6 ,<br />
Carine Betrisey 7 , Pierre Rainveille 8 , Alan Evans 9 ,<br />
Emmanuel Stip 10 , Adrianna Mendrek 11<br />
1 Fernand Seguin Research Centre, L-H Lafontaine<br />
Hospital, University of Montreal, Montreal; Canada,<br />
2 Department of Biomedical Engineering, Hanyang<br />
University, Seoul, Korea, 3 Centre de Recherche Fernand-<br />
Seguin, L-H Lafontaine Hospital, University of Montreal,<br />
Montreal, Canada, 4 University of Lausanne, Lausanne,<br />
Switzerland, 5 Universite De Montreal, Montreal, Canada,<br />
6 Research Center (CRIUGM), University of Montreal,<br />
Montreal, Canada, 7 Department of Psychology, University<br />
of Fribourg, Fribourg, Switzerland, 8 Department of<br />
Stomatology, Faculty of Dentistry, University of Montreal,<br />
Montreal, Canada, 9 McConnell <strong>Brain</strong> Imaging Center,<br />
Montreal Neurological Institute, McGill University, Montreal,<br />
Quebec, 10 Department of Psychiatry, Faculty of Medicine,<br />
University of Montreal, Montreal, Canada, 11 Centre de<br />
Recherche Fernand-Seguin, Montreal, Canada<br />
Plasticity in syllable encoding and articulatory<br />
memory in schizophrenia after cognitive training<br />
Ethan Brown 1 , Corby Dale 2 , Anne Findlay 2 , Srikantan<br />
Nagarajan 2 , Mary Vertinski 3 , Sophia Vinogradov 2 ,<br />
Alexander Herman 2<br />
1 University of Cali<strong>for</strong>nia, San Francisco, San Francisco,<br />
USA, 2 University of Cali<strong>for</strong>nia, San Francisco, San<br />
Francisco, CA, 3 San Francisco Veteran’s Affairs Medical<br />
Center, San Francisco, CA<br />
116<br />
117<br />
118<br />
119<br />
120<br />
121<br />
122<br />
123<br />
Ventricular enlargement’s effect on cortical, thalamic,<br />
and striatal volume in schizophrenia<br />
Guillermo Horga 1 , Javier Bernacer-Maria 2 , William Byne 3 ,<br />
King-Wai Chu 4 , Jonathan Entis 3 , Erin Hazlett 5 , Mehmet<br />
Haznedar 3 , Eileen Kemether 3 , Monte Buchsbaum 6<br />
1 Department of Psychiatry, Barcelona, Spain, 2 University<br />
Of Cambridge, United Kingdom, 3 Mount Sinai School of<br />
Medicine, New York, NY, 4 Weill Medical College of Cornell<br />
University, New York, NY, 5 J.J.P. VA Medical Center,<br />
New York, NY, 6 University of Cali<strong>for</strong>nia, San Diego,<br />
San Diego, CA<br />
Blunted affect, hallucinations and emotional memory<br />
in schizophrenia men and women: an fmri study<br />
Nadia Lakis 1,2 , Julie Champagne 1,2 , Josiane Bourque 1,2 ,<br />
Marc Lavoie 1,2 , Adrianna Mendrek 1,2<br />
1 Centre de Recherche Fernand-Seguin, Montreal, QC,<br />
Canada, 2 Université de Montréal, Département de<br />
Psychiatrie, Montreal, QC, Canada<br />
Withdrawn<br />
electrophysiological abnormalities during visual<br />
perception as a core dysfunction in schizophrenia<br />
Ivan Koychev 1 , Wael El-Deredy 2 , Corinna Haenschel 3 ,<br />
Tirthankar Mukherjee 1 , Bill Deakin 1<br />
1 The University of Manchester, Manchester,<br />
United Kingdom, 2 University Of Manchester, Manchester,<br />
United Kingdom, 3 The University of Bangor, Welsh Institute<br />
of Cognitive Neuroscience, School of Psychology, Bangor,<br />
United Kingdom<br />
Cortical folding in relates to obstetric complications<br />
in schizophrenia and healthy controls<br />
Unn Kristin Haukvik 1 , Marie Schaer 2 , Ragnar Nesvåg 1 ,<br />
Thomas McNeil 3 , Cecilie Hartberg 4 , Erik Jönsson 5 ,<br />
Stephan Eliez 6 , Ingrid Agartz 1<br />
1 University of Oslo, Oslo, Norway, 2 Service Médico-<br />
Pédagogique, Genève 8, Switzerland, 3 Lund University,<br />
Lund, Sweden, 4 Institute of Clinical Medicine, University<br />
of Oslo, Oslo, Norway, 5 Karolinska Institute, Stockholm,<br />
Sweden, 6 Office Médico-Pédagogique Research Unit,<br />
Department of Psychiatry, University of Geneva, Geneva,<br />
Switzerland<br />
Neural correlates of reward processing in individuals<br />
with schizophrenia and healthy controls<br />
Muriah Wheelock 1 , David White 2 , Meredith Reid 2 ,<br />
Nathan Hutcheson 2 , Kathy Avsar 2 , Adrienne Lahti 2<br />
1 University of Alabama at Birmingham, Birmingham,<br />
United States, 2 University of Alabama at Birmingham,<br />
Birmingham, United States<br />
abnormal brain activation during emotion processing<br />
in healthy siblings of schizophrenia patients<br />
Mariët van Buuren 1 , Matthijs Vink 1 , Anca Rapcencu 1 ,<br />
René Kahn 1<br />
1 Rudolf Magnus Institute of Neuroscience, University<br />
Medical Center Utrecht, Utrecht, Netherlands<br />
Withdrawn<br />
HBM 2011 >> <strong>abstracts</strong> 105<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Schizophrenia and Psychotic Disorders, continued<br />
124<br />
125<br />
126<br />
127<br />
128<br />
auditory evoked potentials in a sensory gating task<br />
in adolescents with 22q11 deletion syndrome<br />
Tonia Rihs 1 , Juliane Britz 1 , Stephan Eliez 2 , Sarah<br />
Menghetti 2 , Vincent Rochas 1 , Maude Schneider 2 ,<br />
Christoph Michel 3,4<br />
1 Functional <strong>Brain</strong> <strong>Mapping</strong> Laboratory, Dept. of<br />
Fundamental Neurosciences, University of Geneva,<br />
Geneva, Switzerland, 2 Office Médico-Pédagogique<br />
Research Unit, Department of Psychiatry, University<br />
of Geneva, Geneva, Switzerland, 3 University Hospital,<br />
Geneva, Switzerland, 4 Functional <strong>Brain</strong> <strong>Mapping</strong><br />
Laboratory, Dept. of Fundamental Neurosciences,<br />
University of Geneva, Geneva, Switzerland<br />
alterations in Thalamo-Frontal anatomical Pathway<br />
to Subjects at ultra High risk <strong>for</strong> Psychosis<br />
Hyun Jung Han 1 , Jungsu S. Oh 2 , Wi Hoon Jung 2 , Aram<br />
Song 2 , Joon Hwan Jang 3 , Hye-Yoon Park 3 , Geumsook<br />
Shim 3 , Jun Soo Kwon 3<br />
1 Seoul National University, Seoul, Korea, Republic of,<br />
2 Clinical Cognitive Neuroscience Center, Neuroscience<br />
Institute, SNU-MRC, Seoul, Korea, Republic of,<br />
3 Department of Psychiatry, Seoul National University<br />
College of Medicine, Seoul, Korea, Republic of<br />
orbitofrontal cortex sulcogyral patterns in people at<br />
ultra high risk <strong>for</strong> psychosis<br />
Suzie Lavoie 1 , Cali Bartholomeusz 2 , Barnaby Nelson 1 ,<br />
Sarah Whittle 2,1 , Patrick McGorry 1 , Christos Pantelis 2 ,<br />
Alison Yung 1 , Stephen Wood 2,3<br />
1 Orygen Youth Health Research Centre, University<br />
of Melbourne, Melbourne, Australia, 2 Melbourne<br />
Neuropsychiatry Centre, University of Melbourne,<br />
Melbourne, Australia, 3 School of Psychology, University<br />
of Birmingham, Edgbaston, United Kingdom<br />
aberrant auditory Processing and its relation to<br />
grey matter volume in ultra-high-risk <strong>for</strong> psychosis<br />
Kyungsoon Shin 1 , Yuri Koh 1 , June Sic Kim 2 , Joon Hwan<br />
Jang 3 , Geumsook Shim 3 , Hye Yoon Park 3 , Jae Yeon<br />
Hwang 3 , Sung Nyun Kim 3 , Wi Hoon Jung 4 , Chun Kee<br />
Chung 2 , Jun Soo Kwon 3<br />
1 Clinical Cognitive Neuroscience Center, Seoul, Korea,<br />
Republic of, 2 MEG Center, Department of Neurosurgery,<br />
Seoul National University College of Medicine, Seoul,<br />
Korea, Republic of, 3 Department of Psychiatry, Seoul<br />
National University College of Medicine, Seoul, Korea,<br />
Republic of, 4 Clinical Cognitive Neuroscience Center,<br />
Neuroscience Institute, SNU-MRC, Seoul, Korea,<br />
Republic of<br />
Dorso-lateral prefrontal gaBa predicts individual<br />
differences in rash impulsivity<br />
Petroc Sumner 1 , Frederic Boy 2 , John Evans 3 ,<br />
Richard Edden 4 , Andrew Lawrence 2 , Krish Singh 5<br />
1 Cardiff University, 2 Cardiff University, Cardiff, United<br />
Kingdom, 3 Cardiff University <strong>Brain</strong> Research Imaging<br />
Centre, Cardiff, United Kingdom, 4 Russell H Morgan.<br />
Johns Hopkins University, School of Medicine, Baltimore,<br />
United States, 5 Cardiff University, Cardiff, Wales<br />
106 HBM 2011 >> <strong>abstracts</strong><br />
129<br />
130<br />
131<br />
132<br />
133<br />
134<br />
<strong>Brain</strong> structure relationships with cognition in<br />
schizophrenia, bipolar disorder and healthy controls<br />
Cecilie Hartberg 1 , Kjetil Sundet 2 , Lars M. Rimol 3 ,<br />
Unn Kristin Haukvik 3 , Elisabeth Lange 2 , Ragnar Nesvåg 2 ,<br />
Anders Dale 4 , Ingrid Melle 5 , Ole Andreassen 5 ,<br />
Ingrid Agartz 2<br />
1 Institute of Clinical Medicine, University of Oslo, Oslo,<br />
Norway, 2 University of Oslo, Oslo, Norway, 3 University of<br />
Oslo, 4 Department of Neurosciences and Department of<br />
Radiology, University of Cali<strong>for</strong>nia San Diego, San Diego,<br />
CA, 5 Institute of Clinical Medicine, Division of Mental Health<br />
and Addiction, University of Oslo, Oslo, Norway<br />
Verbal thought generation and auditory perception in<br />
schizophrenia: a follow-up fmrI study<br />
Lucile Rapin 1 , Paul Metzak 2 , Jennifer Whitman 2 ,<br />
Marion Dohen 1 , Hélène Loevenbruck 1 , Todd Woodward 3<br />
1 DPC, GIPSA-lab, UMR 5216, CNRS, Université de<br />
Grenoble, Grenoble, France, 2 UBC, Vancouver, Canada,<br />
3 University of British Columbia, Vancouver, Canada<br />
reading-Disorder genes modulate resting-state fmrI in<br />
language-related regions in controls and schizophrenia<br />
Sharna Jamadar 1 , Natalie Powers 2 , Shashwath Meda 3 ,<br />
Jeffrey Gruen 2 , Joel Gelernter 2 , Godfrey Pearlson 4<br />
1 Institute of Living, Hart<strong>for</strong>d, CT, 2 Yale University, New<br />
Haven, CT, 3 Vanderbilt University, Nashville, TN, 4 Hart<strong>for</strong>d<br />
Hospital, Hart<strong>for</strong>d, CT<br />
Surface de<strong>for</strong>mation-based analysis of subcortical<br />
structures in childhood-onset schizophrenia<br />
M. Mallar Chakravarty 1 , Armin Raznahan 2 , Jay Giedd 2 ,<br />
Judith Rapoport 2 , D. Louis Collins 3 , Jason Lerch 1 ,<br />
Nitin Gogtay 2<br />
1 Mouse Imaging Centre, The Hospital <strong>for</strong> Sick Children,<br />
Toronto, Ontario, 2 NIMH, NIH, Bethesda, United States,<br />
3 McConnell <strong>Brain</strong> Imaging Centre, Montreal Neurological<br />
Institute, Montreal, Canada<br />
Neural correlates of emotion regulation in patients<br />
with schizophrenia and first-degree relatives<br />
Jorien van der Velde 1 , Lisette Van Der Meer 1 , Marte Swart 2 ,<br />
Durk Wiersma 2 , Richard Bruggeman 2 , A. Aleman 3<br />
1 BCN-Neuroimaging Center, Groningen, Netherlands,<br />
2 University Medical Center Groningen, Groningen,<br />
Netherlands, 3 Neuroimaging Center, RuG and UMC<br />
Groningen, Groningen, Netherlands<br />
reduced high frequency gamma synchronization and<br />
auditory hallucination symptoms in schizophrenia<br />
Rikako Tsuchimoto1 , Shogo Hirano2 , Yoji Hirano2 ,<br />
Itta Nakamura2 , Yuko Oda2 , Toshiaki Onitsuka2 ,<br />
Naoya Oribe2 , Takefumi Ueno2 1 2 Kyushu University, Fukuoka,Japan, Kyushu University,<br />
Fukuoka, Japan
Disorders of the Nervous System<br />
Schizophrenia and Psychotic Disorders, continued<br />
135<br />
136<br />
137<br />
138<br />
139<br />
140<br />
altered default-mode network activity in schizophrenia:<br />
a resting state fmrI study<br />
Gianluca Mingoia 1 , Gerd Wagner 1 , kerstin Langbein 1 ,<br />
Sigrid Scherpiet 1 , Ralf Schloesser 1 , Christian Gaser 2 ,<br />
Heinrich Sauer 1 , Igor Nenadic 1<br />
1 Department of Psychiatry, Friedrich-Schiller University of<br />
Jena, Jena, Germany, 2 Structural <strong>Brain</strong> <strong>Mapping</strong> Group,<br />
Department of Psychiatry, University of Jena, Jena,<br />
Germany<br />
effective connectivity of the striatum during reward<br />
prediction error in schizophrenia<br />
David White 1 , Muriah Wheelock 1 , Nathan Hutcheson 1 ,<br />
Kathy Avsar 1 , Meredith Reid 1 , Luke Stoeckel 2 , Adrienne<br />
Lahti 1<br />
1 University of Alabama at Birmingham, Birmingham,<br />
AL United States, 2 Massachusetts General Hospital,<br />
Boston, MA United States<br />
an investigation of activation patterns during<br />
misidentification of emotional faces in schizophrenia<br />
Janina Seubert 1 , James Loughead 1 , Kosha Ruparel 1 ,<br />
Theodore Satterthwaite 1 , Amy Pinkham 2 , Jeffrey Valdez 1 ,<br />
Raquel Gur 1 , Ruben Gur 1<br />
1 University of Pennsylvania, Philadelphia, PA,<br />
2 Southern Methodist University, Dallas, TX<br />
Progesterone and cerebral function during emotion<br />
processing in men and women with schizophrenia<br />
Julie Champagne 1 , Nadia Lakis 1 , Josiane Bourque 1 ,<br />
Adrianna Mendrek 1<br />
1 Centre de Recherche Fernand-Seguin, Montreal, Canada<br />
mesolimbic metabolism during hallucination-like<br />
auditory stimulation in remitted schizophrenia<br />
Guillermo Horga1 , Emilio Fernandez-Egea2 , Eduard<br />
Parellada3 , Anna Konova4 , Anna Mane5 , Mireia Font3 ,<br />
Francisco Lomena3 , Bernardo Miguel3 1Columbia University, New York, United States,<br />
2University of Cambridge, Cambridge, United Kingdom,<br />
3Hospital Clinic of Barcelona, Barcelona, Spain,<br />
4 5 Stony Brook University, Stony Brook, NY, Centre Forum,<br />
Barcelona, Spain<br />
Neural Correlates of Cognitive Behavioural<br />
Therapy effects on Patients with Schizophrenia<br />
Maurice Cabanis 1 , Axel Krug 1 , Martin Pyka 1 , Henrik Walter 2 ,<br />
Georg Winterer 3 , Bernhard Müller 4 , Jutta Herrlich 5 , Georg<br />
Wiedemann 6 , Kai Vogeley 7 , Stefan Klingberg 8 , Alexander<br />
Rapp 8 , Andreas Wittorf 8 , Kircher Tilo 1<br />
1 Department of Psychiatry and Psychotherapy, Philipps-<br />
University Marburg, Marburg, Germany, 2 Department<br />
of Psychiatry and Psychotherapy Charité University<br />
Medicine, Berlin, Germany, 3 Department of Psychiatry<br />
and Psychotherapy, Heinrich Heine University Düsseldorf,<br />
Düsseldorf, Germany, 4 Department of Psychiatry and<br />
Psychotherapy, University of Duisburg-Essen, Essen,<br />
Germany, 5 Department of Psychiatry and Psychotherapy,<br />
Johann Wolfgang Goethe University Frankfurt/Main,<br />
Frankfurt/Main, Germany, 6 Clinic of Psychiatry and<br />
Psychotherapy, Clinical Centre Fulda, Fulda, Germany,<br />
7 Department of Psychiatry, University of Cologne, Cologne,<br />
Germany, 8 Department of Psychiatry and Psychotherapy,<br />
Eberhard Karls University, Tübingen, Germany<br />
141<br />
142<br />
143<br />
144<br />
145<br />
146<br />
Spontaneous striatal activity reflects disease states<br />
and symptom dimensions in schizophrenia<br />
Andrei Manoliu 1 , Christian Sorg 2 , Susanne Neufang 3 ,<br />
Nicholas Myers 3 , Mark Mühlau 4 , Josef Bäuml 5 ,<br />
Hans Förstl 5 , Claus Zimmer 3 , Afra Wohlschläger 3 ,<br />
Tom Eichele 6 , Valentin Riedl 7<br />
1 Department of Psychiatry and Neuroradiology, Technische<br />
Universität München, Munich, Germany, 2 Department<br />
of Psychiatry, Neuroradiology and Nuclear Medicine,<br />
Technische Universität München, Munich, Germany,<br />
3 Department of Neuroradiology, Technische Universität<br />
München, Munich, Germany, 4 Department of Neurology,<br />
Technische Universität München, Munich, Germany,<br />
5 Department of Psychiatry, Technische Universität<br />
München, Munich, Germany, 6 University of Bergen,<br />
7 Dept. of Neurology, Technische Universitaet Munich -<br />
Germany, Klinikum Rechts Der Isar, Munich, Germany<br />
error processing, sequential trial effects and motivation<br />
in schizophrenia: an fmrI study<br />
Alexander Nitsch 1 , Johannes Hewig 2 , Claudia<br />
Schachtzabel 1 , Kathrin Koch 1 , Ralf Schlösser 1 ,<br />
Ged Wagner 1 , Daniel Wiswede 1 , Wolfgang Miltner 1 ,<br />
Thomas Straube 1<br />
1 University of Jena, Jena, Germany, 2 University of<br />
Würzburg, Würzburg, Germany<br />
recognition memory of highly arousing images in<br />
schizophrenia: an fmrI study of sex differences<br />
Nadia Lakis 1,2 , Josiane Bourque 1,2 , Julie Champagne 1,2 ,<br />
Marc Lavoie 1,2 , Adrianna Mendrek 1,2<br />
1 Centre de Recherche Fernand-Seguin, Montreal,<br />
QC, Canada, 2 Université de Montréal, Départment de<br />
Psychiatrie, Montreal, QC, Canada<br />
Is neurocognitive function altered in treatmentresistant<br />
schizophrenia patients?,<br />
Josiane Bourque 1,2 , Julie Champagne 1,2 , Nadia Lakis 1,2 ,<br />
Emmanuel Stip 1,2 , Adrianna Mendrek 1,2<br />
1 Centre de Recherche Fernand-Seguin, Montreal, Canada,<br />
2 Université de Montréal, Montreal, Canada<br />
anosognosia or lack of insight in Schizophrenia:<br />
VBm and hemispheric asymmetry analyses<br />
Philip Gerretsen 1 , David Mamo 2 , M. Mallar Chakravarty 3 ,<br />
Mahesh Menon 2 , Bruce Pollock 2 , Tarek Rajji 4 , Ariel Graff 2<br />
1 Centre <strong>for</strong> Addiction and Mental Health, 2 Centre <strong>for</strong><br />
Addiction and Mental Health, Toronto, Canada, 3 Rotman<br />
Research Institute/Mouse Imaging Centre, Toronto, Ontario,<br />
4 Cantre <strong>for</strong> Addiction and Mental Health, Toronto, Canada<br />
DTI-tractography of the <strong>for</strong>nix and confidence in<br />
beliefs in first-episode psychosis<br />
Lisa Buchy1 , David Luck2 , Yvonne Czechowska2 ,<br />
Ashok Malla2 , Ridha Joober2 , Martin Lepage1 1 2 McGill University, Montreal, Canada, McGill, Montreal,<br />
Canada<br />
HBM 2011 >> <strong>abstracts</strong> 107<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Schizophrenia and Psychotic Disorders, continued<br />
147<br />
148<br />
149<br />
150<br />
151<br />
152<br />
153<br />
Neurological soft signs and gray matter changes in<br />
first-episode schizophrenia<br />
Li Kong 1 , Silke Bachmann 2 , Philipp Thomann 1 ,<br />
Marco Essig 3 , Johannes Schröder 1<br />
1 Department of General Psychiatry, University of<br />
Heidelberg, Heidelberg, Germany, 2 Psychotherapy and<br />
Psychosomatics, Halle-Wittenberg, Germany, 3 German<br />
Cancer Research Center, Heidelberg, Germany<br />
Hippocampal Ca3 and Dg subfield changes in rCBV in<br />
schizophrenia on and off antipsychotic medication<br />
Carolyn Sacco 1 , Yan Fang 1 , Perry Mihalakos 1 , Jinsoo Uh 1 ,<br />
Hanzhang Lu 1 , Anthony Wagner 2 , Carol Tamminga 1<br />
1 Department of Psychiatry, UT Southwestern, Dallas, TX,<br />
2 Departments of Psychology & Neuroscience, Stan<strong>for</strong>d<br />
University, Palo Alto, CA<br />
The Kraepelinian dichotomy and fmrI markers of<br />
schizophrenia and bipolar affective disorder<br />
Kerstin Zvonik 1 , David Zilles 1 , Sarah Trost 2 ,<br />
Ilona Henseler 3 , Heike Tost 4 , Marcella Rietschel 5 ,<br />
Peter Falkai 1 , Oliver Gruber 1<br />
1 Center <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Georg August University,<br />
Goettingen, Germany, 2 Center <strong>for</strong> Translational Research<br />
in Systems Neuroscience and Psychiatry, Goettingen,<br />
Germany, 3 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany, 4 Central Institute of<br />
Mental Health (CIMH) Mannheim, Germany, Mannheim,<br />
Germany, 5 Central Institute of Mental Health, Mannheim,<br />
Germany<br />
Withdrawn<br />
Impaired fronto-striatal activity in the psychosis<br />
prodrome<br />
Tiziano Colibazzi 1 , Zhishun Wang 2 , Fenglei Tian 2 , Pengwei<br />
Wang 3 , Kristin Klahr 2 , Cheryl Corcoran 2 , Bradley Peterson 3<br />
1 Columbia University, 2 Columbia University, New York , NY,<br />
3 Columbia University, New York , New York<br />
modification of activation pattern by long term<br />
high-frequency rTmS in schizophrenia-an fmrT study<br />
Birgit Guse 1 , Peter Dechent 2 , Peter Falkai 3 , Oliver Gruber 4 ,<br />
Thomas Wobrock 5<br />
1 University of Goettingen, 2 MR-Research in Neurology<br />
and Psychiatry, University Medical Center Goettingen,<br />
Goettingen, Germany, 3 Center <strong>for</strong> Translational Research<br />
in Systems Neuroscience and Psychiatry, Georg August<br />
University, Göttingen, Germany, 4 Goettingen, Germany,<br />
5 University of Goettingen, Psychiatry, Goettingen, Germany<br />
Charactoristics of the brain function using a imagery<br />
finger movement in schizophrenia patients<br />
Takefumi Ueno 1,2 , Masayuki Inoue 3 , Ryo Fujii 4 , Toshi Abe 4 ,<br />
Kiichiro Morita 4<br />
1 IUHW, Fukuoka, Japan, 2 Kyushu University Graduate<br />
School of Medical Sciences, Fukuoka, Japan, 3 Kawano<br />
najima hospital, Fukuoka, Japan, 4 Kurume University,<br />
Dep. of Medicine, Kurume, Japan<br />
108 HBM 2011 >> <strong>abstracts</strong><br />
154<br />
155<br />
156<br />
157<br />
158<br />
Disorders of the Nervous System<br />
Sleep Disorders<br />
Sleep deprivation alters decision value signals<br />
Camilo Libedinsky 1 , David Smith 2 , Praneeth Namburi 1 ,<br />
Vanessa Chen 1 , Chieh Schen Teng 1 , Scott Huettel 2 ,<br />
Michael Chee 1<br />
1 Duke-NUS Graduate Medical School, Singapore,<br />
Singapore, 2 Duke University, Durham, NC, United States<br />
Instrumental conditioning of 12-15Hz brain oscillations<br />
enhances eeg frequencies and sleep quality<br />
Manuel Schabus 1 , Kerstin Hoedlmoser 1 , Hermann<br />
Griessenberger 1 , Dominik Heib 1 , Annedore Pawlizki 2 ,<br />
Wolfgang Klimesch 1<br />
1 University of Salzburg, Salzburg, Austria, 2 Ludwig-<br />
Maximilians-Universität München, Munich, Germany<br />
The role of the Insula in the maintenance of Insomnia<br />
Christopher Harvey1 , Colin Espie2 , Marie-Helene Grosbas3 1 2 University of Glasgow Sleep Centre, University of<br />
Glasgow Sleep Centre, Glasgow, United Kingdom,<br />
3University of Glasgow School of Psychology, Glasgow,<br />
United Kingdom<br />
The supplementary motor area and dream-enacting<br />
behavior<br />
Philippe PEIGNEUX 1 , Vincent BOUDOUSQ 2 , Regis<br />
LOPEZ 3 , Audrey GABELLE 3 , Valérie COCHEN DE COCK 3,4 ,<br />
Sophie BAYARD 3,4 , Yves DAUVILLIERS 3,4<br />
1 UR2NF - Neuropsychology and Functional Neuroimaging<br />
Research Unit, ULB, Bruxelles, Belgium, 2 Service de<br />
Médecine nucléaire, Hôpital Caremeau, CHU Nîmes,<br />
Nimes, France, 3 Service de Neurologie, Hôpital Gui-de-<br />
Chauliac, Montpellier, France, 4 Inserm U888, Montpellier,<br />
France<br />
<strong>Brain</strong> anatomical abnormalities in Sleep apnea:<br />
an activation Likelihood estimation meta-analysis<br />
Hsu-Huei Weng 1,2,3 , Yu-Ching Lin 4 , Ying-Huang Tsai 4 ,<br />
Cheng-Ta Yang 4 , Chun-Yuh Yang 5 , Chih-Feng Chen 1 ,<br />
Yuan-Hsiung Tsai 1<br />
1 Department of Diagnostic Radiology, Chang Gung<br />
Memorial Hospital, Chiayi, Taiwan, Republic of China,<br />
2 Department of Respiratory Care, Chang Gung Institute<br />
of Technology, Chiayi, Taiwan, Republic of China,<br />
3 Department of Psychology, National Chung Cheng<br />
University, Chiayi, Taiwan, Republic of China, 4 Division<br />
of Pulmonary and Critical Care Medicine, Chang Gung<br />
Memorial Hospital, Chiayi, Taiwan, Republic of China,<br />
5 Faculty of Public Health, College of Health Sciences,<br />
Kaohsiung Medical University, Kaohsiung, Taiwan,<br />
Republic of China
159*<br />
160**<br />
161<br />
162<br />
163<br />
164<br />
Disorders of the Nervous System<br />
Stroke<br />
Cortical activation changes underlying stimulationinduced<br />
functional improvements in chronic stroke,<br />
(o-Th1)<br />
Charlotte Stagg 1 , Velicia Bachtiar 1 , Jacinta O’Shea 1 ,<br />
Claire Allman 1 , Rosemary Bosnell 1 , Kischka Udo 2 ,<br />
Paul Matthews 3 , Heidi Johansen-Berg 1<br />
1 University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom, 2 Ox<strong>for</strong>d<br />
Centre <strong>for</strong> Enablement, Ox<strong>for</strong>d, United Kingdom, 3 Imperial<br />
College London, London, United Kingdom<br />
The role of the cortico-rubro-spinal tract in motor<br />
recovery after stroke – a DTI-study<br />
Theodor Ruber 1 , Gottfried Schlaug 1 , Robert Lindenberg 1<br />
1 BIDMC / Harvard Medical School, Boston, United States<br />
Functional <strong>Brain</strong> mapping by means of eeg resting<br />
State Connectivity analysis<br />
Sviatlana Dubovik 1 , Jean-Michel Pignat 1 , Radek Ptak 1 ,<br />
Tatiana Aboulafia 1 , Nicole Gillabert 1 , Lara Allet 1 , Armin<br />
Schnider 1 , Adrian Guggisberg 1<br />
1 University Hospital Geneva, Geneva, Switzerland<br />
effective connectivity and electrophysiological<br />
excitability in stroke patients<br />
Anna-Sophia Sarfeld 1,2 , Svenja Diekhoff 1 , Anne Rehme 1 ,<br />
Simon Eickhoff 3,4 , Gereon Fink 2,4 , Christian Grefkes 1,2<br />
1 Max-Planck-Institute <strong>for</strong> Neurological Research, Cologne,<br />
Germany, 2 Department of Neurology, University of Cologne,<br />
Germany, 3 Department of Psychiatry and Psychotherapy,<br />
University of Aachen, Germany, 4 Institute of Neuroscience<br />
and Medicine (INM-3), Cognitive Neurology Section,<br />
Juelich Research Centre, Juelich, Germany<br />
<strong>Brain</strong>s predictors of motor recovery of stroke patients<br />
using fmrI and DCm analysis<br />
Marie-Hélène Boudrias 1 , Amanda Wallace 1 , Penelope<br />
Talelli 1 , John Rothwell 1 , Nick Ward 1<br />
1 UCL Institute of Neurology, London, United Kingdom<br />
Does metabolite connectivity across spared motor<br />
areas is altered in stroke?<br />
Carmen M Cirstea 1 , Randolph Nudo 1 , William Brooks 1 ,<br />
Elena Popescu 1 , Sorin Craciunas 1<br />
1 University of Kansas Medical Center, Kansas City, KS<br />
165<br />
166<br />
167<br />
168<br />
169<br />
170<br />
effective connectivity predicts behavioural response<br />
to rTmS in stroke patients<br />
Svenja Diekhoff 1 , Anna-Sophia Sarfeld 1 , Eva-Maria Hohl 1 ,<br />
Ricarda Strunk 1 , Roland Sparing 2 , Gereon Fink 2 ,<br />
Christian Grefkes 1<br />
1 Max Planck Institute <strong>for</strong> neurological Research, Cologne,<br />
Germany, 2 Department of Neurology, University of Cologne,<br />
Cologne, Germany<br />
Indivualized assessment of alterations in resting-state<br />
functional connectivity following stroke<br />
Flore BARONNET 1,2 , Sepideh Sadaghiani 1 ,<br />
Gael Varoquaux 1 , Marie Gaudron 2 , Charlotte Rosso 2 ,<br />
Yves Samson 2 , Andreas Kleinschmidt 3<br />
1 INSERM/CEA Cognitive neuroimaging unit, Gif-sur-Yvette,<br />
France, 2 Stroke unit Pitié-Salpêtrière Hospital, Paris,<br />
France, 3 INSERM, Gif/Yvette, France<br />
Comparison of mapping Techniques <strong>for</strong> Prediction of<br />
motor Function, outcome Post Sub-Cortical Stroke<br />
Michael Sidel 1 , Sasan Ghinani 2 , Jeffery Minuk 3 ,<br />
Basia Radlinska 2 , Caroline Paquette 4 , Alexander Thiel 5<br />
1 McGill University/Lady Davis Institute, 2 McGill University/<br />
Lady Davis Institute, Montreal, Quebec, 3 Jewish General<br />
Hospital/McGill University, Montreal, Quebec, 4 Jewish<br />
General Hospital & Lady Davis Institute <strong>for</strong> Medical<br />
Research, Montreal, Canada, 5 Jewish General Hospital -<br />
McGill University, Montreal, Canada<br />
energy Flow mapping & Heat Conduction<br />
Tensor Imaging to Plan Hypothermic Therapy in<br />
Neonatal Stroke<br />
Prasun Roy1 , Budhachandra Khundrakpam1,2 1National <strong>Brain</strong> Research Centre, Manesar, India,<br />
2Presently: Montreal Neurological Institute, Montreal,<br />
Canada<br />
rs-connectivity changes predict movement recovery<br />
due to robot assisted BCI training<br />
Balint Varkuti 1 , Cuntai Guan 2 , Yaozhang Pan 2 , Kok Soon<br />
Phua 2 , Kai Keng Ang 2 , Christopher Wee Keong Kuah 3 ,<br />
Karen Chua 3 , Beng Ti Ang 4 , Niels Birbaumer 1 ,<br />
Ranganatha Sitaram 1<br />
1 Institute of Medical Psychology and Behavioral<br />
Neurobiology, University of Tuebingen, Tuebingen,<br />
Germany, 2 Institute <strong>for</strong> Infocomm Research, Singapore,<br />
Singapore, 3 Department of Rehabilitation Medicine,<br />
Tan Tock Seng Hospital, TTSH rehabilitation centre,<br />
Singapore, Singapore, 4 National Neuroscience Institute,<br />
Singapore, Singapore<br />
Tissue-Differentiation in Stroke using<br />
resting-state fmrI<br />
Yating Lv 1 , Daniel Margulies 1,2 , Xiangyu Long 1 ,<br />
Christiane Rohr 1,2 , Benjamin Winter 3 , Matthias Endres 3 ,<br />
Kersten Villringer 3 , Jochen Fiebach 3 , Arno Villringer 1,2,3<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Berlin School of Mind and<br />
<strong>Brain</strong>, Humboldt University, Berlin, Germany, 3 Center <strong>for</strong><br />
Stroke Research and Dept. Neurology, Charité, Berlin,<br />
Germany<br />
HBM 2011 >> <strong>abstracts</strong> 109<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Stroke, continued<br />
171<br />
172<br />
173<br />
174<br />
175<br />
176<br />
177<br />
Activation likelihood estimation meta-analysis of<br />
movement-related neural activity after stroke<br />
Anne Rehme 1 , Simon Eickhoff 2 , Gereon Fink 3 ,<br />
Christian Grefkes 4<br />
1 Max-Planck-Institute <strong>for</strong> neurological Research, Cologne,<br />
Germany, 2 Department of Psychiatry and Psychotherapy,<br />
Aachen, Germany, 3 Department of Neurology, University<br />
of Cologne, Cologne, Germany, 4 Max Planck Institute <strong>for</strong><br />
Neurological Research Cologne, Cologne, Germany<br />
Longitudinal Changes of Default-mode Network and<br />
Relationship with Cognitive Recovery after Stroke<br />
Yun-Hee Kim 1 , Ji-Young Park 1 , Won Hyuk Chang 1 ,<br />
Min Jae Kang 1 , Alvaro Pascual-Leone 2<br />
1 Samsung Medical Center, Sungkyunkwan University<br />
School of Medicine, Seoul, Korea, Republic of, 2 Beth Israel<br />
Deaconess Medical Center, Harvard Medical School,<br />
Boston, MA<br />
Improvement in neurophysiological measures and<br />
motor function by navigated rTMS in stroke<br />
Shahid Bashir 1 , Najib Umer 1 , Perez Jennifer 1 ,<br />
Marine Vernet’ 1 , Mark Knobel 1 , Alonso Miguel 1 ,<br />
Dylan Edwards 2 , Alvaro Pascual-Leone 1<br />
1 Beth Israel Deaconess Medical Center, Harvard Medical<br />
School, Boston, MA, 2 Non-Invasive <strong>Brain</strong> Stimulation, and<br />
the <strong>Human</strong> Motor Control Laboratory, New York ,<br />
United States<br />
Neuronal network reorganization during aphasia<br />
therapy-based stroke recovery<br />
Priya Santhanam 1 , Blythe Buchholz 2 , Steven Small 3,4<br />
1 The University of Chicago, 2 The University of Chicago,<br />
Chicago, IL, 3 The University of Chicago, Chicago, United<br />
States, 4 The University of Cali<strong>for</strong>nia- Irvine, Irvine, CA<br />
Morphological Changes in Motor Fibres of the Corpus<br />
Callosum in Subcortical Stroke Patients<br />
Basia Radlinska 1 , Yasmin Blunck 2 , Ilana Leppert 3 ,<br />
Alexander Thiel 4<br />
1 McGill University/Lady Davis Institute, Montreal, Quebec,<br />
2 LMU Munich, Munich, Germany, 3 McConnell <strong>Brain</strong><br />
Imaging Centre, Montreal, Canada, 4 Jewish General<br />
Hospital - McGill University, Montreal, Canada<br />
Intensive therapy induces white matter changes in<br />
stroke patients with aphasia<br />
Xin Zheng1 , Catherine Wan1 , Sarah Marchina1 ,<br />
Andrea Norton1 , Gottfried Schlaug1 1Beth Israel Deaconess Medical Center / Harvard Medical<br />
School, Boston, MA<br />
Lesion Loads of functional and structural canonical<br />
map predict recovery from aphasia<br />
Jing Wang1 , Lin Zhu1 , Sarah Marchina1 , Andrea Norton1 ,<br />
Catherine Wan1 , Jennifer Zuk1 , Gottfried Schlaug1 1Beth Israel Deaconess Medical Center / Harvard Medical<br />
School, Boston, MA<br />
110 HBM 2011 >> <strong>abstracts</strong><br />
178<br />
179<br />
180<br />
181<br />
182<br />
183**<br />
<strong>Brain</strong> volume change after stroke and acute<br />
Granulocyte-Colony-Stimulating-Factor intervention<br />
Matthias Kraemer 1 , Thorsten Schormann 2 , Andreas<br />
Dabringhaus 3 , Sandra Boy 4 , Gerhard Schuierer 4 ,<br />
Sophie Sauerbruch 4 , Ulrich Bogdahn 4<br />
1 Neurological Therapy Center, Cologne, Germany, 2 Institute<br />
<strong>for</strong> Anatomy, Duesseldorf, Germany, 3 St. Mauritius Therapy<br />
Clinic, Meerbusch, Germany, 4 Department of Neurology,<br />
University Medical Center, Regensburg, Germany<br />
What is the role of the left hemisphere in recovery of<br />
language in patients with aphasia? A multiple case<br />
study<br />
Swathi Kiran 1,2 , Peter Glynn 2 , Chaleece Sandberg 2<br />
1 University of Texas at Austin, Austin, United States,<br />
2 Boston University, Boston, MA<br />
Cortical plasticity and predictive markers <strong>for</strong> stroke<br />
recovery defined by a multi-modal framework<br />
Kelly Westlake 1 , Monica Bucci 2 , Leighton Hinkley 3 ,<br />
Roland Henry 2 , Srikantan Nagarajan 4<br />
1 University of Maryland School of Medicine, Baltimore,<br />
United States, 2 Department of Radiology, University of<br />
Cali<strong>for</strong>nia, San Francisco, San Francisco, United States,<br />
3 Biomagnetic Imaging Lab, Department of Radiology,<br />
University of Cali<strong>for</strong>nia, San Francisco, San Francisco,<br />
United States, 4 Biomagnetic Imaging Lab, Department of<br />
Radiology, University of Cali<strong>for</strong>nia in San Francisco, San<br />
Francisco, CA<br />
Pedaling-related <strong>Brain</strong> Activity in Chronic Stroke<br />
Survivors: An fMRI Study<br />
Nuttaon Promjunyakul 1,2 , Matthew Verber 3 , Brian Schmit 1 ,<br />
Sheila Schindler-Ivens 2<br />
1 Department of Biomedical Engineering, Marquette<br />
University, Milwaukee, WI, 2 Department of Physical<br />
Therapy, Marquette University, Milwaukee, WI, 3 Clinical<br />
and Translational Science Institute, Medical College of<br />
Wisconsin, Milwaukee, WI<br />
Structural and Functional Association of Hand<br />
Recovery in Pediatric Patients Following Stroke<br />
Trish Domi 1 , David Mikulis 2 , Mary Pat McAndrews 3 ,<br />
Gabrielle deVeber 4<br />
1 Hospital <strong>for</strong> Sick Children, Toronto, Canada, 2 University<br />
Health Network - Toronto Western, Toronto, ON, 3 University<br />
Health Network - U of Toronto, Toronto, Canada, 4 Hospital<br />
<strong>for</strong> Sick Children, Toronto, Ontario<br />
Withdrawn
Disorders of the Nervous System<br />
Other Disorders<br />
184*<br />
185**<br />
186**<br />
187**<br />
Involvement of spinal sensory pathway in amyotrophic<br />
lateral sclerosis detected with DTI and mT, (o-Th1)<br />
Mohamed-Mounir EL MENDILI 1 , Julien Cohen-Adad 2,1 ,<br />
Sophie Blancho 3 , Régine Morizot-Koutlidis 4 , Stéphane<br />
Lehéricy 5,6 , Serge Rossignol 7 , Habib Benali 1 ,<br />
Pierre-François Pradat 8<br />
1 UMR-678, INSERM-UPMC, Pitié-Salpêtrière Hospital,<br />
Paris, France, 2 Martinos Center <strong>for</strong> Biomedical Imaging,<br />
MGH, Harvard Medical School, Charlestown, MA,<br />
USA, 3 Institut pour la Recherche sur la Moelle Epinière<br />
et l’Encéphale, Paris, France, 4 Service Explorations<br />
Fonctionnelles Neurologie, Pitié-Salpêtrière Hospital, Paris,<br />
France, 5 CENIR, Paris, France, 6 CR Institut du Cerveau<br />
et de la Moelle épinière, Pitié-Salpêtrière Hospital, Paris,<br />
France, 7 GRSNC, Faculty of Medicine, Université de<br />
Montréal, Montréal, Canada, 8 Département des Maladies<br />
du Système Nerveux, AP-HP, Pitié-Salpêtrière Hospital,<br />
Paris, France<br />
abnormalities in the microstructure of the attention<br />
Network in adults with aDHD<br />
Yi-Huan Wu 1 , Wen-Yih Tseng 2,3 , Fang-Cheng Yeh 4 ,<br />
Wen-Yang Chiang 5 , Shur-Fen Gau 6<br />
1 School of Medicine National Taiwan University College<br />
of Medicine, Taipei, Taiwan, 2 Center <strong>for</strong> Optoelectronic<br />
Biomedicine, National Taiwan University College of<br />
Medicine, Taipei, Taiwan, 3 Department of Medical Imaging,<br />
National Taiwan University Hospital, Taipei, Taiwan,<br />
4 Department of Biomedical Engineering, Carnegie Mellon<br />
University, Pittsburgh, PA, USA, 5 Department of Biomedical<br />
Engineering, Texas A&M University, College Station, TX,<br />
USA, 6 Department of Psychiatry, National Taiwan University<br />
Hospital and College of Medicine, Taipei, Taiwan<br />
evaluating Diffusion abnormalities in Sickle Cell<br />
Disease with Tract-Based Spatial Statistics<br />
Binjian Sun 1 , Clark Brown 1 , Laura Hayes 1 , Thomas Burns 1 ,<br />
Richard Jones 1,2<br />
1 Children’s Healthcare of Atlanta, Atlanta, GA,<br />
2 Emory University, Atlanta, GA<br />
Cognitive processing of food stimuli in chronically ill<br />
and recovered women with anorexia nervosa<br />
Paul Smeets 1,2 , Nicole Sanders 3 , Annemarie van Elburg 3 ,<br />
Hans Hoek 3 , Unna Danner 3 , Max Viergever 1 , Roger Adan 1<br />
1 University Medical Center Utrecht, Utrecht, Netherlands,<br />
2 Division of <strong>Human</strong> Nutrition, Wageningen University,<br />
Wageningen, Netherlands, 3 Rintveld Centre <strong>for</strong> Eating<br />
Disorders, Zeist, Netherlands<br />
188**<br />
189<br />
190<br />
191<br />
192<br />
Diffusion Tensor Imaging of the Cerebellum and<br />
eyeblink Conditioning in Fetal alcohol Spectrum<br />
Bruce Spottiswoode 1,2 , Ernesta Meintjes 1 , Adam<br />
Anderson 3,4 , Christopher Molteno 5 , Mark Stanton 6 ,<br />
Neil Dodge 7 , John Gore 4 , Bradley Peterson 8 ,<br />
Joseph Jacobson 9,10,11 , Sandra Jacobson 9,10,11<br />
1 MRC/UCT Medical Imaging Research Unit, Department<br />
of <strong>Human</strong> Biology, University of Cape Town, Cape Town,<br />
South Africa, 2 Department of Radiological Sciences and<br />
Oncology, University of Stellenbosch, Cape Town, South<br />
Africa, 3 Vanderbilt University Institute of Imaging Science,<br />
Nashville, TN, 4 Department of Biomedical Engineering,<br />
Vanderbilt University, Nashville, TN, 5 Department of<br />
Psychiatry, University of Cape Town, Cape Town, South<br />
Africa, 6 Department of Psychology, University of Delaware,<br />
Newark, DE, 7 Department of Psychiatry and Behavioral<br />
Neurosciences, Wayne State University, Detroit, MI,<br />
8 Division of Child Psychiatry, Columbia College of<br />
Physicians & Surgeons, New York , NY, 9 Department of<br />
Psychiatry and Behavioral Neurosciences, Wayne State<br />
University School of Medicine, Detroit, MI, 10 Department<br />
of Psychiatry and Mental Health, University of Cape Town,<br />
Cape Town, South Africa, 11 Department of <strong>Human</strong> Biology,<br />
University of Cape Town, Cape Town, South Africa<br />
Functional Connectivity of Pain-mediated affect<br />
regulation in Borderline Personality Disorder<br />
Inga Niedtfeld 1 , Peter Kirsch 1 , Sabine Herpertz 2 ,<br />
Martin Bohus 1 , Christian Schmahl 1<br />
1 Central Institute of Mental Health, Mannheim, Germany,<br />
2 Center of Psychosocial Medicine, Heidelberg, Germany<br />
White matter and gray matter changes in isolated<br />
optic neuritis patients during one year follow up<br />
Gelareh Ahmadi 1 , Scott Kolbe 1 , Anneke Van der Walt 2,3 ,<br />
Neil Shuey 4 , Peter Mitchell 5 , Helmut Butzkueven 1,3 ,<br />
Mark Paine 4 , Mark Marriott 4 , Trevor Kilpatrick 1,3 , Gary Egan 1<br />
1 Florey Neuroscience Institutes, Centre <strong>for</strong> Neuroscience,<br />
University of Melbourne, Melbourne, Australia, 2 Centre <strong>for</strong><br />
Neuroscience, Neuro-ophthalmology Unit, Royal Victorian<br />
Eye and Ear Hospital, Melbourne, Australia, 3 Department<br />
of Neurology, Royal Melbourne Hospital, Melbourne,<br />
Australia, 4 Neuro-ophthalmology Unit, Royal Victorian Eye<br />
and Ear Hospital, Melbourne, Australia, 5 Department of<br />
Radiology, Royal Melbourne Hospital, Melbourne, Australia<br />
Compensatory effects of acute mental fatigue on brain<br />
mechanisms: an fmrI study<br />
Seishu Nakagawa 1 , Motoaki Sugiura 1 , Yuko Akitsuki 2 , SM<br />
Hadi Hosseini 1 , Yuka Kotozaki 2 , Carlos Makoto Miyauchi 1 ,<br />
Yukihito Yomogida 1,3 , Hikaru Takeuchi 2 , Ryuta Kawashima 1,2<br />
1 IDAC, Tohoku University, Sendai, Japan, 2 SAIRC, Tohoku<br />
University, Sendai, Japan, 3 JSPS, Tokyo, Japan<br />
Study of Susceptibility Contrast in Deep <strong>Brain</strong> gray<br />
matter areas in multiple Sclerosis with 7T mrI<br />
Bing Yao 1 , Francesca Bagnato 2 , Karin Shmueli 1 , Jeff Duyn 1<br />
1 Advanced MRI, LFMI, NINDS, National Institutes of<br />
Health, Bethesda, MD, 2 Neuroimmunology Branch, NINDS,<br />
National Institutes of Health, Bethesda, MD<br />
HBM 2011 >> <strong>abstracts</strong> 111<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Other Disorders, continued<br />
193<br />
194<br />
195<br />
196<br />
197<br />
198<br />
<strong>Brain</strong> White matter atrophy Correlates with Nadir CD4+<br />
Counts and N-acetylaspartate (Naa) in HIV/aIDS<br />
Xue Hua 1 , Suh Lee 1 , Christina Boyle 1 , Priya Rajagopalan 1 ,<br />
Arthur Toga 1 , Jaroslaw Harezlak 2 , Constantin Yiannoutsos 2 ,<br />
David Tate 3 , Brad<strong>for</strong>d Navia 4 , Paul Thompson 1<br />
1 Laboratory of Neuro Imaging, UCLA School of Medicine,<br />
Los Angeles, CA, United States, 2 Indiana University School<br />
of Medicine, Indianapolis, IN, United States, 3 Brigham<br />
and Women’s Hospital, Boston, MA, United States, 4 Tufts<br />
University School of Medicine, Neurology and Community<br />
Health, Boston, MA, United States<br />
Cortical Thickening in PTSD-free Women with BPD is<br />
associated with enhanced emotion regulation<br />
Hannah Bruehl1 , Stefan Roepke2 , Sandra Preissler3 , Hauke<br />
Heekeren1 , Isabel Dziobek2 1Department of Education and Psychology, Freie<br />
Universität Berlin, Berlin, Germany, 2Cluster Languages<br />
of Emotion, Freie Universität Berlin, Berlin, Germany,<br />
3Biological and Clinical Psychology, Universität Jena,<br />
Jena, Germany<br />
<strong>Human</strong>s exposed to chronic work related stress display<br />
specific changes in limbic networks<br />
Hristina Jovanovic 1 , Hans Berglund 2 , Aleksander Perski 3 ,<br />
Ivanka Savic 1<br />
1 Dept of Clinical Neuroscience, Karolinska Institute,<br />
STOCKHOLM, Sweden, 2 Dpt of Medicine, Karolinska<br />
Institute, STOCKHOLM, Sweden, 3 Stress Institute,<br />
Stockholm University, STOCKHOLM, Sweden<br />
grey matter changes in motor Conversion Disorder<br />
Selma Aybek 1,2 , Timothy Nicholson 2 , Bogdan Draganski 1,3,4 ,<br />
Anthony David 2 , Richard Kanaan 2<br />
1 Laboratoire Recherche Neurosciences (LREN), Lausanne,<br />
Switzerland, 2 Institute of Psychiatry (IoP), King’s College,<br />
London, United Kingdom, 3 Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany, 4 Mind<br />
<strong>Brain</strong> Institute, Charité and Humboldt University, Berlin,<br />
Germany<br />
Structural differences in breast cancer patients<br />
compared to matched controls prior to chemotherapy<br />
Carole Scherling 1 , Joyce MacKenzie 2 , Barbara Collins 2 ,<br />
Andra Smith 3<br />
1 School of Psychology, University of Ottawa, Ottawa,<br />
Canada, 2 Ottawa Hospital, Ottawa, Ontario, 3 School of<br />
Psychology, University of Ottawa, Ottawa, Ontario<br />
effect of nutrients on intrinsic connectivity in lean and<br />
obese subjects<br />
Lisa Kilpatrick 1 , Lynn Shapiro Connolly 2 , Kristen<br />
Coveleskie 3 , Jean Stains 4 , Brandall Suyenobu 4 , Bahar<br />
Ebrat 5 , Kirsten Tillisch 6 , Emeran Mayer 7<br />
1 UCLA Center <strong>for</strong> Neurobiology of Stress, Los Angeles,<br />
United States, 2 University of CA, Los Angeles, Los<br />
Angeles, CA, 3 UCLA, Los Angeles, CA, 4 UCLA, Los<br />
ANgeles, CA, 5 Uiversity of CA, Los Angeles, Los Angeles,<br />
CA, 6 UCLA, Los Angeles, United States, 7 Center <strong>for</strong><br />
Neurobiology of Stress, UCLA, Los Angeles, CA<br />
112 HBM 2011 >> <strong>abstracts</strong><br />
199<br />
200<br />
201<br />
202<br />
203<br />
relationships between grey matter Volume, Body mass<br />
Index, and Waist Circumference in Healthy adults<br />
Florian Kurth 1 , Jennifer Levitt 1 , Owen Phillips 2 , Roger<br />
Woods 2 , John Mazziotta 2 , Arthur Toga 2 , Katherine Narr 2<br />
1 Department of Psychiatry and Biobehavioral Sciences,<br />
UCLA School of Medicine, Los Angeles, CA, USA,<br />
2 Department of Neurology, UCLA School of Medicine,<br />
Los Angeles, CA, USA<br />
Incidental findings on brain mrI in long-term breast<br />
cancer survivors treated with chemotherapy<br />
Vincent Koppelmans 1,2 , Sanne Schagen 3 , Marielle Poels 4 ,<br />
Willem Boogerd 2 , Caroline Seynaeve 5 , Aad van der Lugt 4 ,<br />
Monique Breteler 4<br />
1 Erasmus Medical Centre, Rotterdam, the Netherlands,<br />
2 Netherlands Cancer Institute/Antoni van Leeuwenhoek<br />
Hospital, Amsterdam, Netherlands, 3 Dept of Psychosocial<br />
Research and Epidemiology, Netherlands Cancer Institute,<br />
Amsterdam, Netherlands, 4 Erasmus Medical Centre,<br />
Rotterdam, Netherlands, 5 Erasmus Medical Centre;<br />
Daniel den Hoed Clinic, Rotterdam, Netherlands<br />
Sensorimotor cortical changes after botulinum-toxin<br />
treatment of spasticity in multiple sclerosis<br />
Petr Hlustik 1 , Roman Herzig 1 , Pavel Hok 1 , Petr Kanovsky 1 ,<br />
Jan Mares 1 , Pavel Otruba 1 , Vladimira Sladkova 1<br />
1 Department of Neurology, Palacky University and<br />
University Hospital, Olomouc, Czech Republic<br />
Diffusion tensor imaging reveals white matter<br />
differences in children with neurofibromatosis type 1<br />
Qiuyun Fan 1,2 , Nicole Davis 2,3 , Sheryl Rimrodt 2,4 ,<br />
Adam Anderson 1,2 , Laurie Cutting 2,3,4,5,6<br />
1 Biomedical Engineering, Vanderbilt University, Nashville,<br />
TN, 2 Vanderbilt University Institute of Imaging Science,<br />
Nashville, TN, 3 Department of Radiology and Radiological<br />
Sciences, Vanderbilt University, Nashville, TN, 4 Department<br />
of Pediatrics, Vanderbilt University, Nashville, TN,<br />
5 Department of Special Education, Peabody College,<br />
Vanderbilt University, Nashville, TN, 6 Department of<br />
Psychology, Vanderbilt University, Nashville, TN<br />
mrS study of the Cerebellar Deep Nuclei in<br />
Children with Fetal alcohol Spectrum Disorder<br />
Lindie Du Plessis 1,2 , Aaron Hess 1,2 , Sandra Jacobson 3,2,4 ,<br />
Joseph Jacobson 3,2,4 , Christopher Molteno 4 , Ernesta<br />
Meintjes 1,2<br />
1 MRC/UCT Medical Imaging Research Unit, University<br />
of Cape Town, Cape Town, South Africa, 2 Department of<br />
<strong>Human</strong> Biology, University of Cape Town, Cape Town,<br />
South Africa, 3 Department of Psychiatry and Behavioral<br />
Neurosciences, Wayne State University School of<br />
Medicine, Michigan, United States, 4 Department of<br />
Psychiatry, University of Cape Town, Cape Town,<br />
South Africa
Disorders of the Nervous System<br />
Other Disorders, continued<br />
204<br />
205<br />
206<br />
207<br />
208<br />
209<br />
210<br />
Stress as a Means of Subdividing Gulf War Illness:<br />
Effects of Exercise on Working Memory<br />
Megna Raksit 1 , Yin Zheng 2 , Murugan Ravindran 2 ,<br />
Andrew Breeden 1 , Christian Timbol 2 , Rania Esteitie 2 ,<br />
Oluwatoyin Adewuyi 2 , John VanMeter 1 , James Baraniuk 2<br />
1 Center <strong>for</strong> Functional and Molecular Imaging, Georgetown<br />
University Medical Center, Washington, DC, United States,<br />
2 Pain Fatigue Research Alliance, Georgetown University<br />
Medical Center, Washington, DC, United States<br />
Altered picture naming network in left frontal lobe<br />
tumor patients- a functional neuroimaging study<br />
anya chakraborty 1 , sarika cherodath 2 , ranjini garg 3 ,<br />
V.S Mehta 3 , Nandini Singh 4<br />
1 national brain research centre, 2 national brain research<br />
centre, manesar, India, 3 paras hospital, gurgaon, India,<br />
4 National <strong>Brain</strong> Research Centre, Gurgaon, India<br />
Impulsivity exaggerates the processing of distressful<br />
vocal tones in young offenders<br />
An-Yi Hung 1 , Yawei Cheng 2<br />
1 Institute Of Neuroscience, Taipei, Taiwan- Republic Of<br />
China, 2 Institute of Neuroscience, National Yang-Ming<br />
University, Taipei, Taiwan, Republic of China<br />
Neural correlates of lack of perseverance in<br />
adolescent obesity<br />
Elena Delgado-Rico 1 , Laura Moreno-Lopez 1 , Juan Verdejo 1 ,<br />
Francisco Cruz 1 , Miguel Pérez-García 1 , Emilio González<br />
Jiménez 2 , Jacqueline Schmidt 2 , Cristina Campoy 3 ,<br />
Carles Soriano-Mas 4 , Antonio Verdejo-García 5<br />
1 Department of Personality, Evaluation and Psychological<br />
Treatment, Granada, Spain, 2 Department of Nursing,<br />
Granada, Spain, 3 Departament of Pediatrics, University of<br />
Granada, Granada, Spain, 4 Bellvitge University Hospital,<br />
Barcelona, Spain, 5 Department of Personality, Evaluation<br />
and Psychological Treatment, University of Granada,<br />
Granada, Spain<br />
Cortical Thickness Deficits in Conduct Disordered<br />
Adolescents<br />
Christopher Hyatt1 , Emily Haney-Caron1 , Michael Stevens1 1Olin Neuropsychiatry Research Center of the Institute of<br />
Living, Hart<strong>for</strong>d, CT<br />
Hippocampal changes in Episodic Migraine Patients:<br />
Morphometric and Fucntional Evidences<br />
Nasim Maleki 1 , Lino Becerra 1 , Lauren Nutile 1 , Gautam<br />
Pendse 1 , Marcelo Bigal 2 , Rami Burstein 3 , David Borsook 1<br />
1 P.A.I.N. Group, McLean Hospital, Harvard Medical School,<br />
Belmont, MA, 2 Global Center <strong>for</strong> Scientific Affairs, Merck<br />
& Co., Bronx, NJ, 3 Department of Anesthesia, Beth Israel<br />
Deaconess Medical Center, Harvard Medical School,<br />
Boston, MA<br />
Under-connectivity of Default Mode Network due to<br />
Extreme High-altitude Hypoxia in The Himalayas<br />
Shripad Kondra 1 , Krishan Kumar 2 , Sunil Hota 3 , Prasun Roy 1<br />
1 National <strong>Brain</strong> Research Centre, Manesar, India, 2 National<br />
<strong>Brain</strong> Research Centre, Govt. General Hospital, Gurgaon,<br />
India, 3 Defence Institute For High Altitude Research,<br />
Leh, India<br />
211<br />
212<br />
213<br />
214<br />
215<br />
216<br />
Language lateralization in patients with Tuberous<br />
Sclerosis Complex (TSC) using MEG<br />
Anne Gallagher 1 , Naoaki Tanaka 1 , Nao Suzuki 1 ,<br />
Hesheng Liu 1 , Elizabeth Thiele 2 , Steven Stufflebeam 1<br />
1 Harvard Medical School, Mass General Hospital, Martinos<br />
Center <strong>for</strong> Biomedical Imaging, Boston, MA, 2 Harvard<br />
Medical School, Mass General Hospital, Boston, MA<br />
A pilot fMRI study examining reward response in<br />
Binge-Eating Disorder<br />
Eunice Chen 1 , Karla Fettich 1 , George Monteleone 1 ,<br />
Michael McCloskey 2 , Eric Stice 3 , THOMAS ZEFFIRO 4 ,<br />
Jia-Hong Gao 1 , John Cacioppo 1<br />
1 The University of Chicago, Chicago, IL, 2 Temple<br />
University, Philadelphia, IL, 3 Oregon Research Institute,<br />
Portland, OR, 4 MASSACHUSETTS GENERAL HOSPITAL,<br />
CHARLESTOWN, United States<br />
Functional connectivity disruption in the emotional<br />
face perception network in psychopaths<br />
Oren Contreras Rodríguez 1 , Jesus Pujol 1 , Iolanda Batalla 2 ,<br />
Ben J Harrison 3 , Eva Real 4 , Vanesa Pera 2 ,<br />
Rosa Hernández-Ribas 4 , Laura Bossa 2 , Carles Soriano-<br />
Mas 4 , Joan Deus 5 , Marina López-Solà 1 , Josep Pifarré 2 ,<br />
Laura Blanco 1 , José Menchón 4 , Narcis Cardoner 4<br />
1 PRBB CRC- Hospital del Mar, Barcelona, Spain, 2 Hospital<br />
de Santa Maria de Lleida, Lleida, Spain, 3 The University<br />
of Melbourne, Melbourne, Australia, 4 Bellvitge University<br />
Hospital-IDIBELL, Barcelona, Spain, 5 Universitat Autònoma<br />
de Barcelona, Barcelona, Spain<br />
An Ongoing Pilot fMRI Study of Neurobehavioral<br />
Processes in Maltreated Adolescents<br />
Kate Nooner 1,2 , Shaquanna Brown 1 , F Xavier Castellanos 3,2 ,<br />
Michael Milham 3,2<br />
1 Montclair State University, Montclair, NJ, 2 Nathan S.<br />
Kline Institute <strong>for</strong> Psychatric Research, Orangeburg, NY,<br />
3 Phyllis Green and Randolph Cōwen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center,<br />
New York, NY<br />
Thalamic dysmorphology in individuals with<br />
Williams syndrome<br />
Jian Chen 1,2 , Marilee Martens 3 , Sarah Wilson 4 ,<br />
David Reutens 5<br />
1 Murdoch Childrens Research Institute, Melbourne,<br />
Australia, 2 Monash University, Melbourne, Australia,<br />
3 Ohio State Universit, Columbus, United States, 4 Melbourne<br />
University, Melbourne, Australia, 5 University of Queensland,<br />
Brisbane, Australia<br />
Using fMRI as a Quantitative Assessment of<br />
Symptomatic Changes in Fibromyalgia<br />
Manish Khatiwada 1 , John VanMeter 1 , Brian Walitt 2<br />
1 Center <strong>for</strong> Functional and Molecular Imaging, Georgetown<br />
University Medical Center, Washington, DC, 2 Washington<br />
Hospital Center, Georgetown University Hospital,<br />
Washington, DC<br />
HBM 2011 >> <strong>abstracts</strong> 113<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Disorders of the Nervous System<br />
Other Disorders, continued<br />
217<br />
218<br />
219<br />
220<br />
221<br />
222<br />
Language network changes during rest and covert<br />
verb-generation in amyotrophic Lateral Sclerosis<br />
Laura Jelsone-Swain 1 , Carol Persad 2 , Pooja Modi 2 ,<br />
Dustin Hammers 2 , Robert Welsh 3<br />
1 University of Michigan, Ann Arbor, MI, 2 university of<br />
michigan, Ann Arbor, United States, 3 UNIVERSITY OF<br />
MICHIGAN DEPARTMENT OF RADIOLOGY, Ann Arbor, MI<br />
a review of Neuroimaging Findings in Suicidal<br />
Behaviour<br />
Yang Ding 1 , Gustavo Turecki 2 , Philippe Courtet 3 ,<br />
Fabrice Jollant 1<br />
1 Douglas Hospital, McGill University, Montreal, Quebec,<br />
2 Douglas Hospital, McGill University, Montreal, QC,<br />
3 Université Montpellier I, Montpellier, France<br />
Neural correlates of Herpes Simplex encephalitis –<br />
a VBm study<br />
Friederike Thiel 1 , Stefan Frisch 2 , Arno Villringer 2 ,<br />
Annette Horstmann 3 , Matthias Schroeter 2<br />
1 Day Clinic <strong>for</strong> Cognitive Neurology, Leipzig, Germany,<br />
2 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 3 MPI <strong>for</strong> <strong>Human</strong> Cognitive<br />
and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
altered default mode and salience network in<br />
somato<strong>for</strong>m pain disorder<br />
christian sorg 1 , Alexander Kalckreuth 2 , Valentin Riedl 3 ,<br />
Susanne Neufang 4 , Hans Förstl 5 , Harald Gündel 6 ,<br />
Michael Valet 2 , Thomas Toelle 2 , Afra Wohlschläger 7<br />
1 Department of Psychiatry and Neuroradiology,<br />
Technische Universität München, Munich, Germany,<br />
2 Department of Neurology, Technische Universität<br />
München, Munich, Germany, 3 Dept. of Neurology,<br />
Technische Universitaet Munich - Germany, Klinikum<br />
Rechts Der Isar, Munich, Germany, 4 Department of<br />
Neuroradiology, Technische Universität München,<br />
Munich, Germany, 5 Department of Psychiatry, Technische<br />
Universität München, Munich, Germany, 6 Department of<br />
Psychosomatic Medicine, University of Ulm, Ulm, Germany,<br />
7 Department of Neuroradiology, Technische Universität<br />
München, München, Germany<br />
altered Default Network activity in obesity<br />
Jason Tregellas 1 , Korey Wylie 2 , Donald Rojas 2 ,<br />
Jody Tanabe 2 , Marc-Andre Cornier 2<br />
1 University of Colorado Denver, Aurora, United States,<br />
2 University of Colorado Denver, Aurora, CO<br />
Functional Changes of Periaqueductal gray in<br />
episodic migraine<br />
Nasim Maleki 1 , Lino Becerra 1,2 , Lauren Nutile 1 , Gautam<br />
Pendse 1 , Marcelo Bigal 3,4 , Rami Burstein 5 , David Borsook 1,2<br />
1 P.A.I.N. Group, McLean Hospital, Harvard Medical School,<br />
Belmont, MA, 2 Departments of Psychiatry and Radiology,<br />
Massachusetts General Hospital, Harvard Medical School,<br />
Charlestown, MA, 3 Global Center <strong>for</strong> Scientific Affairs,<br />
Merck & Co., Bronx, NJ, 4 Department of Neurology, Albert<br />
Einstein College of Medicine, Bronx, NJ, 5 Department<br />
of Anesthesia, Beth Israel Deaconess Medical Center,<br />
Harvard Medical School, Boston, MA<br />
114 HBM 2011 >> <strong>abstracts</strong><br />
223<br />
224<br />
225<br />
226<br />
227<br />
Neural correlates of reward sensitivity in overweight<br />
adolescent<br />
Laura Moreno-Lopez 1 , Elena Delgado-Rico 1 , Juan Verdejo 1 ,<br />
Francisco Cruz 1 , Miguel Pérez-García 1 , Emilio González<br />
Jiménez 2 , Jacqueline Schmidt 2 , Cristina Campoy 3 ,<br />
Carles Soriano-Mas 4 , Antonio Verdejo-García 1<br />
1 Department of Personality, Evaluation and Psychological<br />
Treatment, University of Granada, Granada, Spain,<br />
2 Department of Nursing, University of Granada, Granada,<br />
Spain, 3 Departament of Pediatrics, School of Medicine,<br />
University of Granada, Granada, Spain, 4 Bellvitge<br />
University Hospital, Barcelona, Spain<br />
magnetization Transfer Imagining of CNS involvement<br />
in systemic lupus erythematosus<br />
Robert Zivadinov1 , David Shucard1 , Sarah Hussein1 , Jackie<br />
Durfee1 , Jenniver Cox1 , Ralph Benedict1 , Janet Shucard1 1University at Buffalo School of Medicine and Biomedical<br />
Sciences, Buffalo, NY<br />
an fmrI Study about “Disembodiment Phenomenon”<br />
of adolescents with Internet addiction<br />
Jungwoo Son 1 , Weonhee Choi 1 , Seongwoo Jo 2 ,<br />
Yeongrang Kim 3 , Seungbok Lee 2 , Sangick Lee 1 ,<br />
Jonghyun Oh 1<br />
1 Chungbuk National University Hospital, Cheongju, Korea,<br />
Republic of, 2 Chungbuk National University, Cheongju,<br />
Korea, Republic of, 3 Cheongju Medical Health Hospital,<br />
Cheongju, Korea, Republic of<br />
exaggerated Neural responses to reward anticipation<br />
in Borderline Personality Disorder<br />
Tiffany Love1 , Chelsea Cummi<strong>for</strong>d2 , Kenneth Silk2 ,<br />
Jon-Kar Zubieta2 1 2 University of Michigan, University of Michigan,<br />
Ann Arbor, MI<br />
Emotion and Motivation<br />
Emotional Learning<br />
The role of dynorphins in fear memory<br />
Henrik Walter 1 , Andreas Zimmer 2 , Andreas Bilkei-Gorzo 2 ,<br />
Henning Boecker 3 , Lukas Scheef 4 , Erk Susanne 5<br />
1 Department of Psychiatry and Psychotherapy Charité<br />
University Medicine, Berlin, Germany, 2 Institute of<br />
Molecular Psychiatry, University of Bonn, Bonn, Germany,<br />
3 FE Klinische Funktionelle Bildgebung, Experimentelle<br />
Radiologie, Uniklinik Bonn, Bonn, Germany, 4 Dep. of<br />
Radiology, Bonn, Germany, 5 Department of Psychiatry,<br />
Charite. Berlin, Berlin, Germany
Emotions and Motivation<br />
Emotional learning, continued<br />
228<br />
229<br />
230<br />
231<br />
232<br />
233<br />
234<br />
Self-regulation of amygdala activation with<br />
real-Time fmrI Neurofeedback<br />
Vadim Zotev 1 , Frank Kruger 2 , Raquel Phillips 1 ,<br />
Ruben Alvarez 1 , W. Kyle Simmons 1 , Patrick Bellgowan 1 ,<br />
Wayne Drevets 1 , Jerzy Bodurka 1<br />
1 Laureate Institute <strong>for</strong> <strong>Brain</strong> Research, Tulsa, OK,<br />
United States, 2 George Mason University, Fairfax, VA,<br />
United States<br />
associative learning coincides with an increase<br />
in trial-by-trial similarity of BoLD-mrI patterns<br />
Renée Visser 1 , H. Steven Scholte 1 , Merel Kindt 1<br />
1 University of Amsterdam, Amsterdam, Netherlands<br />
midbrain Dopamine-modulated BoLD response to<br />
rein<strong>for</strong>ced emotional Cues is Valence-Specific<br />
Mbemba Jabbi 1 , Philip Kohn 2 , Raghav Mattay 2 ,<br />
Brett Cropp 2 , Tiffany Nash 2 , James Zhang 2 ,<br />
Jonathan Kippenhan 3 , Daniel Eisenberg 4 ,<br />
Joseph Masdeu 4 , Karen Berman 4<br />
1 National Institutes of Health, NIMH, Bethesda, United<br />
States, 2 National Institutes of Health, NIMH, Bethesda, MD,<br />
3 National Institutes of Health, Bethesda, United States,<br />
4 National Institutes of Health, Bethesda, MD<br />
<strong>Brain</strong> mechanisms underlying Consolidation<br />
and remembering of emotional In<strong>for</strong>mation in<br />
Normal aging<br />
Grégoria Kalpouzos 1 , Lars Bäckman 1 , Håkan Fischer 1<br />
1 Aging Research Center - Karolinska Institutet/Stockholm<br />
University, Stockholm, Sweden<br />
The impact of individual differences on anti-drug<br />
advertisements: an fmrI study of adolescents<br />
Ian Ramsay 1 , Ron Faber 1 , Monica Luciana 1 ,<br />
Angus MacDonald 1 , Kathleen Vohs 1 , Marco Yzer 1<br />
1 University of Minnesota, Twin Cities, MN<br />
Combination of SVm and roI approaches <strong>for</strong><br />
real-Time fmrI Neurofeedback<br />
Vadim Zotev1 , Raquel Phillips1 , Ruben Alvarez1 ,<br />
W. Kyle Simmons1 , Patrick Bellgowan1 , Wayne Drevets1 ,<br />
Jerzy Bodurka1 1Laureate Institute <strong>for</strong> <strong>Brain</strong> Research, Tulsa, OK,<br />
United States<br />
Biofeedback of real-time fmrI data from the<br />
orbitofrontal cortex to reduce contamination anxiety<br />
Teodora Stoica 1 , John Saksa 1 , Dustin Scheinost 1 ,<br />
Maolin Qiu 1 , Jitendra Bhawnani 1 , Xenophon Papademetris 1 ,<br />
R. Todd Constable 1 , Michelle Hampson 1<br />
1 Yale University, School of Medicine, New Haven, US<br />
235<br />
Influence of body weight on selfregulation ability<br />
of the insular cortex<br />
Sabine Frank 1,2,3 , Sangkyun Lee 3 , Ralf Veit 1,3 ,<br />
Hubert Preissl 1,4 , Bernd Schultes 5 , Niels Birbaumer 3,6<br />
1 MEG Center, University of Tuebingen, Tuebingen,<br />
Germany, 2 Graduate School of Neural & Behavioural<br />
Sciences, International Max Planck Research School,<br />
Tuebingen, Germany, 3 Institute of Medical Psychology<br />
and Behavioral Neurobiology, University of Tuebingen,<br />
Tuebingen, Germany, 4 Department of Obstetrics and<br />
Gynecology, University of Arkansas <strong>for</strong> Medical Sciences,<br />
Little Rock, AR, 5 Interdicsiplinary Obesity Center, Cantonal<br />
Hospital St. Gallen, Rorschach, Switzerland, 6 Ospedale<br />
San Camillo, Istituto di Ricovero e Cura a Carattere<br />
Scientifico, Venezia-Lido, Italy<br />
Emotion and Motivation<br />
Emotional Perception<br />
236* effects of (nor)adrenergic and HPa axis blockade on<br />
stress-related large-scale network connectivity, (o-W2)<br />
Erno Hermans1,2,3 , Vincent Schoots1 , Guillén Fernández1,2 1Radboud University Nijmegen, Donders Institute <strong>for</strong><br />
<strong>Brain</strong>, Cognition and Behaviour, Nijmegen, Netherlands,<br />
2Radboud University Nijmegen Medical Centre,<br />
Department <strong>for</strong> Cognitive Neuroscience, Nijmegen,<br />
Netherlands, 3New York University, Department of<br />
Psychology, New York, NY<br />
237*<br />
238*<br />
239**<br />
240**<br />
overnight therapy? Sleep de-potentiates emotional<br />
brain reactivity, (o-W2)<br />
Els van der Helm 1 , Justin Yao 1 , Vikram Rao 1 , Jared Saletin 1 ,<br />
Shubir Dutt 1 , Matthew Walker 1<br />
1 University of Cali<strong>for</strong>nia Berkeley, Berkeley, CA<br />
emotional Contagion Facilitates Social Interaction by<br />
Synchronizing <strong>Brain</strong>s across Individuals, (o-W2)<br />
Lauri Nummenmaa 1,2 , Enrico Glerean 1 , Iiro Jääskeläinen 1 ,<br />
Mikko Viinikainen 1 , Riitta Hari 1 , Mikko Sams 1<br />
1 Aalto University School of Science and Technology,<br />
Espoo, Finland, 2 Turku PET Centre, Turku, Finland<br />
DCms of cortical and subcortical pathways <strong>for</strong><br />
salient stimuli<br />
Marta Garrido 1 , Gareth Barnes 1 , Maneesh Sahani 2 ,<br />
Raymond Dolan 1<br />
1 Wellcome Trust Centre <strong>for</strong> Neuroimaging, UCL, London,<br />
United Kingdom, 2 Gatsby Computational Neuroscience<br />
Unit, UCL, London, United Kingdom<br />
Common representation of pain and negative emotion<br />
in the midbrain periaqueductal gray<br />
Jason Buhle 1 , Hedy Kober 2 , Kevin Ochsner 1 ,<br />
Peter Mende-Siedlecki 3 , Jochen Weber 1 , Brent Hughes 4 ,<br />
Ethan Kross 5 , Lauren Atlas 6 , Kateri McRae 7 , Tor Wager 8<br />
1 Columbia University, New York, NY, 2 Yale University<br />
School of Medicine, New Haven, CT, 3 Princeton University,<br />
Princeton, NJ, 4 University of Texas at Austin, Austin,<br />
TX, 5 University of Michigan, Ann Arbor, MI, 6 Columbia<br />
University, New York, United States, 7 University of Denver,<br />
Denver, CO, 8 University of Colorado at Boulder,<br />
Boulder, CO > > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
HBM 2011 >> <strong>abstracts</strong> 115<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Emotion and Motivation<br />
Emotional Perception, continued<br />
241<br />
242<br />
243<br />
244<br />
245<br />
246<br />
247<br />
rapid processing of subliminally presented fearful,<br />
disgusted and happy faces<br />
Marie Smith 1<br />
1 Birkbeck College, University of London<br />
an fmrI study of the top-down control of peripheral<br />
feedback during a working memory task<br />
Robert Clarke1 , Tom Johnstone2 1University of Reading, Reading, United Kingdom,<br />
2Psychology Department, University of Reading, Reading,<br />
United Kingdom<br />
Integration of nonverbal emotional signals from voice<br />
and face - an fmrI adaptation study<br />
Benjamin Kreifelts 1 , Dirk Wildgruber 1 , Carolin Brück 1 ,<br />
Sarah Wiethoff 1 , Wolfgang Grodd 2 , Thomas Ethofer 1<br />
1 Department of Psychiatry and Psychotherapy, Eberhard-<br />
Karls-University, Tuebingen, Germany, 2 Section on Exp MR,<br />
Dep. Neuroradiology, Tuebingen, Germany<br />
Triangulating the emotional appraisal and regulation<br />
network by functional connectivity analyses<br />
Tanja Kellermann 1 , Karl Zilles 2 , Svenja Caspers 2 , Christian<br />
Roski 2 , Bruce Turetsky 3 , Peter Fox 4 , Simon Eickhoff 1<br />
1 Department of Psychiatry, Psychotherapy and<br />
Psychosomatics, RWTH Aachen University, Aachen,<br />
Germany, 2 Institute of Neuroscience and Medicine,<br />
INM-2, Research Centre Juelich, Juelich, Germany,<br />
3 Neuropsychiatry Division, Department of Psychiatry,<br />
University of Pennsylvania School of Medicine,<br />
Philadelphia, United States, 4 University Of Texas Health<br />
Science Center At San Antonio, San Antonio, United States<br />
anatomy, functional properies and connectivity of the<br />
emotional voice area: an fmrI/DTI study<br />
Thomas Ethofer 1 , Johannes Bretscher 1 , Markus Gschwind 2 ,<br />
Benjamin Kreifelts 1 , Dirk Wildgruber 1 , Patrik Vuilleumier 2<br />
1 Department of Psychiatry, University of Tuebingen,<br />
Tuebingen, Germany, 2 Department of Neurology, University<br />
of Geneva, Geneva, Switzerland<br />
Thoracic spinal cord activity in response to threatening<br />
images: a functional mrI study<br />
Stephen Smith 1 , Jennifer Kornelsen 2 , Theresa McIver 3 ,<br />
Uta Sboto-Frankenstein 4 , Boguslaw Tomanek 4<br />
1 University of Winnipeg, Winnipeg, Canada, 2 National<br />
Research Council Institute <strong>for</strong> Biodiagnostics, Winnipeg,<br />
Manitoba, 3 University of Winnipeg, Winnipeg, Manitoba,<br />
4 National Research Council Canada, Institute <strong>for</strong><br />
Biodiagnostics, Winnipeg, Manitoba<br />
endogenous cortisol fluctuations are associated<br />
with amygdala-mPFC functional connectivity at rest<br />
Ilya Veer1 1Leiden Institute <strong>for</strong> <strong>Brain</strong> and Cognition, Leiden,<br />
Netherlands<br />
116 HBM 2011 >> <strong>abstracts</strong><br />
248<br />
249<br />
250<br />
251<br />
252<br />
emotion and sleep interact to enhance the perceptual<br />
discrimination of ambiguous faces<br />
Virginie Sterpenich 1 , Camille Piguet 2 , Martin Desseilles 3 ,<br />
Markus Gschwind 4 , Patrik Vuilleumier 5 , Sophie Schwartz 2<br />
1 University of Geneva, 2 University of Geneva, Geneva,<br />
Switzerland, 3 University of Liège and Massachusetts<br />
General Hospital, 4 Department of Neurology, University<br />
of Geneva, Geneva, Germany, 5 Unige, Switzerland<br />
Portraying sadness at its unfolding: multi-level<br />
dynamics of emotion-related networks<br />
Gal Raz 1 , Yonatan Winetraub 1 , Sivan Kinreich 2 , Adi Maron 1 ,<br />
Ilana Podlipsky 3 , Gadi Gilam 4 , Talma Hendler 5<br />
1 Tel Aviv University, Tel Aviv, Israel, 2 Tel Aviv University,<br />
Israel, Tel Aviv, Israel, 3 Functional <strong>Brain</strong> Center, Wohl<br />
Institute <strong>for</strong> Advanced Imaging, Tel-Aviv Sourasky Medical<br />
Center, Tel Aviv, Israel, 4 Tel-Aviv University, Tel Aviv, Israel,<br />
5 Functional <strong>Brain</strong> Center, Wohl Institute <strong>for</strong> Advanced<br />
Imaging, Tel Aviv Sourasky Medical Center, Tel Aviv, Israel<br />
Phasic and sustained activation of the anterior insula<br />
during the anticipation of aversion<br />
Daniel Grupe 1 , Daniel McFarlin 2 , Desmond Oathes 3,2 ,<br />
Jack Nitschke 2<br />
1 University of Wisconsin-Madison, Madison, United States,<br />
2 University of Wisconsin-Madison, Madison, WI,<br />
3 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA<br />
age-related Differences in the Neural representation<br />
of emotional arousal and Valence<br />
Elizabeth Kehoe 1 , John Toomey 2 , Arun Bokde 3 ,<br />
Joshua Balsters 4<br />
1 Trinity College Dublin Ireland, 2 Dublin Institute of<br />
Technology, Dublin, Ireland, 3 Trinity College Dublin,<br />
Dublin, Ireland, 4 Dublin, Ireland<br />
The effect of negative life events on social reward<br />
depends on an oxytocin receptor polymorphism<br />
Eva Loth 1 , Benhamin Thyreau 2 , Anbarasu Lourdusamy 1 ,<br />
David Stacey 1 , Anna Cattrell 1 , Gareth Barker 3 , Christian<br />
Büchel 4 , Patricia Conrod 5 , Herta Flor 6 , Juergen Gallinat 7 ,<br />
Hugh Garavan 8 , Andreas Heinz 9 , Mark Lathrop 10 , Karl<br />
Mann 6 , Jean-Luc Martinot 11 , Tomas Paus 12 , Luise Poustka 6 ,<br />
Trevor Robbins 13 , Marcella Rietschel 6 , Michael Smolka 14 ,<br />
Jean Baptiste Poline 15 , Gunter Schumann 5<br />
1 Institute of Psychiatry, King’s College London, London,<br />
United Kingdom, 2 CEA, Gif sur Yvette, France, 3 Institute<br />
of Psychiatry, King’s College, London, United Kingdom,<br />
4 NeuroimageNord, Institute <strong>for</strong> Systems Neuroscience,<br />
University-Medical Center Hamburg-Eppendorf, Ger,<br />
Hamburg, Germany, 5 King’s College London, Institute<br />
of Psychiatry, London, United Kingdom, 6 Central<br />
Institute of Mental Health, Mannheim, Germany, 7 Charite<br />
Universitaetsmedizin Berlin, Berlin, Germany, 8 Trinity<br />
College Institute of Neuroscience, Dublin, Ireland,<br />
9 Department of Psychiatry and Psychotherapy, Charité<br />
– Universitätsmedizin Berlin, Berlin, Germany, 10 Centre<br />
National de Génotypage, Evry, France, 11 Institut National<br />
de la Santé et de la Recherche Médicale, Paris, France,<br />
12 Rotman Research Institute, University of Toronto, Toronto,<br />
Canada, 13 University of Cambridge, Cambridge, United<br />
Kingdom, 14 Technische Universität Dresden, Dresden,<br />
Germany, 15 CEA-I2BM-Neurospin
Emotion and Motivation<br />
Emotional Perception, continued<br />
253<br />
254<br />
255<br />
256<br />
257<br />
258<br />
259<br />
260<br />
Differences and similarities in maternal and paternal<br />
networks: an inter-subject correlation study<br />
Shir Atzil 1 , Yonatan Winetraub 2 , Talma Hendler 3 ,<br />
Ruth Feldman 1<br />
1 Bar-Ilan University, Ramat Gan, Israel, 2 Tel Aviv University,<br />
Tel Aviv, Israel, 3 Functional <strong>Brain</strong> Center, Wohl Institute <strong>for</strong><br />
Advanced Imaging, Tel Aviv Sourasky Medical Center,<br />
Tel Aviv, Israel<br />
Withdrawn<br />
Complexity in emotional picture and word processing<br />
Lorna Schlochtermeier 1 , Lars Kuchinke 2 , Arthur Jacobs 3<br />
1 Free University Berlin, Berlin, Germany, 2 Ruhr-University<br />
Bochum, Bochum, Germany, 3 Dahlem Institute of<br />
Neuroimaging of Emotion, Berlin, Germany<br />
Neuroticism is associated with altered amygdala<br />
functional connectivity at rest<br />
Moji Aghajani 1 , Ilya Veer 1 , Marie-José Van Tol 2 ,<br />
Andre Aleman 2 , Dick Veltman 3 , Nic van der Wee 4 ,<br />
Serge Rombouts 1<br />
1 Leiden Institute <strong>for</strong> <strong>Brain</strong> and Cognition, Leiden,<br />
Netherlands, 2 BCN NeuroImaging Center, Groningen,<br />
Netherlands, 3 VU University Medical Center, Department<br />
of Psychiatry, Amsterdam, Netherlands, 4 Leiden University<br />
Medical Center, Leiden, Netherlands<br />
Differential neural responses to threatening and merely<br />
negative visual scenes<br />
Kestas Kveraga 1 , Jasmine Boshyan 2 , Reginald Adams 3 ,<br />
Moshe Bar 1 , Nouchine Hadjikhani 4 , Lisa Feldman Barrett 5<br />
1 MGH/Harvard Medical School, Charlestown, MA,<br />
2 MGH, Charlestown, MA, 3 Pennsylvania State University,<br />
University Park, PA, 4 MGH/Harvard Medical School/EPFL,<br />
Charlestown, MA, 5 Northeastern University/MGH,<br />
Boston, MA<br />
Neural mechanisms <strong>for</strong> effects of Stimulus<br />
Familiarization on Liking<br />
Leslie Zebrowitz 1 , Yi Zhang 1<br />
1 Brandeis University, Waltham, MA<br />
emotion Suppression and Cognitive Flexibility:<br />
an fmrI study<br />
Hui Ai1 , Yuxia Huang1 1State Key Laboratory of Neuroscience and Learning,<br />
Beijing, China<br />
Personality Influences on the Cerebral Processing of<br />
emotional Prosody<br />
Carolin Brück 1,2 , Benjamin Kreifelts 1 , Evangelia Kaza 3 ,<br />
Martin Lotze 3 , Dirk Wildgruber 1,2<br />
1 University of Tübingen - Dept. of Psychiatry, Tübingen,<br />
Germany, 2 Werner Reichardt Centre <strong>for</strong> Integrative<br />
Neuroscience, Tübingen, Germany, 3 Functional Imaging<br />
Unit University of Greifswald, Greifswald, Germany<br />
261<br />
262<br />
263<br />
264<br />
265<br />
266<br />
267<br />
Neural correlates of subjective experience of valence<br />
during naturalistic stimulation<br />
M Viinikainen 1,2 , E Glerean 1,2 , I Jääskeläinen 1,2 , M Sams 1,2 ,<br />
L Nummenmaa 1,3,4,2<br />
1 Department of Biomedical Engineering and Computational<br />
Science, Aalto University School of Science, Espoo,<br />
Finland, 2 Advanced Magnetic Imaging Centre, Aalto<br />
University School of Science, Espoo, Finland, 3 <strong>Brain</strong><br />
Research Unit, Low Temperature Laboratory, Aalto<br />
University School of Science, Espoo, Finland, 4 Turku PET<br />
Centre, Turku, Finland<br />
musically-induced mood: effects on social perception<br />
and neural correlates<br />
Niclas Kilian-Hütten 1 , Fabrizio Esposito 2 , Elia Formisano 3<br />
1 Maastricht University, 2 University of Naples,<br />
Castellammare di Sta, Italy, 3 Maastricht University,<br />
Maastricht, Netherlands<br />
Chronic psychosocial stress and acute stress-induced<br />
corticolimbic activation<br />
Jessica Richards 1 , Thomas Ross 2 , Stephanie Gorka 3 ,<br />
Elliot Stein 2 , Stacey Daughters 4<br />
1 University of Maryland, College Park, College Park,<br />
United States, 2 Neuroimaging Research Branch, National<br />
Institute on Drug Abuse, Baltimore, MD, 3 University of<br />
Illinois at Chicago, Chicago, IL, 4 University of Maryland,<br />
College Park, MD<br />
Neural Correlates of Cognitive Per<strong>for</strong>mance in a Visual<br />
n-back Task after auditory Distress<br />
Nitesh Rana 1 , Andrei Medvedev 2 , William Adler 1 ,<br />
Jagmeet Kanwal 3<br />
1 Georgetown University, Washington, DC, United States,<br />
2 Dept. of Neurology, Georgetown University, Washington,<br />
DC, United States, 3 Depts. of Physiology and Biophysics,<br />
and Neurology, Georgetown University, Washington, DC,<br />
United States<br />
Behavioral activation and Inhibition Tendencies predict<br />
Differential BoLD response to gain and Loss<br />
Hannah Raila 1 , Mbemba Jabbi 1 , Philip Kohn 1 , Tiffany<br />
Nash 1 , Brett Cropp 1 , Raghav Mattay 1 , James Zhang 1 ,<br />
Jonathan Kippenhan 1 , Karen Berman 1<br />
1 National Institutes of Mental Health, Bethesda, MD<br />
The modulation of the neural processing of audiovisual<br />
Kissing Scenes through happy and sad music<br />
Corinna Pehrs 1 , Jan Hendrik Bakels 2 , Helmut Leder 3 ,<br />
Arthur Jacobs 1 , Hermann Kappelhoff 4 , Stefan Koelsch 5 ,<br />
Lars Kuchinke 6<br />
1 Dahlem Institute of Neuroimaging of Emotion, Berlin,<br />
Germany, 2 Freie Universität Berlin, Berlin, Germany,<br />
3 Universität Wien, Wien, Austria, 4 Freie Universität Berlin,<br />
Berlin, Berlin, 5 Dahlem Institute of Neuroimaging of<br />
Emotion, Berlin, Berlin, 6 Ruhr-Universität Bochum, Bochum,<br />
Germany<br />
Neural correlates of three emotion regulation strategies<br />
Ben Paul 1 , Walter Schneider 1 , Greg Siegle 2<br />
1 University of Pittsburgh, Pittsburgh, PA, 2 University of<br />
Pittsburgh, School of Medicine, Pittsburgh, PA<br />
HBM 2011 >> <strong>abstracts</strong> 117<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Emotion and Motivation<br />
Emotional Perception, continued<br />
268<br />
269<br />
270<br />
271<br />
272<br />
273<br />
274<br />
275<br />
emotion processing in young girls with<br />
Turner syndrome<br />
David Hong1 , Allan Reiss2 1 2 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, USA, Stan<strong>for</strong>d University,<br />
Stan<strong>for</strong>d, CA<br />
glucagon-modulated mood induction<br />
Timur Toygar 1 , Nils Kohn 1,2,3 , Ute Habel 1,2<br />
1 RWTH Aachen University Hospital, Department of<br />
Psychiatry, Psychotherapy and Psychosomatics, Aachen,<br />
Germany, 2 JARA-Translational <strong>Brain</strong> Medicine, Aachen/<br />
Juelich, Germany, 3 Virtual Project House Gender &<br />
Technology, RWTH Aachen University, Aachen, Germany<br />
WHaT TurNS amy oN? a reVIeW oN emoTIoN<br />
ProCeSSINg IN THe amygDaLa<br />
Carmen Morawetz 1,2 , Birgit Derntl 3<br />
1 Department of Education and Psychology, Freie<br />
Universitaet Berlin, Berlin, Germany, 2 Cluster of Excellence<br />
“Languages of Emotion”, Freie Universitaet Berlin, Berlin,<br />
Germany, 3 Institute <strong>for</strong> Clinical, Biological and Differential<br />
Psychology, University of Vienna, Vienna, Austria<br />
Categorical vs. Dimensional Processing of emotion<br />
Perception in <strong>Human</strong> <strong>Brain</strong><br />
Yoshi-Taka Matsuda1 , Tomomi Fujimura1 , Kentaro Katahira1 ,<br />
Takeshi Asamizuya2 , Kenichi Ueno2 , Kang Cheng2 ,<br />
Kazuo Okanoya1 1 2 JST, ERATO, Wako, Japan, RIKEN <strong>Brain</strong> Science Institute,<br />
Wako, Japan<br />
Intelligent emotion processing in adolescence<br />
William Lloyd 1 , Justin Williams 2 , Janek Lobmaier 3 ,<br />
Gordon Waiter 2<br />
1 Uinversity of Aberdeen, Aberdeen, UK, 2 University of<br />
Aberdeen, Aberdeen, United Kingdom, 3 University of<br />
Berne, Berne, Switzerland<br />
relationship Between Childhood abuse and<br />
Cortico-limbic activation During a Stressful Task<br />
Stephanie Gorka 1 , Thomas Ross 2 , Jessica Richards 3 ,<br />
Elliot Stein 2 , Stacey Daughters 3<br />
1 University Of Maryland, College Park, MD, 2 Neuroimaging<br />
Research Branch, National Institute on Drug Abuse,<br />
Baltimore, MD, 3 University of Maryland, College Park, MD<br />
estradiol modulation of brain activity associated<br />
with emotional processing: a comparison of older<br />
postmenopausal and younger cycling women<br />
Paul Newhouse 1 , Amanda Kutz 1 , Ashley Pfaff 1 ,<br />
Magdalena Naylor 1 , Christina Broadwell 1 , Julie Dumas 1<br />
1 University of Vermont, Burlington, VT<br />
The ‘Salience-Paradigm’: effects in the salience<br />
network correlate with perceived stimulus salience<br />
Sebastian Wendt 1 , Coraline Metzger 1 , Johann Steiner 2 ,<br />
Joern Kaufmann 3 , Bernhard Bogerts 2 , Martin Walter 1<br />
1 Clinical Affective Neuroimaging Laboratory, Department of<br />
Psychiatry,-von-Guericke University, Magdeburg, Germany,<br />
2 Department of Psychiatry, Otto-von-Guericke University,<br />
Magdeburg, Germany, 3 Department of Neurology, Ottovon-Guericke<br />
University, Magdeburg, Germany<br />
118 HBM 2011 >> <strong>abstracts</strong><br />
276<br />
277<br />
278<br />
279<br />
280<br />
emotion regulation is modulated by specific stimulus<br />
material<br />
Carmen Morawetz 1,2 , Juergen Baudewig 1,2 ,<br />
Hauke Heekeren 1,2<br />
1 Department of Education and Psychology,<br />
Freie Universitaet Berlin, Berlin, Germany, 2 Cluster of<br />
Excellence „Languages of Emotion“, Freie Universitaet<br />
Berlin, Berlin, Germany<br />
effect of Caffeine and Placebo on Cerebral response<br />
to Vocal emotional Sounds and Working memory<br />
Michihiko Koeda 1 , Yukari Nakano 2 , Amane Tateno 1 ,<br />
Yumiko Ikeda 3 , Woochan Kim 1 , Hidehiko Takahashi 4 ,<br />
Hidenori Suzuki 3 , Masato Matsuura 5 , Yoshiro Okubo 1<br />
1 Department of Neuropsychiatry, Nippon Medical School,<br />
Tokyo, Japan, 2 Department of Bioin<strong>for</strong>matics, Tokyo<br />
Medical and Dental University, Tokyo, Japan, 3 Department<br />
of Pharmacology, Nippon Medical School, Tokyo, Japan,<br />
4 Department of Neuropsychiatry, Kyoto University, Kyoto,<br />
Japan, 5 Department of Biofunctional In<strong>for</strong>matics, Tokyo<br />
Medical and Dental University, Tokyo, Japan<br />
<strong>Brain</strong> correlates of functional and dysfunctional<br />
beliefs: an fmrI study of cognitive reappraisal<br />
Ioana Cristea 1,2 , Claudio Gentili 3 , Emiliano Ricciardi 4 ,<br />
Giuseppina Rota 4 , Daniela Bonino 5 , Daniel David 1 ,<br />
Pietro Pietrini 4 , Mario Guazzelli 3<br />
1 Babes-Bolyai University, Cluj-Napoca, Romania,<br />
2 Clinical Psychology Chair, Department of Psychiatry,<br />
Neurobiology, Pharmacology and Biotechnologies,<br />
University of Pisa, Pisa, Italy, 3 Clinical Psychology Chair,<br />
Department of Psychiatry, Neurobiology, Pharmacology<br />
and Biotechnologies, Pisa, Italy, 4 Laboratory of Clinical<br />
Biochemistry and Molecular Biology, University of Pisa,<br />
Pisa, Italy, 5 Laboratory of Clinical Biochemistry and Clinical<br />
Molecular Biology, Universiy of Pisa, Pisa, Italy<br />
electrophysiological correlates of human sexual<br />
features processing<br />
Lore Legrand 1,2 , Marzia Del Zotto 3 , Alan Pegna 1<br />
1 Geneva University Hospital, Geneva, Switzerland,<br />
2 University of Geneva, Geneva, Switzerland, 3 Geneva<br />
University Hospital And Neuroscience Center,<br />
University Of Geneva, Geneva 4, Switzerland<br />
<strong>Brain</strong> responses to emotional music<br />
Aubé William 1,2 , Arafat Angulo-Perkins 3 , Isabelle Peretz 1,2 ,<br />
Fernando Barrios 3 , Luis Concha 3 , Jorge Armony 1,4<br />
1 International Laboratory <strong>for</strong> <strong>Brain</strong>, Music and Sound<br />
Research (BRAMS), Montréal, Canada, 2 Université de<br />
Montréal, Montréal, Canada, 3 Universidad Nacional<br />
Autonoma de Mexico, Queretaro, Mexico, 4 Douglas<br />
Institute and Department of Psychiatry, McGill University,<br />
Montréal, Canada
Emotion and Motivation<br />
Emotional Perception, continued<br />
281<br />
282<br />
283<br />
284<br />
285<br />
286<br />
Superior Per<strong>for</strong>mance under extreme Challenge:<br />
Is cognitive reappraisal key to the “it” factor?<br />
Amy J Haufler 1 , Manish Khatiwada 2 , Michelle Costanzo 3 ,<br />
Bradley Hatfield 1 , John VanMeter 2<br />
1 Department of Kinesiology, and Neuroscience and<br />
Cognitive Science Program, University of Maryland,<br />
College Park, MD, 2 Center <strong>for</strong> Functional and Molecular<br />
Imaging, Georgetown University Medical Center,<br />
Washington, DC, 3 Neuroscience and Cognitive Science<br />
Program, University of Maryland, College Park, MD<br />
Heterogeneity of emotional reactivity in the amygdala<br />
in health and persistent visceral pain<br />
Jennifer Labus 1 , Brandall Suyenobu 1 , Kristen Coveleskie 1 ,<br />
Lisa Kilpatrick 1 , Kirsten Tillisch 2 , Josh Bueller 1 ,<br />
Jean Stains 1 , Bruce Naliboff 1,3 , Emeran Mayer 1<br />
1 Center <strong>for</strong> Neurobiology of Stress, UCLA, Los Angeles,<br />
CA, 2 Center <strong>for</strong> Neurobiology of Stress, UCLA, Los<br />
Angeles, CA, 3 VA Greater Los Angeles Health Care<br />
System, Los Angeles, CA<br />
Top-down and Bottom-up Processes in<br />
emotion recognition,<br />
Ming Peng 1 , Lin Yuan 1 , Renlai Zhou 1,2<br />
1 School of Psychology, Beijing Normal University, Beijing,<br />
China, 2 State Key Laboratory of Cognitive Neuroscience<br />
and Learning, Beijing Normal University, Beijing, China<br />
an Irmf Study on emotional Processing in Video<br />
game Players<br />
Aurélie CAMPAGNE 1 , Benoit FRADCOURT 1 ,<br />
Nicolas MATHIEU 1 , Emilie Cousin 2<br />
1 Psychology and Neurocognition Laboratory, CNRS<br />
UMR5105, UPMF, Grenoble, France, 2 Laboratoire de<br />
Psychologie et Neurocognition, UMR CNRS 5105,<br />
UPMF, Grenoble, France<br />
The role of the human insular cortex in pain and<br />
emotional processing<br />
Isabella Mutschler 1 , Johanna Wankerl 1 , Erich Seifritz 2 ,<br />
Tonio Ball 3<br />
1 University of Basel, department of psychology, Basel ,<br />
Switzerland, 2 Clinic <strong>for</strong> Affective Disorders and General<br />
Psychiatry, Psychiatric Hospital Zurich, Zurich, Switzerland,<br />
3 Bernstein Center <strong>for</strong> Computational Neuroscience,<br />
University of Freiburg, Freiburg, Germany<br />
emotions Transferred by Cochlear Implants:<br />
an erP study exploring the Possibilities<br />
Deepashri Agrawal 1 , Lydia Timm 2 , R Dengler 2 ,<br />
Matthias Wittfoth 3<br />
1 Department of Neurology, Hannover Medical School,<br />
Hannover,Germany, 2 Department of Neurology, Hannover<br />
Medical School, Hannover, Germany, 3 Department of<br />
Neurology, Hannover Medical School;NICA (NeuroImaging<br />
and Clinical Applications), Hannover, Germany<br />
287<br />
288<br />
289<br />
290<br />
291<br />
292<br />
Differential humor training effects in male and<br />
female patients with mDD<br />
Nils Kohn 1 , Irina Falkenberg 2 , Valentin Markov 1 ,<br />
Thilo Kellermann 1 , Ute Habel 1<br />
1 Department of Psychiatry, Psychotherapy and<br />
Psychosomatics, RWTH Aachen University, Aachen,<br />
Germany, 2 Department of Psychiatry & Psychotherapy,<br />
University of Marburg, Marburg, Germany<br />
Specific associations of fmrI responses to different<br />
laughter types with laughter acoustics<br />
Benjamin Kreifelts 1 , Diana Szameitat 1 , Carolin Brück 1 ,<br />
Kai Alter 2 , Wolfgang Grodd 3 , Thomas Ethofer 1 ,<br />
Dirk Wildgruber 1<br />
1 Department of Psychiatry and Psychotherapy, Eberhard-<br />
Karls-University of Tübingen, Tuebingen, Germany,<br />
2 Institute of Neuroscience, University of Newcastle,<br />
Newcastle upon Tyne, United Kingdom, 3 Section on Exp<br />
MR, Dep. Neuroradiology, Tuebingen, Germany<br />
Neural regions responsive to Conflict between<br />
emotional experience and emotion Categorization<br />
Sandhya Narayanan 1 , Ajay Satpute 1 , Jochen Weber 1 ,<br />
Kevin Ochsner 1<br />
1 Columbia University, New York, NY<br />
The event-related Potential Correlates of emotional<br />
reappraisal during The regulation Instruction<br />
An Hyeon Min 1 , In Jae Hwang 2 , Ji Woon Jeong 2 ,<br />
Hyun Taek Kim 2 , Sang Hee Kim 3<br />
1 Dept. Of <strong>Brain</strong> And Cognitive Engineering, Korea<br />
University, Republic Of Korea, 2 Dept. Of Psychology,<br />
Korea University, Seoul, Korea, Republic of, 3 Dept. Of <strong>Brain</strong><br />
And Cognitive Engineering, Korea University, Seoul,<br />
Korea, Republic of<br />
Cognitive modulation of emotion processing in<br />
response to angry faces<br />
Kyoung-Uk Lee 1 , Sarah Garfinkel 2 , Shao-Shuan Ho 2 ,<br />
Stephan Taylor 2 , Israel Liberzon 2<br />
1 The Catholic University of Korea, Seoul, Korea,<br />
2 University of Michigan, Ann Arbor, United States<br />
The influence of stimulus duration on brain activations<br />
during the emotional discrimination task<br />
Ji-Won Chun 1,2,3 , Sung-Hyon Kyeong 1,2 , Jae-Jin Kim 4 ,<br />
Hae-Jeong Park 1,2<br />
1 <strong>Brain</strong> Korea 21 Project <strong>for</strong> Medical Science, Yonsei<br />
University College of Medicine, Seoul, Korea, Republic of,<br />
2 Department of Radiology, Nuclear Medicine and Research<br />
Institute of Radiological Science, Yonsei University College<br />
of Medicine, Seoul, Korea, Republic of, 3 Department of<br />
Psychiatry and institute of Behavioral Science in Medicine,<br />
Yonsei University College of Medicine, Seoul, Korea,<br />
Republic of, 4 Department of Psychiatry and institute of<br />
Behavioral Science in Medicine, Yonsei University College,<br />
Seoul, Korea, Republic of<br />
HBM 2011 >> <strong>abstracts</strong> 119<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Emotion and Motivation<br />
Emotional Perception, continued<br />
293<br />
294*<br />
295*<br />
296<br />
Neural basis of the aesthetic experience with fractal<br />
images : an fmrI study<br />
eunae lee 1 , Seungbok Lee 1 , Jungwoo Son 2 ,<br />
Seongwoo Jo 1 , Momo Kim 1<br />
1 Department of Psychology, Chungbuk National<br />
University, Cheongju, Korea, Republic of, 2 Department of<br />
Neuropsychiatry, College of Medicine, Chungbuk National<br />
University, Cheongju, Korea, Republic of<br />
Genetics<br />
Genetic Association Studies<br />
genetic associations of brain structure to serum<br />
transferrin: an mrI and DTI analysis (N=615), (o-W3)<br />
Neda Jahanshad 1 , Kori Johnson 2 , Katie McMahon 2 ,<br />
Greig de Zubicaray 3 , Sarah Medland 4 , Grant Montgomery 4 ,<br />
Nicholas Martin 4 , Margaret Wright 4 , Arthur Toga 1 ,<br />
Paul Thompson 1<br />
1 Laboratory of Neuro Imaging, Dept. of Neurology, UCLA<br />
School of Medicine, Los Angeles, United States, 2 University<br />
of Queensland, Centre <strong>for</strong> Advanced Imaging, Brisbane,<br />
Australia, 3 University of Queensland, School of Psychology,<br />
Brisbane, Australia, 4 Queensland Institute of Medical<br />
Research, Brisbane, Australia<br />
Shared molecular architecture of craniofacial and brain<br />
development, (o-W3)<br />
M. Mallar Chakravarty 1 , Hervé Abdi 2 , Manon Bernard 3 ,<br />
Natasa Kovacevic 4 , Gabriel Leonard 5 , Michel Perron 6 ,<br />
Bruce Pike 7 , Louis Richer 6 , Suzanne Veillette 8 , Zdenka<br />
Pausova 3 , Tomas Paus 1<br />
1 Rotman Research Institute - Baycrest, Toronto, Ontario,<br />
2 The University of Texas at Dallas, Richardson, TX,<br />
3 Hospital <strong>for</strong> Sick Children, Toronto, Ontario, 4 Rotman<br />
Research Institute, Baycrest, Toronto, Ontario, 5 Montreal<br />
Neurological Institute, McGill University, Montreal, Quebec,<br />
6 University of Quebec at Chicoutimi, Chicoutimi, Quebec,<br />
7 Montreal Neurological Institute, Montreal, Quebec,<br />
8 CEGEP Jonquiere, Jonquiere, Quebec<br />
genetics of cerebral connectivity and the integrity of<br />
cerebral white matter<br />
Peter Kochunov 1 , John Blangero 2 , Anderson Winkler 3 ,<br />
Peter Fox 1 , Ravindranath Duggirala 2 , David Glahn 3<br />
1 University Of Texas Health Science Center At San Antonio,<br />
San Antonio, United States, 2 Department of Genetics,<br />
Southwest Foundation <strong>for</strong> Biomedical Research, San<br />
Antonio, United States, 3 Yale University, Hart<strong>for</strong>d, CT<br />
120 HBM 2011 >> <strong>abstracts</strong><br />
297<br />
298<br />
299<br />
300<br />
301<br />
302<br />
Schizophrenia risk Variant in NTrK1 relates to Lower<br />
White matter Integrity in young Healthy adults<br />
Meredith Braskie 1 , Neda Jahanshad 1 , Jason Stein 1 ,<br />
Marina Barysheva 1 , Katie McMahon 2 , Greig de Zubicaray 3 ,<br />
Nicholas Martin 4 , Margaret Wright 4 , John Ringman 5 ,<br />
Arthur Toga 1 , Paul Thompson 1<br />
1 Laboratory of Neuro Imaging, UCLA, Los Angeles, USA,<br />
2 University of Queensland, Brisbane, Australia, 3 University<br />
Of Queensland, Brisbane, Australia, 4 Queensland Institute<br />
of Medical Research, Brisbane, Australia, 5 UCLA, Los<br />
Angeles, USA<br />
The activity and connectivity of the resting-state<br />
networks were modulated by the ComT val158met<br />
Bing Liu1 , Ming Song2 , Yonghui Li3 , Chunshui Yu4 ,<br />
Tianzi Jiang5 1CMC,Institute of Automation, Chinese Academy of<br />
Sciences, Beijing, China, 2Beijing, 3Institute of Automation,<br />
Chinese Academy of Sciences, Beijing, China, 4Tianjin Medical University General Hospital, Tianjin, China,<br />
5Institute Of Automation, Chinese Academy Of Sciences,<br />
Beijing, China<br />
ESR1 genetic variation differentially influences brain<br />
morphology by sex<br />
Susan Conroy 1 , Kwangsik Nho 1 , Brenna McDonald 1 ,<br />
Shannon Risacher 1 , Sungeon Sun Kim 1 , Tatiana Foroud 1 ,<br />
Clif<strong>for</strong>d Jack Jr 2 , Michael Weiner 3 , Li Shen 1 , Andrew Saykin 1<br />
1 Indiana University School of Medicine, Indianapolis,<br />
IN, 2 Mayo Clinic, Rochester, MN, 3 UC San Francisco,<br />
Department of Veterans Affairs Medical Center,<br />
San Fransisco, CA<br />
genome-Wide association meta-analysis of<br />
Hippocampal Volume via the eNIgma Consortium<br />
The ENIGMA Consortium<br />
KIBra polymorphism is related to brain structure and<br />
function during reward anticipation<br />
Claudia Preuschhof 1 , Hannah Brühl 1 , Nils Bodammer 2 ,<br />
Shu-Chen Li 2 , Lars Bäckman 3 , Ulman Lindenberger 2 ,<br />
Hauke Heekeren 4<br />
1 Freie Universität Berlin, Berlin, Germany, 2 Max Planck<br />
Institute <strong>for</strong> <strong>Human</strong> Development, Berlin, Germany,<br />
3 Aging Research Center - Karolinska Institutet/Stockholm<br />
University, Stockholm, Sweden, 4 Department of Education<br />
and Psychology, Freie Universitaet Berlin, Berlin, Germany<br />
The NoS1 polymorphism rs6490121 is associated with<br />
variation in prefrontal function and gray matter<br />
Emma Rose 1 , Ciara Greene 2 , Derek Morris 1 , Ciara Fahey 1 ,<br />
Sarah Jacobson 3 , Ian Roberston 1 , Hugh Garavan 1 ,<br />
Michael Gill 1 , Aiden Corvin 1 , Gary Donohoe 1<br />
1 Trinity College Dublin, Dublin, Ireland, 2 Imperial College,<br />
London, United Kingdom, 3 UCLA, Los Angeles, CA
Genetics<br />
Genetic Association Studies, continued<br />
303<br />
304<br />
305<br />
306<br />
Shared Dopamine and naChr β5 gene effect on<br />
Cingulate Functional Connectivity and Nicotine<br />
addiction<br />
Elliot Hong 1 , Colin Hodgkinson 2 , Yihong Yang 3 , Pei-Hong<br />
Shen 4 , Hemalatha Sampath 5 , Hong Gu 3 , Lauren Moran 6 ,<br />
Thomas Ross 7 , Betty Jo Salmeron 7 , Gunvank Thaker 5 ,<br />
David Goldman 2 , Elliot Stein 7<br />
1 Maryland Psychiatrie Research Center, Baltimore,<br />
United States, 2 NIAAA-IRP, NIH, Rockville, United<br />
States, 3 Neuroimaging Research Branch, National<br />
Institute on Drug Abuse, National Institutes of Health,<br />
Baltimore, MD, 4 NIAAA, DC, MD, 5 MPRC, Baltimore, MD,<br />
6 Maryland Psychiatric Research Center, Baltimore, MD,<br />
7 Neuroimaging Research Branch, National Institute on<br />
Drug Abuse, Baltimore, MD<br />
The effect of Dyslexia related genes on White matter<br />
Structure in a Normal Sample during Childhood<br />
Fahimeh Darki 1 , Myriam Peyrard-Janvid 2 , Hans Matsson 2 ,<br />
Juha Kere 2 , Torkel Klingberg 1<br />
1 Neuroscience Department, Karolinska Institutet,<br />
Stockholm, Sweden, 2 Department of Biosciences and<br />
Nutrition, Karolinska Institutet, Huddinge, Sweden, Sweden<br />
Influence of Candidate alzgene SNPs on Hippocampal<br />
Shape: a Study of the aDNI Cohort<br />
Jing Wan 1 , Sungeun Kim 1 , Kwangsik Nho 1 , Shannon<br />
Risacher 1 , Shanker Swaminathan 1 , Lars Bertram 2 ,<br />
Clif<strong>for</strong>d Jack Jr 3 , Michael Weiner 4 , Faisal Beg 5 , Lei Wang 6 ,<br />
Andrew Saykin 7 , Li Shen 1<br />
1 Indiana University School of Medicine, Indianapolis,<br />
IN, 2 Max-Planck Institute <strong>for</strong> Molecular Genetics,<br />
Berlin, Germany, 3 Mayo Clinic, Rochester, MN, 4 UC<br />
San Francisco, Department of Veterans Affairs Medical<br />
Center, San Fransisco, CA, 5 Simon Fraser University,<br />
Burnaby, B.C., 6 Northwestern University Feinberg School<br />
of Medicine, Chicago, United States, 7 Indiana University<br />
School of Medicine, Indianapolis, United States<br />
association between KCTD8 and <strong>Brain</strong> Volume as<br />
revealed in a genome-wide Study<br />
Tomas Paus 1,2 , Manon Bernard 3 , M. Mallar Chakravarty 1 ,<br />
Anbarasu Lourdusamy 4 , Gabriel Leonard 2 , Michel Perron 5 ,<br />
Bruce Pike 2 , Louis Richer 5 , Gunter Schumann 4 , Suzanne<br />
Veillette 6 , Zdenka Pausova 3<br />
1 Rotman Research Institute, Baycrest, Toronto, Ontario,<br />
Canada, 2 Montreal Neurological Institute, McGill University,<br />
Montreal, Quebec, Canada, 3 Hospital <strong>for</strong> Sick Children,<br />
Toronto, Ontario, Canada, 4 Institute of Psychiatry, King’s<br />
College, London, United Kingdom, 5 University of Quebec<br />
at Chicoutimi, Chicoutimi, Quebec, Canada, 6 CEGEP<br />
Jonquiere, Jonquiere, Quebec, Canada<br />
307<br />
308<br />
309<br />
310<br />
Partial replication of ZNF804a risk-Status Dependent<br />
alterations in Prefrontal Connectivity<br />
Frieder Paulus 1 , Sören Krach 2 , Johannes Bedenbender 3 ,<br />
Axel Krug 4 , N Shah 5 , Marcella Rietschel 6 , Tilo Kircher 7 ,<br />
Andreas Jansen 8<br />
1 Department of Psychiatry, Philipps University Marburg,<br />
Germany, Marburg, Germany, 2 Department of Psychiatry,<br />
Section of <strong>Brain</strong>Imaging, University of Marburg, Marburg,<br />
Germany, 3 Philipps-University Marburg, 4 Department<br />
of Psychiatry and Psychotherapy, Philipps-University<br />
Marburg, Marburg, Germany, 5 Forschungszentrum Jülich,<br />
Jülich, Germany, 6 Central Institute of Mental Health,<br />
Mannheim, Germany, 7 Department of Psychiatry und<br />
Psychotherapy, Philipps-University Marburg, Marburg,<br />
Germany, 8 Department of Psychiatry and Psychotherapy,<br />
Section of <strong>Brain</strong>Imaging, University of Marburg, Marburg,<br />
Germany<br />
genetic Determinants of Dopamine effects on Skill<br />
Learning and Cortical Plasticity<br />
Kristin Pearson Fuhrhop 1 , Brian Minton 2 , Daniel Acevedo 2 ,<br />
Steven Cramer 3<br />
1 University of Cali<strong>for</strong>nia, Irvine, 2 University of Cali<strong>for</strong>nia,<br />
Irvine, Irvine, CA, 3 University of Cali<strong>for</strong>nia, Irvine,<br />
Orange, CA<br />
genetic determinants of cortical myelination. evidence<br />
<strong>for</strong> rora gene<br />
Peter Kochunov 1 , David Glahn 2 , Anderson Winkler 2 ,<br />
Jack Lancaster 1 , Peter Fox 1 , Jack Kent 3 , Ravindranath<br />
Duggirala 3 , John Blangero 3<br />
1 The University of Texas Health Science Center at<br />
San Antonio, San Antonio, United States, 2 Yale University,<br />
Hart<strong>for</strong>d, CT, 3 Department of Genetics, Southwest<br />
Foundation <strong>for</strong> Biomedical Research, San Antonio,<br />
United States<br />
effect of NPy gene on brain activation during emotional<br />
processing in anxious depressed<br />
Esther Opmeer 1,2 , Rudie Kortekaas 3 , Marie-José van Tol 4 ,<br />
Nic van der Wee 4 , Saskia Woudstra 5 , Zoltan Bochdanovitz 5 ,<br />
Mark van Buchem 6 , Brenda Penninx 5 , Witte Hoogendijk 5 ,<br />
Dick Veltman 7 , A. Aleman 8<br />
1 university medical center groningen, 2 university of<br />
Groningen, Groningen, Netherlands, 3 university medical<br />
center groningen, Groningen, Netherlands, 4 LUMC,<br />
Leiden, Netherlands, 5 VUMC, Amsterdam, Netherlands,<br />
6 LUMC, Groningen, Netherlands, 7 VU University<br />
Medical Center, Department of Psychiatry, Amsterdam,<br />
Netherlands, 8 University Medical Center Groningen,<br />
Groningen, Netherlands<br />
HBM 2011 >> <strong>abstracts</strong> 121<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Genetics<br />
Genetic Association Studies, continued<br />
311<br />
312<br />
313<br />
Common gene variants in the mHC region associate<br />
with cerebral ventricular size in schizophrenia<br />
Ingrid Agartz 1,2 , Andrew Brown 3 , Lars Rimol Rimol 1 ,<br />
Cecilie Hartberg 1 , Anders Dale 4 , Ingrid Melle 5 ,<br />
Srdjan Djurovic 6 , Ole Andreassen 5<br />
1 Institute of Clinical Medicine, University of Oslo, Oslo,<br />
Norway, 2 Department of Research and Development,<br />
Diakonhjemmet Hospital, Oslo, Norway, 3 University Of<br />
Oslo, Oslo, Norway, 4 Department of Neurosciences and<br />
Department of Radiology, University of Cali<strong>for</strong>nia San<br />
Diego, San Diego, CA, 5 Institute of Clinical Medicine,<br />
Division of Mental Health and Addiction, University of Oslo,<br />
Oslo, Norway, 6 Department of Medical Genetics, Oslo<br />
University Hospital, Oslo, Norway<br />
genetic contributions to the midsagittal area of the<br />
corpus callosum<br />
Kimberley Phillips 1,2 , Peter Kochunov 3<br />
1 Trinity University, 2 Southwest Foundation <strong>for</strong> Biomedical<br />
Research, San Antonio, TX, 3 UTHSCSA, San Antonio,<br />
United States<br />
The association of genetic variation in CaCNa1C with<br />
frontotemporal neural system<br />
Fei Wang 1 , Andrew McIntosh 2 , Yong He 3 , Joel Gelernter 4 ,<br />
Hilary Blumberg 4<br />
1 Yale University, 2 University of Edinburgh, Edinburgh,<br />
United Kingdom, 3 Beijing Normal University, Beijing,<br />
China, 4 Yale University, New Haven, CT<br />
Genetics<br />
Genetic Modeling and Analysis Methods<br />
314**<br />
multi-SNP effects on Temporal Lobe Structure<br />
replicated in aDNI (N=738) and Queensland<br />
Twins (N=568)<br />
Omid Kohannim 1 , Derrek Hibar 1 , Jason Stein 1 ,<br />
Neda Jahanshad 1 , Katie McMahon 2 , Greig de Zubicaray 3 ,<br />
Nicholas Martin 4 , Margaret Wright 4 , Andrew Saykin 5 ,<br />
Clif<strong>for</strong>d Jack, Jr. 6 , Michael Weiner 7 , Arthur Toga 1 ,<br />
Paul Thompson 1 , the Alzheimer’s Disease Neuroimaging<br />
Initiative (ADNI) ,8<br />
1 Laboratory of Neuro Imaging, UCLA, Los Angeles, CA,<br />
2 University of Queensland, Centre <strong>for</strong> Advanced Imaging,<br />
Brisbane, Australia, 3 University of Queensland, School of<br />
Psychology, Brisbane, Australia, 4 Queensland Institute of<br />
Medical Research, Brisbane, Australia, 5 Indiana University<br />
School of Medicine, Indianapolis, United States, 6 Mayo<br />
Clinic, Department of Radiology, Rochester, MN, 7 UC San<br />
Francisco, Department of Veterans Affairs Medical Center,<br />
San Fransisco, CA, 8 NIA ADEAR Center, Bathesda, MD<br />
122 HBM 2011 >> <strong>abstracts</strong><br />
315<br />
316*<br />
317<br />
318<br />
Discovering The Network Topology of gene action on<br />
<strong>Brain</strong> microstructure: an N=531 Twin Study<br />
Ming-Chang Chiang 1 , Marina Barysheva 1 , Katie McMahon 2 ,<br />
Greig de Zubicaray 3 , Kori Johnson 2 , Nicholas Martin 4 ,<br />
Arthur Toga 1 , Margaret Wright 4 , Paul Thompson 1<br />
1 Laboratory of Neuro Imaging, Dept. of Neurology, UCLA<br />
School of Medicine, Los Angeles, United States, 2 University<br />
of Queensland, Centre <strong>for</strong> Advanced Imaging, Brisbane,<br />
Australia, 3 University of Queensland, School of Psychology,<br />
Brisbane, Australia, 4 Queensland Institute of Medical<br />
Research, Brisbane, Australia<br />
Bridging the gap between imaging and genetics:<br />
a multivariate statistical investigation, (o-W3)<br />
Edith Le Floch 1 , Christophe Lalanne 2 , Philippe Pinel 3 ,<br />
Antonio Moreno 3 , Laura Trinchera 4 , Arthur Tenenhaus 4 ,<br />
Bertrand Thirion 5 , Jean Baptiste Poline 1 , Vincent FROUIN 1 ,<br />
Edouard Duchesnay 1<br />
1 CEA Neurospin, Saclay, France, 2 AP-HP, Inserm,<br />
Paris, France, 3 Inserm, Gif-sur-Yvette, France, 4 Supélec,<br />
Gif-sur-Yvette, France, 5 INRIA Futurs, Orsay, France<br />
Screening the association scores with fmrI phenotypes<br />
in an imaging-genetics study<br />
Vincent FROUIN 1 , Yannick Schwartz 2 , Benjamin Thyreau 1 ,<br />
Edith LeFloch 1 , Edouard Duchesnay 1 , Alexis Barbot 1 ,<br />
Jean-Baptiste Poline 1<br />
1 CEA Neurospin, Gif sur Yvette, France,<br />
2 CEA, Gif sur Yvette, France<br />
Heritability of white matter tract density within the<br />
working memory network<br />
Gabriella Blokland 1 , Nathan Hageman 2 , Jason Stein 3 ,<br />
Neda Jahanshad 4 , Arthur Toga 3 , Katie McMahon 5 ,<br />
Greig de Zubicaray 6 , Margaret Wright 7 , Nicholas Martin 1 ,<br />
Paul Thompson 8<br />
1 Genetic Epidemiology Laboratory, Queensland Institute<br />
of Medical Research, Brisbane, Australia, 2 Laboratory of<br />
Neuro Imaging, Department of Neurology, UCLA School of<br />
Medicine, Los Angeles, CA, 3 Laboratory of Neuro Imaging,<br />
UCLA, Los Angeles, CA, 4 Laboratory of Neuro Imaging,<br />
Dept. of Neurology, UCLA School of Medicine, Los<br />
Angeles, United States, 5 University of Queensland, Centre<br />
<strong>for</strong> Advanced Imaging, Brisbane, Australia, 6 University of<br />
Queensland, School of Psychology, Brisbane, Australia,<br />
7 Genetic Epidemiology Laboratory, Queensland Institute<br />
of Medical Research, Brisbane, Queensland, 8 Laboratory<br />
of Neuro Imaging, Dept. of Neurology, UCLA School of<br />
Medicine, Los Angeles, Los Angeles, United States
Genetics<br />
Genetic Modeling and Analysis Methods, continued<br />
319<br />
320<br />
321<br />
322<br />
323<br />
a Tensor-Based morphometry Study of Twins using a<br />
New Combined Surface and Volume registration<br />
Natasha Lepore* 1 , Anand Joshi* 2 (* equal contribution),<br />
Julio Villalon Reina 2 , Caroline Brun 3 , James Gee 3 ,<br />
Greig de Zubicaray 4 , Margaret Wright 5 , Katie McMahon 6 ,<br />
Paul Thompson 7<br />
1 University of Southern Cali<strong>for</strong>nia and Children’s Hospital<br />
Los Angeles, Los Angeles, CA, 2 Laboratory of Neuro<br />
Imaging, UCLA, Los Angeles, CA, 3 PICSL Laboratory,<br />
University of Pennsylvania, Philadelphia, PA, 4 University of<br />
Queensland, School of Psychology, Brisbane, Australia,<br />
5 Genetic Epidemiology Laboratory, Queensland Institute<br />
of Medical Research, Brisbane, Australia, 6 University of<br />
Queensland, Centre <strong>for</strong> Advanced Imaging, Brisbane,<br />
Australia, 7 Laboratory of Neuro Imaging - UCLA School of<br />
Medicine, Los Angeles, CA<br />
Voxelwise gene-wide association study (vgeneWaS):<br />
multivariate gene-based association testing<br />
Derrek Hibar 1 , Jason Stein 1 , Omid Kohannim 1 ,<br />
Neda Jahanshad 1 , Andrew Saykin 2 , Li Shen 3 ,<br />
Sungeun Kim 3 , Nathan Pankratz 3 , Tatiana Foroud 3 ,<br />
Matthew Huentelman 4 , Steven Potkin 5 , Clif<strong>for</strong>d Jack Jr 6 ,<br />
Michael Weiner 7 , Arthur Toga 1 , Paul Thompson 1<br />
1 Laboratory of Neuro Imaging, UCLA, Los Angeles, CA,<br />
2 Indiana University School of Medicine, Bloomington, IN,<br />
3 Indiana University School of Medicine, Indianapolis, IN,<br />
4 The Translational Genomics Research Institute, Phoenix,<br />
AZ, 5 University of Cali<strong>for</strong>nia Irvine, Irvine, CA, 6 Mayo<br />
Clinic, Rochester, MN, 7 UC San Francisco, Department of<br />
Veterans Affairs Medical Center, San Fransisco, CA<br />
ancestry effects on Hippocampal Volume: Implications<br />
<strong>for</strong> Neuroimaging Studies<br />
Gonzalo Laje 1 , Allison Nugent 1 , Xinmin Liu 2 ,<br />
Jonathon Savitz 3 , Carlos Zarate, Jr. 1 , Wayne Drevets 3 ,<br />
Francis McMahon 1<br />
1 NIMH, Bethesda, MD, 2 Columbia University, New York, NY,<br />
3 Laureate Institute <strong>for</strong> <strong>Brain</strong> Research, Tulsa, OK<br />
Investigating the Joint effect of HFE mutations on<br />
White matter Structure (N=544 DTI study)<br />
Omid Kohannim 1 , Neda Jahanshad 1 , Derrek Hibar 1 ,<br />
Jason Stein 1 , Katie McMahon 2 , Greig de Zubicaray 3 , Sarah<br />
Medland 4 , Grant Montgomery 4 , John Whitfield 4 , Nicholas<br />
Martin 4 , Margaret Wright 4 , Arthur Toga 1 , Paul Thompson 1<br />
1 Laboratory of Neuro Imaging, UCLA, Los Angeles, CA,<br />
2 University of Queensland, Centre <strong>for</strong> Advanced Imaging,<br />
Brisbane, Australia, 3 University of Queensland, School of<br />
Psychology, Brisbane, Australia, 4 Queensland Institute of<br />
Medical Research, Brisbane, Australia<br />
environmental Influence on <strong>Human</strong> <strong>Brain</strong> Chemistry<br />
in Late Life appears to Be Superior to genetics<br />
Seyed Amir Hosein Batouli 1 , Julian Trollor 2 , Wei Wen 3 ,<br />
Perminder Sachdev 3<br />
1 NeuroImaging Lab, School of Psychiatry, University of<br />
New South Wales, Sydney, NSW, Australia, 2 Department of<br />
Developmental Disability Neuropsychiatry, UNSW, Sydney,<br />
Australia, 3 Neuropsychiatric Institute, Prince of Wales<br />
Hospital, Sydney, Australia<br />
324<br />
325<br />
Identification of <strong>Brain</strong> Functional Networks Linked to<br />
genetic Variation: a Constrained ICa approach<br />
Mohammad Ghassemi 1 , Jingyu Liu 1 , David Boutte 1 ,<br />
Sandy Wells 2 , Nora Perrone-Bizzozero 3 , Fabio Macciardi 4 ,<br />
Daniel Mathalon 5 , Judith Ford 5 , Steven Potkin 4 ,<br />
Jessica Turner 1 , Vince Calhoun 1,6 , Andrew Michael 1<br />
1 The Mind Research Network, Albuquerque, United States,<br />
2 Department of Radiology, Harvard Medical School,<br />
Boston, United States, 3 Department of Neurosciences,<br />
University of New Mexico, Albuquerque, United States,<br />
4 Department of Psychiatry and <strong>Human</strong> Behavior,<br />
University of Cali<strong>for</strong>nia, Irvine, United States, 5 Veterans<br />
Affairs Medical Center, University of San Francisco, San<br />
Francisco, United States, 6 Department of ECE, University<br />
of New Mexico, Albuquerque, United States<br />
genetic Patterning of Cortical arealization of the the<br />
<strong>Human</strong> <strong>Brain</strong><br />
Chi-Hua Chen 1 , Matthew Panizzon 1 , Christine Fennema-<br />
Notestine 1 , Lisa Eyler 1 , Amy Jak 1 , Michael Neale 2 ,<br />
Carol Franz 1 , Samar Hamza 1 , Terry Jernigan 1 , Michael<br />
Lyons 3 , Michael Grant 3 , Bruce Fischl 4 , Larry Seidman 5 ,<br />
Ming Tsuang 1 , Anders Dale 1 , William Kremen 1<br />
1 University of Cali<strong>for</strong>nia, San Diego, La Jolla, United States,<br />
2 Virginia Commonwealth University, Richmond, United<br />
States, 3 Boston University, Boston, United States, 4 Harvard<br />
Medical School and Massachusetts General Hospital,<br />
Boston, United States, 5 Harvard University, Boston,<br />
United States<br />
Genetics<br />
Neurogenetic Syndromes<br />
326** Lovastatin normalizes the brain spontaneous<br />
low-frequency fluctuations in children with nf1<br />
camille chabernaud1 , Maarten Mennes1 , Peter Kardel2 ,<br />
William Gaillard3 , Layne Kalbfleisch4 , John Van Meter5 ,<br />
Roger Packer2 , Michael Milham1 , F. Xavier Castellanos1 ,<br />
Maria Acosta2 1Phyllis Green and Randolph Cōwen Institute <strong>for</strong><br />
Pediatric Neuroscience, NYU Langone Medical Center,<br />
New York, United States, 2Jennifer and Daniel Gilbert<br />
Neurofibromatosis Institute, Children’s National Medical<br />
Center, Washington DC, United States, 3The Center <strong>for</strong><br />
Neuroscience and Behavioral Medicine, Children’s National<br />
Medical Center, Washington DC, United States, 4George Mason University, South Ridge, United States, 5Center <strong>for</strong><br />
Functional and Molecular Imaging, Georgetown University<br />
Medical Center, Washington DC, United States<br />
HBM 2011 >> <strong>abstracts</strong> 123<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Genetics<br />
Neurogenetic Syndromes, continued<br />
327<br />
328<br />
329<br />
330<br />
331<br />
Williams syndrome genes LImK1, CLIP2 interact to<br />
impact per<strong>for</strong>mance, gray matter in healthy humans<br />
Jonathan Kippenhan 1 , Andreas Meyer-Lindenberg 2 ,<br />
Venkata Mattay 3 , Bhaskar Kolachana 4 , Philip Kohn 4 ,<br />
Dwight Dickinson 4 , Daniel Weinberger 3 , Karen Berman 5<br />
1 National Institutes of Health, NIMH, IRP, Bethesda, MD,<br />
2 Central Institute of Mental Health (CIMH) Mannheim,<br />
Mannheim, Germany, 3 National Institute of Mental Health,<br />
National Institutes of Health, Bethesda, MD, 4 National<br />
Institutes of Health, Bethesda, MD, 5 National Institutes<br />
Of Health, NIMH, IRP, Bethesda, United States<br />
DTI maps of white matter abnormalities in 22q11.2<br />
deletion syndrome, Fragile X and Turner syndrome<br />
Julio Villalon Reina 1 , Neda Jahanshad 2 , Arthur Toga 3 ,<br />
Paul Thompson 1 , Tony Simon 4<br />
1 Laboratory of Neuro Imaging - UCLA School of Medicine,<br />
Los Angeles, CA, 2 Laboratory of Neuro Imaging, UCLA,<br />
Los Angeles, CA, 3 UCLA School of Medicine, Department<br />
of Neurology, Los Angeles, CA, 4 Cognitive Analysis & <strong>Brain</strong><br />
Imaging Laboratory-M.I.N.D. Institute & NeuroTherapeutics<br />
Research Inst, Davis, CA<br />
grey and white matter changes in infantile myotonic<br />
dystrophy type 1<br />
Herve Lemaitre1 , Aurelia Jacquette2 , Sandra Whalen2 ,<br />
Bruno Eymard3 , Isabelle Desguerre2 , Francis Brunelle4,1 ,<br />
David Grevent4,1 , Monica Zilbovicius1,5 , Delphine Heron2 ,<br />
Nathalie Boddaert4,1 1INSERM U1000, Paris Descartes, Faculté de Medecine<br />
Paris-Sud 11, Orsay, France, 2Hopital Pitie Salpetriere,<br />
APHP, Département de Genetique, Paris, France, 3Hopital Pitie Salpetriere, APHP, Institut de Myologie, Paris, France,<br />
4Hopital Necker, APHP, Enfants malades, Paris, France,<br />
5Hopital Necker, APHP, Enfants malades, Paris, France,<br />
France<br />
Comparing Diffusion Tensor Imaging in<br />
Neurofibromatosis type I vs. Normal Children<br />
and adults<br />
Nicolás Lori 1,2 , Maria Ribeiro 1,2 , Ines Violante 1,2 ,<br />
Miguel Castelo-Branco 1,2<br />
1 IBILI, Faculty of Medicine, University of Coimbra, Coimbra,<br />
Portugal, 2 National <strong>Brain</strong> Imaging Network, Portugal<br />
Diffusion Imaging in Individuals with Partial Deletions<br />
of the Williams Syndrome Critical region<br />
Dharshan Chandramohan 1 , Matthew Geramita 1 ,<br />
Lindsay Walker 2 , Katherine Roe 3 , Shane Kippenhan 3 ,<br />
Aarthi Padmanabhan 3 , Phillip Kohn 3 , Carolyn Mervis 4 ,<br />
Ariel Pani 5 , Colleen Morris 6 , Daniel Weinberger 7 ,<br />
Carlo Pierpaoli 2 , Stefano Marenco 1 , Karen Berman 3<br />
1 Unit on Multimodal Imaging Genetics, CBDB, NIMH-<br />
IRP, Bethesda, MD, 2 Section on Tissue Biophysics and<br />
Biomimetics, NICHD-IRP, Bethesda, MD, 3 Section on<br />
Integrative Neuroimaging, CBDB, NIMH-IRP, Bethesda,<br />
MD, 4 Neurodevelopmental Sciences Lab, University<br />
of Louisville, Louisville, KY, 5 Dept. of Biochemistry and<br />
Molecular Biology, University of Louisville, Louisville, KY,<br />
6 Genetics Division, Dept of Pediatrics, University of Nevada<br />
School of Medicine, Las Vegas, NV, 7 GCAP/CBDB,<br />
NIMH-IRP, Bethesda, MD<br />
124 HBM 2011 >> <strong>abstracts</strong><br />
332<br />
333<br />
334<br />
<strong>Brain</strong> related acute and long term effects of leptin<br />
therapy in a congenital leptin deficient patient<br />
Sabine Frank 1,2 , Martin Heni 3,4 , Anja Moss 5 , Julia von<br />
Schnurbein 5 , Andreas Fritsche 3,4 , Hans-Ulrich Haering 3,4 ,<br />
Sadaf Farooqi 6 , Hubert Preissl 1,7 , Martin Wabitsch 5<br />
1 MEG Center, University of Tuebingen, Tuebingen,<br />
Germany, 2 Graduate School of Neural & Behavioural<br />
Sciences, International Max Planck Research School,<br />
Tuebingen, Germany, 3 Department of Internal Medicine,<br />
Division of Endocrinology, Eberhard Karls University<br />
Tuebingen, Tuebingen, Germany, 4 Member of the German<br />
Centre <strong>for</strong> Diabetes Research DZD, Tuebingen, Germany,<br />
5 Division of Pediatric Endocrinology, Dep. of Pediatrics and<br />
Adolescent Medicine, University of Ulm, Ulm, Germany,<br />
6 Metabolic Research Laboratories, Institute of Metabolic<br />
Science, Addenbrooke’s Hospital, Cambridge, United<br />
Kingdom, 7 Department of Obstetrics and Gynecology,<br />
University of Arkansas <strong>for</strong> Medical Sciences,<br />
Little Rock, AR<br />
Variants of FTo modulate reward-related behavior<br />
and the central control of hunger and satiety<br />
Annette Horstmann 1 , Joeran Lepsien 2 , Haiko Schloegl 3 ,<br />
Stefan Kabisch 3 , Franziska Busse 3 , Peter Kovacs 4 ,<br />
Michael Stumvoll 5 , Arno Villringer 2 , Burkhard Pleger 2<br />
1 IFB Adiposity Diseases, Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany,<br />
2 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 3 Department of Medicine,<br />
University of Leipzig, Leipzig, Germany, 4 Interdisciplinary<br />
Center of Clinical Research, University of Leipzig, Leipzig,<br />
Germany, 5 IFB Adiposity Diseases, University of Leipzig,<br />
Leipzig, Germany<br />
morphologic alterations in brain structure in patients<br />
with Wagr/11p deletion syndrome<br />
Julie McEntee 1 , John Butman 2 , Dzung Pham 1 ,<br />
Shannon Fuhr 3 , Amanda Huey 3 , Stephen Sharp 4 ,<br />
Jack Tsao 4 , Joan Han 3<br />
1 Henry M. Jackson Foundation, Rockville, MD, 2 NIH<br />
Clinical Center, Bethesda, MD, 3 NICHD, Bethesda, MD,<br />
4 USUHS, Bethesda, MD<br />
In<strong>for</strong>matics<br />
Atlases<br />
335 a High-resolution Full-<strong>Brain</strong> Probabilistic atlas<br />
of regions Based on Cortical-Folds<br />
Matthieu Perrot1 , Gael Varoquaux2 , Denis Rivière1 ,<br />
Jean-François Mangin1 1 2 NeuroSpin, CEA, Gif-sur-Yvette, France, Neurospin,<br />
INRIA, Gif-sur-Yvette, France
In<strong>for</strong>matics<br />
Atlases, continued<br />
336<br />
337<br />
338<br />
339<br />
340<br />
The allen <strong>Human</strong> <strong>Brain</strong> atlas: an online<br />
resource Integrating mr and genome-Wide gene<br />
expression Data<br />
Elaine Shen 1 , Darren Bertagnolli 1 , Barry Daly 2 , Chinh<br />
Dang 1 , Angela Guillozet-Bongaarts 1 , Rao Gullipalli 2 ,<br />
Michael Hawrylycz 1 , John Hohmann 1 , Chris Lau 1 ,<br />
Changkyu Lee 1 , Ed Lein 1 , Alan McMillan 2 , Lydia Ng 1 ,<br />
Caroline Overly 1 , John Phillips 1 , Zackery Riley 1 , Kimberly<br />
Smith 1 , Susan Sunkin 1 , Paul Wohnoutka 1 , Allan Jones 1<br />
1 Allen Institute <strong>for</strong> <strong>Brain</strong> Science, Seattle, WA,<br />
2 University of Maryland School of Medicine, Baltimore, MD<br />
NeuromorphoNaut: an open Source Tool to make<br />
anatomy Less Tedious<br />
Andrew Worth 1 , Gregory Millington 1 , Jason Tourville 2<br />
1 Neuromorphometrics, Inc., Somerville, MA, 2 Department<br />
of Cognitive and Neural Systems, Boston University,<br />
Boston, MA<br />
Cortical Surface-based atlases: Improvements to the<br />
fsaverage atlas and Inter-atlas Trans<strong>for</strong>mations<br />
David Van Essen 1 , Matthew Glasser 2 , Timothy Coalson 3 ,<br />
Donna Dierker 4 , John Harwell 3<br />
1 Washington University, 2 Washington University in<br />
St. Louis, 3 Washington University, St. Louis, MO,<br />
4 Washington University School of Medicine,<br />
Creve Coeur, United States<br />
automatic mNI atlas labeling <strong>for</strong> Chinese <strong>Brain</strong><br />
Template using 3D nonlinear registration<br />
Chia-Ming Chang 1 , Che-Wei Chang 2 , Tun Jao 2 ,<br />
Chien-Chang Ho 2 , Jyh-Horng Chen 2<br />
1 National Taiwan University, Taiwan, 2 National Taiwan<br />
University, Taipei, Taiwan, Republic of China<br />
Teaching neuroanatomy using Iphone and IPad<br />
Pedro Paulo Oliveira Jr 1,2 , Bruce Fischl 3 , Edson Amaro 4<br />
1 Netfilter.com, São Paulo, Brazil, 2 University Of Sao<br />
Paulo, São Paulo, Brazil, 3 Harvard Medical School and<br />
Massachusetts General Hospital, Boston, United States,<br />
4 University Of Sao Paulo, Sao Paulo, SP, Brazil<br />
In<strong>for</strong>matics<br />
Databasing and Data Sharing<br />
341* establishing Datasharing Standards in Neuroimaging,<br />
(o-W3)<br />
Standards <strong>for</strong> Neuroimaging Datasharing Task Force1 1International Neuroin<strong>for</strong>matics Coordinating Facility,<br />
Stockholm, Sweden<br />
342*<br />
Towards large-scale automated synthesis of the human<br />
neuroimaging literature, (o-W3)<br />
Tal Yarkoni 1 , Russell Poldrack 2 , Thomas Nichols 3 ,<br />
David Van Essen 4 , Tor Wager 5<br />
1 University of Colorado at Boulder, Boulder, USA,<br />
2 University of Texas at Austin, Austin, USA, 3 University of<br />
Warwick, Dept. of Statistics, Coventry, UK, 4 Washington<br />
University, St. Louis, USA, 5 University of Colorado at<br />
Boulder, Boulder, USA<br />
343<br />
344<br />
345<br />
The International Neuroimaging Data-sharing Initiative<br />
(INDI) and the Functional Connectomes Project<br />
Michael Milham 1,2 , Maarten Mennes 1 , David Gutman 1 ,<br />
Randy Buckner 3 , Cameron Craddock 4 , Daniel Margulies 5 ,<br />
Yufeng Zang 6 , Bharat Biswal 7 , J.K. Buitelaar 8 , Vince<br />
Calhoun 9 , Stan Colcombe 2 , Eliza Congdon 10 , Daniel<br />
Dickstein 11 , Damien Fair 12 , Matthew Hoptman 2 ,<br />
Maria de la Iglesia Vaya 13 , George Andrew James 14 ,<br />
Rex Jung 9 , Clare Kelly 1 , David Kennedy 15 , Kent Kiehl 9 ,<br />
Clint Kilts 14 , Art Kramer 16 , Stephen LaConte 4 , Bennet<br />
Leventhal 2 , Beatriz Luna 17 , Larry Maayan 2 , David<br />
Madden 18 , Luis Martí-Bonmatí 19 , Andrew Mayer 9 ,<br />
Stewart Mostofsky 20 , Joel Nigg 12 , Kate Nooner 2 ,<br />
James Pekar 20 , Russell Poldrack 21 , Erika Proal 1 ,<br />
Julie Schweitzer 22 , Katerina Velanova 17 , Arno Villringer 5 ,<br />
Xi-Nian Zuo 23 , F. Xavier Castellanos 1,2<br />
1 NYU Langone Medical Center, New York, NY, 2 Nathan<br />
Kline Institute <strong>for</strong> Psychiatric Research, Orangeburg,<br />
NY, 3 Harvard University, Cambridge, MA, 4 Virginia Tech,<br />
Roanoke, VA, 5 Max Planck Institute, Leipzig, Germany,<br />
6 Beijing Normal University, Beijing, China, 7 University<br />
of Medicine and Dentistry of New Jersey, Newark, NJ,<br />
8 Donders Center <strong>for</strong> Cognitive Neuroscience, Nijmegen,<br />
Netherlands, 9 The Mind Research Network, Albuquerque,<br />
NM, 10 University of Cali<strong>for</strong>nia Los Angeles, West<br />
Hollywood, CA, 11 Brown University School of Medicine,<br />
Providence, RI, 12 Oregon Health and Science University,<br />
Portland, OR, 13 Centre of Excellence <strong>for</strong> Biomedical<br />
Imaging, Valencia, Spain, 14 University of Arkansas<br />
<strong>for</strong> Medical Sciences, Little Rock, AR, 15 University of<br />
Massachusetts Medical Center, Worcester, MA, 16 University<br />
of Illinois at Urbana-Champagne, Urbana-Champagne, IL,<br />
17 University of Pittsburgh, Pittsburgh, PA, 18 Duke University<br />
Medical Center, Durham, NC, 19 La Fe University and<br />
Polytechnic Hospital, Valencia, Spain, 20 Kennedy Krieger<br />
Institute, Baltimore, MD, 21 University of Texas at Austin,<br />
Austin, TX, 22 UC Davis M.I.N.D. Institute, Sacramento, CA,<br />
23 Chinese Academy of Sciences, Beijing, China<br />
<strong>Brain</strong>Browser: Web-based 3D Visualization <strong>for</strong> the<br />
maCaCC Dataset and other Surface Data<br />
Nicolas Kassis 1 , Gaolang Gong 2 , Marc-Étienne Rousseau 3 ,<br />
Reza ADALAT 4 , Alan Evans 5<br />
1 Montreal Neurological Institute and Hospital, Mcgill<br />
Univeristy, 2 Montreal Neurological Institute And Hospital,<br />
McGill University, Canada, 3 Montreal Neurological Institute<br />
(MNI) and Hospital, Mcgill University, Montreal, Québec,<br />
4 Montreal Neurological Institute, McGill University,<br />
Montreal, Canada, 5 McGill University, Montreal, Canada<br />
The Neuroimaging In<strong>for</strong>matics Tools and resources<br />
Clearinghouse (NITrC)<br />
David Kennedy 1 , Christian Haselgrove 1 , Jeffrey Grethe 2<br />
1 University of Massachusetts Medical School, Worcester,<br />
United States, 2 UCSD, San Diego, United States<br />
HBM 2011 >> <strong>abstracts</strong> 125<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
In<strong>for</strong>matics<br />
Databasing and Data Sharing, continued<br />
346<br />
347<br />
348<br />
349<br />
350<br />
351<br />
352<br />
NeuroLog: a framework <strong>for</strong> the sharing and reuse of<br />
distributed tools and data in neuroimaging<br />
Michel Dojat 1 , Mélanie Pélégrini-Issac 2,3 , Farooq Ahmad 4 ,<br />
Christian Barillot 4 , Bénédicte Batrancourt 5,3 , Alban<br />
Gaignard 6 , Bernard Gibaud 4 , Pascal Girard 1,7 , David<br />
Godard 8 , Gilles Kassel 9 , Diane Lingrand 6 , Grégoire<br />
Malandain 7 , Franck Michel 4 , Johan Montagnat 6 , Xavier<br />
Pennec 7 , Javier Rojas Balderrama 6 , Bacem Wali 4<br />
1 INSERM / Université Joseph Fourier, U836, Institut des<br />
Neurosciences, Grenoble, France, 2 INSERM / UPMC Univ.<br />
Paris 06, UMR_S678, Laboratoire d’Imagerie Fonctionnelle,<br />
Paris, France, 3 Univ. Paris 11, IFR49, Gif-sur-Yvette,<br />
France, 4 INSERM / INRIA / CNRS / Univ. Rennes 1, IRISA<br />
Unit VISAGES U746, Rennes, France, 5 INSERM / CNRS /<br />
UPMC Univ. Paris 06, UMR_S975 CRICM, Paris, France,<br />
6 CNRS / UNS, I3S lab, MODALIS team, Sophia Antipolis,<br />
France, 7 INRIA, ASCLEPIOS team, Sophia Antipolis,<br />
France, 8 Visioscopie, Nice, France, 9 Univ. de Picardie Jules<br />
Verne, MIS, EA 4290, Amiens, France<br />
brainSCaNr: mapping <strong>Brain</strong> Structure, Function, and<br />
Disease relationships with Pubmed<br />
Bradley Voytek 1 , Jessica Voytek 1<br />
1 University of Cali<strong>for</strong>nia, Berkeley, Berkeley, CA<br />
an online Shared Database of aSL-based CBF<br />
measures with Integrated Processing Pipeline<br />
David Shin 1 , Burak Ozyurt 2 , Thomas Liu 1<br />
1 UCSD Center <strong>for</strong> fMRI, La Jolla, CA, 2 University of<br />
Cali<strong>for</strong>nia San Diego, La Jolla, CA<br />
Developmental brain aDC atlas creation from<br />
clinical images<br />
Randy Gollub 1 , Vincent Roch 2 , Patricia Grant 3 ,<br />
Rudolph Pienaar 4 , Lilla Zollei 1 , Yanbing Wang 1 , Darren<br />
Sack 1 , Katherine Andriole 5 , Jesse Wei 6 , William Tellier 4 ,<br />
Daniel Marcus 7 , Steven Pieper 8 , Christopher Herrick 1 ,<br />
Shawn Murphy 1<br />
1 Massachusetts General Hospital, Boston, MA, 2 Ecole<br />
Polytechnique Federale de Lausanne, Lausanne,<br />
Switzerland, 3 Fetal-Neonatal Neuroimaging &<br />
Developmental Science Center, Children’s Hospital Boston,<br />
Boston, MA, 4 Children’s Hospital Boston, Boston, MA,<br />
5 Brigham & Women’s Hospital, Boston, MA, 6 Beth Israel<br />
Deaconess Medical Center, Boston, MA, 7 Washington<br />
University, St. Louis, MO, 8 Isomics, Boston, MA<br />
Networks in the Cloud: Web-Based Neuroimaging<br />
Connectivity matrix analysis and Data Sharing<br />
Jesse Brown 1 , Jeffrey Rudie 1 , Susan Bookheimer 1<br />
1 UCLA, Los Angeles, CA<br />
an innovative neuroin<strong>for</strong>matics tool suite built <strong>for</strong><br />
large heterogeneous datasets<br />
Margaret King 1 , William Courtney 1 , Raul de la Garza 1 ,<br />
Susan Rati Lane 1 , Adam Scott 1 , Dylan Wodd 1 ,<br />
Vince Calhoun 2<br />
1 The Mind Research Network, Albuquerque, NM,<br />
2 The Mind Research Network, Albuquerque, United States<br />
<strong>Brain</strong>map Behavior Profiles<br />
Jack Lancaster 1 , Angela Laird 1 , P Fox 1 , Michael Martinez 1 ,<br />
Peter Fox 1<br />
1 UTHSCSA - Research Imaging Institute, San Antonio, TX<br />
126 HBM 2011 >> <strong>abstracts</strong><br />
353<br />
354<br />
355<br />
356<br />
357<br />
358<br />
a real-time fmrI communication interface <strong>for</strong> Turbo-<br />
<strong>Brain</strong>Voyager using the TBV 3.0 Plugin Interface<br />
Michael Lührs 1 , Charles Mueller 2 , Johannes Bernarding 3<br />
1 IBMI, Otto-Von-Guericke-University, Magdeburg,<br />
Germany, 2 IBMI, Otto-Von-Guericke-University, Germany,<br />
3 Otto Von Guericue University, Magdeburg, Germany<br />
PyXNaT: a Python interface <strong>for</strong> XNaT<br />
Yannick Schwartz 1 , Alexis Barbot 1 , Frouin Vincent 1 ,<br />
Benjamin Thyreau 1 , Gael Varoquaux 2 , Bertrand Thirion 3 ,<br />
Jean-Baptiste Poline 1<br />
1 CEA Neurospin, Paris, France, 2 INSERM Neurospin,<br />
Paris, France, 3 INRIA Parietal, Paris, France<br />
NeuroPub Visualizer v2: a NIfTI visualisation tool <strong>for</strong><br />
iPad, iPhone and mac oS X<br />
Lars Forsberg 1,2<br />
1 Karolinska Institutet, Stockholm, Sweden,<br />
2 Icelandic Heart Association, Reykjavik, Iceland<br />
Neo: a Data model <strong>for</strong> electrophysiological Data<br />
representation and its Python Implementation<br />
Florent JAILLET 1 , Samuel Garcia 2 , Andrew Davison 3 ,<br />
Luc Estebanez 3 , Pierre Yger 3<br />
1 INCM, CNRS UMR 6193 - Université de la Méditerranée,<br />
Marseille, France, 2 NSCC, CNRS UMR 5020 - Université<br />
Claude Bernard, Lyon, France, 3 UNIC, CNRS UPR 3293,<br />
Gif-sur-Yvette, France<br />
Hybrid Linking of multiple Primate Cortical<br />
Parcellations to a Single atlas Space<br />
Gleb Bezgin 1 , Rembrandt Bakker 2<br />
1 Rotman Research Institute at Baycrest, McIntosh lab,<br />
Toronto, Canada, 2 Donders Institute at UMC Radboud,<br />
Nijmegen, Netherlands<br />
graphical Knowledge Discovery <strong>for</strong> Neuroimaging<br />
archives<br />
Ian Bowman 1 , Shantanu Joshi 1 , John Van Horn 1<br />
1 UCLA, Los Angeles, United States<br />
In<strong>for</strong>matics<br />
Pipelines<br />
359<br />
Lipsia 2.0 – a software package <strong>for</strong> analyzing mrI/fmrI/<br />
rs-fmrI data<br />
Gabriele Lohmann 1 , Eric Tuerke 1 , Thomas Proeger 1 ,<br />
Enrico Reimer 1 , Lydia Hellrung 2 , Dirk Goldhahn 1 ,<br />
Karsten Mueller 1 , Michael Hanke 3 , Daniel Margulies 4 ,<br />
Arno Villringer 1 , Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences Leipzig, Leipzig,<br />
Germany, 3 Dartmouth College, NH, USA, 4 Berlin School of<br />
Mind and <strong>Brain</strong>, Humboldt University, Berlin , Germany
In<strong>for</strong>matics<br />
Pipelines, continued<br />
360<br />
361<br />
362<br />
363<br />
364<br />
365<br />
Soma-Workflow: open source software <strong>for</strong> easy access<br />
to parallel computing resources<br />
Soizic Laguitton 1 , Denis Rivière 2 , Dominique Geffroy 1 ,<br />
Nicolas Souedet 3 , Yann Cointepas 1<br />
1 CEA NeuroSpin, Paris, France, 2 NeuroSpin, CEA,<br />
Orsay, France, 3 CEA MIRCen, Paris, France<br />
a neuroimaging analysis kit <strong>for</strong> matlab and octave<br />
Pierre Bellec 1 , Felix Carbonnell 2 , Vincent Perlbarg 3 ,<br />
Claude Lepage 4 , Oliver Lyttelton 5 , Vladmir Fonov 2 ,<br />
Andrew Janke 6 , Jussi Tohka 7 , Alan Evans 8<br />
1 CRIUGM, Montreal , Quebec, 2 McConnell <strong>Brain</strong> Imaging<br />
Centre, Montreal Neurological Institute, Montreal, QC,<br />
3 INSERM / UPMC Univ. Paris 06, UMR_S678, LIF, Paris,<br />
France, 4 Montreal Neurological Institute, McGill University,<br />
Canada, Montreal, Canada, 5 Institute of Mental Health<br />
Research Ottawa, 6 Centre <strong>for</strong> Advanced Imaging, The<br />
University of Queensland, Australia, brisbane, Australia,<br />
7 Department of Signal Processing,Tampere University of<br />
Technology, Tampere, Finland, 8 McGill University,<br />
Montreal, Canada<br />
Quality control of large-scale mrI processing by<br />
means of outlier detection<br />
Simon Duchesne1 , Fernando Valdivia2 1CRULRG Universite Laval, Quebec City, Canada,<br />
2Centre de recherche Universite Laval Robert-Giffard,<br />
Quebec, Quebec<br />
CHrIS: a Web-Based System <strong>for</strong> Collecting,<br />
analyzing, and Interacting with NeuroImaging Data<br />
Daniel Ginsburg 1 , Rudolph Pienaar 1<br />
1 Children’s Hospital Boston, Boston, MA<br />
The i<strong>Brain</strong> analysis Toolbox <strong>for</strong> SPm<br />
David Abbott 1 , Richard Masterton 1 , Anthony Waites 1 ,<br />
Kaushik Bhaganagarapu 1 , Gaby Pell 1 , Matthew Harvey 1 ,<br />
Gagan Sharma 1 , Graeme Jackson 1<br />
1 <strong>Brain</strong> Research Institute, Florey Neuroscience Institutes<br />
(Austin), Melbourne, Australia<br />
Per<strong>for</strong>ming tasks in medical Imaging with r<br />
Karsten Tabelow1 , Brandon Whitcher2 , Joerg Polzehl1 1 2 WIAS, Berlin, Germany, GlaxoSmithKline, London,<br />
United Kingdom<br />
HIgher Cognitive Functions<br />
Decision Making<br />
366*<br />
orbitofrontal cortex distributes rein<strong>for</strong>cement to the<br />
decision that caused it, (o-T4)<br />
Kay Brodersen 1 , Laurence Hunt 2 , Ekaterina Lomakina 1 ,<br />
Joachim Buhmann 1 , Matthew Rushworth 2 ,<br />
Timothy Behrens 3<br />
1 ETH Zurich, Zurich, Switzerland, 2 University of Ox<strong>for</strong>d,<br />
Ox<strong>for</strong>d, United Kingdom, 3 Ox<strong>for</strong>d Centre <strong>for</strong> Functional<br />
MRI of the <strong>Brain</strong> (FMRIB), Ox<strong>for</strong>d, United Kingdom<br />
367**<br />
368*<br />
369*<br />
370*<br />
371*<br />
372*<br />
automatic processing of political preferences in the<br />
human brain<br />
Anita Tusche 1 , John-Dylan Haynes 2<br />
1 Bernstein Center <strong>for</strong> Computational Neuroscience,<br />
Charité - Universitätsmedizin, Berlin, Germany,<br />
2 Bernstein Center <strong>for</strong> Computational Neuroscience,<br />
Charité - Universitätsmedizin, Berlin, Berlin, Germany<br />
Intra-parietal sulcus links decisions to actions and<br />
receives value-modulated inputs from vmPFC, (o-m2)<br />
Miriam Klein-Flügge 1 , Timothy Behrens 2 , Karl Friston 3 ,<br />
Sven Bestmann 1<br />
1 Sobell Department, Institute of Neurology, UCL, London,<br />
United Kingdom, 2 Ox<strong>for</strong>d Centre <strong>for</strong> Functional MRI of the<br />
<strong>Brain</strong> (FMRIB), Ox<strong>for</strong>d, United Kingdom, 3 Wellcome Trust<br />
Centre <strong>for</strong> Neuroimaging, UCL, London, United Kingdom<br />
The amygdala becomes reward-sensitive when an<br />
outcome cannot be assigned to the correct<br />
decision, (o-m2)<br />
Kay Brodersen 1 , Laurence Hunt 2 , Ekaterina Lomakina 1 ,<br />
Joachim Buhmann 1 , Matthew Rushworth 2 , Timothy<br />
Behrens 3<br />
1 ETH Zurich, Zurich, Switzerland, 2 University of Ox<strong>for</strong>d,<br />
Ox<strong>for</strong>d, United Kingdom, 3 Ox<strong>for</strong>d Centre <strong>for</strong> Functional MRI<br />
of the <strong>Brain</strong> (FMRIB), Ox<strong>for</strong>d, United Kingdom<br />
Sub-second measurements of dopamine release in<br />
human striatum during a sequential investment<br />
game, (o-W4)<br />
Kenneth Kishida 1 , Stefan Sandberg 2 , Terry Lohrenz 3 ,<br />
Youssef Comair 3 , Ignacio Saez 1 , Paul Phillips 2 , P.<br />
Montague 1<br />
1 Virginia Tech Carilion Research Institute, Roanoke, VA,<br />
2 University of Washington, Seattle, WA, 3 Baylor College of<br />
Medicine, Houston, TX<br />
Trait impulsivity and interindividual differences in the<br />
neural mechanisms underlying self control, (o-m3)<br />
Esther Diekhof 1 , Lesly Nerenberg 1 , Peter Falkai 1 ,<br />
Peter Dechent 2 , Juergen Baudewig 3 , Oliver Gruber 1<br />
1 Center <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Georg August University,<br />
Göttingen, Germany, 2 MR-Research in Neurology and<br />
Psychiatry, University Medical Center Göttingen,<br />
Göttingen, Germany, 3 FU Berlin, Berlin, Germany<br />
Led into temptation? Subliminally presented reward<br />
cues bias incidental economic decisions, (o-m2)<br />
Stefan Bode 1,2 , Juan Dominguez D. 3 , Carsten Murawski 4 ,<br />
Philip Harris 5 , Gary Egan 6,2<br />
1 Psychological Sciences, The University of Melbourne,<br />
Melbourne, Victoria, 2 Florey Neuroscience Institutes,<br />
Melbourne, Australia, 3 Florey Neuroscience Institutes,<br />
Melbourne, Victoria, 4 Department of Finance, The<br />
University of Melbourne, Melbourne, Victoria, 5 Department<br />
of Management and Marketing, The University of<br />
Melbourne, Parkville, Australia, 6 Centre <strong>for</strong> Neuroscience,<br />
University of Melbourne, Melbourne, Australia<br />
HBM 2011 >> <strong>abstracts</strong> 127<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Higher Cognitive Functions<br />
Decision Making, continued<br />
373<br />
374<br />
375<br />
376<br />
377<br />
378<br />
379<br />
Decision making and the medial prefrontal cortex:<br />
are there different <strong>for</strong>ms of uncertainty?<br />
Takashi Nakao 1 , Hideki Ohira 2 , Georg Northoff 3<br />
1 University of Ottawa Institute of Mental Health Research,<br />
Ottawa, Canada, Ottawa, Canada, 2 Graduate School of<br />
Environmental Studies, Nagoya University, Nagoya, Japan,<br />
Nagoya, Japan, 3 University of Ottawa Institute of Mental<br />
Health Research, Ottawa, Canada<br />
Delay discounting is associated with a diminished<br />
functioning executive control network under rest<br />
Lianne Schmaal 1 , Anna Goudriaan 1 , Wim Van den Brink 1 ,<br />
Dick Veltman 2<br />
1 Academic Medical Center, University of Amsterdam,<br />
Department of Psychiatry, Amsterdam, Netherlands,<br />
2 VU University Medical Center, Department of Psychiatry,<br />
Amsterdam, Netherlands<br />
reduced SN/VTa valuation and conflict responses<br />
during decision-making following sleep-deprivation<br />
Jan Peters 1 , Christian Büchel 2 , Mareike Menz 3<br />
1 Department of Systems Neuroscience, University Medical<br />
Center Hamburg-Eppendorf, Germany, 2 Department<br />
of Systems Neuroscience, University Medical Center<br />
Hamburg-Eppendorf, Hamburg, Germany, 3 Deparment<br />
of Systems Neuroscience, University Medical Center<br />
Hamburg-Eppendorf, Germany, Hamburg, Germany<br />
Delayed and probabilistic discounting in<br />
pathological gamblers<br />
Stephan Miedl 1 , Christian Büchel 2 , Jan Peters 3<br />
1 Neuroimage Nord, Institute <strong>for</strong> Systems Neuroscience,<br />
University-Medical Center Hamburg-Eppendorf, Hamburg,<br />
Germany, 2 NeuroimageNord, Institute <strong>for</strong> Systems<br />
Neuroscience, University-Medical Center Hamburg-<br />
Eppendorf, Ger, Hamburg, Germany, 3 NeuroimageNord,<br />
Institute <strong>for</strong> Systems Neuroscience, University-Medical<br />
Center Hamburg-Eppendorf, Hamburg, Germany<br />
an 7T structural and fmrI study on the role of the STN<br />
in multiple alternative decision making<br />
Max Keuken 1,2 , Robert Turner 3 , Leendert van Maanen 4 ,<br />
Rafal Bogacz 5 , Andreas Schäfer 3 , Jane Neumann 6 ,<br />
Birte Forstmann 4<br />
1 University of Amsterdam, Utrecht, Netherlands,<br />
2 Max-Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 3 Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany,<br />
4 University of Amsterdam, Amsterdam, Netherlands,<br />
5 University of Bristol, Bristol, United Kingdom, 6 Max-Planck-<br />
Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong> Science., Leipzig,<br />
Germany<br />
5-HTTLPr Polymorphism Predicts Valence-dependent<br />
risk Preference Shift and related amygdala activity<br />
M Ryan Haynes 1 , Joseph Barter 1 , George Christoploulos 2 ,<br />
Martina Ly 1 , Daniel Weinberger 1 , Wolfram Schultz 2 ,<br />
Caroline Zink 1<br />
1 National Institute of Mental Health, Bethesda, MD,<br />
2 University of Cambridge, Cambridge, United Kingdom<br />
Withdrawn<br />
128 HBM 2011 >> <strong>abstracts</strong><br />
380<br />
381<br />
382<br />
383<br />
384<br />
385<br />
386<br />
387<br />
Whether you like it or not: your product of choice elicits<br />
specific brain activation<br />
Laura Van Der Laan 1 , Denise de Ridder 2 , Max Viergever 1 ,<br />
Paul Smeets 1<br />
1 University Medical Center Utrecht, Utrecht, Netherlands,<br />
2 Departement of Clinical and Health Psychology, University<br />
Utrecht, Utrecht, Netherlands<br />
When desire collides with reason: gender differences<br />
in the neural mechanism underlying self-control<br />
Maria Keil 1 , Oliver Gruber 1 , Peter Dechent 2 , Esther Diekhof 1<br />
1 Center <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Georg August University,<br />
Göttingen, Germany, 2 MR-Research in Neurology and<br />
Psychiatry, University Medical Center Göttingen, Göttingen,<br />
Germany<br />
Preventing impulsivity: a major role <strong>for</strong> hippocampusmediated<br />
episodic thinking<br />
Mael Lebreton 1 , Maxime-Louis Berthoux 1 , Philippe Fossati 1 ,<br />
Mathias Pessiglione 1<br />
1 INSERM, PARIS, France<br />
manipulation of Loss aversion by monetary<br />
endowment and affect: an event-related fmrI Study<br />
Ranganatha Sitaram 1 , Sergio Ruiz 2 , Sangkyun Lee 3 ,<br />
Chandrasekhar Pammi 4<br />
1 Institute of Medical Psychology and Behavioral<br />
Neurobiology; University of Tübingen, Tübingen, Germany,<br />
2 Institute of Medical Psychology and Behavioural<br />
Neurobiology, University of Tuebingen, Tuebingen,<br />
Germany, 3 Institute of Medical Psychology and Behavioral<br />
Neurobiology, University of Tuebingen, Tuebingen,<br />
Germany, 4 Centre of Behavioural and Cognitive Sciences,<br />
University of Allahabad, Allahabad, India<br />
associative learning in striatal subregions using<br />
high resolution fmrI<br />
Naomi Kenner1 , Jeanette Mum<strong>for</strong>d2 , Russell Poldrack2 1 2 UCLA, Los Angeles, CA, University of Texas at Austin,<br />
Austin, TX<br />
Functional connectivity during free choice of an object<br />
Markus Thimm 1 , Walter Sturm 1 , Ralph Weidner 2 ,<br />
Gereon Fink 3<br />
1 University Hospital Aachen, Aachen, Germany, 2 Research<br />
Centre Juelich, Juelich, Germany, 3 Department of<br />
Neurology, University of Cologne, Cologne, Germany<br />
<strong>Brain</strong>activity in Ba 8, aCC and DLPFC depends on<br />
Difficulty of Decisions and Subjective Consistency<br />
Stephan Ripke 1 , Thomas Hübner 1 , Eva Mennigen 1 ,<br />
Kathrin Müller 1 , Sarah Rodehacke 1 , Dirk Schmidt 1 ,<br />
Michael Smolka 1<br />
1 Technische Universität Dresden, Dresden, Germany<br />
Neural Correlates of Bias in Perceptual<br />
Decision making<br />
Martijn Mulder 1 , Wouter Boekel 2 , Eric-Jan Wagenmakers 2 ,<br />
Birte Forstmann 2<br />
1 University of Amsterdam, Amsterdam, The Netherlands,<br />
2 University of Amsterdam, Amsterdam, Netherlands
Higher Cognitive Functions<br />
Decision Making, continued<br />
388<br />
389<br />
390<br />
391<br />
392<br />
393<br />
394<br />
395<br />
an fmrI Investigation of the effects of Partial Sleep<br />
Deprivation on the Speed-accuracy Trade-off<br />
Evan Nemeth 1 , Ryan Blagdon 1 , Benjamin Rusak 2 ,<br />
Chris Bowen 3 , Jason Ivanoff 4<br />
1 Saint Mary’s University, Halifax, Nova Scotia, 2 Dalhousie<br />
University, Halifax, Nova Scotia, 3 National Research<br />
Council, Halifax, Nova Scotia, 4 Saint Mary’s University<br />
Neural Correlates of Protesting a Decision<br />
Bidhan Lamichhane 1 , Bhim Adhikari 1 , Sarah Brosnan 1 ,<br />
Mukesh Dhamala 1<br />
1 Georgia State University, Atlanta, GA<br />
Task related frontoparietal oscillatory activity<br />
underlying the visual perception of velocity change<br />
Sheng H. Wang 1,2,3 , Paul Ferrari 4 , Marc Lalancette 5 ,<br />
Eugene Simine 6 , Sonya Bells 7 , Douglas Cheyne 4 ,<br />
Mazyar Fallah 1,2,3,8,9 , John Tsotsos 2,6 , Joseph DeSouza 1,2,3,9<br />
1 Psychology Department, York University, Toronto, Canada,<br />
2 Centre <strong>for</strong> Vision Research, York University, Toronto,<br />
Canada, 3 Neuroscience Diploma, York University, Toronto,<br />
Canada, 4 Program in Neurosciences and Mental Health,<br />
Hospital <strong>for</strong> Sick Children Research Institute, Toronto,<br />
Canada, 5 Hospital <strong>for</strong> Sick Children Research Institute,<br />
Toronto, Canada, 6 Department of Computer Science &<br />
Engineering, York University, Toronto, Canada, 7 Department<br />
of Medical Imaging, University of Toronto, Toronto, Canada,<br />
8 School of Kinesiology and Health Science, York University,<br />
Toronto, Canada, 9 Biology Department, York University,<br />
Toronto, Canada<br />
Let’s have a break: neural substrates of ef<strong>for</strong>t<br />
management<br />
Florent Meyniel 1 , Mathias Pessiglione 1<br />
1 Motivation <strong>Brain</strong> and Behavior team, ICM, CNRS-INSERM,<br />
Universite Pierre et Marie Curie (Paris 6), France<br />
Withdrawn<br />
The innovative brain: a neural signature<br />
Daniella Laureiro-Martínez 1 , Nicola Canessa 2 ,<br />
Stefano Brusoni 3 , Maurizio Zollo 4 , Federica Alemanno 2 ,<br />
Stefano Cappa 2<br />
1 Department of Management and Technology, Bocconi<br />
University, Milan, Italy, 2 Vita-Salute San Raffaele University<br />
& Division of Neuroscience San Raffaele Scientific Institute,<br />
Milan, Italy, 3 KITeS, Department of Management and<br />
Technology, Bocconi University, Milan, Italy, 4 CROMA,<br />
Department of Management and Technology, Bocconi<br />
University, Milan, Italy<br />
alcoholic Subjects response to Prediction error<br />
Reza Momenan 1 , Erica Grodin 1 , Henry Lin 1 ,<br />
Daniel Hommer 1<br />
1 NIAAA/NIH, Bethesda, United States<br />
Neural substrates underlying the influence of affective<br />
states on intertemporal decision making<br />
Hyo-Eun Kim1 , Mi-Sook Park1 , Ji- Eun Park1 , Jin-Hun Sohn1 1Chungnam National University, Daejeon, Korea,<br />
Republic of<br />
396<br />
397<br />
398<br />
399<br />
400<br />
401<br />
402<br />
Is payoff necessarily weighted by the probability when<br />
making risky choice? evidence from ICa<br />
Yuan Zhou 1 , Lilin Rao 1 , Tianzi Jiang 2 , Shu Li 1<br />
1 Institute of Psychology, Chinese Academy of Sciences,<br />
Beijing, China, 2 Institute Of Automation, Chinese Academy<br />
Of Sciences, Beijing, China<br />
Computational mechanisms of stimulus-stimulus and<br />
stimulus-reward associative learning<br />
Sandra Iglesias 1 , Christoph Mathys 1,2 , Kay Brodersen 1,3 ,<br />
Klaas Stephan 1,4<br />
1 Laboratory <strong>for</strong> Social and Neural Systems Research,<br />
Dept. of Economics, University of Zurich, Switzerland,<br />
2 Institute <strong>for</strong> Biomedical Engineering, ETH Zurich,<br />
Switzerland, 3 Department of Computer Science,<br />
ETH Zurich, Switzerland, 4 Wellcome Trust Centre <strong>for</strong><br />
Neuroimaging, University College London, United Kingdom<br />
Functional Neuroimaging of Brand attractiveness<br />
Aniko Sztrokay1 , Evgeny Gutyrchik2 , Ernst Poeppel3 ,<br />
Thomas Meindl4 , Maximilian Reiser5 1Institute of Clinical Radiology University Hospitals Munich,<br />
Ludwig-Maximilians-University, Munich, Germany,<br />
2 3 IMP / HWZ, Munich, Germany, <strong>Human</strong> Science Center,<br />
Munich, Germany, 4University Munich, Munich, Germany,<br />
5Institute of Clinical Radiology, University Hospitals Munich,<br />
Munich, Germany<br />
Integration of disconfirmatory evidence is associated<br />
with increased activity in ventromedial PFC<br />
Katie Lavigne 1 , Todd Woodward 2<br />
1 University of British Columbia, 2 University of British<br />
Columbia, Vancouver, Canada<br />
The outcome evaluation in the altruistic punishment-an<br />
erP study<br />
Yan Wu 1 , Tianzi Jiang 2<br />
1 University of Electronic Science and Technology of<br />
China, Chengdu, China, 2 Institute Of Automation, Chinese<br />
Academy Of Sciences, Beijing, China<br />
Neural correlates of attitudinal evaluation:<br />
a fmrI study of attitudes towards animals<br />
Carlos Torres 1 , Erick Pasaye 1 , Luis Concha 1 ,<br />
Fernando Barrios 1<br />
1 Universidad Nacional Autonoma de Mexico,<br />
QUERETARO, QRO<br />
The Neurophysiology of Tactile Decision making<br />
Sabrina Thiel 1 , Till Nierhaus 1 , Arno Villringer 1 ,<br />
Burkhard Pleger 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 129<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
403<br />
404<br />
405<br />
406<br />
407<br />
408<br />
409<br />
410<br />
HIgher Cognitive Functions<br />
Reasoning and Problem Solving<br />
Neurodevelopmental origins of math anxiety<br />
Christina Young1 , Vinod Menon2 , Sarah Wu2 1 2 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, USA, Stan<strong>for</strong>d University,<br />
Stan<strong>for</strong>d, CA<br />
The role of verbal and spatial processes in<br />
deductive reasoning<br />
Jérôme Prado 1 , Rachna Mutreja 2 , James Booth 1<br />
1 Northwestern University, Evanston, United States,<br />
2 Northwestern University, Evanston, IL<br />
Functional Connectivity between Parietal and Prefrontal<br />
<strong>Brain</strong> regions and Intelligence in Children<br />
Sandra Langeslag 1 , Marcus Schmidt 1 , Akhgar<br />
Ghassabian 1 , Frank Verhulst 1 , Henning Tiemeier 1 ,<br />
Tonya White 1<br />
1 Department of Child and Adolescent Psychiatry,<br />
Erasmus MC - Sophia, Rotterdam, The Netherlands<br />
Fine-tuning of representational similarity during<br />
problem solving is related to task per<strong>for</strong>mance<br />
Sarit Ashkenazi 1 , Miriam Rosenberg-Lee 2 , Vinod Menon 3<br />
1 Stan<strong>for</strong>d University School of Medicine, 2 Stan<strong>for</strong>d<br />
University School of Medicine, Palo Alto, CA,<br />
3 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States<br />
Planning of action with everyday objects is represented<br />
in bilateral human frontoparietal cortex<br />
Arianne Johnson 1 , Scott Grafton 1<br />
1 University of Cali<strong>for</strong>nia, Santa Barbara, Santa Barbara, CA<br />
The Influence of Verbalization on the Pattern of Cortical<br />
activation during mental arithmetic<br />
Sabrina Koch 1 , Verena Braunstein 1 , Karl Koschutnig 2 ,<br />
Gernot Reishofer 2 , Franz Ebner 2 , Christa Neuper 1 ,<br />
Anja Ischebeck 1<br />
1 Karl-Franzens University, Department of Psychology,<br />
Graz, Austria, 2 Medical University, Department of<br />
Radiology, Graz, Austria<br />
The “Honest” <strong>Brain</strong> region<br />
Zhi Yang 1 , Zirui Huang 1 , Xuchu Weng 2<br />
1 Institute of Psychology, Chinese Academy of Sciences,<br />
Beijing, China, 2 Hangzhou Normal University, Hangzhou, 0<br />
Neural basis of Sudoku: a functional mrI study<br />
Mauro Perrucci 1,2 , Marcella Brunetti 1,2 , Antonio Ferretti 1,2 ,<br />
Annapaola Prestia 3,4,5 , Cosimo Del Gratta 1,2 ,<br />
Gian Luca Romani 1,2 , Giovanni Frisoni 3,4,5<br />
1 Department of Neuroscience and Imaging, G. D’Annunzio<br />
University, Chieti, Italy, 2 Institute <strong>for</strong> Advanced Biomedical<br />
Technology, G. D’Annunzio University Foundation, Chieti,<br />
Italy, 3 Laboratory of Epidemiology Neuroimaging and<br />
Telemedicine, IRCCS Centro San Giovanni di Dio FBF,<br />
Brescia, Italy, 4 IRCCS Centro San Giovanni di Dio FBF,<br />
Brescia, Italy, 5 The National Centre <strong>for</strong> Research and Care<br />
of Alzheimer’s and Mental Diseases, Brescia, Italy<br />
130 HBM 2011 >> <strong>abstracts</strong><br />
411<br />
using Functional Neuro-imaging as a measurement of<br />
Clinical reasoning expertise<br />
Steven Durning 1 , Anthony Artino 1 , Thomas Beckman 2 ,<br />
Vincent Capaldi 3 , Eric Holmboe 1 , Hai Pan 4 , Louis Pangaro 1 ,<br />
Robert Walter 3 , John Graner 1 , Terry Oakes 1 , Gerard Riedy 5<br />
1 Uni<strong>for</strong>med Services University, Bethesda, MD, 2 Mayo<br />
Clinic, Rochester, United States, 3 Walter Reed Army<br />
Medical Center, District of Columbia, United States, 4 USU,<br />
Bethesda, United States, 5 Walter Reed Army Medical<br />
Center, Washington, DC<br />
HIgher Cognitive Functions<br />
Space, Time and Number Coding<br />
412<br />
413<br />
414<br />
415<br />
416<br />
417<br />
418<br />
Heterogeneous Hippocampal response and<br />
Connectivity associated with Children’s math<br />
Fact retrieval<br />
Soohyun Cho 1 , Arron Metcalfe 1 , Christina Young 1 ,<br />
Leeza Kondos 1 , David Geary 2 , Vinod Menon 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States,<br />
2 University of Missouri, Columbia, United States<br />
Parietal brain activation during number processing<br />
predicts children’s arithmetic achievement<br />
Stephanie Bugden 1 , Gavin Price 1 , Adam McLean 1 ,<br />
Daniel Ansari 1<br />
1 University of Western Ontario, London, Canada<br />
Why do we lose track of time with age? a fNIrS study<br />
of age-related differences in timing with breaks<br />
Paule Ellefsen-Gauthier 1 , Laurence Desjardins-Crépeau 2 ,<br />
Claudette Fortin 1 , Michèle Desjardins 3 , Frédéric Lesage 3 ,<br />
Louis Bherer 2<br />
1 Université Laval, Québec, Canada, 2 Université du Québec<br />
à Montréal, Montréal, Canada, 3 École Polytechnique,<br />
Montréal, Canada<br />
maturation of Fronto-Parietal Connectivity underlying<br />
math Problem Solving<br />
Miriam Rosenberg-Lee 1 , Caitlin Tenison 1 , Vinod Menon 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States<br />
Cerebral correlates of non-symbolic numerical<br />
magnitude processing: the role of surface area<br />
Stephan Vogel 1 , Gavin Price 1 , Justin Halberda 2 , Ryan Ly 2 ,<br />
Daniel Ansari 1<br />
1 University of Western Ontario, London, Canada,<br />
2 Johns Hopkins University, Baltimore, United States<br />
Production or prediction of time intervals:<br />
neuroanatomical dissociation with fmrI<br />
Karen Davranche 1 , Bruno Nazarian 2 , Franck Vidal 1 ,<br />
Jennifer Coull 1<br />
1 Universite de Provence & CNRS, Marseille, France,<br />
2 La Timone Hospital, Marseille, France<br />
The Sound of Symbols: audiovisual Integration in<br />
Hindu-arabic Numerals in the <strong>Brain</strong><br />
Ian Holloway 1 , Leo Blomert 2 , Daniel Ansari 1<br />
1 University of Western Ontario, London, Ontario,<br />
2 Maastricht University, Maastricht, Netherlands
Higher Cognitive Functions<br />
Space, Time and Number Coding, continued<br />
419<br />
420<br />
421<br />
422<br />
423<br />
Timing of posterior parahippocampal gyrus reveals<br />
multiple scene processing stages<br />
Julien Bastin 1 , Giorgia Committeri 2 , Philippe Kahane 1 ,<br />
Gaspare Galati 3 , Lorella Minotti 1 , Jean-Philippe Lachaux 4 ,<br />
Alain Berthoz 5<br />
1 INSERM U836, Grenoble institute of neurosciences and<br />
université Joseph Fourier, Grenoble, France, 2 Department<br />
of Neuroscience and Imaging, University G. D’Annunzio<br />
and ITAB, Foundation G. D’Annunzio, Chieti, Italy,<br />
3 Department of Psychology, Sapienza University, and<br />
Foundation Santa Lucia, Rome, Italy, 4 INSERM U821,<br />
Lyon, France, 5 UMR 7152, CNRS-Collège de France,<br />
Laboratoire de Physiologie de la Perception et de l’Action,<br />
Paris, France<br />
Frontal vs. Parietal Contributions to elementary School<br />
Children’s Number Concepts<br />
Edward Hubbard 1 , Bruce McCandliss 1<br />
1 Vanderbilt University, Nashville, TN, USA<br />
greater complex visuo-perceptual skills correlate with<br />
smaller cortical recruitment in young adults<br />
Sabrina Danti 1 , Helen Beuzeron-Mangina 2 , Constantine<br />
Mangina 2 , Pietro Pietrini 3,4 , Emiliano Ricciardi 3,4,5<br />
1 Laboratory of Clinical Biochemistry and Molecular<br />
Biology, University of Pisa, Pisa, Italy, Pisa, Italy, 2 Cognitive<br />
Psychophysiology Laboratory, Montreal Research and<br />
Treatment Center <strong>for</strong> Learning Abilities, Montreal, Quebec,<br />
3 Laboratory of Clinical Biochemistry and Molecular Biology,<br />
University of Pisa, Pisa, Italy, 4 Department of Laboratory<br />
Medicine and Molecular Diagnostics, Azienda Ospedaliero<br />
Universitaria Pisana, Pisa, Italy, 5 MRI Laboratory,<br />
Fondazione Regione Toscana/CNR “G.Monasterio”,<br />
Pisa, Italy<br />
The relationship between spatial memory per<strong>for</strong>mance<br />
and resting state functional connectivity<br />
Jinsick Park 1 , Hyeongrae Lee 1 , Jeonghun Ku 2 ,<br />
Kang Jun Yoon 3 , In Young Kim 1 , Sun I. Kim 1<br />
1 Department of Biomedical Engineering, Hanyang<br />
University, Seoul, Korea, Republic of, 2 Keimung University,<br />
Daeku, Korea, Republic of, 3 St. Peter’s Hospital, Seoul,<br />
Korea, Republic of<br />
an optical illusion to assess the balance of<br />
spatial attention<br />
Claire Gane 1 , Julien Voisin 2<br />
1 CIRRIS, U Laval, Québec, Canada, 2 CIRRIS, Dt<br />
Réadaptation, U Laval, Québec, Canada<br />
Imaging Methods<br />
EEG<br />
424<br />
425<br />
426<br />
427<br />
428<br />
429<br />
430<br />
resolving volume conduction artefacts in<br />
reconstruction of coherent neural networks from eeg<br />
Mark Drakesmith 1 , Wael El-Deredy 1 , Stephen Welbourne 1<br />
1 University of Manchester, Manchester, United Kingdom<br />
Development of a miniaturized, mobile and Wireless<br />
16-Channel eeg System<br />
Chin-Teng Lin 1 , Wan-Ru Wang 1 , I-Jan Wang 1 , Lun-De Liao 1 ,<br />
Sheng-Fu Chen 2 , Kevin C. Tseng 3 , Li-Wei Ko 1<br />
1 National Chiao Tung University, Hsinchu, Taiwan,<br />
Republic of China, 2 National Health Research Institutes,<br />
Miaoli, Taiwan, Republic of China, 3 Chang Gung University,<br />
Tao Yuan, Taiwan, Republic of China<br />
Coincident Visual retinotopy in simultaneous evoked<br />
Potentials and fmrI<br />
Hugo Sandoval 1 , Joy Geng 2 , Louis Irwin 3 , Andrew Sands 4 ,<br />
Stephen Sands 4 , Cameron Carter 5<br />
1 Texas Tech University Health Science Center, El Paso,<br />
TX, 2 UC Davis, Davis, CA, 3 UTEP, El Paso, TX, 4 Sands<br />
Research, El Paso, TX, 5 Department of Psychiatry and<br />
Behavioral, Sacramento, United States<br />
a Bayesian Time-Varying Source reconstruction<br />
model <strong>for</strong> eeg/meg<br />
Ivan Olier 1 , Nelson Trujillo-Barreto 2 , Wael El-Deredy 1<br />
1 University of Manchester, Manchester, United Kingdom,<br />
2 Cuban Neurosciences Center, Havana, Cuba<br />
Cross-frequency Phase Synchronization during<br />
oddball Task in restless Legs Syndrome Patients<br />
Jeong Woo Choi 1 , Ki-Young Jung 2 , Gwan-taek Lee 2 ,<br />
Deokwon Ko 2 , Kyung Hwan Kim 1<br />
1 Yonsei University, Department of Biomedical Engineering,<br />
Wonju, Korea, Republic of, 2 Korea University,<br />
Department of Neurology, Seoul, Korea, Republic of<br />
Sex-linked Dissociation in Perception of vocal and<br />
non-vocal tones<br />
Yenju Feng 1 , An-Yi Hung 2 , Yawei Cheng 3<br />
1 National Yang-Ming University, Institude Of Neuroscience,<br />
Taiwan- Republic Of China, 2 Institute Of Neuroscience,<br />
Taipei, Taiwan- Republic Of China, 3 NYMU, Tapei, Taiwan,<br />
Republic of China<br />
Discrimination of Positive and Negative emotional<br />
Prosody in Newborns: an erP Study<br />
Hsin-Yu Chen 1 , Shin-Yi Lee 2 , Yawei Cheng 3<br />
1 Institute of Neuroscience, National Yang-Ming University,<br />
Taipei, Taiwan, Republic of China, 2 Institue Of <strong>Brain</strong><br />
Science, National Yang-Ming University, Taipei, Taiwan,<br />
Republic Of China, 3 Institute of Neuroscience, National<br />
Yang-Ming University, Tapei, Taiwan, Republic of China<br />
HBM 2011 >> <strong>abstracts</strong> 131<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Imaging Methods<br />
EEG, continued<br />
431<br />
432<br />
433<br />
434<br />
435<br />
Common Spatial Patterns analysis <strong>for</strong> Detecting motor<br />
Imagery in Disorders of Consciousness<br />
Srivas Chennu 1 , Damian Cruse 2,3 , Camille Chatelle 4 ,<br />
Steven Laureys 5 , Adrian Owen 2<br />
1 Department of Clinical Neurosciences, University of<br />
Cambridge, Cambridge, United Kingdom, 2 Centre <strong>for</strong><br />
<strong>Brain</strong> and Mind, University of Western Ontario, London,<br />
Canada, 3 Cognition and <strong>Brain</strong> Sciences Unit, Medical<br />
Research Council, Cambridge, United Kingdom, 4 Coma<br />
Science Group, Cyclotron Research Centre, University of<br />
Liège, Liège, Belgium, 5 Coma Science Group, Cyclotron<br />
Research Centre, University of Liège and University<br />
Hospital of Liège, Liège, Belgium<br />
Investigation of Frequency Discrimination using<br />
mismatch Negativity and Hilbert-spectram Transfom<br />
Ayasa Matsuda 1 , Keiko Hara 1 , Satsuki Watanabe 2 ,<br />
Miho Miyajima 2 , Katsuya Ohta 2 , Taketoshi Maehara 3 ,<br />
Eisuke Matsushima 2 , Masato Matsuura 4<br />
1 Graduate school of Health Care Science, Tokyo Medical<br />
and Dental university, Tokyo, Japan, 2 Section of Liaison<br />
and Palliative Medicene, Tokyo Medical and Dental<br />
University, Tokyo, Japan, 3 Tokyo Medical and Dental<br />
University, Tokyo, Japan, 4 Department of Bioin<strong>for</strong>matics,<br />
Tokyo Medical and Dental University, Tokyo, Japan<br />
Single-trial olfactory event-related potential extraction<br />
by using empirical mode decomposition<br />
Chi-Hsun Wu 1,2 , Chia-Yen Yang 3 , Yi-Ling Chen 4 ,<br />
Po-Lei Lee *,1,2,5<br />
1 Department of Electrical Engineering, National Central<br />
University, Taiwan (R.O.C), 2 Department of Medical<br />
Research and Education, Taipei General Veterans<br />
Hospital, Taiwan (R.O.C), 3 Department of Biomedical<br />
Engineering, Ming-Chuan University, Taiwan (R.O.C),<br />
4 Institute of biotechnology, National Ilan University, Taiwan<br />
(R.O.C), 5 Institute of <strong>Brain</strong> Science, National Yang-Ming<br />
University, Taiwan (R.O.C)<br />
eeg microstate analysis of epilepti<strong>for</strong>m Discharges<br />
in Patients with absence Seizures<br />
Cauchy Pradhan1 , Juliane Britz2 , Christoph Michel3 ,<br />
Dimitri Van De Ville4 1MIPLab,Ecole Polytechnique Fédérale de Lausanne,<br />
University of Geneva, Geneva, Switzerland, 2Functional <strong>Brain</strong> <strong>Mapping</strong> Laboratory, Dept. of Fundamental<br />
Neurosciences, University of Geneva, Geneva,<br />
Switzerland, 3University Hospital, Geneva, Switzerland,<br />
4Ecole Polytechnique Fédérale de Lausanne, Lausanne,<br />
Switzerland<br />
Localization of synchronous cortical sources<br />
from electromagnetic recordings<br />
Younes Zerouali 1,2 , Christophe Herry 1,2 , Jean-Marc Lina 1<br />
1 Ecole de technologie supérieure (ETS) de l’université du<br />
Québec, Montreal, Quebec, 2 Riviere-des-Prairies hospital,<br />
Montreal, Quebec<br />
132 HBM 2011 >> <strong>abstracts</strong><br />
436<br />
437<br />
438<br />
439<br />
440<br />
441<br />
442<br />
Semantic and perceptual decision making during<br />
propofol sedation: a high density eeg study<br />
Ram Adapa 1 , Tristan Bekinschtein 2 , Anthony Absalom 3 ,<br />
Adrian Owen 4 , David Menon 1<br />
1 University of Cambridge, Cambridge, United Kingdom,<br />
2 MRC Cognition and <strong>Brain</strong> Sciences Unit, Cambridge,<br />
United Kingdom, 3 Univeristy Medical Center, Groningen,<br />
Netherlands, 4 Cognition and <strong>Brain</strong> Sciences Unit,<br />
Cambridge, United Kingdom<br />
Time-frequency analysis of auditory P300 using<br />
Hilbert-Huang trans<strong>for</strong>m<br />
Satsuki Watanabe 1 , Keiko Hara 1 , Ayasa Matsuda 1 ,<br />
Miho Miyajima 1 , Takashi Tomita 2 , Katsuya Ohta 3 ,<br />
Taketoshi Maehara 1 , Minoru Hara 4 , Masato Matsuura 1 ,<br />
Eisuke Matsushima 1<br />
1 Tokyo Medical and Dental University, Tokyo, Japan,<br />
2 Sony Corporation, Tokyo, Japan, 3 Onda dai-ni Hospital,<br />
Tokyo Medical and Dental University, Tokyo, Japan,<br />
4 Hara Clinic, Yokohama, Japan<br />
mismatch negativity in a patient with frontal neglect<br />
measured with eeg<br />
Martin Dietz 1 , Joergen Feldbaek 2 , Andreas Roepstorff 3 ,<br />
Mikkel Wallentin 4<br />
1 CFIN, Aarhus University, Aarhus, Denmark,<br />
2 Hammel Neurocentre, Aarhus University Hospital,<br />
Aarhus, Denmark, 3 Aarhus University, Aarhus C, Denmark,<br />
4 Aarhus C, Denmark<br />
Visual oddball erPs to affective Words in<br />
Chinese-english Bilinguals<br />
Zhiru Jia 1 , George Alexopoulos 1 , Nancy Squires 2<br />
1 Weill Cornell Medical College of Cornell University,<br />
White Plains, NY USA, 2 Stony Brook University,<br />
Stony Brook, NY USA<br />
High resolution eeg spectral maps elicited by<br />
observing real faces of political candidates<br />
Giovanni Vecchiato 1,2 , Jlenia Toppi 3 , Febo Cincotti 2 ,<br />
Laura Astolfi 3,2 , Fabrizio De Vico Fallani 1,2 , Michele Reino 2 ,<br />
Donatella Mattia 2 , Gaetano Scarano 3 , Fabio Babiloni 1,2<br />
1 Department of Physiology and Pharmacology, University<br />
Sapienza, Rome, Italy, 2 IRCCS Fondazione Santa Lucia,<br />
Rome, Italy, 3 Department of Computer Science and<br />
Systems, University Sapienza, Rome, Italy<br />
real time feature extraction of eeg-based P300 using<br />
nonlinear principal component analysis<br />
Arjon Turnip 1 , Keum-Shik Hong 2 , Myung Yung Jeong 1<br />
1 Pusan National University, Pusan, Korea, Republic of,<br />
2 Pusan National University, Busan, Korea, Republic of<br />
Fast end precise 256 electrode positions using 3T mrI<br />
Laurent Spinelli1 , Denis Brunet2 , Frederic Grouiller2 ,<br />
Melanie Genetti2 , Serge Vulliemoz1 , Goran Lantz2 ,<br />
Margitta Seeck1 , Christoph Michel2 1Neurology Dept, University Hospital, Geneva, Switzerland,<br />
2Functional <strong>Brain</strong> <strong>Mapping</strong> UNIGE/HUG Geneva, Geneva,<br />
Switzerland
Imaging Methods<br />
EEG, continued<br />
443<br />
444<br />
Hilbert Spectral analysis of mismatch Negativity in<br />
response to vowel-speech changes<br />
Keiko Hara 1,2 , Takashi Tomita 3 , Ayasa Matsuda 1 ,<br />
Satsuki Watanabe 4 , Katsuya Ohta 5,1,4 , Miho Miyajima 4 ,<br />
Taketoshi Maehara 6 , Eisuke Matsushima 4 , Minoru Hara 2 ,<br />
Masato Matsuura 1<br />
1 Graduate School of Health Care Science, Tokyo Medical<br />
and Dental University, Tokyo, Japan, 2 Hara Clinic,<br />
Yokohama, Japan, 3 Sony Corporation Life Science<br />
Laboratory, Tokyo, Japan, 4 Section of Liaison and<br />
Palliative Medicene, Tokyo Medical and Dental University,<br />
Tokyo, Japan, 5 Onda-daini Hospital, Matsudo, Japan,<br />
6 Department of Neurosurgery, Tokyo Medical and Dental<br />
University, Tokyo, Japan<br />
Temporal and frequency in<strong>for</strong>mation of different brain<br />
waves during Quran listening<br />
Faruque Reza 1 , Hazim Omar 2 , Alwani Ahmed 2 , Tahamina<br />
Begum 1 , Jafri Malin Abdullah 3 , Muzaimi Mustapha 4<br />
1 Department of Neurosciences, University Science<br />
Malaysia, Kubang Kerian, Kota Bharu, Kelantan,<br />
2 Department of Neurosciences, Hospital University<br />
Science Malaysia, Kubang Kerian, Kota Bharu, Kelantan,<br />
3 Department of Neurosciences, Universiti Sains Malaysia,<br />
Kubang Kerian, Kota Bharu, Kelantan, Malaysia,<br />
4 Department of Neurosciences, University Science<br />
Malaysia, kota bharu, Kelantan<br />
Imaging Methods<br />
MEG<br />
445** m/eeg Source Localization with Sparse<br />
Time-Frequency Priors in Source Space<br />
Alexandre Gram<strong>for</strong>t1,2 , Daniel Strohmeier3 ,<br />
Matti Hamalainen4 , Jens Haueisen3 , Matthieu Kowalski5 1INRIA Parietal Team - CEA Neurospin, France,<br />
2Department of Radiology, Martinos Center <strong>for</strong> Biomedical<br />
Imaging, Massachusetts General Hospital, Harvard<br />
Medical School, Boston, MA, 3Institute of Biomedical<br />
Engineering and In<strong>for</strong>matics, Technical University Ilmenau,<br />
Ilmenau, Germany, 4Department of Radiology, Martinos<br />
Center <strong>for</strong> Biomedical Imaging, Massachusetts General<br />
Hospital, Har, Boston, MA, 5Laboratoire des Signaux et<br />
Systèmes (L2S), Univ. Paris-Sud, Orsay, France<br />
446**<br />
447**<br />
Listening to rhythmic sound modulates coherence of<br />
neuromagnetic sensorimotor beta oscillation<br />
Bernhard Ross 1,2 , Takako Fujioka 3<br />
1 University of Toronto, 2 University of Toronto, Toronto, ON,<br />
Canada, 3 Rotman Research Institute, Baycrest,<br />
U of Toronto<br />
The Default mode Network is a core <strong>for</strong> meg power<br />
correlation with other networks in the beta band<br />
Francesco de Pasquale 1,2 , Stefania Della Penna 1,2 ,<br />
Abraham Snyder 3 , Laura Marzetti 1,4 , Vittorio Pizzella 5,1 ,<br />
Gian Luca Romani 2 , Maurizio Corbetta 6<br />
1 ITAB, Chieti University, Chieti, Italy, 2 Department of<br />
Neuroscience and Imaging, “G. D’Annunzio” University,<br />
Chieti, Italy, 3 Washington University School of Medicine,<br />
St. Louis, United States, 4 Department of Neuroscience and<br />
Imaging, “G. D’Annunzio” University, Chieti, Ital, Chieti,<br />
Italy, 5 ITAB, Chieti UNiversity, Chieti, Italy, 6 Washington<br />
University School of Medicine<br />
448**<br />
449<br />
450<br />
451<br />
452<br />
453<br />
454<br />
Localization of oscillatory meg activity combing<br />
time-frequency analysis and entropic inference<br />
Jean-Marc Lina 1,2 , Etienne Lemay 1 , Rasheda Chowdhury 3 ,<br />
Jeffery Hall 4 , Eliane kobayashi 5 , Christophe Grova 6<br />
1 Ecole de Technologie Superieure, Montreal, Canada,<br />
2 Centre de Recherche Mathématique, Montreal,<br />
Canada, 3 McGill University, Montreal, Canada, 4 Montreal<br />
Neurological Institute, Montreal, Quebec, 5 Montreal<br />
Neurological Institute, Montreal, Canada, 6 Biomedical<br />
Engineering Department, McGill University, Montreal,<br />
Canada<br />
effect of the fontanel on meg and eeg source analysis<br />
using a finite element model of an infant head<br />
Seok Lew 1 , Matti Hämäläinen 1 , Carsten Wolters 2 ,<br />
Danielle Sliva 3 , Myong-sun Choe 3 , Patricia Grant 3 ,<br />
Yoshio Okada 3<br />
1 Athinoula A. Martinos Center <strong>for</strong> Biomedical Imaging,<br />
Massachusetts General Hospital, Charlestown, MA,<br />
2 Institute <strong>for</strong> Biomagnetism and Biosignalanalysis,<br />
University of Muenster, Muenster, Germany,<br />
3 Fetal-Neonatal Neuroimaging & Developmental Science<br />
Center, Children’s Hospital Boston, Boston, MA<br />
meg Beam<strong>for</strong>ming using Bayesian PCa <strong>for</strong> adaptive<br />
Data Covariance matrix regularisation<br />
Mark Woolrich 1 , Laurence Hunt 2 , Adrian Groves 2 ,<br />
Gareth Barnes 3<br />
1 University of Ox<strong>for</strong>d, 2 University of Ox<strong>for</strong>d, Ox<strong>for</strong>d,<br />
United Kingdom, 3 University College London, London,<br />
United Kingdom<br />
Spatial relationship between meg evoked responses<br />
and of rhythmic activity in a picture naming task<br />
Hannu Mikael Laaksonen 1 , Jan Kujala 1 , Annika Hulten 1 ,<br />
Mia Liljeström 1 , Riitta Salmelin 1<br />
1 <strong>Brain</strong> Research Unit, Low Temperature Laboratory,<br />
Aalto University, Espoo, Finland<br />
Tracking Neurological maturation of growth-restricted<br />
Fetuses: a meg Study<br />
Hari Eswaran1 , Rathinaswamy Govindan1 , Naim Haddad1 ,<br />
Curtis Lowery1 , Hubert Preissl1 , Eric Siegel1 1University of Arkansas <strong>for</strong> Medical Sciences,<br />
Little Rock, AR<br />
How stable are the spectral powers and functional<br />
connectivity networks of meg in resting states?<br />
Seung-Hyun Jin1 , Jaeho Seol1 , June Sic Kim1 ,<br />
Chun Kee Chung1 1MEG center, Seoul National University Hospital, Seoul,<br />
Republic of Korea<br />
Perception of Biological motion: an meg study<br />
Anastasia Pavlidou 1 , Joachim Lange 1 , Marc Lussanet 2,3 ,<br />
Markus Lappe 2 , Alfons Schnitzler 1<br />
1 Institute of Clinical Neuroscience and Medical<br />
Psychology, Heinrich-Heine-University, Düsseldorf,<br />
Germany, 2 Department of Psychology, University of<br />
Münster, Münster, Germany, 3 Otto Creutzfeldt Center<br />
<strong>for</strong> Cognitive and Behavioral Neuroscience, Münster,<br />
Germany<br />
HBM 2011 >> <strong>abstracts</strong> 133<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Imaging Methods<br />
MEG, continued<br />
455<br />
456<br />
457<br />
458<br />
459<br />
460<br />
Localization of coherence between STN and cortex<br />
in patients with Parkinson’s disease<br />
Jan Hirschmann 1,2 , Tolga Özkurt 1,2 , Markus Butz 1,2 ,<br />
Melanie Homburger 1,2 , Saskia Elben 1,2 , Christian<br />
Hartmann 1,2 , Jan Vesper 3 , Lars Wojtecki 1,2 , Alfons<br />
Schnitzler 1<br />
1 Institute of Clinical Neuroscience and Medical<br />
Psychology,Heinrich-Heine-University, Düsseldorf,<br />
Germany, 2 Department of Neurology, University Hospital<br />
Düsseldorf, Düsseldorf, Germany, 3 Department of<br />
Functional Neurosurgery and Stereotaxy, University<br />
Hospital Düsseldorf, Düsseldorf, Germany<br />
Spatiotemporal decomposition of neuromagnetic<br />
source space: a tool <strong>for</strong> analyzing brain networks<br />
Paul Ferrari 1 , Douglas Cheyne 1<br />
1 Program in Neurosciences and Mental Health, Hospital<br />
For Sick Children Research Institute, Toronto, ON<br />
Hemispherical Dysfunction of motor System in<br />
Childhood migraine: a magnetoencephalography Study<br />
Jing Xiang1 , xinyao guo2 , Yingying Wang3 , John O’Brien<br />
O’Brien4 , Marielle Kabbouche1 , Scott Powers5 ,<br />
Andrew Hershey6 1Cincinnati Children’s Hospital Medical Center, Cincinnati,<br />
OH, 2Cincinnati Children’s Hospital Medical Center,<br />
3University of Cincinnati, West Chester, United States,<br />
4Institute <strong>for</strong> Ageing and Health. Newcastle University,<br />
Newcastle upon Tyne, United Kingdom, 5Cincinnati Childfren’s Hospital Medical Center, Cincinnati, OH,<br />
6Cincinnati Children’s Hospital Medical Center,<br />
Cincinnati, OH<br />
What makes us mishear Timbre? Failure of Perception<br />
or error in Cognition: an meg Study<br />
Jaeho Seol 1,2 , MiAe Oh 3 , Seung-Hyun Jin 2 , June Sic Kim 2 ,<br />
Chun Kee Chung 4,1,2<br />
1 Interdisciplinary Program in Cognitive Science, Seoul<br />
National University College of <strong>Human</strong>ities, Seoul, Korea,<br />
Republic of, 2 MEG Center, Department of Neurosurgery,<br />
Seoul National University Hospital, Seoul, Korea, Republic<br />
of, 3 Department of Statistics, Seoul National University<br />
College of Natural Sciences, Seoul, Korea, Republic of,<br />
4 Department of Neurosurgery, Seoul National University<br />
College of Medicine, Seoul, Korea, Republic of<br />
Stimulus Variability affects the amplitude of the<br />
auditory Steady-State response<br />
M Simpson 1 , W Woods 2 , G Prendergast 1 , S Johnson 1<br />
1 York Neuroimaging Centre, University of York, York,<br />
United Kingdom, 2 Faculty of Life & Social Science,<br />
Swinburne University of Technology, Melbourne, Australia<br />
Developmental Impairment of motor Function in<br />
Childhood migraine: a magnetoencephalography Study<br />
xinyao guo 1 , Jing Xiang 1 , Yingying Wang 2 , Hope O’Brien 1 ,<br />
Marielle Kabbouche 1 , Scott Powers 1 , Andrew Hershey 1<br />
1 Cincinnati Children’s Hospital Medical Center, Cincinnati,<br />
OH, 2 University of Cincinnati, West Chester, United States<br />
134 HBM 2011 >> <strong>abstracts</strong><br />
461<br />
evoked stimulations induce epilepti<strong>for</strong>m Discharges<br />
during magnetoencephalographic (meg) study<br />
Tahamina Begum 1 , Faruque Reza 1 , Hazim Omar 2 ,<br />
Alwani Ahmed 2 , Shalini Bhaskar 1 , John Tharakan KJ 1 ,<br />
Jafri Abdullah 1<br />
1 Department of Neurosciences, School of Medical<br />
Sciences, University Science Malaysia, 16150, Kubang<br />
Kerian, Kota Bharu, Kelantan, Malaysia, 2 Department of<br />
Neurosciences, School of Medical Sciences, Hospital<br />
University Science Malaysia, 16150, Kubang Kerian,<br />
Kota Bharu, Kelantan, Malaysia<br />
Imaging Methods<br />
MR Spectroscopy<br />
462<br />
463<br />
464<br />
465<br />
area-specific gaBa concentration predicts tactile<br />
discrimination per<strong>for</strong>mance in humans<br />
Nicolaas Puts 1,2 , John Evans 3,2 , Richard Edden 4,5 ,<br />
Francis McGlone 6 , David McGonigle 1,2,7<br />
1 School of Biosciences, Cardiff University, Cardiff,<br />
United Kingdom, 2 School of Psychology, Cardiff University,<br />
Cardiff, United Kingdom, 3 Cardiff University <strong>Brain</strong><br />
Research Imaging Centre, Cardiff, United Kingdom,<br />
4 Russell H Morgan. Johns Hopkins University, School<br />
of Medicine, Baltimore, United States, 5 FM Kirby Center<br />
<strong>for</strong> Functional <strong>Brain</strong> Imaging, Kennedy Krieger Institute,<br />
Baltimore, United States, 6 University of Liverpool,<br />
Liverpool, United Kingdom, 7 Cardiff University <strong>Brain</strong><br />
Research and Imaging Centre, Cardiff, United Kingdom<br />
Decreased motor Cortex gaBa in Children with<br />
aDHD using magnetic resonance Spectroscopy<br />
Lindsey MacNeil 1 , Deana Crocetti 1 , Richard Edden 2 ,<br />
Donald Gilbert 3 , Stewart Mostofsky 4<br />
1 Kennedy Krieger Institute, Baltimore, MD, 2 The Johns<br />
Hopkins University, Baltimore, MD, 3 Cincinnati Children’s<br />
Hospital Medical Center, Cincinnati, OH, 4 Kennedy Krieger<br />
Institute, Johns Hopkins, Baltimore, MD<br />
metabolism-BoLD-interaction in cortical regions of<br />
task-positive, task-negative and salience network<br />
Coraline Metzger 1 , Dorothea Horn 1 , Johann Steiner 2 ,<br />
Constanze Seidenbecher 3 , Joern Kaufmann 4 , Bernhard<br />
Bogerts 2 , Martin Walter 1<br />
1 Clinical Affective Neuroimaging Laboatory, Department<br />
of Psychiatry, Otto-von-Guericke University, Magdeburg,<br />
Germany, 2 Department of Psychiatry, Otto-von-Guericke<br />
University, Magdeburg, Germany, 3 Leibniz Institute <strong>for</strong><br />
Neurobiology, Magdeburg, Germany, 4 Department of<br />
Neurology, Otto-von-Guericke University, Magdeburg,<br />
Germany<br />
resting <strong>Brain</strong> metabolite Concentrations Correlate<br />
with BoLD response to Visual Stimulation in <strong>Human</strong><br />
Shaolin Yang 1,2 , Hong Gu 2 , Yihong Yang 2<br />
1 Departments of Psychiatry and Radiology, University of<br />
Illinois at Chicago, Chicago, United States, 2 Neuroimaging<br />
Research Branch, National Institute on Drug Abuse,<br />
National Institutes of Health, Baltimore, United States
Imaging Methods<br />
MR Spectroscopy, continued<br />
466<br />
467<br />
Chronic Widespread Pain and Chronic Localized<br />
Pain: are There any Differences in the Neurochemical<br />
Profiles of These Conditions?<br />
Aygul Khusnullina 1 , Jeremy Jones 1 , Paul Mullins 1<br />
1 Bangor University, Bangor, Gwynedd<br />
In vivo study of metabolite in healthy human brain<br />
Zhiyong Yang 1,2 , Qiang Yue 3 , Hong Quan 2 , Wenting Ren 3 ,<br />
Ting Cao 2 , Qiyong Gong 3<br />
1 Huaxi MR Research Center, Department of<br />
Radiology, West China Hospital of Sichuan University,<br />
Chengdu,China, 2 Laboratory of Medical Physics, Physics<br />
and Technology School, Wuhan University, Wuhan, China,<br />
3 Huaxi MR Research Center, Department of Radiology,<br />
West China Hospital of Sichuan University, Chengdu,<br />
China<br />
Imaging Methods<br />
Multi-Modal Imaging<br />
468<br />
469<br />
470<br />
Cerebral Perfusion Imaging with C-arm Flat Detector<br />
Computed Tomography<br />
MUDASSAR KAMRAN 1 , Patrick Schweder 2 ,<br />
Yu Deuerling-zheng 3 , James Byrne 1<br />
1 University of Ox<strong>for</strong>d, Ox<strong>for</strong>d Neurovascular and<br />
Neuroradiology Research Unit, Ox<strong>for</strong>d, United Kingdom,<br />
2 University Of Ox<strong>for</strong>d, Department Of Neurosurgery,<br />
Ox<strong>for</strong>d, United Kingdom, 3 Siemens AG Healthcare,<br />
Forchheim, Germany<br />
Late effects of High-dose Chemotherapy on <strong>Brain</strong><br />
Structure and Function in Breast Cancer Survivors<br />
Michiel de Ruiter 1,2 , Liesbeth Reneman 2 , Willem Boogerd 3 ,<br />
Dick Veltman 4 , Matthan Caan 2 , Gwenaelle Douaud 5 ,<br />
Cristina Lavini 2 , Sabine Linn 6 , Epie Boven 7 , Frits van Dam 1 ,<br />
Sanne Schagen 1<br />
1 Dept of Psychosocial Research and Epidemiology,<br />
Netherlands Cancer Institute, Amsterdam, Netherlands,<br />
2 Dept of Radiology, Academic Medical Centre, University<br />
of Amsterdam, Amsterdam, Netherlands, 3 Dept of<br />
Neuro-oncology, Netherlands Cancer Institute, Amsterdam,<br />
Netherlands, 4 Dept of Psychiatry, VU University Medical<br />
Centre, Amsterdam, Netherlands, 5 FMRIB centre, Dept of<br />
Clinical Neurology, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 6 Dept of Medical Oncology, Netherlands Cancer<br />
Institute, Amsterdam, Netherlands, 7 Dept of Medical<br />
Oncology, VU University Medical Centre, Amsterdam,<br />
Netherlands<br />
Inter-Subject Correlations between Working memory<br />
Task and Fractional Volume of gray matter<br />
Qihong Zou 1,2 , Wanyong Shin 1,3 , Hong Gu 1 , Xiujuan Geng 1 ,<br />
Wang Zhan 4 , Yufeng Zang 2 , Yihong Yang 1<br />
1 Neuroimaging Research Branch, National Institute on<br />
Drug Abuse, National Institutes of Health, Baltimore,<br />
MD, 2 State Key Laboratory of Cognitive Neuroscience<br />
and Learning, Beijing Normal University, Beijing, China,<br />
3 Imaging institute, Cleveland Clinic, Cleveland, OH,<br />
4 Center of Imaging <strong>for</strong> Neurodegenerative Diseases,<br />
University of Cali<strong>for</strong>nia San Francisco, San Francisco, CA<br />
471<br />
472<br />
473<br />
474<br />
475<br />
476<br />
477<br />
magnetic resonance elastography and Diffusion<br />
Tensor Imaging of the <strong>Human</strong> <strong>Brain</strong> at 3T<br />
Uta Sboto-Frankenstein 1 , Peter Latta 1 , Marco Gruwel 1 ,<br />
Patricia Gervai 1 , Boguslaw Tomanek 1<br />
1 National Research Council Canada, Institute <strong>for</strong><br />
Biodiagnostics, Winnipeg, Manitoba<br />
gray matter covariance is associated with functional<br />
integration in the adult brain<br />
Nicolas Crossley 1 , Andrea Mechelli 2 , Philip McGuire 3<br />
1 Institute of Psychiatry - King’s College London,<br />
2 Institute of Psychiatry King’s College London, London,<br />
United Kingdom, 3 King’s College London, Institute of<br />
Psychiatry, London, United Kingdom<br />
Frequency-specific functional connectivity during<br />
resting state revealed by fmrI and NIrS<br />
Shuntaro Sasai 1 , Fumitaka Homae 2 , Hama Watanabe 1 ,<br />
Akihiro Sasaki 3 , Hiroki Tanabe 3 , Norihiro Sadato 3 ,<br />
Gentaro Taga 1<br />
1 University of Tokyo, Tokyo, Japan, 2 Tokyo Metropolitan<br />
University, Tokyo, Japan, 3 National Institute For<br />
Physiological Sciences, Okazaki, Aichi, Japan<br />
Validation of basal ganglia segmentation on a<br />
3T mrI template<br />
claire haegelen 1 , D. Louis Collins 2 , Pierrick Coupe 3 ,<br />
Nicolas Guizard 4 , Pierre Jannin 5 , Florent Lalys 5 ,<br />
Xavier Morandi 5<br />
1 <strong>Brain</strong> Imaging Centre, Montreal Neurological Institute,<br />
Montreal, 2 McConnell <strong>Brain</strong> Imaging Centre, Montreal<br />
Neurological Institute, Montreal, Canada, 3 McConnell<br />
<strong>Brain</strong> Imaging Centre, Montreal, Canada, 4 McConnel <strong>Brain</strong><br />
Imaging Centre, Montreal Neurological Institute, Montreal,<br />
Canada, 5 Unit/Project VisAGeS U746, INRIA/ CNRS, UMR<br />
6074, IRISA, Université Rennes I, Rennes, France<br />
eeg-fmrI based in<strong>for</strong>mation theoretic characterization<br />
of the human perceptual decision system<br />
Dirk Ostwald 1 , Camillo Porcaro 2 , Stephen Mayhew 3 ,<br />
Andrew Bagshaw 3<br />
1 Bernstein Centre <strong>for</strong> Computational Neuroscience,<br />
Charite, Berlin, Germany, 2 Institute of Neuroscience,<br />
Newcastle University, Newcastle upon Tyne, United<br />
Kingdom, 3 University of Birmingham, Birmingham,<br />
United Kingdom<br />
Partitioning of physiological signals in the brain using<br />
concurrent near-infrared spectroscopy/fmrI<br />
Yunjie Tong 1 , Blaise Frederick 1<br />
1 <strong>Brain</strong> Imaging Center, Mclean Hospital, Belmont, MA<br />
Single subject resting state networks and correlated<br />
eeg power spectra<br />
Matthias Meyer 1 , Erik van Oort 1 , Markus Barth 2<br />
1 Radboud University Nijmegen, Donders Institute For<br />
<strong>Brain</strong>, Cognition And Behaviou, Nijmegen, Netherlands,<br />
2 Donders Insitute <strong>for</strong> <strong>Brain</strong>, Cognition and Behaviour,<br />
Nijmegen, Netherlands<br />
HBM 2011 >> <strong>abstracts</strong> 135<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Imaging Methods<br />
Multi-Modal Imaging, continued<br />
478<br />
479<br />
480<br />
481<br />
482<br />
Simultaneous eeg/fmrI analysis of Steady-State<br />
Visual evoked responses<br />
Esin Karahan1 , Müge Özker1 , Ali Bayram1,2 ,<br />
Zübeyir Bayraktaroğlu3 , Basri Erdoğan1 , Itır Kaşıkçı4 ,<br />
Cengizhan Öztürk1 , Ahmet Ademoğlu1 , Tamer Demiralp3 1Bogazici University, Institute of Biomedical Engineering,<br />
Istanbul, Turkey, 2NPIstanbul - Neuropsychiatry Hospital,<br />
Istanbul, Turkey, 3Istanbul University, Istanbul Faculty of<br />
Medicine, Department of Physiology, Istanbul, Turkey,<br />
4Istanbul University, Institute of Experimental Medicine,<br />
Istanbul, Turkey<br />
activity in visual rSNs predicts the magnitude of<br />
simultaneous BoLD and eeg visual responses<br />
Stephen Mayhew 1 , Camillo Porcaro 2 , Dirk Ostwald 3 ,<br />
Andrew Bagshaw 1<br />
1 Birmingham University Imaging Centre (BUIC), School of<br />
Psychology, University of Birmingham, Birmingham, United<br />
Kingdom, 2 Institute of Neuroscience, Newcastle University,<br />
Medical School, Newcastle upon Tyne, NE2 4HH, UK,<br />
Newcastle, United Kingdom, 3 Department of Neurology<br />
and Bernstein Centre <strong>for</strong> Computational Neuroscience,<br />
Charite, Berlin, Germany<br />
Perfusion mapping of the <strong>Human</strong> orbitofrontal Cortex<br />
using C-arm FDCT and mr-PWI<br />
MUDASSAR KAMRAN 1 , Patrick Schweder 2 ,<br />
Yu Deuerling-zheng 3 , James Byrne 1<br />
1 University of Ox<strong>for</strong>d, Ox<strong>for</strong>d Neurovascular and<br />
Neuroradiology Research Unit, Ox<strong>for</strong>d, United Kingdom,<br />
2 University Of Ox<strong>for</strong>d, Department Of Neurosurgery,<br />
Ox<strong>for</strong>d, United Kingdom, 3 Siemens AG Healthcare,<br />
Forchheim, Germany<br />
Thalamic and Cortical Substrates of Large-Scale<br />
Neuronal oscillations assessed with eeg-fmrI<br />
Zhongming Liu 1 , Jacco de Zwart 1 , Peter van Gelderen 1 ,<br />
Li-Wei Kuo 1 , Jeff Duyn 1<br />
1 Advanced MRI Section, Laboratory of Functional and<br />
Molecular Imaging, National Institutes of Health, Bethesda,<br />
Maryland, United States<br />
relationship between anatomical asymmetry and<br />
Functional Interhemispheric Connectivity<br />
Jun Sung Park 1 , Jung-Ho Cha 2 , Uicheul Yoon 2 ,<br />
Sang Won Seo 3 , Sun I. Kim 2 , Duk L. Na 3 , Jong-Min Lee 2<br />
1 Department of Biomedical Engineering, Hanyang<br />
University, Seoul, South Korea, 2 Department of Biomedical<br />
Engineering, Hanyang University, Seoul, Korea, Republic<br />
of, 3 Sungkyunkwan University School of Medicine, Seoul,<br />
Korea, Republic of<br />
136 HBM 2011 >> <strong>abstracts</strong><br />
483<br />
484<br />
485<br />
486<br />
487<br />
488<br />
Functional mrI and Transcranial Doppler sensitivity<br />
to neural activity<br />
Stefano Peca 1 , Daniela Flück 2,3 , Cheryl McCreary 4,5,6 ,<br />
Marc Poulin 3,6 , Eric Smith 4,5,6 , Bradley Goodyear 1,4,5,6,7<br />
1 Seaman Family MR Research Centre, University of<br />
Calgary, Calgary, Canada, 2 Institute of <strong>Human</strong> Movement<br />
Sciences and Sport, ETH Zurich, Zurich, Switzerland,<br />
3 Department of Physiology & Pharmacology, University<br />
of Calgary, Calgary, Canada, 4 Department of Radiology,<br />
University of Calgary, Calgary, Canada, 5 Department of<br />
Clinical Neurosciences, University of Calgary, Calgary,<br />
Canada, 6 Hotchkiss <strong>Brain</strong> Institute, University of Calgary,<br />
Calgary, Canada, 7 Department of Psychiatry, University of<br />
Calgary, Calgary, Canada<br />
Identification of primary motor area during isometric<br />
contraction with simultaneous eeg-emg-fmrI<br />
Camillo Porcaro 1,2 , Stephen Mayhew 2 , Dirk Ostwald 3 ,<br />
Leo Tomasevic 4 , Franca Tecchio 4 , Andrew Bagshaw 2<br />
1 Institute of Neuroscience, Newcastle University, Medical<br />
School, Newcastle upon Tyne, NE2 4HH, UK, Newcastle,<br />
United Kingdom, 2 University of Birmingham, Birmingham,<br />
United Kingdom, 3 Bernstein Centre <strong>for</strong> Computational<br />
Neuroscience, Berlin, Germany, 4 ISTC-CNR, Ospedale<br />
Fatebenefratelli, Rome, Italy<br />
using eeg metrics to predict BoLD fmrI data<br />
in epilepsy<br />
Marco Leite 1 , Alberto Leal 2 , Patrícia Figueiredo 1<br />
1 Institute <strong>for</strong> Systems and Robotics / Instituto Superior<br />
Técnico, Lisbon, Portugal, 2 Hospital Júlio de Matos,<br />
Lisbon, Portugal<br />
Face-specific neural processing revealed by<br />
concurrent eeg-fmrI<br />
Vinh Nguyen1 , Ross Cunnington1 1Queensland <strong>Brain</strong> Institute, University of Queensland,<br />
St Lucia, Australia<br />
asymmetry of daCC: a Study of multiple modalities<br />
of mrI<br />
Jue Wang 1 , Dongqiang Liu 1 , Weixuan Zhu 2 ,<br />
Zhangye Dong 2 , Yufeng Zang 1,2<br />
1 Center <strong>for</strong> <strong>Human</strong> <strong>Brain</strong> Research and Affiliated Hospital,<br />
Hangzhou Normal University, Hangzhou, China, 2 State Key<br />
Laboratory of Cognitive Neuroscience and Learning,<br />
Beijing Normal University, Beijing, China<br />
application of Partial Directed Coherence to the<br />
analysis of resting-state eeg-fmrI<br />
Claudinei Eduardo Biazoli Junior 1 , João Sato 2,1 , Marcio<br />
Sturzbecher 3 , Draulio De Araujo 4 , Edson Amaro 1<br />
1 NIF/LIM44 School of Medicine, University of São Paulo,<br />
São Paulo, Brazil, 2 Center of Mathematics Computation<br />
and Cognition, Universidade Federal do ABC, Santo<br />
André, Brazil, 3 FFCLRP, University of São Paulo, Ribeirão<br />
Preto/SP, Brazil, 4 INN-ELS, Universidade Federal do Rio<br />
Grande do Norte, Natal/RN, Brazil
Imaging Methods<br />
Multi-Modal Imaging, continued<br />
489<br />
490<br />
491<br />
492<br />
493<br />
494<br />
495<br />
Natural variation in mu response to mNS predicts<br />
BoLD in ipsilateral S1 and dorsal attention network<br />
Stephen Mayhew 1 , Karen Julia Mullinger 2 ,<br />
Andrew Bagshaw 1 , Richard Bowtell 2 , Susan Francis 2<br />
1 Birmingham University Imaging Centre (BUIC), School<br />
of Physiology, University of Birmingham, Birmingham,<br />
United Kingdom, 2 Sir Peter Mansfield Magnetic Resonance<br />
Centre, University of Nottingham, Nottingham,<br />
United Kingdom<br />
Physiological noise reduction in BoLD data using<br />
optimally delayed simultaneously acquired NIrS data<br />
Blaise Frederick 1 , Yunjie Tong 1<br />
1 McLean Hospital, Belmont, United States<br />
Joint Inversion of brain electrodynamics and the<br />
BoLD signal in eeg-fmrI<br />
Kevin Brown 1 , Ryan Kasper 1 , Barry Giesbrecht 1 ,<br />
Scott Grafton 1 , Jean Carlson 1<br />
1 UC Santa Barbara, Santa Barbara, CA, United States<br />
anatomical consistency of functional segregation in<br />
subcortical structures<br />
caroline malherbe 1,2 , Arnaud Messé 1,2 , Mélanie Pélégrini-<br />
Issac 1,2 , Yulia Worbe 3 , Stéphane Lehéricy 4,2 , Habib<br />
Benali 1,2,5<br />
1 INSERM / UPMC Univ. Paris 06, UMR_S678, LIF, Paris,<br />
France, 2 IFR 49, Gif-sur-Yvette, France, 3 INSERM CIC<br />
9503, Hopital Pitié Salpêtrière, Paris, France, 4 Centre de<br />
NeuroImagerie de Recherche – CENIR, CRICM, UPMC-<br />
Inserm U975, CNRS 7225, Paris, France, 5 Université de<br />
Montréal, MIC/UNF, Montréal, Canada<br />
Correlations between resting FDg PeT and fmrI of<br />
emotion in healthy and depressed adults<br />
Wessyl Kelly1 , Eric Nofzinger1 , Howard Aizenstein1 ,<br />
Mindy Heher1 , Amanda Collier1 , Jeffrey James1 ,<br />
Julie Price1 , Susan Berman1 , Edward Friedman1 ,<br />
Greg Siegle1 1University of Pittsburgh, School of Medicine,<br />
Pittsburgh, PA<br />
eeg-fmrI effects during working memory in children<br />
and adults<br />
Lars Michels 1 , Rafael Lüchinger 2 , Thomas Koenig 3 ,<br />
Ernst Martin 4 , Daniel Brandeis 2<br />
1 MR-Center University Children’s Hospita, Zurich,<br />
Switzerland, 2 Department of Child and Adolescent<br />
Psychiatry, University of Zurich, Zurich, Switzerland,<br />
3 Department of Psychiatric Neurophysiology, University<br />
Hospital of Psychiatry, Bern, Switzerland, 4 MR-Center,<br />
University Children’s Hospital, Zurich, Switzerland<br />
offline TmS-fmrI shows serial processing of observed<br />
hand-object interactions between STS and Pmv<br />
Carola Arfeller1 , Jens Schwarzbach1 , Paolo Ferrari1 ,<br />
Luigi Cattaneo1 1Center <strong>for</strong> Mind/<strong>Brain</strong> Sciences (CIMeC), University of<br />
Trento, Trento, Italy<br />
496<br />
497<br />
498<br />
499<br />
multimodal Canonical Correlation analysis with<br />
regularization<br />
Bradley Klingenberg 1 , Jonathan Taylor 2 , Duygu Tosun 3 ,<br />
Norbert Schuff 4 , Michael Weiner 5<br />
1 Stan<strong>for</strong>d, 2 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA,<br />
3 UC San Francisco, 4 UC San Francisco, San Francisco,<br />
CA, 5 UC San Francisco, Department of Veterans Affairs<br />
Medical Center, San Fransisco, CA<br />
Structure and function in a language based<br />
decision-making task<br />
Jeffrey Duda1 , Corey McMillan2 , Murray Grossman2 ,<br />
James Gee2 1 2 University of Pennsylvania, University of Pennsylvania,<br />
Philadelphia, PA<br />
Simultaneous eeg-fmrI synchronization using ePI<br />
and Spiral sequences<br />
Ana Beatriz Solana 1 , Juan Antonio Hernández-<br />
Tamames 1,2,3 , Roberto García-Alvárez 4 , Ceferino Maestu 1 ,<br />
Juan Álvarez-Linera 1,3,5 , Francisco del Pozo 1<br />
1 Center <strong>for</strong> Biomedical Technology - UPM, Pozuelo de<br />
Alarcon, Spain, 2 Universidad Rey Juan Carlos, Mostoles,<br />
Spain, 3 Fundación CIEN-Fundación Reina Sofía, Madrid,<br />
Spain, 4 GE Healthcare, Madrid, Spain, 5 Hospital Ruber<br />
Internacional, Madrid,Spain<br />
Investigation on Negative BoLD response using<br />
Simultaneously recording of fmrI and eeg<br />
Chia-Wei Li 1 , Jyh-Horng Chen 1,2<br />
1 Interdisciplinary MRI/MRS Lab, Department of Electrical<br />
Engineering, National Taiwan University, Taipei, Taiwan,<br />
Republic of China, 2 Neurobiology and Cognitive Science<br />
Center, National Taiwan University, Taipei, Taiwan,<br />
Republic of China<br />
Imaging Methods<br />
Optical Imaging/NIRS<br />
500**<br />
501<br />
Time-resolved measurements of cerebral hemoglobin<br />
concentrations during a modified Stroop task<br />
Paul-Olivier Leclerc 1 , Said Mekary 2 , Laurence<br />
Desjardins-Crépeau 2 , Claudine Gauthier 1 , Louis Bherer 2 ,<br />
Richard Hoge 1<br />
1 CRIUGM, University of Montreal, Montreal, Canada,<br />
2 CRIUGM, UQAM, Montreal, Canada<br />
The physiological origin of task-evoked artifacts in<br />
functional Near Infrared Spectroscopy<br />
Evgeniya Kirilina 1 , Alexander Jelzow 2 , Angela Heine 1 ,<br />
Michael Niessing 1 , Arthur Jacobs 3,1 , Heidrun Wabnitz 2 ,<br />
Rainer Macdonald 2 , Ruediger Bruehl 2 , Bernd Ittermann 2 ,<br />
Ilias Tachtsidis 4<br />
1 Free University of Berlin, Berlin, Germany,<br />
2 Physikalisch-Technische Bundesanstalt, Berlin,<br />
Germany, 3 Dahlem Institute of Neuroimaging of Emotion,<br />
Berlin, Germany, 4 University Collge London, London,<br />
United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 137<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Imaging Methods<br />
Optical Imaging/NIRS, continued<br />
502<br />
503<br />
504<br />
505<br />
506<br />
507<br />
Sensitivity analysis <strong>for</strong> activation Detection in fNIrS<br />
using P-value Corrected t- and F- statistics<br />
Hua Li1 , Jong Chul Ye1 , Sungho Tak1 1Dept. of Bio and <strong>Brain</strong> Engineering, KAIST, Daejeon,<br />
Korea, Republic of<br />
accuracy of NIrS to measure Baseline optical<br />
absorption in the <strong>Brain</strong> from Neonates to adults<br />
Mathieu Dehaes 1 , Patricia Grant 1 , Danielle Sliva 2 ,<br />
Nadege Roche-Labarbe 3 , Rudolph Pienaar 1 , David Boas 3 ,<br />
Maria Angela Franceschini 3 , Juliette Selb 3<br />
1 Division of Newborn Medicine, Children’s Hospital Boston<br />
and Harvard Medical School, Boston, MA 02115, USA,<br />
2 Fetal-Neonatal Neuroimaging & Developmental Science<br />
Center, Children’s Hospital Boston, Boston, MA 02115,<br />
USA, 3 Athinoula A. Martinos Center <strong>for</strong> Biomedical Imaging<br />
and Harvard Medical School, Charlestown, MA 02129,<br />
USA<br />
anatomical Vasculature modeling <strong>for</strong> Functional<br />
Near-Infrared Spectroscopy<br />
Katherine Perdue 1 , Solomon Diamond 1<br />
1 Thayer School of Engineering at Dartmouth, Hanover, NH<br />
Continuous correction of differential pathlength<br />
factor in near-infrared spectroscopy<br />
Tanveer Talukdar 1 , Solomon Diamond 2<br />
1 Thayer School of Engineering at Dartmouth, Hanover,<br />
NH, Hanover, NH, USA, 2 Thayer School of Engineering at<br />
Dartmouth, Hanover, NH, USA<br />
eSTImaTIoN oF HemoDyNamIC reSPoNSeS To<br />
ePILePTIC aCTIVITy uSINg eeg/NIrS aCQuISITIoNS<br />
Alexis Machado 1 , Dominique S. Rosenberg 2 ,<br />
Jean-Marc Lina 3 , Eliane kobayashi 2 , Christophe Grova 4,5<br />
1 Biomedical Engineering Department, McGill University,<br />
Montreal, Quebec, 2 Montreal Neurological Institute,<br />
Department of Neurology and Neurosurgery, McGill<br />
University, Montreal, Quebec, 3 Ecole de technologie<br />
supérieure (ETS) de l’université du Québec, Montreal,<br />
Quebec, 4 Biomedical Engineering Department, McGill<br />
University, Montreal, Canada, 5 Montreal Neurological<br />
Institute, Department of Neurology and Neurosurgery,<br />
McGill University, Montreal, Canada<br />
The early emergence of the cortical “social brain”<br />
in human newborns<br />
Teresa Farroni 1 , Antonio Chiarelli 2 , Dino Faraguna 3 ,<br />
Sarah Lloyd-Fox 4 , Arcangelo Merla 5 , Gian Luca Romani 6 ,<br />
Mark Johnson 7<br />
1 Dipartimento di Psicologia dello Sviluppo e della<br />
Socializzazione, Università di Padova, Padova, Italy,<br />
2 Infrared Imaging Lab.ITAB -Institute of Advanced<br />
Biomedical Technologies and Dept. of Neuroscience<br />
a, Chieti, Italy, 3 Dipartimento di Pediatria, Ospedale di<br />
Monfalcone, Monfalcone, Italy, 4 Centre <strong>for</strong> <strong>Brain</strong> and<br />
Cognitive Development, London, United Kingdom,<br />
5 Department of Neuroscience and Imaging - University<br />
of Chieti-Pescara, 6 ITAB- Department of Neuroscience -<br />
G.D’Annunzio University Of Chieti, Chieti, Italy, 7 Centre<br />
<strong>for</strong> <strong>Brain</strong> and Cognitive Development, Birkbeck College,<br />
London, United Kingdom<br />
138 HBM 2011 >> <strong>abstracts</strong><br />
508<br />
509<br />
510<br />
511<br />
512<br />
513<br />
ImPaCT oF NeoNaTaL INTraVeNTrICuLar<br />
HemorrHage oN CorTICaL auDITory<br />
HemoDyNamIC reSPoNSe<br />
Mahdi Mahmoudzadeh 1 , Ghislaine Dehaene-Lambertz 2 ,<br />
Sabrina Goudjil 3 , Reinhard Grebe 4 , Guy Kongolo 1 ,<br />
Fabrice Wallois 5<br />
1 GRAMFC EA 4293, UPJV, CHU Amiens, Amiens, France,<br />
2 INSERM-CEA Cognitive Neuroimaging Unit, GIF/YVETTE,<br />
France, 3 GRAMFC EA4293, UPJV, CHU Amiens, Amiens,<br />
France, 4 GRAMFC, EA4293, UPJV, CHU Amiens, Amiens,<br />
France, 5 GRAMFC EA 4293<br />
Feature extracting design matrix by modeling the<br />
hemodynamic behavior of a brain as an LTI System<br />
Muhammad Aqil 1 , Keum-Shik Hong 1 , Myung-Yung Jeong 1<br />
1 Department of Cogno-Mechatronics Engineering,<br />
Pusan National University, Busan, Korea, Republic of<br />
Decoding vigilance from NIrS-data. NIrS <strong>for</strong> BCI<br />
applications?<br />
Carsten Bogler 1,2 , Jan Mehnert 2,3 , Jens Steinbrink 3,4 ,<br />
John-Dylan Haynes 1,2<br />
1 Berstein Center <strong>for</strong> Computational Neuroscience Berlin<br />
and Charité, Berlin, Germany, 2 Max-Planck-Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany,<br />
3 Berlin NeuroImaging Center, Charité University Medicine,<br />
Berlin, Germany, 4 Center <strong>for</strong> Stroke Research, Charité<br />
University Medicine, Berlin, Germany<br />
an experimental Plat<strong>for</strong>m <strong>for</strong> Dynamic Causal<br />
modeling-Based analysis of Functional Neuroimaging<br />
Data<br />
Randall Barbour 1 , Harry Graber 1 , Christoph Schmitz 2 ,<br />
Yong Xu 1<br />
1 SUNY Downstate Medical Center, Brooklyn, NY,<br />
2 Charité Univeritatsmedizin, Berlin, Germany<br />
extraction of spinal cord hemodynamic response with<br />
DoI during evoked activity in cats<br />
Alexandre Goguin 1 , Serge Rossignol 2 , Hugues Leblond 2 ,<br />
Frédéric Lesage 3 , Mélanie Pélégrini-Issac 1 , Habib Benali 1<br />
1 INSERM / UPMC Univ. Paris 06, UMR_S678, LIF, Paris,<br />
France, 2 GRSNC, Faculty of Medicine, Université de<br />
Montréal, Montréal, Canada, 3 École Polytechnique,<br />
Montréal, Canada<br />
NIrS study of brain hemodynamic response during<br />
a stop signal task in children<br />
Mami Nakashima 1 , Koji Matsuo 1 , Akiko Hashimoto 2 ,<br />
Masayuki Nakano 3 , Yuko Fujii 2 , Kazuteru Egashira 1 ,<br />
Takeshi Matsushige 4 , Toshio Matsubara 1 , Takashi<br />
Ichiyama 4 , Yoshifumi Watanabe 5<br />
1 Division Of Neuropsychiatry, Department Of<br />
Neuroscience, Yamaguchi University Gr, Ube, Yamaguchi,<br />
2 Department of Neuroscience, Yamaguchi University<br />
Graduate School of Medicine, Ube, Japan, 3 Division<br />
Of Neuropsychiatry, Department Of Neuroscience,<br />
Yamaguchi University Gr, Japan, 4 Department of<br />
Pediatrics, Yamaguchi University Graduate School of<br />
Medicine, Ube, Japan, 5 Division Of Neuropsychiatry,<br />
Department Of Neuroscience, Yamaguchi University G,<br />
Ube, Yamaguchi
Imaging Methods<br />
Optical Imaging/NIRS, continued<br />
514<br />
515<br />
516<br />
517<br />
518<br />
519<br />
520<br />
521<br />
a near-infrared imaging study of task priority<br />
instructions during dual-task per<strong>for</strong>mances in aging<br />
Sarah Fraser 1,2 , Maude Laguë-Beauvais 1,2 ,<br />
Laurence Desjardins-Crépeau 1,2 , Nathalie Castonguay 1,2 ,<br />
Michèle Desjardins 3 , Frédéric Lesage 3 , Louis Bherer 1,2<br />
1 Université du Québec à Montréal, Montréal, Canada,<br />
2 Institut universitaire de gériatrie de Montréal, Montréal,<br />
Canada, 3 École Polytechnique, Montréal, Canada<br />
Hemodynamic response to auditory stimuli<br />
demonstrates a cross-over pathway: a fNIrS study<br />
Olivia Florea 1 , Mélanie Lefrançois 1 , Julie Tremblay 2 ,<br />
Phetsamone Vannasing 2 , Franco Lepore 1 , Maryse<br />
Lassonde 1<br />
1 Université de Montréal, Montréal, Canada,<br />
2 Hôpital Sainte-Justine, Montréal, Canada<br />
Systemic Physiological Interference removal in fNIrS<br />
using multisource-detector Configuration<br />
Le Hoa Nguyen 1 , Keum-Shik Hong 1<br />
1 Pusan National University, Busan, Korea, Republic of<br />
Kalman filter estimator <strong>for</strong> multi-distance Diffuse<br />
optical Imaging<br />
Louis Gagnon 1 , Katherine Perdue 2 , Douglas Greve 3 ,<br />
Daniel Goldenholz 3 , Gayatri Kaskhedikar 3 , David Boas 1<br />
1 Martinos Center <strong>for</strong> Biomedical Imaging, MGH &<br />
Harvard-MIT Division of Health Sciences and Technology,<br />
Charlestown, MA, USA, 2 Martinos Center <strong>for</strong> Biomedical<br />
Imaging, MGH & Dartmouth College, Charlestown, MA,<br />
USA, 3 Martinos Center <strong>for</strong> Biomedical Imaging, MGH,<br />
Charlestown, MA, USA<br />
Pre-ictal changes in humans with temporal lobe<br />
epilepsy measured with near-infrared spectroscopy<br />
Ted Slone 1,2 , Harinder Dhaliwal 2 , Erica Westwood 1,2 ,<br />
Jeff Dunn 1,2 , Paolo Federico 1,2,3<br />
1 Hotchkiss <strong>Brain</strong> Institute, University of Calgary, Calgary,<br />
Canada, 2 Seaman Family MR Centre, Calgary, Canada,<br />
3 Department of Clinical Neurosciences, University of<br />
Calgary, Calgary, Canada<br />
monitoring attentional state using functional near<br />
infrared spectroscopy: a pilot study<br />
Angela Harrivel 1 , Tristan Hearn 1 , Joshua Carp 2 ,<br />
Daniel Weissman 2 , Scott Peltier 3<br />
1 NASA Glenn Research Center, Cleveland, OH,<br />
2 Department of Psychology, University of Michigan,<br />
Ann Arbor, MI, 3 Department of Biomedical Engineering,<br />
University of Michigan, Ann Arbor, MI<br />
activity in extrastriate Body area measured by NIrS<br />
and 3D-digitizer<br />
Yoshimasa Takigawa 1 , Shimada Sotaro 2<br />
1 Meiji university, Japan, 2 Meiji University, Kawasaki, Japan<br />
The role of the prefrontal cortex (PFC) in naïve<br />
complex motor skills learning: an fNIrS study<br />
David James 1 , Darren Patten 1 , Daniel Leff 1 ,<br />
Felipe Orihuela-Espina 1 , Thanos Athanasiou 1 , Ara Darzi 1 ,<br />
Guang-Zhong Yang 1<br />
1 Imperial College, London, United Kingdom<br />
522<br />
523<br />
524<br />
525<br />
526<br />
527<br />
monitoring of cerebral oxygen metabolism and blood<br />
volume during nasal and oral breathing using NIrS<br />
Masahiro Sano 1 , Sayaka Sano 1 , Noriyuki Oka 2 ,<br />
Kayoko Yoshino 3,2 , Toshinori Kato 4<br />
1 Medical Corporation Chitokukai, Family Dental Clinic,<br />
Tokyo, Japan, 2 KATOBRAIN Co., Ltd., Tokyo, Japan,<br />
3 Graduate school of Media and Governance, Keio<br />
University, kanagawa, Japan, 4 KATOBRAIN CO.,LTD.,<br />
Tokyo, Japan<br />
Neuroergonomic assessment of collaborative gaze<br />
control <strong>for</strong> robotic surgery: an fNIrS study<br />
David James 1 , Daniel Leff 1 , Loi-Wah Sun 1 ,<br />
Felipe Orihuela-Espina 1 , Ka-Wai Kwok 1 , George Mylonas 1 ,<br />
Thanos Athanasiou 1 , Ara Darzi 1 , Guang-Zhong Yang 1<br />
1 Imperial College, London, United Kingdom<br />
Near-Infrared Spectroscopy (NIrS) BCI to control<br />
FeS of the upper limb towards stroke rehabilitation<br />
Markus Schürholz 1 , Mohit Rana 1 , Woosang Cho 1 ,<br />
Martin Rohm 2 , Rüdiger Rupp 2 , Cuntai Guan 3 , Chun Yu<br />
Tse 4 , Yun Ying Huang 5 , Niels Birbaumer 6 , Trevor Penney 5 ,<br />
Ranganatha Sitaram 1<br />
1 Institut für Medizinische Psychologie und<br />
Verhaltensneurobiologie, Tübingen, Germany, 2 Klinik<br />
für Paraplegiologie, Heidelberg, Germany, 3 Institute <strong>for</strong><br />
Infocomm Research, Singapore, Singapore, 4 Cognitive<br />
Science Programme, Temasek Laboratories, National<br />
University of Singapore, Singapore, Singapore,<br />
5 Department of Psychology, National University of<br />
Singapore, Singapore, Singapore, 6 Institute of Medical<br />
Psychology and Behavioral Neurobiology, University of<br />
Tuebingen, Tuebingen, Germany<br />
model Independent Functional optical Imaging using<br />
Principal Component analysis<br />
Jana Kainerstorfer 1 , Andrei Medvedev 2 , Franck Amyot 1 ,<br />
Jason Riley 1 , Eric Wassermann 3 , Paul Smith 1 , Amir<br />
Gandjbakhche 1 , Laleh Najafizadeh 1<br />
1 National Institutes of Health, Bethesda, MD,<br />
2 Georgetown University, Washington, DC, 3 <strong>Brain</strong><br />
Stimulation Unit, National Institute of Neurological<br />
Disorders and Stroke, Bethesda, MD<br />
Changing pattern search component during probability<br />
learning: a study using fNIr neuroimaging<br />
Didem Gokcay 1 , Murat Cakir 1 , Filiz Gozenman 1 ,<br />
Burcu Arslan 1 , Mustafa Ciftcioglu 1 , Kemal Taskin 1 ,<br />
Hasan Ayaz 2<br />
1 METU In<strong>for</strong>matics Institute, Ankara, Turkey,<br />
2 Drexel University, Philadelphia, United States<br />
Wavelet packet entropy based brain activation mapping<br />
by near infrared spectroscopy<br />
Xiao-Su Hu 1 , Keum-Shik Hong 2 , Shuzhi Ge 3<br />
1 Department of Cogno-Mechatronics Engineering, Pusan<br />
National University, Busan, Korea, Republic of,<br />
2 Pusan National University, Busan, Korea, Republic of,<br />
3 Department of Electrical and Computer Engineering,<br />
The National University of, Singapore, Singapore<br />
HBM 2011 >> <strong>abstracts</strong> 139<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Imaging Methods<br />
Optical Imaging/NIRS, continued<br />
528<br />
529<br />
530<br />
531<br />
532<br />
Functional hybrid imaging <strong>for</strong> neuromuscular oxygen<br />
dynamics using NIrS of two dimensional vector<br />
Toshinori Kato 1 , Noriyuki Oka 1 , Kayoko Yoshino 1,2<br />
1 KATOBRAIN Co., Ltd., Tokyo, Japan, 2 Graduate school of<br />
Media and Governance, Keio University, Kanagawa, Japan<br />
Influence of the Superior Sagittal Sinus on Sma in<br />
fNIrS<br />
Satoru Kohno 1 , Akihiro Ishikawa 1 , Takashi Amita 1 ,<br />
Yoshinori Masuda 1 , Haruhide Udagawa 1 , Yoshihiro Inoue 1<br />
1 Shimadzu Corporation, Kyoto, Japan<br />
Influence of heart rate and stress on cortical<br />
haemodynamics: a longitudinal fNIrS study<br />
David James 1 , Daniel Leff 1 , Felipe Orihuela-Espina 1 ,<br />
Ka-Wai Kwok 1 , George Mylonas 1 , Sunir Gohil 1 ,<br />
Thanos Athanasiou 1 , Ara Darzi 1 , Guang-Zhong Yang 1<br />
1 Imperial College, London, United Kingdom<br />
Characteristics of <strong>Brain</strong> activity Data during<br />
mathematical Tasks of Varying Difficulty Levels<br />
Naoko Okamoto1 , Yasufumi Kuroda2 1 2 Kyoto University, Kyoto, Japan, Bukkyo University,<br />
Kyoto, Japan<br />
an fNIrS study of the influence of the timing of<br />
commercials on children: compared to that of adults<br />
Misa Sawai 1 , Atsushi Matsumoto 2 , Eriko Aiba 2 ,<br />
Noriko Nagata 2<br />
1 Kwansei Gakuin Univercity, Sanda, Japan,<br />
2 Kwansei Gakuin University, Sanda, Japan<br />
Imaging Methods<br />
PET<br />
533**<br />
534**<br />
535<br />
Imaging Dopamine Neurotransmission During<br />
response Selection and Inhibition<br />
Rajendra Badgaiyan 1<br />
1 University at Buffalo, Buffalo, NY<br />
Serotonin Transporter genetic Variants Predict rostral<br />
anterior Cingulate Dopamine Synthesis<br />
James Zhang 1 , Daniel Eisenberg 1 , Joseph Masdeu 1 ,<br />
Philip Kohn 1 , Czarapata Jasmin 1 , Bhaskar Kolachana 1 ,<br />
Daniel Weinberger 1 , Karen Berman 1<br />
1 National Institutes of Health, Bethesda, United States<br />
estrogen and progesterone treatment affects<br />
serotonergic neurotransmission in<br />
postmenopausal women<br />
Georg Kranz 1 , Ulrike Kaufmann 2 , Johanna Ungersböck 3 ,<br />
Andreas Hahn 1 , Patrycja Stein 1 , Pia Baldinger 1 ,<br />
Anna Höflich 1 , Sylwia Zgud 1 , Christoph Kraus 1 ,<br />
Jan Losak 1 , Markus Mitterhauser 3 , Wolfgang Wadsak 3 ,<br />
Siegfried Kasper 1 , Rupert Lanzenberger 1<br />
1 Department of Psychiatry and Psychotherapy, Medical<br />
University of Vienna, Vienna, Austria, 2 Department of<br />
Obstetrics and Gynecology, Medical University of Vienna,<br />
Vienna, Austria, 3 Department of Nuclear Medicine,<br />
Medical University of Vienna, Vienna, Austria<br />
140 HBM 2011 >> <strong>abstracts</strong><br />
536<br />
537<br />
DTI guided analysis of D3 receptor distribution and<br />
function in man with [11C]-(+)-PHNo PeT<br />
Andri Tziortzi 1 , Graham Searle 2 , Christopher Long 2 ,<br />
Saad Jbabdi 1 , Paul Shotbolt 2 , Timothy Behrens 1 ,<br />
Eugenii Rabiner 2 , Roger Gunn 2 , Mark Jenkinson 1<br />
1 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 2 CIC, GlaxoSmithKline, London, United Kingdom<br />
machine learning identifies sex-specific differences in<br />
cerebral serotonin transporter binding<br />
Jan Kalbitzer 1 , Andre Marquand 2 , Felix Bermpohl 1 ,<br />
Michael Smolka 3 , Andrea Kobiella 3 , Michael Brammer 2 ,<br />
Matthias Reimold 4 , Andreas Heinz 1<br />
1 Department of Psychiatry and Psychotherapy,<br />
Charité - University Medicine, Berlin, Germany,<br />
2 <strong>Brain</strong> Image Analysis Unit, Centre <strong>for</strong> Neuroimaging<br />
Sciences, Institute of Psychiatry, KCL, London, United<br />
Kingdom, 3 Technische Universität Dresden, Dresden,<br />
Germany, 4 Department of Nuclear Medicine, University<br />
of Tübingen, Tuebingen, Germany<br />
Modeling and Analysis Methods<br />
Bayesian Modeling<br />
538** Inferring the Individual Nature of Bayesian Learning<br />
under multiple Forms of uncertainty<br />
Christoph Mathys1 , Jean Daunizeau2 , Kay Brodersen3 ,<br />
Sandra Iglesias4 , Karl Friston5 , Klaas Enno Stephan2 1 2 University of Zurich, Zürich, Switzerland, University<br />
of Zurich, Zurich, Switzerland, 3ETH Zurich, Zurich,<br />
Switzerland, 4University of Zurich, 5Wellcome Trust<br />
Centre <strong>for</strong> Neuroimaging, UCL, Lodnon, United Kingdom<br />
539<br />
540<br />
541<br />
Free-energy minimization and the mismatch Negativity:<br />
Simulations based on generalised Filtering<br />
Falk Lieder1,2 , Jean Daunizeau3,4 , Marta Garrido5 ,<br />
Klaas Enno Stephan3,4 , Karl Friston4 1Lab. <strong>for</strong> Soc. and Neural Systems Res., Inst. <strong>for</strong> Emp.<br />
Research in Economics, University of Zurich, Zurich,<br />
Switzerland, 2Institute <strong>for</strong> Neuroin<strong>for</strong>matics, ETH, Zurich,<br />
Switzerland, 3Laboratory <strong>for</strong> Social and Neural Systems<br />
Research, IEW, UZH, Zurich, Switzerland, 4Wellcome Trust<br />
Centre <strong>for</strong> Neuroimaging, UCL, London, United Kingdom,<br />
5Wellcome Trust Centre <strong>for</strong> Neuroimaging, London,<br />
United Kingdom<br />
Bayesian gaussian Processes <strong>for</strong> Coordinate-based<br />
meta-analysis of Neuroimaging reports<br />
Gholamreza Salimi-Khorshidi 1 , Stephen Smith 1 ,<br />
Thomas Nichols 2 , Mark Woolrich 3<br />
1 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 2 University of Warwick, Dept. of Statistics,<br />
Coventry, United Kingdom, 3 University of Ox<strong>for</strong>d<br />
BSmac: a maTLaB toolbox Implementing a Bayesian<br />
Spatial model <strong>for</strong> <strong>Brain</strong> activation and Connectivity<br />
Lijun Zhang 1 , Sanjay Agravat 2 , Gordana Derado 1 ,<br />
Shuo Chen 1 , DuBois Bowman 1<br />
1 Department of Biostatistics and Bioin<strong>for</strong>matics,<br />
Emory University, Atlanta, GA, 2 Division of Research and<br />
Health Sciences, Emory University, Atlanta, GA
Modeling and Analysis Methods<br />
Bayesian Modeling, continued<br />
542<br />
543<br />
544<br />
Post-hoc model selection of dynamic causal models<br />
Maria Joao Rosa 1 , Will Penny 1 , Karl Friston 1<br />
1 Wellcome Trust Centre For Neuroimaging, UCL,<br />
London, United Kingdom<br />
observing the observer: deciding when to decide<br />
Jean Daunizeau 1 , Hanneke Den Ouden 2 , Stefan Kiebel 3 ,<br />
Mathias Pessiglione 4<br />
1 Laboratory <strong>for</strong> Social and Neural Systems Research,<br />
Dept. of Economics, University of Zurich, Zurich,<br />
Switzerland, 2 Donders Institute <strong>for</strong> <strong>Brain</strong>, Cognition and<br />
Behaviour, Nijmegen, Netherlands, 3 Max Planck Institute<br />
<strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig,<br />
Germany, 4 <strong>Brain</strong> and Spine Institute, Hôpital Pitié-<br />
Salpêtrière, Paris, France<br />
a group Study on BoLD Change to the Steady State<br />
Visual Stimuli with Bayesian Inference<br />
Meltem Sevgi 1 , Esin Karahan 1 , Ali Bayram 1 , Deniz Duru 1 ,<br />
Cengizhan Öztürk 1 , Ahmet Ademoōlu 1 , Tamer Demiralp 2<br />
1 Bogazici University, Institute of Biomedical Engineering,<br />
Istanbul, Turkey, 2 Istanbul University, Istanbul Faculty of<br />
Medicine, Department of Physiology, Istanbul, Turkey<br />
Modeling and Analysis Methods<br />
Classification and Predictive Modeling<br />
545*<br />
546**<br />
547*<br />
548*<br />
549*<br />
generative embedding <strong>for</strong> model-Based Classification<br />
of fmrI Data, (o-m4)<br />
Kay Brodersen 1 , Thomas Schofield 2 , Alexander Leff 3 ,<br />
Cheng Soon Ong 1 , Ekaterina Lomakina 1 ,<br />
Joachim Buhmann 1 , Klaas Enno Stephan 4<br />
1 ETH Zurich, Zurich, Switzerland, 2 ION, LONDON, United<br />
Kingdom, 3 University College London, London, United<br />
Kingdom, 4 University of Zurich, Zurich, Switzerland<br />
mixed-effects Inference on Classification Per<strong>for</strong>mance<br />
in group Studies<br />
Kay Brodersen 1 , Justin Chumbley 2 , Christoph Mathys 3 ,<br />
Jean Daunizeau 2 , Cheng Soon Ong 1 , Joachim Buhmann 1 ,<br />
Klaas Enno Stephan 2<br />
1 ETH Zurich, Zurich, Switzerland, 2 University of Zurich,<br />
Zurich, Switzerland, 3 Zurich, Switzerland<br />
multivariate mapping of fmrI data using kernel<br />
regression with multiple predictors, (o-m4)<br />
Giancarlo Valente 1 , Gianluca Vanacore 2 , Elia Formisano 1<br />
1 Maastricht University, Maastricht, Netherlands,<br />
2 University of Rome, Rome, Italy<br />
Inter-subject hyperalignment of neural representational<br />
spaces in the auditory cortex., (o-m4)<br />
J Swaroop Guntupalli 1 , James Haxby 1<br />
1 Dartmouth College, Hanover, NH<br />
mechanisms of hemodynamic-based decoding of<br />
in<strong>for</strong>mation conveyed in orientation columns, (o-m4)<br />
Zeshan Yao 1 , Martin Villeneuve 1 , Pascal Kropf 1 , Javeed<br />
Shaikh 1 , Chang’an Zhan 1 , Curtis Baker 1 , Amir Shmuel 1<br />
1 McGill, Montreal, Canada<br />
550<br />
551<br />
552<br />
genetics Influence Inter-subject <strong>Brain</strong> State Prediction<br />
R. Cameron Craddock 1 , Stephen LaConte 1 ,<br />
F. Xavier Castellanos 2,3 , Xi-Nian Zuo 4 , Paul Thompson 5 ,<br />
Greig de Zubicaray 6 , Katie McMahon 7 , Ian Hickie 8 ,<br />
Nicholas Martin 9 , Margaret Wright 9 , Michael Milham 2,3<br />
1 Virginia Tech Carilion Research Institute, Roanoke, VA,<br />
2 Phyllis Green and Randolph Cowen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
NY, 3 Nathan Kline Institute <strong>for</strong> Psychiatric Research,<br />
Orangeburg, NY, 4 Institute of Psychology, Chinese<br />
Academy of Sciences, Beijing, China, 5 Laboratory of<br />
Neuro Imaging, UCLA School of Medicine, Los Angeles,<br />
CA, 6 School of Psychology, University of Queensland,<br />
Brisbane, Australia, 7 Centre <strong>for</strong> Advanced Imaging,<br />
University of Queensland, Brisbane, Australia, 8 <strong>Brain</strong> and<br />
Mind Research Institute, University of Sydney, Sydney,<br />
Australia, 9 Queensland Institute of Medical Research,<br />
Brisbane, Australia<br />
a temporal pattern recognition approach to functional<br />
neuroimaging: validation and application<br />
Tim Hahn 1 , Andre Marquand 2 , Michael Plichta 3 ,<br />
Ann-Christine Ehlis 4 , Martin Schecklmann 5 , Thomas<br />
Dresler 1 , Tomasz Jarczok 6 , Elisa Eirich 6 , Christine<br />
Leonhard 6 , Andreas Reif 6 , Klaus-Peter Lesch 6 , Michael<br />
Brammer 2 , Janaina Mourao-Miranda 7 , Andreas Fallgatter 8<br />
1 Department of Psychiatry, University of Würzburg,<br />
Würzburg, Germany, 2 <strong>Brain</strong> Image Analysis Unit, Centre<br />
<strong>for</strong> Neuroimaging Sciences, Institute of Psychiatry, KCL,<br />
London, United Kingdom, 3 Department of Psychiatry,<br />
Division <strong>for</strong> Imaging in Psychiatry, Central Institute of<br />
Mental Health, Mannheim, Germany, 4 University of<br />
Tuebingen, Department of Psychiatry and Psychotherapy,<br />
Tuebingen, Germany, 5 University of Regensburg,<br />
Department of Psychiatry, Psychosomatics and<br />
Psychotherapy, Regensburg, Germany, 6 University of<br />
Wuerzburg, Department of Psychiatry, Psychosomatics<br />
and Psychotherapy, Wuerzburg, Germany, 7 King’s College,<br />
London, United Kingdom, 8 University of Tuebingen,<br />
Department of Psychiatry and Psychotherapy,<br />
Wuerzburg, Germany<br />
multivariate Profiling of Drug-Induced <strong>Brain</strong> activation<br />
in rats<br />
Andreas Bruns1 , Céline Risterucci1 , Basil Künnecke1 , Jean-<br />
Luc Moreau1 , Joseph Wettstein1 , Edilio Borroni1 ,<br />
Eric Prinssen1 , Markus von Kienlin1 1F. Hoffmann-La Roche Ltd, CNS Research, Basel,<br />
Switzerland<br />
HBM 2011 >> <strong>abstracts</strong> 141<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Modeling and Analysis Methods<br />
Classification and Predictive Modeling, continued<br />
553<br />
554<br />
555<br />
556<br />
557<br />
558<br />
Discriminant maps of cortical activity <strong>for</strong> classification<br />
of affective disorders<br />
Pin-Shiuan Lee 1 , Li-Fen Chen 2,3 , Yong-Sheng Chen 4 ,<br />
Tung-Ping Su 5,6 , Jen-Chuen Hsieh 2,3<br />
1 Institute of Biomedical In<strong>for</strong>matics, National Yang-Ming<br />
University, Taipei, Taiwan, Republic of China, 2 Institute<br />
of <strong>Brain</strong> Science, National Yang-Ming University, Taipei,<br />
Taiwan, Republic of China, 3 Integrated <strong>Brain</strong> Research<br />
Laboratory, Department of Medical Research and<br />
Education, Taipei Veterans General Hospital, Taipei,<br />
Taiwan, Republic of China, 4 Department of Computer<br />
Science, National Chiao Tung University, Hsinchu, Taiwan,<br />
Republic of China, 5 Department of Psychiatry, Faculty of<br />
Medicine, National Yang-Ming University, Taipei, Taiwan,<br />
Republic of China, 6 Taipei Veterans General Hospital,<br />
Taipei, Taiwan, Republic of China<br />
Comparison of methods <strong>for</strong> trial specific activation<br />
estimation<br />
Jeanette Mum<strong>for</strong>d 1 , F Gregory Ashby 2 , Benjamin Turner 2 ,<br />
Russell Poldrack 1<br />
1 University of Texas at Austin, Austin, TX, 2 University of<br />
Cali<strong>for</strong>nia, Santa Barbara, Santa Barbara, CA<br />
Total variation regularization <strong>for</strong> fmrI-based brain<br />
activity decoding<br />
Bertrand Thirion 1 , Vincent Michel 2 , Alexandre Gram<strong>for</strong>t 3 ,<br />
Gael Varoquaux 4 , Evelyn Eger 5<br />
1 INRIA Futurs, Orsay, France, 2 INRIA/Neurospin,<br />
Gif sur Yvette, France, 3 INRIA - CEA Neurospin, France,<br />
4 Gif-sur-Yvette, France, 5 INSERM U.562, Gif/Yvette, France<br />
Classification of Schizophrenia Patients Based on<br />
erP abnormalities during the auditory oddball Task<br />
Mohammad Reza Arbabshirani 1,2 , Vince Calhoun 1,2 ,<br />
Claudia Tesche 3<br />
1 Department of ECE, University of New Mexico,<br />
Albuquerque, NM, United States, 2 The Mind Research<br />
Network, Albuquerque, NM, United States, 3 Department<br />
of Psychology, University of New Mexico, Albuquerque,<br />
United States<br />
Detecting Parkinson’s brain changes using local<br />
feature based regional SVm ensemble on mrI images<br />
Chunsheng Fang 1,2 , Judd Storrs 3 , Anca Ralescu 2 ,<br />
Jing-Huei Lee 3 , Jason Lu 1,2<br />
1 Division of Biomedical In<strong>for</strong>matics, Cincinnati Children’s<br />
Hospital Medical Center, Cincinnati, OH, 2 Dept. of<br />
Computer Science, University of Cincinnati, Cincinnati,<br />
OH, 3 Center <strong>for</strong> Imaging Research, University of Cincinnati,<br />
Cincinnati, OH<br />
Data-driven search <strong>for</strong> spectral connectivity measures<br />
predictive of schizophrenia<br />
Garth Thompson 1 , Raymond Cho 2<br />
1 Georgia Institute of Technology and Emory University,<br />
Atlanta, GA, 2 University of Pittsburgh, Pittsburgh, PA<br />
142 HBM 2011 >> <strong>abstracts</strong><br />
559<br />
560<br />
561<br />
562<br />
563<br />
564<br />
565<br />
566<br />
method <strong>for</strong> subject-specific and subject-independent<br />
classification of event-related potentials<br />
Agustín Lage-Castellanos1 , Juan Nieto2 , Ileana Quiñones1 ,<br />
Eduardo Martínez-Montes1 1Cuban Neuroscience Center, Havana, Cuba,<br />
2Australian Centre <strong>for</strong> Field Robotics, University of Sydney,<br />
Sidney, Australia<br />
Sparse Bayesian Learning <strong>for</strong> Predicting mCI<br />
Conversion to aD and Identifying mrI Biomarkers<br />
Li Shen 1 , Yuan Qi 2 , Sungeun Kim 1 , Kwangsik Nho 1 ,<br />
Jing Wan 1 , Shannon Risacher 1 , Andrew Saykin 3<br />
1 Indiana University School of Medicine, Indianapolis, IN,<br />
2 Purdue University, West Lafayette, IN, 3 Indiana University<br />
School of Medicine, Indianapolis, United States<br />
Backward edge elimination using graph Kernels:<br />
analysis of abnormal <strong>Brain</strong> Connectivity<br />
Shahab Kadkhodaeian Bakhtiari 1 , Fatemeh Mokhtari 2 ,<br />
Alireza Sojoudi 2 , Gholam-Ali Hossein-Zadeh 2 ,<br />
Dorothea Horn 3 , Martin Walter 3<br />
1 Control & Intelligent Center of Excellence, ECE,<br />
University of Tehran, Tehran, Iran, 2 Control & Intelligent<br />
Centre of Excellence, ECE, University of Tehran, Tehran,<br />
Iran, 3 Department of Psychiatry, Otto-von-Guericke<br />
University, Magdeburg, Germany<br />
assessing (fmrI) <strong>Brain</strong>-computer interface stability in<br />
aLS with support vector machine<br />
Robert Welsh 1 , Laura Jelsone-Swain 1 , Scott Peltier 1<br />
1 University of Michigan, Ann Arbor, MI, United States<br />
Predicting <strong>Brain</strong> activity using a Bayesian<br />
Spatial model<br />
DuBois Bowman 1 , Gordana Derado 1<br />
1 Department of Biostatistics and Bioin<strong>for</strong>matics,<br />
Emory University, Atlanta, GA<br />
a new approach to classification of mrI brain images<br />
based on penalized logistic regression<br />
Ramon Casanova 1 , Mark Espeland 2 , Joseph Maldjian 3<br />
1 Wake Forest University of Health Sciences, Winston<br />
Salem, NC, United States, 2 Wake Forest University School<br />
of Medicine, Winston-Salem, NC, 3 Wake Forest University<br />
School of Medicine, Winston-Salem, NC, United States<br />
reverse-Inference <strong>for</strong> meta-analysis: Predicting Study<br />
Type with a Fully Bayesian Spatial model<br />
Jian Kang 1 , Timothy Johnson 1 , Thomas Nichols 2 ,<br />
Tor Wager 3 , Lisa Barrett 4<br />
1 University of Michigan Biostatistics, Ann Arbor, MI,<br />
2 University of Warwick, Dept. of Statistics, Coventry,<br />
United Kingdom, 3 University of Colorado Psychology,<br />
Boulder, CO, 4 Northeastern University Psychology & Mass<br />
General Hospital, Harvard Medical School, Boston, MA<br />
a Novel Support Vector Classifier <strong>for</strong> Longitudinal<br />
Neuroimaging Data<br />
Shuo Chen 1 , DuBois Bowman 1<br />
1 Department of Biostatistics and Bioin<strong>for</strong>matics,<br />
Emory University, Atlanta, GA
Modeling and Analysis Methods<br />
Classification and Predictive Modeling, continued<br />
567<br />
568<br />
569<br />
570<br />
571<br />
572<br />
573<br />
a High-Per<strong>for</strong>mance Software Package <strong>for</strong> Functional<br />
mr Imaging in real-Time (TurboFIre)<br />
Stefan Posse 1 , Elena Ackley 2 , Weili Zheng 3<br />
1 University of New Mexico School of Medicine,<br />
Dept. of Neurology, Albuquerque, United States,<br />
2 University of New Mexico School of Medicine,<br />
Albuquerque, NM, 3 University of New Mexico School of<br />
Medicine, Department of Neurology, Albuquerque, NM<br />
Classification of aD from mrI using Sparse<br />
Discriminant analysis with Spatial regularization<br />
Ying Lee 1 , Achim Gass 2 , Andreas Monsch 3 , Anil Rao 1<br />
1 GlaxoSmithKline Clinical Imaging Centre, Hammersmith<br />
Hospital, London, United Kingdom, 2 Departments of<br />
Neurology and Neuroradiology, University Hospital,<br />
Basel, Switzerland, 3 Memory Clinic, Department of<br />
Geriatrics, University Hospital, Basel, Switzerland<br />
a new kernel to introduce spatial in<strong>for</strong>mation in SVmbased<br />
multi-voxel pattern analysis of fmrI data<br />
Sylvain Takerkart 1 , Liva Ralaivola 2 , Bertrand Thirion 3<br />
1 CNRS - INCM, Marseille, France, 2 Laboratoire<br />
d’In<strong>for</strong>matique Fondamentale, Aix-Marseille University,<br />
Marseille, France, 3 INRIA Futurs, Orsay, France<br />
Decoding Directed <strong>Brain</strong> activity in fmrI using Support<br />
Vector machines and gaussian Processes<br />
jessica schrouff 1 , Caroline Kussé 2 , Pierre Maquet 2 ,<br />
Christophe Phillips 3 , Louis Wehenkel 4<br />
1 Cyclotron Research Centre, University of Liège, Belgium,<br />
2 Cyclotron Research Centre, University of Liège, Liège,<br />
Belgium, 3 University of Liege, Sart Tilman, Liege, Belgium,<br />
4 Giga, University of Liège, Liège, Belgium<br />
Causality as a unifying approach between activation<br />
and connectivity analysis of fmrI data<br />
Nevio Dubbini 1 , Emiliano Ricciardi 1,2,3 ,<br />
Anna Gaglianese 1 , Stefano Marmi 4 , Pietro Pietrini 1,2<br />
1 Laboratory of Clinical Biochemistry and Molecular Biology,<br />
University of Pisa, Pisa, Italy, 2 Department of Laboratory<br />
Medicine and Molecular Diagnostics, Azienda Ospedaliero<br />
Universitaria Pisana, Pisa, Italy, 3 MRI Laboratory,<br />
Fondazione Regione Toscana/CNR “G.Monasterio”,<br />
Pisa, Italy, 4 Scuola Normale Superiore, Pisa, Italy<br />
Influences of varying scanner parameters on<br />
<strong>Brain</strong>age estimation<br />
Katja Franke 1 , Christian Gaser 2<br />
1 Structural <strong>Brain</strong> <strong>Mapping</strong> Group, Department of<br />
Psychiatry, University of Jena, Germany, 2 Structural <strong>Brain</strong><br />
<strong>Mapping</strong> Group, Department of Psychiatry, University of<br />
Jena, Jena, Germany<br />
Prediction of Individual <strong>Brain</strong> age in Children<br />
using mrI<br />
Christian Gaser 1,2 , Katja Franke 1 , Eileen Luders 3 , Arne May 4<br />
1 Structural <strong>Brain</strong> <strong>Mapping</strong> Group, Dept. of Psychiatry,<br />
University of Jena, Jena, Germany, 2 Dept. of Neurology,<br />
University of Jena, Jena, Germany, 3 UCLA, Dept. Of<br />
Neurology, Los Angeles, United States, 4 Dept. of Systems<br />
Neuroscience, Hamburg, Germany<br />
574<br />
575<br />
576<br />
577<br />
578<br />
579<br />
580<br />
581<br />
Complex fmrI data classification using composite<br />
kernels: application to schizophrenia<br />
Eduardo Castro1 , Manel Martinez-Ramon1,2 ,<br />
Arvind Caprihan3 , Kent Kiehl1,3 , Vince Calhoun1,3 1University of New Mexico, Albuquerque, NM, United<br />
States, 2Universidad Carlos III, Leganes-Madrid, Spain,<br />
3The Mind Research Network, Albuquerque, NM,<br />
United States<br />
Prediction of the hand digits at the somatosensory<br />
cortex with fmrI high spatial resolution data<br />
Selene Amaral 1 , Nestor Caticha 2<br />
1 University of Sao Paulo, Sao Paulo/Brazil,<br />
2 University of Sao Paulo, Sao Paulo, Brazil<br />
The Impact of Sample Size and Feature Selection in<br />
Classification of alzheimer’s Disease<br />
Chia-Yueh Carlton Chu 1 , Ai-Ling Hsu 2 , Kun-Hsien Chou 3 ,<br />
John Ashburner 4 , Peter Bandettini 5 , Ching-Po Lin 6<br />
1 National Institute of Mental Health, NIH, Washington,<br />
United States, 2 Institute of <strong>Brain</strong> Science, National Yang<br />
Ming University, Taipei, Taiwan, Republic of China,<br />
3 National Yang Ming University, Taiwan- Republic Of China,<br />
4 Wellcome Trust Centre <strong>for</strong> Neuroimaging, 5 NIMH/NIH,<br />
Bethesda, MD, 6 National Yang-Ming University, Taipei,<br />
Taiwan- Republic Of China<br />
Cortical Feature matching using Jensen-Shannon<br />
Divergence<br />
Shantanu Joshi1 , Ian Bowman1 , Arthur Toga1 ,<br />
John Van Horn1 1Laboratory of Neuro Imaging, UCLA, Los Angeles,<br />
United States<br />
Coding of Symbolic Number relationships in <strong>Human</strong><br />
Prefrontal-Parietal activity Patterns<br />
Qiang Chen 1 , Claire Kaplan 1 , Daniel R. Weinberger 1 ,<br />
Hao Yang Tan 1<br />
1 National Institute of Mental Health, National Institutes<br />
of Health, Bethesda, MD<br />
Combining fmrI signal from different task components<br />
<strong>for</strong> improved prediction and insight with mVPa<br />
Eugene Duff 1 , Matthew Howard 2 , Frederick Wilson 3 ,<br />
Stephen Smith 4 , Mark Woolrich 5<br />
1 FMRIB Centre, Ox<strong>for</strong>d, United Kingdom, 2 Kings College,<br />
London, London, 3 Pfizer, Sandwich, Kent, 4 FMRIB Centre,<br />
University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom, 5 University<br />
of Ox<strong>for</strong>d<br />
resting state functional connectivity and diagnosis:<br />
an application of one-class SVm in aDHD<br />
Joao Sato1 , Marcelo Hoexter2 , Luis Rohde3 1Universidade Federal do ABC, Santo Andre, Brazil.,<br />
2Universidade Federal de São Paulo, Sao Paulo, Brazil,<br />
3PRODAH, Hospital de Clínicas de Porto Alegre, Porto<br />
Alegre, Brazil<br />
multivariate classification of natural and urban<br />
scene viewing<br />
Scott Peltier 1 , Marc Berman 1 , John Jonides 1<br />
1 University of Michigan, Ann Arbor, USA<br />
HBM 2011 >> <strong>abstracts</strong> 143<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Modeling and Analysis Methods<br />
Classification and Predictive Modeling, continued<br />
582<br />
583<br />
584<br />
585<br />
586<br />
587<br />
Search <strong>for</strong> task-relevant vs task-irrelevant brain areas<br />
using sparse regression modeling<br />
Irina Rish 1 , Guillermo Cecchi 2 , Marwan Baliki 3 ,<br />
Vania Apkarian 4<br />
1 IBM T.J. Watson Research, 2 IBM T. J. Watson Research<br />
Center, Yorktown Heights, NY, 3 Northwestern University,<br />
Chicago, United States, 4 Northwestern University,<br />
Chicago, IL<br />
Selecting features based on stability to classify<br />
depressed patients in fmrI<br />
Jane Rondina 1 , Andre Marquand 1 , Tim Hahn 2 ,<br />
John Shawe-Taylor 3 , Janaina Mourao-Miranda 3<br />
1 Centre <strong>for</strong> Neuroimaging Sciences, Institute of Psychiatry,<br />
Kings College, London, United Kingdom, 2 Department of<br />
Psychiatry, University of Würzburg, Würzburg, Germany,<br />
3 University College London, London, United Kingdom<br />
mapping of spatio-temporal discriminative In<strong>for</strong>mation<br />
<strong>for</strong> SVm classification of fmrI data<br />
Rainer Boegle 1,2 , Carolin Cyran 3 , Stefan Glasauer 1,2 ,<br />
Marianne Dieterich 3<br />
1 Center <strong>for</strong> Sensorimotor Research, Ludwig-Maximilians<br />
University, Munich, Germany, 2 Integrated Center <strong>for</strong><br />
Research and Treatment of Vertigo, Ludwig- Maximilians<br />
University (IFBLMU), Munich, Germany, 3 Department<br />
of Neurology, Ludwig-Maximilians-University, Munich,<br />
Germany<br />
music-induced emotion Classification assessed<br />
by Principal Component analysis<br />
Yuan-Pin Lin 1 , Jeng-Ren Duann 2 , Jyh-Horng Chen 1 ,<br />
Tzyy-Ping Jung 3<br />
1 National Taiwan University, Taipei, Taiwan, Republic of<br />
China, 2 China Medical University Hospital, Taichung,<br />
Taiwan, Republic of China, 3 Institute <strong>for</strong> Neural<br />
Computation, University of Cali<strong>for</strong>nia, San Diego, CA<br />
modality-indipendent Classification of action Feature<br />
in the <strong>Human</strong> <strong>Brain</strong><br />
Giacomo Handjaras 1 , Giulio Bernardi 1 , Pietro Pietrini 1,2 ,<br />
Emiliano Ricciardi 1,2,3<br />
1 Laboratory of Clinical Biochemistry and Molecular<br />
Biology, University of Pisa, Pisa, Italy, 2 Department<br />
of Laboratory Medicine and Molecular Diagnostics,<br />
Azienda Ospedaliero Universitaria Pisana, Pisa, Italy,<br />
3 MRI Laboratory, Fondazione Regione Toscana/CNR<br />
“G.Monasterio”, Pisa, Italy<br />
eVoLVoX: Functional brain mapping by methods of<br />
evolutionary natural selection<br />
Mohammed Al-Rawi 1 , João Paulo Silva Cunha 2<br />
1 IEETA, University Of Aveiro, Portugal, 2 IEETA / DETI,<br />
University of Aveiro, Portugal, Aveiro, Portugal<br />
144 HBM 2011 >> <strong>abstracts</strong><br />
588<br />
589<br />
590<br />
591<br />
592<br />
FmrI-derived measure of System Dysregulation<br />
Classifies anxious/Depressed Patients from Controls<br />
Denis Rubin 1 , Tomer Fekete 1 , Lilianne Mujica-Parodi 2<br />
1 Stony Brook University, Stony Brook, NY, 2 State University<br />
of New York at Stony Brook, School of Medicine, Stony<br />
Brook, NY<br />
random Subspace method <strong>for</strong> Feature Selection in<br />
fmrI Classification<br />
Tianwen Chen 1<br />
1 George Mason University, Fairfax, VA<br />
meta analysis of language data using machine Learning<br />
Animesh Sharma 1,2 , Kenneth Hugdahl 2,3 , Karsten Specht 2,4<br />
1 In<strong>for</strong>matics Institute, University of Bergen, Bergen,<br />
Norway, 2 Department of Biological and Medical<br />
Psychology, University of Bergen, Bergen, Norway,<br />
3 Division of Psychiatry, Haukeland University<br />
Hospital, Bergen, Norway, 4 Department <strong>for</strong> Clinical<br />
Engineering,Haukeland University Hospital,<br />
Bergen, Norway<br />
a strategy <strong>for</strong> characterizing the spatial distribution<br />
of in<strong>for</strong>mation within a region of interest<br />
Jo Etzel 1 , Michael Cole 1<br />
1 Washington University in St. Louis, St. Louis, MO<br />
using Design Contrasts with multivariate Pattern<br />
Classification analysis<br />
Joseph Dunlop 1 , Hervé Abdi 2<br />
1 The University of Texas at Dallas, Richardson, TX,<br />
2 The University of Texas at Dallas, Richardson, TX<br />
Modeling and Analysis Methods<br />
Diffusion MRI Modeling and Analysis<br />
593**<br />
594**<br />
595**<br />
596<br />
enhanced localization in deterministic tractography<br />
analyses with along-tract statistics<br />
John Colby 1 , Lindsay Soderberg 1 , Catherine Lebel 1 ,<br />
Ivo Dinov 1 , Paul Thompson 1 , Elizabeth Sowell 1<br />
1 UCLA, Los Angeles, CA<br />
Selecting the number of fibers in a multi-Fiber model<br />
from Cube and SPhere (CuSP) Diffusion Imaging<br />
Benoit Scherrer1 , Simon Warfield1 1Children’s Hospital Boston and Harvard Medical School,<br />
Boston, MA<br />
Influence of Image reconstruction from multichannel<br />
Diffusion mrI on Fibre orientation estimation<br />
Stamatios Sotiropoulos 1 , Timothy Behrens 1 ,<br />
Jesper Andersson 1 , Essa Yacoub 2 , Steen Moeller 2 ,<br />
Saad Jbabdi 1<br />
1 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 2 CMRR, University of Minnesota, Minneapolis,<br />
MN, United States<br />
Can DWI-based eigenvector centrality maps improve<br />
the functional alignment of cortices?<br />
Oliver Lyttelton 1 , Pierre Bellec 2 , Niall Duncan 1 ,<br />
Dave Hayes 1 , Pengmin Qin 1 , Christine Wiebking 1 ,<br />
Georg Northoff 1<br />
1 University of Ottawa Institute of Mental Health Research,<br />
Ottawa, Canada, 2 CRIUGM, Montreal , Quebec
Modeling and Analysis Methods<br />
Diffusion MRI Modeling and Analysis, continued<br />
597<br />
598<br />
599<br />
600<br />
Incremental gradient table <strong>for</strong> multiple Q-shells<br />
diffusion mrI<br />
Emmanuel Caruyer 1 , Christophe Lenglet 2 ,<br />
Guillermo Sapiro 3 , Rachid Deriche 1<br />
1 INRIA Sophia Antipolis - Méditerranée, France,<br />
2 Center <strong>for</strong> Magnetic Resonance Research, Department of<br />
Radiology, U of Minnesota Medical School, Minneapolis,<br />
MN, 3 Department of Electrical and Computer Engineering,<br />
University of Minnesota, Minneapolis, MN<br />
Dipy - a novel software library <strong>for</strong> diffusion mr<br />
and tractography<br />
Eleftherios Garyfallidis 1 , Matthew Brett 2 , Bagrat<br />
Amirbekian 3 , Christopher Nguyen 4 , Fang-Cheng Yeh 5 ,<br />
Emanuele Olivetti 6 , Yaroslav Halchenko 7 , Ian Nimmo-Smith 8<br />
1 University of Cambridge, Cambridge, United Kingdom,<br />
2 Univesity of Cali<strong>for</strong>nia, Berkeley, Berkeley, United States,<br />
3 University of Cali<strong>for</strong>nia, San Franscisco, San Franscisco,<br />
United States, 4 University of Cali<strong>for</strong>nia Los Angeles /<br />
Cedars Sinai Medical Center, Los Angeles, United States,<br />
5 Carnegie Mellon University, Pittsburgh, United States,<br />
6 Bruno Kessler Foundation and University of Trento,<br />
Trento, Italy, 7 Dartmouth College, Hanover, United States,<br />
8 Medical Research Council Cognition and <strong>Brain</strong> Sciences<br />
Unit, Cambridge, United Kingdom<br />
The effect of imaging resolution on the number of fiber<br />
orientations per voxel in DWI<br />
René Besseling 1,2 , Jacobus Janssen 1 , Maarten Vaessen 1 ,<br />
Paul Hofman 1,2 , Albert Aldenkamp 2,1 , Walter Backes 1<br />
1 Radiology, Maastricht University Medical Center,<br />
Maastricht, Netherlands, 2 Kempenhaeghe Epilepsy Center,<br />
Heeze, Netherlands<br />
an easy-to-use pipeline <strong>for</strong> creating connectomes<br />
Erik Ziegler1 , Luca Matarazzo1 , Ariane Foret1 ,<br />
Elodie André1 , Pierre Maquet1 , Christophe Phillips1 1Cyclotron Research Centre, University of Liège,<br />
Liège, Belgium<br />
Modeling and Analysis Methods<br />
Segmentation and Parcellation<br />
601<br />
Connectivity-Based Whole-<strong>Brain</strong> Hierarchical<br />
Parcellation of the <strong>Human</strong> <strong>Brain</strong><br />
David Moreno-Dominguez 1 , Alfred Anwander 1 ,<br />
Ralph Schurade 1 , Thomas Knösche 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany<br />
Modeling and Analysis Methods<br />
Diffusion MRI Modeling and Analysis<br />
602<br />
The vibration artifact in DTI: assessment and correction<br />
Siawoosh Mohammadi 1 , Zoltan Nagy 1 , Oliver Josephs 1 ,<br />
Nikolaus Weiskopf 1<br />
1 Wellcome Trust Centre <strong>for</strong> Neuroimaging, UCL,<br />
London, United Kingdom<br />
603<br />
604<br />
605<br />
606<br />
607<br />
608<br />
609<br />
Distribution of White matter mS Lesions in Fiber Tracts<br />
Navid Shiee 1 , Pierre-Louis Bazin 2 , Daniel Reich 1,3 ,<br />
Peter Calabresi 1 , Dzung L. Pham 1,4<br />
1 Johns Hopkins University, Baltimore, MD, 2 Max Planck<br />
Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig,<br />
Germany, 3 National Institute of Neurological Disorders<br />
and Stroke, Bethesda, MD, 4 Center <strong>for</strong> Neuroscience and<br />
Regenerative Medicine, Bethesda, MD<br />
evaluation of registration per<strong>for</strong>mance with<br />
probabilistic tractography<br />
Marius de Groot 1 , Meike Vernooij 1 , Stephen Smith 2 ,<br />
Arfan Ikram 1 , Wiro Niessen 1,3 , Jesper Andersson 2<br />
1 Erasmus MC, Rotterdam, The Netherlands, 2 FMRIB<br />
Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom,<br />
3 Delft University of Technology, Delft, The Netherlands<br />
regional variation models of white matter<br />
microstructure<br />
Gemma Morgan 1 , Hui Zhang 2 , Brandon Whitcher 3 ,<br />
Daniel Alexander 2<br />
1 University College London, London, UK, 2 University<br />
College London, London, United Kingdom,<br />
3 GlaxoSmithKline, London, United Kingdom<br />
exploring gender differences in white matter using a<br />
new tract specific atlas<br />
Caroline Brun 1 , Hui Zhang 2 , Paul Yushkevich 3 ,<br />
Daniel Rueckert 4 , James Gee 5<br />
1 University of Pennsylvania, 2 University College London,<br />
London, United Kingdom, 3 Penn Image Computing and<br />
Science Laboratory, Department of Radiology, University<br />
of Pennsylvania, Philadelphia, United States, 4 Imperial<br />
College London, London, United Kingdom, 5 University of<br />
Pennsylvania, Philadelphia, PA<br />
reliability of tract-based spatial statistics<br />
analysis <strong>for</strong> DTI<br />
Yang wang 1 , Andrew Saykin 1 , Tom Hummer 1 ,<br />
William Kronenberger 1 , John West 1 , Vincent Mathews 1<br />
1 Indiana University, Indianapolis, IN<br />
axon diameter mapping in the presence of orientation<br />
dispersion using diffusion mrI<br />
Hui Zhang 1 , Penny Hubbard 2 , Geoffrey Parker 3 ,<br />
Daniel Alexander 1<br />
1 University College London, London, United Kingdom,<br />
2 University of Manchester, Manchester, United Kingdom,<br />
3 Imaging Sciences and Biomedical Engineering, University<br />
of Manchester, Manchester, United Kingdom<br />
Inference on Constant Solid angle orientation<br />
Distribution Functions from Diffusion-Weighted mrI<br />
Stamatios Sotiropoulos 1 , Iman Aganj 2 , Saad Jbabdi 1 ,<br />
Guillermo Sapiro 2 , Christophe Lenglet 3 , Timothy Behrens 1<br />
1 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 2 Department of Electrical and Computer<br />
Engineering, University of Minnesota, Minneapolis, MN,<br />
United States, 3 Center <strong>for</strong> Magnetic Resonance Research,<br />
University of Minnesota, Minneapolis, MN, United States<br />
HBM 2011 >> <strong>abstracts</strong> 145<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Modeling and Analysis Methods<br />
Diffusion MRI Modeling and Analysis, continued<br />
610<br />
611<br />
612<br />
613<br />
614<br />
615<br />
616<br />
617<br />
modeling mr-based g-ratio measurements in<br />
Demyelinating Diseases<br />
Nikola Stikov 1,2 , Bragi Sveinsson 3 , Christine Tardif 1,2 ,<br />
Robert Dougherty 3 , Bruce Pike 2<br />
1 McGill University, Montreal, Canada, 2 Montreal<br />
Neurological Institute, Montreal, Canada, 3 Stan<strong>for</strong>d<br />
University, Stan<strong>for</strong>d, CA<br />
Package dti: a Framework <strong>for</strong> HarDI-modeling in r<br />
Karsten Tabelow 1 , Henning Voss 2 , Joerg Polzehl 1<br />
1 WIAS, Berlin, Germany, 2 Citigroup Biomedical Imaging<br />
Center, Weill Cornell Medical College, New York City, NY<br />
Comparing Template-space and Subject-space methods<br />
To measure Fractional anisotropy Changes in aLS<br />
John Woo 1 , Hui Zhang 2 , Elias Melhem 1 , Sumei Wang 1 ,<br />
Lauren Elman 1 , Leo McCluskey 1 , James Gee 1<br />
1 University of Pennsylvania, Philadelphia, PA,<br />
2 University College London, United Kingdom<br />
Diffusion tensor imaging distortion correction with T1<br />
Ki Sueng Choi 1 , Alexandre Franco 2 , Paul Holtzheimer 2 ,<br />
Xiaoping Hu 1 , Helen Mayberg 2<br />
1 Emory University/Georgia Tech, Atlanta, GA,<br />
2 Emory University, Atlanta, GA<br />
White matter Connectivity of the <strong>Human</strong> Insula<br />
Alan Tucholka 1 , Maxime Descoteaux 2 , Guillaume Gilbert 3 ,<br />
Jean-Maxime Leroux 3 , Dang Khoa Nguyen 4 , Sarah Lippe 5<br />
1 University of Montreal, Department of Psychology, CHU<br />
Ste-Justine, Quebec, Canada, 2 Université de Sherbrooke,<br />
Sherbrooke, Quebec, 3 CHUM Notre-Dame, Montreal,<br />
Quebec, 4 University of Montreal, CHUM Notre-Dame,<br />
Montreal, Quebec, 5 University of Montreal, Department of<br />
Psychology, CHU Ste-Justine, Montreal, Quebec<br />
Fast-marching Tractography Suggests altered<br />
Hippocampal Connectivity in Temporal Lobe epilepsy<br />
Vishal Patel 1 , Cristian Coroian 1 , Noriko Salamon 1 ,<br />
Paul Thompson 1 , Arthur Toga 1<br />
1 University of Cali<strong>for</strong>nia, Los Angeles, Los Angeles, CA<br />
Structural adaptive smoothing increases sensitivity of<br />
DTI to detect microstructure alterations<br />
Karsten Tabelow 1 , Simon Keller 2 , Siawoosh Mohammadi 3 ,<br />
Harald Kugel 4 , Jan-Simon Gerdes 2 , Joerg Polzehl 1 ,<br />
Michael Deppe 5<br />
1 WIAS, Berlin, Germany, 2 University of Münster, Department<br />
of Neurology, Münster, Germany, 3 Wellcome Trust Centre<br />
<strong>for</strong> Neuroimaging, UCL, London, United Kingdom, 4 Dept.<br />
of Clinical Radiology, University of Muenster, Münster,<br />
Germany, 5 University of Muenster, Munster, Germany<br />
Quantitative tract-specific measures using<br />
deterministic and probabilistic diffusion tractography<br />
Ai Wern Chung 1 , Hugh Markus 1 , Thomas Barrick 1<br />
1 Centre <strong>for</strong> Clinical Neuroscience, St George’s University<br />
of London, London, United Kingdom<br />
146 HBM 2011 >> <strong>abstracts</strong><br />
618<br />
619<br />
620<br />
621<br />
622<br />
623<br />
624<br />
Improving analysis of big DTI studies<br />
Davide Laneri 1 , Alexandra Hellerbach 1 , Miriam Bauer 2,3 ,<br />
Susanne Knake 4 , Andreas Jansen 1 , Jens Sommer 1<br />
1 Department of Psychiatry and Psychotherapy, Section of<br />
<strong>Brain</strong>Imaging, University of Marburg, Marburg, Germany,<br />
2 Department of Neurosurgery, University of Marburg,<br />
Marburg, Germany, 3 Department of Mathematics and<br />
Computer Science, Distributed Systems Group, University<br />
of Marburg, Marburg, Germany, 4 Department of Neurology,<br />
University of Marburg, Marburg, Germany<br />
Diffusion mrI Data Parallel Processing using<br />
multi-gPu<br />
Jungsoo Lee 1 , Sun Mi Park 1 , Dae-Shik Kim 1<br />
1 Korea Advanced Institute of Science and Technology<br />
(KAIST), Daejeon, Korea, Republic of<br />
Higher rank Diffusion Tensor Imaging of <strong>Brain</strong> Tumors<br />
Subhadip Paul 1 , Veer Singh Mehta 2 , Prasun Roy 1<br />
1 National <strong>Brain</strong> Research Centre, Manesar, India,<br />
2 National <strong>Brain</strong> Research Centre, Government General<br />
Hospital, Gurgaon, India<br />
White matter Tractography in Fetal alcohol Spectrum<br />
Disorders: Fractional anisotropy & Tract Length<br />
Lindsay Soderberg 1<br />
1 UCLA, Los Angeles, CA<br />
Fiber tracking methods with white matter mask and<br />
intuitive fast marching tracktography (IFmT)<br />
Hun-Ki Kwon 1 , Uicheul Yoon 1 , Jun-Sung Park 1 , Sun I. Kim 1 ,<br />
Duk L. Na 2 , Jong-Min Lee 1<br />
1 Department of Biomedical Engineering, Hanyang<br />
University, Seoul, South Korea, 2 Department of Neurology,<br />
Samsung Medical Center, Sungkyunkwan University<br />
School of Medicine, Seoul, South Korea<br />
Improved Voxelwise analysis and <strong>Brain</strong>-Wide machine<br />
Learning using the Full Diffusion Tensor<br />
Anne-Laure Fouque 1 , Pierre Fillard 2 , Anne Bargiacchi 3 ,<br />
Arnaud Cachia 4 , Monica Zilbovicius 5 , Benjamin Thyreau 6 ,<br />
Edith Le Floch 6 , Philippe Ciuciu 6 , Edouard Duchesnay 6<br />
1 CEA / INSERM U1000, Saclay, France, 2 INRIA Parietal /<br />
CEA, Saclay, France, 3 INSERM-CEA U1000, Orsay, France,<br />
4 UMR 894 INSERM - Paris Descartes University, Saint-Anne<br />
Hospital, Paris, France, 5 INSERM, Orsay, France, 6 CEA,<br />
Saclay, France<br />
Dentato-rubro-Thalamic Tract in <strong>Human</strong> <strong>Brain</strong>:<br />
Diffusion Tensor Tractography Study<br />
YONG HYUN KWON 1 , Sung-Ho Jang 2 , Mi-Young Lee 3 ,<br />
Sang Ho Ahn 2 , HYEOK GYU KWON 4 , Jeong Pyo Seo 4<br />
1 1Department of Physical Therapy, Yeungnam College<br />
of Science and Technology, Daegu, South Korea,<br />
2 Department of Physical Medicine & Rehabilitation,<br />
Yeungnam University College of Medicine, Daegu, Korea,<br />
Republic of, 3 Department of Physical Therapy, College<br />
of Health and Therapy, Daegu Hanny University, Daegu,<br />
Korea, Republic of, 4 Department of Physical Therapy,<br />
Graduate School of Rehabilitation Science, Daegu<br />
University, Daegu, Korea, Republic of
Modeling and Analysis Methods<br />
EEG/MEG Modeling and Analysis<br />
625*<br />
626<br />
627<br />
628<br />
629<br />
630<br />
631<br />
Biophysical mechanisms of multistability in resting<br />
state cortical rhythms, (o-Th2)<br />
Frank Freyer 1 , James Roberts 2 , Robert Becker 1 ,<br />
Peter Robinson 3 , Petra Ritter 1 , Michael Breakspear 2<br />
1 Charite University Medicine Berlin, Berlin, Germany,<br />
2 Queensland Institute of Medical Research, Brisbane,<br />
Australia, 3 School of Physics, University of Sydney, Sydney,<br />
Australia<br />
Improving the Nulling Beam<strong>for</strong>mer with Subspace<br />
Suppression<br />
Kunjan Rana 1 , Lucia Maria Vaina 2 , Matti Hämäläinen 3<br />
1 Boston University, Boston, MA, USA, 2 Boston University&<br />
Harvard Medical School, Massachusetts General Hospital,<br />
USA, 3 Athinoula A. Martinos Center <strong>for</strong> Biomedical<br />
Imaging, Massachusetts General Hospital, Charlestown,<br />
MA, USA<br />
FaSST - a “fmrI artefact rejection and Sleep<br />
scoring Toolbox”<br />
jessica schrouff 1 , Yves Leclercq 1 , Pierre Maquet 2 ,<br />
Christophe Phillips 2<br />
1 Cyclotron research Centre, University of Liege, Belgium,<br />
2 Cyclotron Research Centre, University of Liege, Belgium<br />
on non-stationarity of eeg signals during early<br />
adolescence<br />
Vasily Vakorin 1 , Bratislav Misic 1 , Olga Krakovska 2 ,<br />
Kristina Martinu 3 , Catherine Poulsen 3 , Tomas Paus 1 ,<br />
Anthony McIntosh 1<br />
1 Rotman Research Institute, Baycrest Centre, Toronto,<br />
Canada, 2 York University, Toronto, Canada,<br />
3 McGill University, Montreal, Canada<br />
Decoding the temporal microstructure of large-scale<br />
networks underlying task related differences<br />
Arpan Banerjee1 , Ajay Pillai2 , Justin Sperling2 ,<br />
Jason Smith3 , Barry Horwitz4 1 2 NIDCD/ NIH, NIDCD/ NIH, Bethesda, United States,<br />
3 4 NIDCD, NIH, Bethesda, MD, NIDCD-NIH, Rockville,<br />
United States<br />
Intermittent spike-wave dynamics due to<br />
cortico-cortical interactions in a neural mass model<br />
Marc Goodfellow 1 , Kaspar Schindler 2 , Gerold Baier 1<br />
1 University of Manchester, Manchester, United Kingdom,<br />
2 Bern University Hospital, Bern, Switzerland<br />
Packet Departure Times in electroencephalographic<br />
recordings<br />
Bratislav Misic 1,2 , Vasily Vakorin 3 , Tomas Paus 3 ,<br />
Natasa Kovacevic 3 , Anthony McIntosh 3<br />
1 Rotman Research Institute - Baycrest Centre, Toronto,<br />
Canada, 2 Department of Psychology, University of Toronto,<br />
Toronto, Canada, 3 Rotman Research Institute - Baycrest<br />
Centre, Toronto, ON<br />
632<br />
633<br />
634<br />
635<br />
636<br />
637<br />
638<br />
Per<strong>for</strong>mance of eeg source imaging methods on<br />
multiple correlated sources<br />
Thomas Jochmann 1,2,3,4 , Michael Scherg 5 , Julia Owen 1 ,<br />
David Wipf 1 , Hagai Attias 6 , Jens Haueisen 7 ,<br />
Srikantan Nagarajan 1<br />
1 Biomagnetic Imaging Lab, Dept. of Radiology and<br />
Biomedical Imaging, University of Cali<strong>for</strong>nia, San<br />
Francisco, CA, 2 Institute of Biomedical Engineering and<br />
In<strong>for</strong>matics, Ilmenau University of Technology, Ilmenau,<br />
Germany, 3 Medical Physics Group, Department of<br />
Diagnostic and Interventional Radiology, Jena University<br />
Hospital, Jena, Germany, 4 Invitronic GmbH, Jena,<br />
Germany, 5 BESA GmbH, Gräfelfing, Germany, 6 Golden<br />
Metallic Inc., San Francisco, CA, 7 Institute of Biomedical<br />
Engineering and In<strong>for</strong>matics, Technical University Ilmenau,<br />
Ilmenau, Germany<br />
Localizing focal sources from meg by efficient<br />
inference in a high dimensional state-space model<br />
Makoto Fukushima 1,2 , Okito Yamashita 1 , Atsunori<br />
Kanemura 1 , Shin Ishii 3,1 , Mitsuo Kawato 4,2 , Masa-aki Sato 1<br />
1 ATR Neural In<strong>for</strong>mation Analysis Laboratories, Kyoto,<br />
Japan, 2 Nara Institute of Science and Technology,<br />
Nara, Japan, 3 Kyoto University, Kyoto, Japan, 4 ATR<br />
Computational Neuroscience Laboratories, Kyoto, Japan<br />
Hemodynamic correlates of P300 variability<br />
Gebhard Sammer 1 , Helge Gebhardt 1 , Philipp Reckling 1 ,<br />
Martin Krebber 1 , Carlo Blecker 1 , Matthias Bischoff 1 ,<br />
Bernd Gallhofer 1<br />
1 University of Gießen, Giessen, Germany<br />
assessment of nonlinear interactions in event-related<br />
potentials at short inter-stimulus intervals<br />
Georgios Mitsis 1 , Giandomenico Iannetti 2<br />
1 Department of Electrical and Computer Engineering,<br />
University Of Cyprus, Nicosia, Cyprus, 2 Department of<br />
Neuroscience, Physiology and Pharmacology, University<br />
College London, London, United Kingdom<br />
Independent Component analysis of high-density eeg<br />
requires temporal pre-whitening filters<br />
German Gomez-Herrero 1,2 , Ilse Verweij 1 , Kalle Rutanen 3 ,<br />
Simon-Shlomo Poil 2 , Huibert Mansvelder 2 , Klaus<br />
Linkenkaer-Hansen 2 , Ysbrand Van Der Werf 1 ,<br />
Eus J.W. Van Someren 4<br />
1 Netherlands Institute <strong>for</strong> Neuroscience, Amsterdam,<br />
Netherlands, 2 Neuroscience Campus Amsterdam, VU<br />
University, Amsterdam, Netherlands, 3 Tampere University<br />
of Technology, Tampere, Finland, 4 Netherlands Institute For<br />
Neuroscience, Amsterdam, Netherlands<br />
Data-driven Connectivity Changes in Patients with<br />
alzheimer’s Disease<br />
Andrew Kerr 1 , Kwaku Akrofi 2 , Mary Baker 1<br />
1 Texas Tech University, Autumn’s Dawn NICE Lab,<br />
Lubbock, TX , 2 University of Illinois at Urbana-Champaign,<br />
Urbana, IL<br />
Boosting the Detection of gamma-band responses<br />
in multichannel meg recordings<br />
Liisa Helle 1 , Samu Taulu 1 , Lauri Parkkonen 1,2<br />
1 Elekta Oy, Helsinki, Finland, 2 <strong>Brain</strong> Research Unit, Low<br />
Temperature Laboratory, Aalto University School of<br />
Science, Espoo, Finland<br />
HBM 2011 >> <strong>abstracts</strong> 147<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Modeling and Analysis Methods<br />
EEG/MEG Modeling and Analysis, continued<br />
639<br />
640<br />
641<br />
642<br />
643<br />
644<br />
general Spectral measures to Investigate oscillatory<br />
Interactions<br />
Cristina Gorrostieta1 , Hernando Ombao1 1Brown University (Section of Biostatistics), Providence, RI,<br />
United States<br />
a Bootstrap analysis of meg source localization<br />
accuracy <strong>for</strong> somatosensory steady-state responses<br />
Shahab Jamali Gharetape 1,2 , Bernhard Ross 1,2<br />
1 Rotman Research Institute, Baycrest, Toronto, Ontario,<br />
Canada, 2 University of Toronto, Toronto, Ontario, Canada<br />
Working memory components by clustering <strong>for</strong> multiple<br />
subjects using multi-way analysis in meg study<br />
Heejung Kim 1,2,3 , Hyekyoung Lee 1,2 , Hyojin Park 1,2,3 ,<br />
Hyejin Kang 1,2 , Chun-Kee Chung 4 , Eunjoo Kang 5 ,<br />
Dong Soo Lee 1,2,3,6<br />
1 Department of Nuclear Medicine, Seoul National<br />
University College of Medicine, Seoul, Korea, Republic<br />
of, 2 Institute of Radiation Medicine, Medical Research<br />
Center, Seoul National University, Seoul, Korea, Republic<br />
of, 3 Interdisciplinary Program in Cognitive Science, Seoul<br />
National University, Seoul, Korea, Republic of, 4 MEG<br />
Center, Department of Neurosurgery, Seoul National<br />
University Hospital, Seoul, Korea, Republic of, 5 Kangwon<br />
National University, Chuncheon, Korea, Republic of, 6 WCU<br />
Department of Molecular Medicine and Biopharmaceutical<br />
Sciences, Graduate School of Convergence Science<br />
and Technology and College of Medicine or College<br />
of Pharmacy, Seoul National University, Seoul, Korea,<br />
Republic of<br />
<strong>Brain</strong>Wave: a beam<strong>for</strong>mer toolbox <strong>for</strong> meg<br />
Douglas Cheyne 1,2 , Natascha van Lieshout 1,3<br />
1 Program in Neurosciences and Mental Health, Hospital<br />
<strong>for</strong> Sick Children Research Institute, Toronto, ON, Canada,<br />
2 Department of Medical Imaging, University of Toronto,<br />
Toronto, ON, Canada, 3 Faculty of Engineering,<br />
University of Waterloo, Waterloo, ON, Canada<br />
Characterising Neuronal Interactions by analysis of<br />
Common Frequencies<br />
Michel van Putten 1,2<br />
1 Clinical Neurophysiology Group, MIRA, University of<br />
Twente, Enschede, Netherlands, 2 Department of Neurology<br />
and Clinical Neurophysiology, Medisch Spectrum Twente,<br />
Enschede, Netherlands<br />
Statistical analysis of Phase and amplitude based<br />
on a Circular Complex gaussian model<br />
Sergul Aydore 1 , Dimitrios Pantazis 2 , John Mosher 3 ,<br />
Richard Leahy 1<br />
1 University of Southern Cali<strong>for</strong>nia, Los Angeles, CA,<br />
2 Massachusetts Institute of Technology, Cambridge, MA,<br />
3 Cleveland Clinic, Cleveland, OH<br />
Modeling and Analysis Methods<br />
Diffusion MRI Modeling and Analysis<br />
645<br />
atlas-Based analysis of Structural maturation in the<br />
<strong>Human</strong> <strong>Brain</strong><br />
Jan Schreiber 1 , Alfred Anwander 2 , Thomas Knösche 2<br />
1 Max-Planck-Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, leipzig, Germany, 2 Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
148 HBM 2011 >> <strong>abstracts</strong><br />
Modeling and Analysis Methods<br />
EEG/MEG Modeling and Analysis<br />
646<br />
647<br />
648<br />
649<br />
650<br />
651<br />
652<br />
Nonlinear ICa: applications to Spatial and Temporal<br />
eeg Source Separation<br />
Lei Wu 1,2 , Vince Calhoun 3,4<br />
1 The Mind Research Network, Albuquerque, NM, USA,<br />
2 Dept. of ECE, University of New Mexico, Albuquerque,<br />
NM, USA, 3 The Mind Research Network, Albuquerque,<br />
United States, 4 Dept. of ECE, University of New Mexico,<br />
Albuquerque, NM<br />
Infant erP amplitudes change during a test session:<br />
Implications <strong>for</strong> cognition and methodology<br />
Manuela Stets1 , Vincent Reid1 1Department of Psychology, Durham University, Durham,<br />
United Kingdom<br />
LImo eeg: a toolbox <strong>for</strong> automated analyses of full<br />
scalp, full time meeg data<br />
Cyril Pernet 1 , Guillaume Rousselet 2,3<br />
1 <strong>Brain</strong> Imaging Research Centre, University of Edinburgh,<br />
Edinburgh, United Kingdom, 2 Centre <strong>for</strong> Cognitive<br />
Neuroimaging (CCNi), Glasgow, United Kingdom, 3 Institute<br />
of Neuroscience and Psychology, University of Glasgow,<br />
Glasgow, United Kingdom<br />
Coupled neural fields: Intrinsic modulation of<br />
extrinsic coupling<br />
Jean Daunizeau 1 , Dimitris Pinotsis 2 , Klaas Stephan 1 ,<br />
Karl Friston 3<br />
1 Laboratory <strong>for</strong> Social and Neural Systems Research,<br />
Dept. of Economics, University of Zurich, Zurich,<br />
Switzerland, 2 Wellcome Trust Centre <strong>for</strong> Neuroimaging,<br />
UCL, London, United Kingdom, 3 Wellcome Trust Centre <strong>for</strong><br />
Neuroimaging, UCL, Lodnon, United Kingdom<br />
Single-trial extraction of beta erS in eeg Signals<br />
using empirical mode Decomposition<br />
Po-Lei Lee 1<br />
1 Department of Electrical Engineering, Taipei, Taiwan<br />
Primary motor area as a direct target of<br />
somatosensory projections<br />
Franca Tecchio 1,2 , Leo Tomasevic 3,4 , Carlo Salustri 5 ,<br />
Camillo Porcaro 6<br />
1 LET’S-ISTC-CNR, Ospedale Fatebenefratelli, Isola<br />
Tiberina, 00186, Rome, Italy, 2 Department of Imaging,<br />
SAN RAFFAELE, Cassino, Italy, 3 LET’S-ISTC-CNR,<br />
Ospedale Fatebenefratelli, Rome, Italy, 4 University of<br />
Plymouth, Rome-Node, Rome, Italy, 5 LET’S-ISTC-CNR,<br />
Ospedale Fatebenefratelli, Isola Tiberina, Rome, Italy,<br />
6 Institute of Neuroscience, Newcastle University,<br />
Medical School, Newcastle upon Tyne, United Kingdom<br />
Neuronic Source Localizer: software <strong>for</strong> calculating<br />
<strong>Brain</strong> electromagnetic Tomography<br />
Mayelin Borrego 1 , Nelson Trujillo-Barreto 2 ,<br />
Yanays Rodriguez-Puentes 1 , Jorge Bosch-Bayard 1 ,<br />
Eduardo Martínez-Montes 1 , Lester Melie-García 1 ,<br />
Eduardo Aubert 1 , Pedro Valdes-Sosa 1<br />
1 Cuban Neuroscience Center, Havana, Cuba, 2 Cuban<br />
Neurosciences Center, Havana, Cuba
Modeling and Analysis Methods<br />
EEG/MEG Modeling and Analysis, continued<br />
653<br />
654<br />
655<br />
656<br />
657<br />
658<br />
659<br />
660<br />
modeling spatially extended cortical activity in meg<br />
Douglas Cheyne 1 , Jason Lerch 1 , Paul Ferrari 1 ,<br />
Richard Wennberg 2 , Ismail Mohamed 3 , Hiroshi Otsubo 4<br />
1 Program in Neurosciences and Mental Health, Hospital<br />
<strong>for</strong> Sick Children Research Institute, Toronto, ON, Canada,<br />
2 Krembil Neuroscience Centre, Division of Neurology,<br />
Toronto Western Hospital, Toronto, ON, Canada, 3 Alberta<br />
Children’s Hospital, Calgary, AB, Canada, 4 Division of<br />
Neurology, Hospital <strong>for</strong> Sick Children, Toronto, ON, Canada<br />
Localization of Coherent Cortical Networks with<br />
electroencephalography<br />
Adrian Guggisberg 1 , Sarang Dalal 2 , Johanna Zumer 3 ,<br />
Sviatlana Dubovik 1 , Armin Schnider 1<br />
1 University Hospital Geneva, Geneva, Switzerland,<br />
2 University of Konstanz, Konstanz, Germany,<br />
3 University of Nottingham, Nottingham, United Kingdom<br />
empirical mode Decomposition Phase-Locking of<br />
magnetoencephalography mismatch-Negativity Data<br />
R Fonseca-Pinto 1 , A Andrade 2 , L Hughes 3 , J Rowe 3<br />
1 Polytechnic Institute of Leiria, School of Technology<br />
and Management, Leiria, Portugal, 2 IBEB-FCUL, Lisboa,<br />
Portugal, 3 MRC Cognition and <strong>Brain</strong> Sciences Unit,<br />
Cambridge, United Kingdom<br />
Virtually expanding the spatial coverage of intracranial<br />
eeg with source localization<br />
Sarang Dalal 1 , Juan Vidal 2 , Philippe Kahane 3 ,<br />
Lorella Minotti 3 , Olivier Bertrand 2 , Karim Jerbi 2 ,<br />
Jean-Philippe Lachaux 2<br />
1 University of Konstanz, Konstanz, Germany,<br />
2 INSERM U1028, CNRS UMR5292, Lyon Neuroscience<br />
Research Center, <strong>Brain</strong> Dynamics and Cognition Team,<br />
Lyon, France, 3 INSERM U836 and Université Joseph<br />
Fourier, Grenoble, France<br />
Category Separation of multi-Subject eeg Data<br />
using muBBaDa<br />
Mary Kathryn Reagor1 , Joseph Dunlop2 , James Jerger2 ,<br />
Anjali Krishnan2 , Hervé Abdi2 1 2 University of Texas at Dallas, University of Texas at Dallas,<br />
Richardson, TX<br />
eye Tracking-guided eeg analysis<br />
Francisco Parada 1 , Thomas Busey 1 , Aina Puce 1<br />
1 Department of Psychological & <strong>Brain</strong> Sciences,<br />
Indiana University, Bloomington, IN. USA<br />
Identifying oscillatory activity in Parkinson’s Disease<br />
LFP and meg Data by adaptive Decomposition<br />
Tolga Özkurt 1 , Markus Butz 1 , Alfons Schnitzler 1<br />
1 Institute <strong>for</strong> Clinical Neuroscience and Medical<br />
Psychology, Heinrich-Heine University, Düsseldorf,<br />
Germany<br />
evaluation of multiple-sphere head models <strong>for</strong><br />
meg source localization<br />
Marc Lalancette 1 , Maher Quraan 1 , Douglas Cheyne 1,2<br />
1 Neurosciences & Mental Health, The Hospital <strong>for</strong> Sick<br />
Children Research Institute, Toronto, Canada, 2 Department<br />
of Medical Imaging, University of Toronto, Toronto, Canada<br />
661<br />
662<br />
663<br />
664<br />
Nonlinear Canonical Correlation analysis <strong>for</strong> coupling<br />
brain activities in two-person meg data<br />
Cristina Campi 1 , Aapo Hyvarinen 2<br />
1 Department of Computer Science, University of Helsinki,<br />
Finland, 2 University of Helsinki<br />
adjoint method <strong>for</strong> lead-fields computation in meeg<br />
Emmanuel Olivi 1 , Alexandre Gram<strong>for</strong>t 2 , Theodore<br />
Papadopoulo 1 , Maureen CLERC 1<br />
1 INRIA Sophia Antipolis - Méditerrannée, Sophia Antipolis,<br />
France, 2 INRIA - CEA Neurospin, Orsay, France<br />
a Spatially extended Neural Field model <strong>for</strong><br />
Spike-Wave Dynamics<br />
Peter Taylor 1<br />
1 University of Manchester, UK<br />
erP analyze method with Hilbert Huang Trans<strong>for</strong>m<br />
particularly frequency analysis<br />
Takashi Tomita 1 , Akio Yasuda 2 , Satsuki Watanabe 3 ,<br />
Keiko Hara 4 , Ayasa Matsuda 5 , Miho Miyajima 3 ,<br />
Katsuya Ohta 3 , Minoru Hara 6 , Eisuke Matsushima 3 ,<br />
Masato Matsuura 7<br />
1 Sony Corporation, Life Science Laboratory, 2 Sony<br />
Corporation Life Science Laboratory, Tokyo, Japan,<br />
3 Section of Liaison and Palliative Medicene, Tokyo Medical<br />
and Dental University, Tokyo, Japan, 4 Tokyo Medical and<br />
Dental University, Tokyo, Japan, 5 Graduate School of<br />
Health Care Science, Tokyo Medical and Dental University,<br />
Tokyo, Japan, 6 Hara Clinic, Yokohama, Japan, 7 Department<br />
of Bioin<strong>for</strong>matics, Tokyo Medical and Dental University,<br />
Tokyo, Japan<br />
665 mapping human brain function: a comparison between<br />
Variational Bayes Techniques and LCmV<br />
Paolo Belardinelli 1 , Erick Ortiz 1 , Gareth Barnes 2 ,<br />
Uta Noppeney 3 , Hubert Preissl 1<br />
1 MEG Center, Tuebingen, Germany, 2 University College<br />
London, London, United Kingdom, 3 Max Planck Institute,<br />
Tuebingen, Germany<br />
Modeling and Analysis Methods<br />
Exploratory Modeling and Artifact Removal<br />
666*<br />
667<br />
Linked ICa of multiple Wm and gm measures<br />
reveals multimodal components with distinct age<br />
profiles, (o-m4)<br />
Adrian Groves 1 , Lars Westlye 2 , Stephen Smith 1 ,<br />
Mark Woolrich 3<br />
1 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 2 Center <strong>for</strong> the Study of <strong>Human</strong> Cognition,<br />
Dept. of Psychology, University of Oslo, Oslo, Norway,<br />
3 Ox<strong>for</strong>d Centre <strong>for</strong> <strong>Human</strong> <strong>Brain</strong> Activity, University of<br />
Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom<br />
Identifying the sources of the pulse artefact in<br />
eeg recordings made inside an mr scanner<br />
Karen Julia Mullinger 1 , Jade Havenhand 1 , Richard Bowtell 1<br />
1 University of Nottingham, Nottingham, United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 149<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Modeling and Analysis Methods<br />
Exploratory Modeling and Artifact Removal, continued<br />
668<br />
669<br />
670<br />
671<br />
672<br />
673<br />
674<br />
675<br />
Artifact Removal from Vasculature Origin in fMRI<br />
Analysis using fMRI-NIRS Simultaneous Recording<br />
Sungho Tak1 , Jong Chul Ye1 1Dept. of Bio and <strong>Brain</strong> Engineering, KAIST, Daejeon,<br />
Korea, Republic of<br />
Correlated noise correction in 2D and 3D fMRI<br />
at 7 Tesla<br />
João Jorge 1 , Patrícia Figueiredo 1 , Wietske van der Zwaag 2 ,<br />
Mayur Narsude 2 , José Marques 2<br />
1 Institute <strong>for</strong> Systems and Robotics / Instituto Superior<br />
Técnico, Lisbon, Portugal, 2 Laboratory <strong>for</strong> Functional and<br />
Metabolic Imaging / École Polytechnique Fédérale de<br />
Lausanne, Lausanne, Switzerland<br />
Patterns of inter-subject covariance in grey matter:<br />
a Linked ICA analysis using FreeSurfer and VBM<br />
Adrian Groves 1 , Lars Westlye 2 , Stephen Smith 1 ,<br />
Mark Woolrich 3<br />
1 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 2 Center <strong>for</strong> the Study of <strong>Human</strong> Cognition,<br />
Dept. of Psychology, University of Oslo, Oslo, Norway,<br />
3 Ox<strong>for</strong>d Centre <strong>for</strong> <strong>Human</strong> <strong>Brain</strong> Activity, University of<br />
Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom<br />
Comparison of Image Distortion Correction<br />
Algorithms <strong>for</strong> MRI<br />
Rui Lavrador 1 , Liliana Caldeira 2 , Filipe Janela 2 ,<br />
Nicolás Lori 3<br />
1 Faculty of Sciences and Technology of University of<br />
Coimbra, Coimbra, Portugal, 2 Siemens S.A. Healthcare<br />
Sector, Porto, Portugal, 3 IBILI, Faculty of Medicine,<br />
University of Coimbra, Coimbra, Portugal<br />
A semi-automatic method <strong>for</strong> determining electrode<br />
positions and labels from artefacts in EEG/fMRI<br />
Jan De Munck 1 , Petra van Houdt 2 , Ruud Verdaasdonk 3 ,<br />
Pauly Ossenblok 4<br />
1 Amsterdam, Netherlands, 2 Epilepsy Centre<br />
Kempenhaeghe, Heeze, Netherlands, 3 VU<br />
University Medical Center, Amsterdam, Netherlands,<br />
4 Kempenhaeghe, Heeze, Netherlands<br />
Topological Correction of Three-Dimensional Volumes<br />
Using Spherical Harmonics<br />
Rachel Yotter 1 , Robert Dahnke 2 , Paul Thompson 3 ,<br />
Christian Gaser 1<br />
1 Structural <strong>Brain</strong> <strong>Mapping</strong> Group, Department of<br />
Psychiatry, University of Jena, Jena, Germany,<br />
2 Universitätsklinikum Jena, Jena, Germany, 3 Laboratory<br />
of Neuro Imaging, Dept. of Neurology, UCLA School of<br />
Medicine, Los Angeles, United States<br />
Investigating the temporal dynamics of cognition,<br />
a preliminary investigation using BOLD fMRI<br />
Jason Steffener 1 , Yaakov Stern 1<br />
1 Columbia University, New York, NY<br />
Artefact removal algorithms <strong>for</strong> co-registered EEG/fMRI<br />
Jan De Munck 1 , Petra van Houdt 2 , Ruud Verdaasdonk 3 ,<br />
Pauly Ossenblok 4<br />
1 Amsterdam, Netherlands, 2 Epilepsy Centre<br />
Kempenhaeghe, Heeze, Netherlands, 3 VU<br />
University Medical Center, Amsterdam, Netherlands,<br />
4 Kempenhaeghe, Heeze, Netherlands<br />
150 HBM 2011 >> <strong>abstracts</strong><br />
676<br />
677<br />
678*<br />
679*<br />
680*<br />
681*<br />
682*<br />
A new likelihood-based simultaneous FDR and<br />
FNR control in neuroimaging<br />
Donghwan Lee 1 , Hyejin Kang 2 , Eunkyung Kim 1 ,<br />
Youngjo Lee 1 , Dong Soo Lee 3<br />
1 Seoul National University, Seoul, Korea, Republic of,<br />
2 Seoul National University College of Med, Seoul,<br />
Korea, Republic of, 3 Seoul National University College<br />
of Medicine, Seoul, Korea, Republic of<br />
A Framework <strong>for</strong> Volume Rendering of FreeSurfer<br />
Segmented <strong>Brain</strong> MRI<br />
Ørjan Bergmann 1 , Cecilie Hartberg 1 , Ingrid Agartz 1<br />
1 University of Oslo, Oslo, Norway<br />
Modeling and Analysis Methods<br />
fMRI Connectivity and Network Modeling<br />
Stable Clusters of <strong>Brain</strong> Regions Associated with<br />
Distinct Motor Task-Evoked Hemodynamic Responses,<br />
(O-Th2)<br />
Pierre Orban 1 , Julien Doyon 1 , Richard Hoge 1 , Pierre Bellec 1<br />
1 Functional Neuroimaging Unit, CRIUGM, University of<br />
Montreal, Montreal, Canada<br />
Impaired short-range functional connectivity in<br />
schizophrenia disrupts organization of rfMRI network,<br />
(O-T1)<br />
Aaron Alexander-Bloch 1,2 , Edward Bullmore 2,3 , Petra<br />
Vertes 2 , Reva Stidd 1 , Liv Clasen 1 , Francois Lalonde 1 ,<br />
Jay Giedd 1 , Nitin Gogtay 1<br />
1 NIMH Child Psychiatry Branch, Bethesda, MD, USA,<br />
2 University of Cambridge <strong>Brain</strong> <strong>Mapping</strong> Unit, Cambridge,<br />
United Kingdom, 3 GlaxoSmithKline, Cambridge,<br />
United Kingdom<br />
Spontaneous fluctuations in end-tidal PCO2 and<br />
apparent resting state functional connectivity, (O-Th2)<br />
Cecile Madjar 1 , Claudine J Gauthier 2,1 , Pierre Bellec 1 ,<br />
Rasmus M Birn 3 , Richard D. Hoge 2,1<br />
1 CRIUGM, Montreal, Quebec, Canada, 2 Université de<br />
Montréal, Physiology/Biomedical Engineering, Montreal,<br />
Quebec, 3 University of Wisconsin, Madison, WI<br />
Connectome-Wide Association Studies (CWAS):<br />
A Multivariate Distance-Based Approach, (O-Th2)<br />
Zarrar Shehzad 1 , Philip Reiss 2 , Jonathan Adelstein 3 ,<br />
John Emerson 4 , Camille Chabernaud 3 , Maarten Mennes 3 ,<br />
Adriana Di Martino 3 , Clare Kelly 3 , F Xavier Castellanos 3 ,<br />
Michael Milham 3<br />
1 Department of Psychology, Yale University, New Haven,<br />
United States, 2 NYU Langone Medical Center, New York,<br />
United States, 3 Phyllis Green and Randolph Cōwen<br />
Institute <strong>for</strong> Pediatric Neuroscience, NYU Langone Medical<br />
Center, New York, United States, 4 Department of Statistics,<br />
Yale University, New Haven, United States<br />
Complex Network Decoding: Towards an Integration of<br />
Graph Theory and Multivariate Pattern Analysis, (O-Th2)<br />
Matthias Ekman 1 , Jan Derrfuss 1 , Christian Fiebach 2 ,<br />
Marc Tittgemeyer 3<br />
1 Nijmegen, Netherlands, 2 Frankfurt, Germany, 3 Max-Planck-<br />
Institute <strong>for</strong> Neurological Research, Cologne, Germany
Modeling and Analysis Methods<br />
fMRI Connectivity and Network Modeling, continued<br />
683**<br />
684**<br />
685<br />
686<br />
687<br />
688<br />
689<br />
690<br />
691<br />
T2*-Dependence Distinguishes Functional Networks<br />
from artifact Components in Individual-Subject ICa<br />
Prantik Kundu 1 , Souheil Inati 1 , Peter Bandettini 1 ,<br />
Jennifer Evans 1 , Wen-Ming Luh 1<br />
1 NIMH, Bethesda, MD<br />
Dynamic Causal modelling of eeg-fmrI data of<br />
epileptic seizures<br />
Teresa Murta 1 , Alberto Leal 2 , Patrícia Figueiredo 1<br />
1 Institute <strong>for</strong> Systems and Robotics / Instituto Superior<br />
Técnico, Lisbon, Portugal, 2 Hospital Júlio de Matos,<br />
Lisbon, Portugal<br />
SHFP-Self-organizing and Hierarchical Functional <strong>Brain</strong><br />
Parcellation<br />
Wei Gao 1 , Weili Lin 1<br />
1 University of North Carolina at Chapel Hill, Chapel Hill, NC<br />
Behavioral relevance of temporal variations in brain<br />
network connectivity<br />
Catie Chang 1 , Xingping Shen 1 , Gary Glover 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA<br />
Driving and Driven architectures of Small-World<br />
Directed Functional Networks of the <strong>Human</strong> <strong>Brain</strong><br />
Chao-Gan Yan 1 , Yong He 1<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing, China<br />
<strong>Brain</strong> Network Connectivity and Behaviour<br />
enhancement: a fmrI-BCI Study<br />
Sergio Ruiz 1,2 , Tilo Kircher 3 , Niels Birbaumer 1 ,<br />
Ranganatha Sitaram 1<br />
1 Institute of Medical Psychology and Behavioral<br />
Neurobiology, University of Tuebingen, Tuebingen,<br />
Germany, 2 Psychiatry Department, Medicine School,<br />
Pontificia Universidad Catolica de Chile, Santiago,<br />
Chile, 3 Klinik für Psychiatrie und Psychotherapie der<br />
Philipps-Universität Marburg, Marburg, Germany<br />
Functional connectivity of the rTPJ as a core region in<br />
stimulus-context integration<br />
Oliver Jakobs 1 , Svenja Caspers 2 , Christian Roski 2 ,<br />
Edna-Clarisse Cieslik 2 , Witali Pomjanski 3 , Robert Langner 2 ,<br />
Karl Zilles 2 , Peter Fox 4 , Simon Eickhoff 1<br />
1 Department of Psychiatry and Psychotherapy,<br />
Aachen, Germany, 2 Research Center Jülich, Institute of<br />
Neuroscience and Medicine, Jülich, Germany, 3 C. and O.<br />
Vogt Institute <strong>for</strong> <strong>Brain</strong> Research, University of Düsseldorf,<br />
Düsseldorf, Germany, 4 University Of Texas Health Science<br />
Center At San Antonio, San Antonio, United States<br />
Capturing inter-subject variability with group ICa of<br />
fmrI data: a simulation study<br />
Elena Allen 1 , Erik Erhardt 1 , Yonghua Wei 2 , Tom Eichele 3 ,<br />
Vince Calhoun 1<br />
1 Mind Research Network, Albuquerque, United States,<br />
2 University of New Mexico, Albuquerque, United States,<br />
3 University of Bergen, Bergen, Norway<br />
minimum Spanning Tree of the Default mode Network<br />
during alzheimer’s Disease<br />
Koray Ciftci 1<br />
1 Namik Kemal University, Corlu Engineering Faculty,<br />
Department of Biomedical Engineering, Tekirdag, Turkey<br />
692<br />
693<br />
694<br />
695<br />
696<br />
697<br />
698<br />
Large-scale functional-connectivity graphical models<br />
<strong>for</strong> individual subjects using population prior<br />
Gael Varoquaux 1 , Alexandre Gram<strong>for</strong>t 2 , Jean Baptiste<br />
Poline 3 , Bertrand Thirion 4<br />
1 Gif-sur-Yvette, France, 2 INRIA - CEA Neurospin, France,<br />
3 CEA-I2BM-Neurospin, 4 INRIA Futurs, Orsay, France<br />
FmrI resting State Connectivity is modulated by<br />
eeg alpha-band Synchronization<br />
Rene Scheeringa 1 , Karl-Magnus Petersson 2 , Ole Jensen 2 ,<br />
Marcel Bastiaansen 3<br />
1 Radboud University Nijmegen, Donders Institute <strong>for</strong> <strong>Brain</strong><br />
Cognition and Behaviour, 2 Radboud University Nijmegen,<br />
Donders insitute fro <strong>Brain</strong>, Cognition and Behaviour,<br />
Nijmegen, Netherlands, 3 Max Planck Institute For<br />
Psycholinguistics, Nijmegen, Netherlands<br />
Phase synchronization in very low frequency<br />
fluctuations of fmrI data<br />
Gabriele Lohmann 1 , Maren Grigutsch 1 , Daniel Margulies 2 ,<br />
Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Berlin School of Mind and<br />
<strong>Brain</strong>, Humboldt University, Berlin , Germany<br />
The Neural Correlates of Behavioral Styles in response<br />
to Intrapsychic Conflict<br />
Sebastian Urchs 1 , Margaret Zellner 2 , Michael Milham 3 ,<br />
Arno Villringer 4 , Daniel Margulies 4<br />
1 Ludwig-Maximilians Universität, Munich, Germany,<br />
2 The Rockefeller University, New York, United States,<br />
3 New York University, New York, United States,<br />
4 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
Subcortical to Cortical Connectivity revealed using<br />
multi-echo fmrI with T2* modeling<br />
Prantik Kundu 1 , Souheil Inati 1 , Jennifer Evans 1 ,<br />
Wen-Ming Luh 1 , Peter Bandettini 1<br />
1 NIMH, Bethesda, MD<br />
Is respiration modulation of resting State fmrI Signals<br />
Noise or Function?<br />
Najmeh Khalili Mahani 1,2 , Christian F Beckmann 3 ,<br />
Matthias J. P. van Osch 1 , Catherine Chang 4 ,<br />
Joop Van Gerven 5,1 , Serge Rombouts 1,2<br />
1 Leiden University Medical Center, Leiden, Netherlands,<br />
2 Leiden Institute <strong>for</strong> <strong>Brain</strong> and Cognition, Leiden,<br />
Netherlands, 3 University Of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 4 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States,<br />
5 Center <strong>for</strong> <strong>Human</strong> Drug Research, Leiden, Netherlands<br />
Filtering induces correlation in fmrI resting state data<br />
Catherine Davey 1,2 , David Grayden 3 , Gary Egan 4,5 ,<br />
Leigh Johnston 6<br />
1 Electronic Engineering, University of Melbourne, Victoria,<br />
Australia, 2 NICTA Victorian Research Laboratory, Victoria,<br />
Australia, 3 University of Melbourne, Melbourne, Victoria,<br />
4 Howard Florey Institute, Parkville, Victoria, 5 Centre <strong>for</strong><br />
Neuroscience, University of Melbourne, Victoria, Australia,<br />
6 University of Melbourne, Parkville, Victoria<br />
HBM 2011 >> <strong>abstracts</strong> 151<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Modeling and Analysis Methods<br />
fMRI Connectivity and Network Modeling, continued<br />
699<br />
700<br />
701<br />
702<br />
703<br />
704<br />
705<br />
effects of nicotine and fatigue on brain network<br />
topology in smoking subjects<br />
Carsten Giessing 1,2 , Christiane Thiel 2 , Edward Bullmore 1,3<br />
1 Behavioural & Clinical Neuroscience Institute, University<br />
of Cambridge, Cambridge, United Kingdom, 2 Biological<br />
Psychology Lab, Institute of Psychology, University<br />
of Oldenburg, Oldenburg, Germany, 3 Clinical Unit<br />
Cambridge, GlaxoSmithKline, Addenbrooke’s Centre <strong>for</strong><br />
Clinical Investigations, Cambridge, United Kingdom<br />
on connectivity within the Default mode Network:<br />
an ICa and tractography approach<br />
Erik van Oort 1 , David Norris 1<br />
1 Radboud University Nijmegen, Donders Institute For<br />
<strong>Brain</strong>, Cognition And Behaviour, Nijmegen, Netherlands<br />
Independent sources of spontaneous BoLD fluctuation<br />
along the visual pathway<br />
Jacco de Zwart 1 , Peter van Gelderen 1 , Zhongming Liu 1 ,<br />
Jeff Duyn 1<br />
1 Advanced MRI section, LFMI, NINDS, National Institutes<br />
of Health, Bethesda, MD<br />
Small-world architecture of cortico-basal ganglia<br />
circuits in gilles de la Tourette syndrome<br />
caroline malherbe 1,2 , Yulia Worbe 3,4 , Arnaud Messé 5,2 ,<br />
Andreas Hartmann 4,3 , Mélanie Pélégrini-Issac 5 , Marie<br />
Vidailhet 4,3 , Stéphane Lehéricy 4,2 , Habib Benali 6,2<br />
1 UMR-S678 Laboratoire d’Imagerie Fonctionnelle,<br />
2 IFR 49, Gif-sur-Yvette, France, 3 INSERM CIC 9503, Hopital<br />
Pitié Salpêtrière, Paris, France, 4 CRICM, CNRS UMR 7225,<br />
INSERM UMR_S 975, Paris, France, 5 INSERM / UPMC<br />
Univ. Paris 06, UMR_S678, LIF, Paris, France, 6 INSERM/<br />
UPMC, Paris, France<br />
model-free analysis of fmrI data using Connectivity<br />
Concordance mapping (CCm)<br />
Gabriele Lohmann 1 , Daniel Margulies 2 , Arno Villringer 1 ,<br />
Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Berlin School of Mind and<br />
<strong>Brain</strong>, Humboldt University, Berlin , Germany<br />
resting-State Networks at Higher Frequencies<br />
using mr-encephalography<br />
Hsu-Lei Lee 1 , Benjamin Zahneisen 1 , Thimo Grotz 1 ,<br />
Jürgen Hennig 1<br />
1 University Medical Center Freiburg, Freiburg, Germany<br />
resting-state correlations between depths within<br />
columns of voxels radial to the cortical surface<br />
Jonathan Polimeni 1,2 , Kyoko Fujimoto 1 , Boris Keil 1,2 ,<br />
Douglas Greve 1,2 , Bruce Fischl 1,2,3 , Lawrence Wald 1,2,4<br />
1 A.A. Martinos Center <strong>for</strong> Biomedical Imaging,<br />
Department of Radiology, Massachusetts General Hospital,<br />
Charlestown, MA, United States, 2 Harvard Medical School,<br />
Boston, MA, United States, 3 CSAIL, Massachusetts<br />
Institute of Technology, Cambridge, MA, United States,<br />
4 Harvard-MIT Division of Health Sciences and Technology,<br />
Cambridge, MA, United States<br />
152 HBM 2011 >> <strong>abstracts</strong><br />
706<br />
707<br />
708<br />
709<br />
710<br />
711<br />
712<br />
Functional and structural connectivity of visuospatial<br />
and visuoperceptive working memory<br />
Roser Sala-Llonch 1 , Eva Palacios-Martinez 2 ,<br />
Carme Junque 1 , Nuria Bargallo 3 , Pere Vendrell 1<br />
1 University of Barcelona, Barcelona, Spain,<br />
2 University Of Barcelona, Barcelona, Spain,<br />
3 Neuroradiology Unit. Imaging Diagnostic Center.<br />
Hospital Clinic Barcelona. IDIBAPS, Barcelona, Spain<br />
Cognitive flexibility is related to functional maturity<br />
within striatal networks<br />
Manuel Garcia-Garcia 1 , Maarten Mennes 1 , Adriana Di<br />
Martino 1 , Francisco Castellanos 1,2 , Michael Milham 1,2 ,<br />
Clare Kelly 1<br />
1 Phyllis Green and Randolph Cowen Institute <strong>for</strong> Pediatric<br />
Neuroscience, New York, NY, 2 Nathan Kline Institute <strong>for</strong><br />
Psychiatric Research, Orangeburg, NY<br />
effects of prolonged attentional per<strong>for</strong>mance on resting<br />
state topology<br />
Thomas Breckel 1 , Christiane Thiel 1 , Edward Bullmore 2,3 ,<br />
Carsten Giessing 1,2<br />
1 Biological Psychology Lab, Institute of Psychology,<br />
University of Oldenburg, Oldenburg, Germany,<br />
2 Behavioural & Clinical Neuroscience Institute, University<br />
of Cambridge, Cambridge, United Kingdom, 3 Clinical Unit<br />
Cambridge, GlaxoSmithKline, Addenbrooke’s Centre <strong>for</strong><br />
Clinical, Cambridge, United Kingdom<br />
Visualising functional connectivity in fmrI using<br />
hierarchical edge bundles<br />
John McGonigle 1 , Andrea Malizia 1 , Majid Mirmehdi 1<br />
1 University of Bristol, Bristol, United Kingdom<br />
Task per<strong>for</strong>mance globally reduces nonstationarity<br />
of functional connectivity<br />
Evan Gordon 1 , Melanie Stollstorff 2 , Stephanie Bean 1 ,<br />
Chandan Vaidya 1<br />
1 Georgetown University, Washington, DC,<br />
2 University of Colorado at Boulder, Boulder, CO<br />
Changes in the Composition of modules Following<br />
Focal <strong>Brain</strong> Lesions<br />
Emi Nomura1 , Caterina Gratton1 , Fernando Perez1 ,<br />
Mark D’Esposito1 1Helen Wills Neuroscience Institute, UC Berkeley,<br />
Berkeley, CA<br />
Changes in default mode relative to task positive mode<br />
in short time intervals predict vigilance<br />
Garth Thompson1 , Matthew Magnuson1 , Michael Merritt2 ,<br />
Hillary Schwarb2 , Wenju Pan1 , Andrew McKinley3 ,<br />
Eric Schumacher2 , Shella Keilholz1 1Georgia Institute of Technology and Emory University,<br />
Atlanta, GA, 2Georgia Institute of Technology, Atlanta, GA,<br />
3Air Force Research Lab, Wright-Patterson Air Force<br />
Base, OH
Modeling and Analysis Methods<br />
fMRI Connectivity and Network Modeling, continued<br />
713<br />
714<br />
715<br />
716<br />
717<br />
718<br />
719<br />
720<br />
reduction of acquisition time in functional connectivity<br />
mrI with 32-channel phased array head coil<br />
Sheeba Anteraper 1 , Susan Whitfield-Gabrieli 2 ,<br />
Steven Shannon 1 , John Gabrieli 2 , Christina Triantafyllou 1<br />
1 A.A. Martinos Imaging Center, McGovern Institute<br />
<strong>for</strong> <strong>Brain</strong> Research, MIT, Cambridge, United States,<br />
2 Department of <strong>Brain</strong> and Cognitive Sciences, MIT,<br />
Cambridge, United States<br />
atypical organization of local and distant functional<br />
connectivity in childhood aDHD<br />
Xiaozhen You 1 , Evan Gordon 1 , Chandan Vaidya 1,2<br />
1 Georgetown University, Washington, DC,<br />
2 Children’s National Medical Center, Washington, DC<br />
Increasing fmrI sampling rate improves granger<br />
causality estimates<br />
Fa-Hsuan Lin1,2 , Jyrki Ahveninen3 , Tommi Raij3 ,<br />
Thomas Witzel3 , Ying-Hua Chu4 , Kevin Wen-Kai Tsai4 ,<br />
Wen-Jui Kuo5 , John Belliveau3 1 2 National Taiwan University, Taipei, Taiwan, Martinos<br />
Center, Charlestown, MA, 3Martinos Center, Massachusetts<br />
General Hospital, Charlestown, MA, 4Institute of Biomedical<br />
Engineering, National Taiwan University, Taipei, Taiwan,<br />
5Institute of Neuroscience, National Yang Ming University,<br />
Taipei, Taiwan<br />
Negative weights and degeneracy in complex<br />
functional brain networks<br />
Mikail Rubinov 1,3 , Olaf Sporns 2<br />
1 University of New South Wales, 2 Indiana University,<br />
Bloomington, IN, 3 CSIRO In<strong>for</strong>mation and Communication<br />
Technologies Centre<br />
mirror Visual Feedback Therapy <strong>for</strong> Phantom Pain:<br />
Changes in Functional Connectivity Patterns<br />
Karl-Heinz Nenning1 , Stefan Seidel1 , Gregor Kasprian1 ,<br />
Julia Furtner1 , Veronika Schoepf1 , Daniela Prayer1 ,<br />
Georg Langs2 1 2 Medical University of Vienna, Vienna, Austria, Mit,<br />
United States<br />
Task Specific modulations in BoLD fmrI Coherence<br />
during action and object Naming<br />
Claire Stevenson 1 , Mia Liljeström 1 , Jan Kujala 1 ,<br />
Riitta Salmelin 2<br />
1 <strong>Brain</strong> Research Unit, Low Temperature Laboratory,<br />
Aalto University, AALTO, Finland, 2 Helsinki University of<br />
Technology, Helsinki, Finland<br />
Comparison between partial and semi-partial<br />
correlation on resting-state functional connectivity<br />
Yunyun Zhu 1 , Chao-Gan Yan 1 , Yufeng Zang 1,2<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing, China,<br />
2 Center <strong>for</strong> <strong>Human</strong> <strong>Brain</strong> Research and Affiliated Hospital,<br />
Hangzhou Normal University, Hangzhou, China<br />
Withdrawn<br />
721<br />
722<br />
723<br />
724<br />
725<br />
726<br />
727<br />
728<br />
effective connectivity in fmrI resting state data via<br />
blind deconvolution<br />
Martin Havlicek 1,2,3 , Karl Friston 4 , Jiri Jan 1 , Milan Brazdil 5 ,<br />
Vince Calhoun 3,2<br />
1 Brno University of Technology, Brno, Czech Republic,<br />
2 University of New Mexico, Albuquerque, NM, 3 The Mind<br />
Research Network, Albuquerque, NM, 4 Wellcome Trust<br />
Centre <strong>for</strong> Neuroimaging, UCL, London, United Kingdom,<br />
5 First Department of Neurology, Masaryk University,<br />
St. Anne’s Faculty Hospital, Pekarska 53, Brno 65, Brno,<br />
Czech Republic<br />
Stage-Specific Neural Networks Involved in Working<br />
memory: a multivariate analysis<br />
Todd Woodward 1 , Dara Manoach 2<br />
1 University of British Columbia, Vancouver, Canada,<br />
2 Massachusetts General Hospital, Charlestown, MA<br />
Seeing the Forest from the Trees: making group<br />
Inferences from Individual Connectivity maps<br />
Kathleen Gates1 , Peter Molenaar1 , John Medaglia1 1The Pennsylvania State University, State College, PA,<br />
United States<br />
The ubiquity of small-world networks<br />
Qawi Teles<strong>for</strong>d 1 , Karen Joyce 1 , Jonathan Burdette 1 ,<br />
Paul Laurienti 1 , Satoru Hayasaka 1<br />
1 Wake Forest University School of Medicine, Winston-<br />
Salem, NC United States<br />
exploring Single Day Variations in resting<br />
State Connectivity<br />
Paul Guillod 1 , Adam Thomas 1 , Prantik Kundu 1 ,<br />
Jennifer Evans 1 , Peter Bandettini 1<br />
1 NIHM, NIH, DHHS, Bethesda, MD<br />
Detection of abnormal resting state networks in<br />
epileptic patients<br />
Christian L Dansereau 1 , Francesca Pittau 1 ,<br />
Pierre Bellec 2 , Jean Gotman 1 , Christophe Grova 3<br />
1 McGill University - MNI, Montreal, Canada,<br />
2 CRIUGM, Montreal , Canada, 3 Biomedical Engineering<br />
Department, MNI, McGill University, Montreal, Canada<br />
anatomical and Functional Connectivity of<br />
Cytoarchitectonic areas on the <strong>Human</strong><br />
Parietal operculum<br />
Simon Eickhoff 1 , Saad Jbabdi 2 , Svenja Caspers 3 ,<br />
Angela R. Laird 4 , Peter Fox 5 , Karl Zilles 6 , Timothy Behrens 7<br />
1 Dept. of Psychiatry, UK Aachen, Aachen, Germany,<br />
2 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 3 Institute of Neuroscience and Medicine, INM-<br />
2, Research Center Julich, Julich, Germany, 4 Research<br />
Imaging Center, University of Texas Health Science Center<br />
at San Antonio, San Antonio, TX, 5 University Of Texas<br />
Health Science Center At San Antonio, San Antonio, United<br />
States, 6 Institute of Neuroscience and Medicine, Jülich,<br />
Germany, 7 Ox<strong>for</strong>d Centre <strong>for</strong> Functional MRI of the <strong>Brain</strong><br />
(FMRIB), Ox<strong>for</strong>d, United Kingdom<br />
Development of differentiation in amygdalar<br />
subregional functional connectivity in young children<br />
Shaozheng Qin 1 , Christina Young 1 , Vinod Menon 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA, United States<br />
HBM 2011 >> <strong>abstracts</strong> 153<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Modeling and Analysis Methods<br />
fMRI Connectivity and Network Modeling, continued<br />
729<br />
730<br />
731<br />
732<br />
733<br />
734<br />
735<br />
736<br />
age-related spectral connectivity analysis of<br />
fmrI data from children listening to stories<br />
Xiangxiang Meng 1 , Prasanna Karunanayaka 2 ,<br />
Xiaodong Lin 3 , Scott Holland 1<br />
1 Cincinnati Children’s Hospital, University of Cincinnati,<br />
Cincinnati, United States, 2 Department of Radiology<br />
(Center <strong>for</strong> NMR Research), The Pennsylvania State<br />
University, Hershey, PA, 3 Department of Management<br />
Science and In<strong>for</strong>mation Systems, Rutgers University,<br />
Piscataway, NJ<br />
Interhemispheric integration in early alzheimer’s<br />
disease: a dynamic causal modeling study<br />
Romana Rytsar 1 , Eleonora Fornari 2 , Richard Frackowiak 1 ,<br />
Maria Knyazeva 3,4<br />
1 Clinical Neuroscience Dept., CHUV and University of<br />
Lausanne, Lausanne, Switzerland, 2 CIBM - CHUV unit,<br />
Radiology Dept., CHUV and University of Lausanne,<br />
Lausanne, Switzerland, 3 LREN, Clinical Neuroscience<br />
Dept., CHUV and University of Lausanne, Lausanne,<br />
Switzerland, 4 Radiology Dept., CHUV and University of<br />
Lausanne, Lausanne, Switzerland<br />
Determining state-related changes in brain connectivity<br />
Ivor Cribben 1 , Ragnheidur Haraldsdottir 1 , Tor Wager 2 ,<br />
Martin Lindquist 1<br />
1 Columbia University, New York, NY,<br />
2 University of Colorado at Boulder, Boulder, CO<br />
evaluating a novel fmrI analysis <strong>for</strong> identifying regions<br />
with common multivoxel encoding principles<br />
Marc Coutanche 1 , Sharon Thompson-Schill 1<br />
1 University of Pennsylvania, Philadelphia, PA<br />
a Dynamic Causal modeling Study on Working<br />
memory Load<br />
Liangsuo Ma 1 , Joel Steinberg 1 , Khader Hasan 1 , Ponnada<br />
Narayana 1 , Larry Kramer 1 , F. Gerard Moeller 1<br />
1 University of Texas Health Science Center at Houston,<br />
Houston, United States<br />
State Space modeling as roI Dimension reduction<br />
and effective Connectivity <strong>for</strong> BoLD fmrI data<br />
John Medaglia 1 , Kathleen Gates 2 , Peter Molenaar 2<br />
1 The Pennsylvania State University, 2 The Pennsylvania<br />
State University, State College, PA<br />
Task or rest? I’m game. Linking Intrinsic and<br />
extrinsic <strong>Brain</strong> architecture at the regional Level<br />
Maarten Mennes 1 , Clare Kelly 1 , Stan Colcombe 2,1 ,<br />
Adriana Di Martino 1 , F Xavier Castellanos 1,2 ,<br />
Michael Milham 1,2<br />
1 Phyllis Green and Randolph Cōwen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
United States, 2 Nathan S. Kline Institute <strong>for</strong> Psychiatric<br />
Research, Orangeburg, United States<br />
Persistent and Stable <strong>Brain</strong>map-Based ICa Networks<br />
Reese McKay 5 , Kimberly Ray 1 , Mickle Fox 1 , Christian<br />
Beckmann 2 , Stephen Smith 2 , Peter Fox 1 , Angela Laird 1<br />
1 Research Imaging Institute, San Antonio, TX, USA,<br />
2 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d,<br />
United Kingdom, 5 CSIRO In<strong>for</strong>mation and Communication<br />
Technologies Centre<br />
154 HBM 2011 >> <strong>abstracts</strong><br />
737<br />
738<br />
739<br />
740<br />
741<br />
742<br />
743<br />
744<br />
Non-Linear Habituation effects of the olfactory System:<br />
an Independent Component analysis<br />
Prasanna Karunanayaka 1 , Christopher Weitekamp 1 ,<br />
Jianli Wang 1 , Paul Eslinger 2,3 , Quing Yang 2,4<br />
1 Radiology, Center <strong>for</strong> NMR Research, Penn State<br />
University College of Medicine, Hershey, PA, 2 Radiology,<br />
Center <strong>for</strong> NMR Research, PennState University College of<br />
Medicine, Hershey, PA, 3 Neurology, Penn State University<br />
College of Medicine, Hershey, PA, 4 Neurosurgery, Penn<br />
State University College of Medicine, Hershey, PA<br />
estimation of sparse partial correlation in fmrI data<br />
using elastic net penalty<br />
Srikanth Ryali 1 , Tianwen Chen 1 , Kaustubh Supekar 1 ,<br />
Daniel Abrams 1 , Vinod Menon 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States<br />
Hypothesis-based and Data-Driven approaches to<br />
modeling Instantaneous Causal Networks<br />
Gang Chen 1 , Ziad S. Saad 1 , J. Paul Hamilton 2 , Ian Gotlib 2 ,<br />
Robert Cox 1<br />
1 Scientific and Statistical Computing Core, National<br />
Institute of Mental Health, NIH, Bethesda, Maryland, USA,<br />
2 Mood and Anxiety Disorders Laboratory, Department of<br />
Psychology Stan<strong>for</strong>d University, Stan<strong>for</strong>d, Cali<strong>for</strong>nia, USA<br />
FIar: an r package to analyze Functional Integration<br />
in the <strong>Brain</strong><br />
Bjorn Roelstraete1 , Yves Rosseel2 1 2 Ghent University, Belgium, Ghent University,<br />
Gent, Belgium<br />
effect of Tr on a spectral effective connectivity<br />
fmrI study<br />
João Rodrigues 1 , Alexandre Andrade 1 , Henrique<br />
Fernandes 2 , Patrícia Figueiredo 3<br />
1 IBEB/FCUL, Lisbon, Portugal, 2 Biosurfit, SA, Lisbon,<br />
Portugal, 3 Institute <strong>for</strong> Systems and Robotics / Instituto<br />
Superior Técnico, Lisbon, Portugal<br />
Neurobiological conditions <strong>for</strong> self-organized criticality<br />
in large networks of spiking neurons<br />
Mikail Rubinov 1,5 , Jean-Philippe Thivierge 2 , Olaf Sporns 3 ,<br />
Michael Breakspear 4<br />
1 University of New South Wales, 2 National Research<br />
Council of Canada, Ottawa, Canada, 3 Indiana University,<br />
Bloomington, IN, 4 Queensland Institute of Medical<br />
Research, Brisbane, Australia, 5 CSIRO In<strong>for</strong>mation and<br />
Communication Technologies Centre<br />
Study of the effective connectivity of the motor system<br />
during a planning/execution task using DCm<br />
Elvis Silva 1,2 , Gabriela Castellano 1,2<br />
1 Institute of Physics “Gleb Wataghin”, University of<br />
Campinas - UNICAMP, Campinas, Brazil, 2 CInAPCe<br />
Program (Cooperação Interinstitucional de Apoio a<br />
Pesquisas sobre o Cérebro), São Paulo, Brazil<br />
effective Connectivity analysis: Some Issues and<br />
Possible Solutions using Linear Dynamic Systems<br />
Jason Smith 1 , Ajay Pillai 1 , Kewei Chen 2 , Barry Horwitz 1<br />
1 NIDCD, National Institutes of Health, Bethesda, MD,<br />
2 Arizona State University, Tempe, AZ
Modeling and Analysis Methods<br />
fMRI Connectivity and Network Modeling, continued<br />
745<br />
746<br />
747<br />
748<br />
749<br />
750<br />
relative Connectivity: Sensitive to Changes in<br />
roI Size With No Dependence on SNr and CNr<br />
Ali Golestani 1 , Bradley Goodyear 2,3<br />
1 Biomedical Engineering, University of Calgary, Calgary,<br />
Canada, 2 Radiology & Clinical Neuroscience, University<br />
of Calgary, Calgary, AB, 3 Seaman Family MR Research<br />
Centre, Calgary, Canada<br />
Comparing Simulated and experimental Functional<br />
Neuroimaging Data in a Common <strong>Brain</strong> Space<br />
Rainer Goebel 1 , Barry Horwitz 2<br />
1 Maastricht University, Maastricht, Netherlands,<br />
2 NIDCD-NIH, Rockville, United States<br />
The Functional Connectivity of Broca’s and<br />
Wernicke’s areas: a meta-analytic approach<br />
Donald Robin 1 , Simon Eickhoff 2 , Jordan Manes 3 ,<br />
Peter Fox 4 , Angela R. Laird 5<br />
1 University of Texas Health Science Center at San Antonio,<br />
San Antonio, United States, 2 Department of Psychiatry and<br />
Psychotherapy, Aachen, Germany, 3 University of Texas,<br />
San Antonio, San Antonio, TX, 4 University Of Texas Health<br />
Science Center At San Antonio, San Antonio, United<br />
States, 5 Research Imaging Center, University of Texas<br />
Health Science Center at San Antonio, San Antonio, TX<br />
Towards network fmrI neurofeedback: which<br />
in<strong>for</strong>mation is encoded in activation level vs<br />
correlation?<br />
Anna Zilverstand1 , Bettina Sorger1,2,3 , Jan Zimmermann1 ,<br />
Pegah Sarkheil1 , Amanda Kaas1 , Rainer Goebel1,2 1Faculty of Psychology and Neuroscience, Maastricht<br />
University, Maastricht, Netherlands, 2Maastricht <strong>Brain</strong><br />
Imaging Centre (M-BIC), Maastricht, Netherlands,<br />
3Cyclotron Research Centre, University of Liège, Liège,<br />
Belgium<br />
using rV-PCa to Probe age effects on<br />
Functional Connectivity<br />
Hervé Abdi 1 , Natasa Kovacevic 2 , Cheryl Grady 3 ,<br />
Anthony McIntosh 4<br />
1 The University of Texas at Dallas, Richardson, TX,<br />
2 The Rotman Research Institute, Baycrest, 3560 Bathurst<br />
Street, Toronto, Ontario, 3 Rotman Research Institute at<br />
Baycrest, Toronto, ON, 4 Rotman Research Institute -<br />
Baycrest Centre, Toronto, ON<br />
are the metrics of Functional Connectivity in<br />
resting State fmrI reliable?<br />
Mark Fiecas 1 , Dan van Lunen 2 , Alexandre Coimbra 3 ,<br />
Richard Baumgartner 4 , Dai Feng 4 , Cristina Gorrostieta 5 ,<br />
HERNANDO OMBAO 6<br />
1 Brown University, United States, 2 Brown University,<br />
Providence, RI, 3 Merck Research Laboratories,<br />
United States, 4 Merck Research Laboratories,<br />
Rahway, United States, 5 Brown University, Providence,<br />
United States, 6 UNIVERSITY OF ILLINOIS, Providence,<br />
United States<br />
751<br />
752<br />
753<br />
754<br />
755<br />
756<br />
757<br />
estimating causal interactions from fmrI time series<br />
using granger causality and transfer entropy<br />
Ying-Hua Chu 1 , Yao-Chen Hung 2 , Fa-Hsuan Lin 1<br />
1 Institute of Biomedical Engineering, National Taiwan<br />
University, Taipei, Taiwan- Republic Of China,<br />
2 Department of Physics, National Chung Cheng<br />
University, Chiayi, Taiwan- Republic Of China<br />
optimizing experimental design <strong>for</strong> identifying<br />
networks in the brain using fmrI<br />
Jean Daunizeau 1 , Karl Friston 2 , Klaas Stephan 1<br />
1 Laboratory <strong>for</strong> Social and Neural Systems Research,<br />
Dept. of Economics, University of Zurich, Zurich,<br />
Switzerland, 2 Wellcome Trust Centre <strong>for</strong> Neuroimaging,<br />
UCL, Lodnon, United Kingdom<br />
Can the default-mode network be described with<br />
one spatial-covariance pattern?<br />
Christian Habeck 1 , Jason Steffener 1 , Yaakov Stern 1<br />
1 Columbia University, New York, NY<br />
Functional Connectivity of amygdala and Basal<br />
ganglia with Cortical regions in remitted mDD<br />
Klaudius Kalcher 1,2,3 , Roland N. Boubela 1,2,3 , Wolfgang<br />
Huf 1,2,3 , Gerald Pail 2 , Christian Scharinger 2 , Beate<br />
Hartinger 2 , Christian Windischberger 1 , Peter Filzmoser 3 ,<br />
Ewald Moser 1 , Siegfried Kasper 2 , Lukas Pezawas 2<br />
1 Center <strong>for</strong> Medical Physics and Biomedical Engineering,<br />
Medical University of Vienna, Vienna, Austria,<br />
2 Department of Psychiatry and Psychotherapy, Medical<br />
University of Vienna, Vienna, Austria, 3 Department of<br />
Statistics and Probability Theory, Vienna University of<br />
Technology, Vienna, Austria<br />
Spatio-temporal random effects modeling <strong>for</strong><br />
resting-State Functional Connectivity<br />
Mark Fiecas 1 , Hakmook Kang 1<br />
1 Brown University,United States<br />
Impact of mindfulness meditation Training on the<br />
Default mode Network during a restful State<br />
Veronique Taylor 1,2 , Véronique Daneault 1,2 ,<br />
Joshua Grant 1,2,3 , Geneviève Scavone 1 , Estelle Breton 1 ,<br />
Sébastien Roffe-Vidal 1 , Jérôme Courtemanche 1 ,<br />
Anais Lavarenne 1,2 , Mario Beauregard 1,2,3,4<br />
1 Université de Montréal, Montréal, Canada,<br />
2 Centre de Recherche en Neuropsychologie et Cognition,<br />
Montréal, Canada, 3 Centre de Recherche en Sciences<br />
Neurologiques, Montréal, Canada, 4 Centre de recherche<br />
du Centre hospitalier de la Université de Montréal,<br />
Montréal, Canada<br />
Cortical Network modularity robustly Detected by<br />
Singular Value Decomposition of Connection matrices<br />
Somwrita Sarkar 1 , James Henderson 1 , Peter Robinson 1<br />
1 School of Physics, University of Sydney, Sydney, NSW<br />
HBM 2011 >> <strong>abstracts</strong> 155<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Modeling and Analysis Methods<br />
fMRI Connectivity and Network Modeling, continued<br />
758<br />
759<br />
760<br />
761<br />
762<br />
763<br />
764<br />
Detection of functional organization within primary<br />
somatosensory cortex by resting-state fmrI<br />
Xiangyu Long1 , Till Nierhaus2 , Daniel Margulies3 ,<br />
Birol Taskin4 , Arno Villringer1 1Max Planck Institute For <strong>Human</strong> Cognitive And <strong>Brain</strong><br />
Sciences, Germany, 2Max-Planck-Institute For Cognitive<br />
And <strong>Brain</strong> Sciences, Leipzig, Germany, 3Berlin School of<br />
Mind and <strong>Brain</strong>, Humboldt University, Berlin , Germany,<br />
4Department of Neurology, Charite, Humboldt-University,<br />
Berlin, Germany<br />
Comparative evaluation of functional connectivity<br />
as an age and disease marker<br />
Christian Habeck 1 , Jason Steffener 1 , Yaakov Stern 1<br />
1 Columbia University, New York, NY<br />
measuring resting-State Connectivity in aging and<br />
Behavioral Per<strong>for</strong>mance using Bivariate ar models<br />
Mark Fiecas 1 , Richard Baumgartner 2 , Dai Feng 2 , Marie<br />
Holahan 2 , Christopher Cannon 3 , HERNANDO OMBAO 4 ,<br />
Jef Vivian 5 , Jacquelynn Cook 5 , Donald Williams 2 ,<br />
Alexandre Coimbra 6<br />
1 Brown University, United States, 2 Merck Research<br />
Laboratories, Rahway, United States, 3 Brigham and<br />
Women’s Hospital, Boston, United States, 4 UNIVERSITY<br />
OF ILLINOIS, Providence, United States, 5 Merck<br />
Research Laboratories, West Point, PA, 6 Merck Research<br />
Laboratories, United States<br />
VisualConnectome: Toolbox <strong>for</strong> brain network<br />
visualization and analysis<br />
Dai Dai1 , Huiguang He1 1Institute of Automation, Chinese Academy of Sciences,<br />
Beijing, China<br />
evolving an agent Based model of the <strong>Brain</strong> using<br />
genetic algorithms<br />
Karen Joyce 1 , Paul Laurienti 2 , Satoru Hayasaka 1<br />
1 Wake Forest University, Winston-Salem, United States,<br />
2 Wake Forest University, Winston-Salem, NC<br />
FmrI Connectivity mapping in First year Students<br />
reveals Neural Networks engaged by alcohol Cues<br />
Adriene Beltz 1 , Anna Engels 1 , Stephen Wilson 1 ,<br />
Peter Molenaar 1 , Carmen Pulido 2 , Caitlin Abar 3 ,<br />
Aimee Read 1 , Jeremy Fesi 1 , Susan Lemieux 1 , Susan<br />
Tapert 2 , Robert Turrisi 1 , Sheri Berenbaum 1 , Rick Gilmore 1<br />
1 The Pennsylvania State University, University Park, PA,<br />
2 University of Cali<strong>for</strong>nia San Diego, San Diego, CA,<br />
3 Brown University, Providence, RI<br />
mechanisms <strong>for</strong> Default mode Network Suppression<br />
Michael Ferguson 1 , Jeffrey Anderson 2 ,<br />
Melissa Lopez-Larson 3 , Deborah Yurgelun-Todd 3<br />
1 University of Utah, Salt Lake City, UT, 2 University of Utah,<br />
Salt Lake City, United States, 3 The <strong>Brain</strong> Institute,<br />
University of Utah, Salt Lake City, UT<br />
156 HBM 2011 >> <strong>abstracts</strong><br />
765<br />
766<br />
767<br />
768<br />
769<br />
770<br />
Investigating <strong>Brain</strong> Connectivity using the mixed<br />
effects Vector auto-regressive (me-Var) models<br />
Hernando Ombao 1 , Patrick Bedard 2 , Cristina Gorrostieta 1 ,<br />
Jerome Sanes 3<br />
1 Brown University, Providence, RI, 2 Brown University,<br />
Providence, United States, 3 Brown Medical School,<br />
Providence, United States<br />
anticorrelated Functional Networks of Infant <strong>Brain</strong>s<br />
Zhishun Wang 1 , Pengwei Wang 2 , Lianghua He 1 ,<br />
Barbara Graniello 1 , Guillermo Horga 1 , Bradley Peterson 1<br />
1 Columbia University and NYSPI, New York, NY,<br />
2 Columbia University, New York , NY<br />
<strong>Brain</strong>netome: an emerging Frontier of <strong>Human</strong><br />
<strong>Brain</strong> mapping<br />
Tianzi Jiang1 1Institute Of Automation, Chinese Academy Of Sciences,<br />
Beijing, China<br />
Imaginary coherence of resting-state motor networks<br />
in fmrI<br />
Leighton Hinkley 1 , Kensuke Sekihara 2 , Julia Owen 3 ,<br />
Kelly Westlake 4 , Nancy Byl 5 , Srikantan Nagarajan 3<br />
1 University of Cali<strong>for</strong>nia, San Francisco, 2 Tokyo<br />
Metropolitan University, Tokyo, Japan, 3 Biomagnetic<br />
Imaging Lab, Department of Radiology, University of<br />
Cali<strong>for</strong>nia in San Francisco, San Francisco, CA, 4 University<br />
of Maryland School of Medicine, 5 University of Cali<strong>for</strong>nia,<br />
San Francisco, San Francisco, CA<br />
exploratory analysis of the Functional Connectomes<br />
Database using massively Parallelized FeNICa<br />
Roland Boubela 1,2,3 , Wolfgang Huf 1,2,3 , Klaudius Kalcher 1,2,3 ,<br />
Veronika Schöpf 4 , Christian Scharinger 3 , Gerald Pail 3 ,<br />
Peter Filzmoser 2 , Siegfried Kasper 3 , Ewald Moser 1 ,<br />
Lukas Pezawas 3 , Christian Windischberger 1<br />
1 Center <strong>for</strong> Medical Physics and Biomedical Engineering,<br />
Medical University of Vienna, Vienna, Austria, 2 Department<br />
of Statistics and Probability Theory, Vienna University of<br />
Technology, Vienna, Austria, 3 Department of Psychiatry<br />
and Psychotherapy, Medical University of Vienna, Vienna,<br />
Austria, 4 MR Centre of Excellence, Medical University of<br />
Vienna, Vienna, Austria<br />
Connectivity in math-gifted adolescents:<br />
Comparing Sem with granger Causality analysis<br />
Allison McMahon 1 , Joseph Bates 1 , Bian Li 1 ,<br />
Michael O’Boyle 1 , Mary Baker 1<br />
1 Texas Tech University, Autumn’s Dawn NeuroImaging,<br />
Cognition and Engineering Laboratory, Lubbock, TX
Modeling and Analysis Methods<br />
fMRI Connectivity and Network Modeling, continued<br />
771<br />
772<br />
773<br />
774<br />
775<br />
776<br />
777<br />
<strong>Brain</strong> connectivity in mensa members<br />
Sunghyon Kyeong 1,2 , Minhee Um 3,4 , Chang-Won Jang 3,4 ,<br />
Hae-Jeong Park 3,4<br />
1 <strong>Brain</strong> Korea 21 Project <strong>for</strong> Medical Science, Yonsei<br />
University College of Medicine, Seoul, Republic of<br />
Korea, 2 Department of Radiology and Division of Nuclear<br />
Medicine, Yonsei University College of Medicine, Seoul,<br />
Republic of Korea, 3 <strong>Brain</strong> Korea 21 Project <strong>for</strong> Medical<br />
Science, Yonsei University College of Medicine, Seoul,<br />
Republic Of Korea, 4 Department of Radiology and Division<br />
of Nuclear Medicine, Yonsei University College<br />
of Medicine, Seoul, Republic Of Korea<br />
Does resting- and task-related functional connectivity<br />
differ between children and adults?<br />
Lars Michels 1 , Marcus Kaiser 2 , Rafael Lüchinger 3 ,<br />
Ernst Martin 1 , Daniel Brandeis 3<br />
1 MR-Center, University Children’s Hospital, Zurich,<br />
Switzerland, 2 School of Computing Science, Newcastle,<br />
United Kingdom, 3 Department of Child and Adolescent<br />
Psychiatry, University of Zurich, Zurich, Switzerland<br />
Changes in modular Strength and Structure Following<br />
Focal <strong>Brain</strong> Lesions<br />
Caterina Gratton1 , Emi Nomura1 , Fernando Perez1 ,<br />
Mark D’Esposito1 1Helen Wills Neuroscience Institute, UC Berkeley,<br />
Berkeley, CA<br />
Individual Differences in <strong>Brain</strong> Networks during<br />
Pain Processing: a method <strong>for</strong> assessing modularity<br />
Matthew Steen 1 , Satoru Hayasaka 1 , Oleg Lobanov 1 ,<br />
Paul Laurienti 2 , Robert Coghill 3<br />
1 Wake Forest University School of Medicine, Winston-<br />
Salem, NC, 2 Wake Forest University, Winston-Salem, NC,<br />
3 Wake Forest University School of Medicine, Winston-<br />
Salem, United States<br />
language<br />
Reading and Writing<br />
Neural plasticity underlying a shift from beginning to<br />
skilled reading<br />
Wouter Braet 1 , Joline Rediers 2 , Hans Op de Beeck 2 ,<br />
Johan Wagemans 2<br />
1 University of Leuven (K.U.Leuven), 2 University of<br />
Leuven (K.U. Leuven), Leuven, Belgium<br />
Distributed neural activity patterns related to<br />
phonological reading skill in young readers<br />
Anjali Raja Beharelle 1 , Özlem Ece Demir 2 , Eva Mok 3 ,<br />
Anthony McIntosh 4 , Steven Small 3<br />
1 Rotman Research Institute of Baycrest Centre, 2 University<br />
of Chicago, Chicago, IL, 3 University of Cali<strong>for</strong>nia Irvine,<br />
Irvine, CA, 4 Rotman Research Institute, Toronto, Canada<br />
arcuate and inferior longitudinal fasciculus<br />
development rates predict reading skills<br />
Jason Yeatman1 , Robert Dougherty2 , Michal Ben-Shachar3 ,<br />
Elena Rykhlevskaia2 , Brian Wandell2 1Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States,<br />
2 3 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, CA, Bar-Ilan University,<br />
Ramat Gan, Israel<br />
778<br />
779<br />
780<br />
781<br />
782<br />
783<br />
784<br />
The neural link between fingerspelled and printed<br />
words <strong>for</strong> deaf signers<br />
Jill Weisberg 1 , Jennifer Petrich 1 , Stephen McCullough 1 ,<br />
Karen Emmorey 1<br />
1 Laboratory <strong>for</strong> Language and Cognitive Neuroscience,<br />
San Diego State University, San Diego, CA<br />
resting-State Functional Connectivity in Compensated<br />
Dyslexic Children<br />
Maki Koyama 1 , F. Xavier Castellanos 1 , Adriana Di Martino 1 ,<br />
Devika Jutagir 1 , Clare Kelly 1 , Xi-Nian Zuo 2 ,<br />
Maarten Mennes 1 , Michael Milham 1<br />
1 NYU Child Study Center, New York, United States,<br />
2 Chinese Academy of Sciences, Beijing, China<br />
The role of the left aTL in exception word reading:<br />
reconciling patient and neuroimaging findings<br />
Maximiliano Wilson 1 , Simona Brambati 2 , Sylvie Belleville 3 ,<br />
Yves Joanette 3 , Isabelle Rouleau 4 , Sven Joubert 5<br />
1 Centre de recherche de l’Institut universitaire de gériatrie<br />
de Montréal and UNF, Montreal , Quebec, 2 Centre de<br />
recherche de l’Institut universitaire de gériatrie de Montréal<br />
and UNF, Montreal, Quebec, 3 Centre de recherche<br />
de l’Institut universitaire de gériatrie de Montréal and<br />
Université de Montréal, Montreal, Quebec, 4 Département<br />
de psychologie, Université du Québec à Montréal (UQAM),<br />
Montreal, Quebec, 5 Université de Montréal, Montreal,<br />
Canada<br />
Structural brain connectivity covaries with individual<br />
differences in reading aloud<br />
William Graves 1 , Jeffrey Binder 1 , Rutvik Desai 1 ,<br />
Colin Humphries 1 , Benjamin Stengel 1 , Mark Seidenberg 2<br />
1 Medical College of Wisconsin, Milwaukee, USA,<br />
2 University of Wisconsin, Madison, USA<br />
activation Likelihood estimation (aLe) meta-analysis<br />
of Written Spelling<br />
Jeremy Purcell 1 , Brenda Rapp 2 , Peter Turkeltaub 3 ,<br />
Guinevere Eden 1<br />
1 Center <strong>for</strong> the Study of Learning, Georgetown University<br />
Medical Center, Washington, DC, United States,<br />
2 CogNeuro Research Lab, Department of Cognitive<br />
Science, Johns Hopkins University, Baltimore, MD,<br />
United States, 3 Department of Neurology, University of<br />
Pennsylvania, Philadelphia, PA, United States<br />
The level of activity over the motor cortex impacts<br />
visual processing of handwritten letters<br />
Yannick Wamain 1 , Jessica Tallet 1 , Pier-Giorgio Zanone 1 ,<br />
Marieke Longcamp 1,2<br />
1 PRISSMH-UPS, Toulouse, France, 2 INCM, CNRS-<br />
Université de la Méditerranée, Marseille, France<br />
Neural correlates of accommodation in second<br />
language learning<br />
Fan Cao1 , Charles Perfetti2 1 2 university of pittsburgh, university of pittsburgh,<br />
Pittsburgh, PA<br />
HBM 2011 >> <strong>abstracts</strong> 157<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Language<br />
Reading and Writing, continued<br />
785<br />
786<br />
787<br />
788<br />
789<br />
790<br />
791<br />
High-density eeg brain imaging in alexia after stroke:<br />
evidence <strong>for</strong> disrupted word processing<br />
Andrei Medvedev 1 , Lea Pilgrim 2 , Monika Mellem 2 ,<br />
Rhonda Friedman 2<br />
1 Center <strong>for</strong> Functional and Molecular Imaging, Dept.<br />
of Neurology, Georgetown University, Washington, DC,<br />
2 Center <strong>for</strong> Aphasia Research and Rehabilitation, Dept. of<br />
Neurology, Georgetown University, Washington, DC<br />
Lexicality and Frequency effects on Chinese<br />
Character reading<br />
Chiao-Yi Wu 1 , S.H. Annabel Chen 1 , Kayako Matsuo 2 ,<br />
W-Y Isaac Tseng 2 , Chih-Wei Hue 2<br />
1 Nanyang Technological University, Singapore,<br />
2 National Taiwan University, Taipei, Taiwan<br />
Neuroanatomical correlates of aesthetic preference<br />
in reading<br />
Isabel Bohrn 1 , Ulrike Altmann 1 , Oliver Lubrich 1 ,<br />
Winfried Menninghaus 1 , Arthur Jacobs 2<br />
1 Freie Universität Berlin, Berlin, Germany, 2 Dahlem<br />
Institute of Neuroimaging of Emotion, Berlin, Germany<br />
Withdrawn<br />
Neural basis of writing traditional Chinese character<br />
corresponding to phonetic script: a fmrI study<br />
Min-ju Chan 1 , Wen-Cheng Chu 2,3 , Chia-Chi Lai 3 , Ling-Fu<br />
Meng 4 , Ho-Ling Liu 2,5 , Yuan-Yu Hsu 3 , Chiu-Ping Lu 4<br />
1 Department of Occupational Therapy and Graduate<br />
Institute of Clinical Behavioral Science,Chang Gung<br />
University, Taoyuan, Taiwan, Republic of China,<br />
2 Department of Medical Imaging and Radiological<br />
Sciences, Chang Gung University, Taoyuan, Taiwan,<br />
Republic of China, 3 Department of Medical Imaging,<br />
Buddhist Tzu Chi General Hospital, Taipei, Taiwan,<br />
Republic of China, 4 Department of Occupational Therapy<br />
and Graduate Institute of Clinical Behavioral Science,<br />
Chang Gung University, Taoyuan, Taiwan, Republic of<br />
China, 5 Division of Medical Imaging and Intervention,<br />
Chang Gung Memorial Hospital, Taoyuan, Taiwan,<br />
Republic of China<br />
Impairment of the visual word<strong>for</strong>m processing in<br />
Japanese dyslexic children: an meg study<br />
Sunao Iwaki 1 , Mitsuru Kashiwagi 2 , Shuhei Suzuki 3<br />
1 National Institute of Advanced Industrial Science and<br />
Technology (AIST), Osaka, Japan, 2 Osaka Medical<br />
College, Takatsuki, Japan, 3 Osaka Medical College,<br />
Takatsuki, Osaka<br />
Processing Words with Non-Linear Vowel Diacritics<br />
in Hindi Devanagari Script<br />
Chaitra Rao 1 , Nandini Singh 2<br />
1 National <strong>Brain</strong> Research Centre, 2 National <strong>Brain</strong><br />
Research Centre, Manesar, Haryana<br />
158 HBM 2011 >> <strong>abstracts</strong><br />
792<br />
793*<br />
794*<br />
795**<br />
796**<br />
797**<br />
798<br />
Literacy breaks the symmetry of alphabetic<br />
visual objects<br />
Felipe Pegado 1 , Laurent Cohen 2 , kimihiro Nakamura 3 ,<br />
Stanislas Dehaene 4<br />
1 Neurospin- INSERM U992, 2 ICM; APHP, Paris, France,<br />
3 Neurospin- INSERM U992, gif sur yvette, France,<br />
4 INSERM, U992, Cognitive Neuroimaging Unit, CEA,<br />
DSV/I2BM, NeuroSpin Center, F-91191 Gif/Yvette, France<br />
language<br />
Speech Perception<br />
Language discrimination in the infant brain, (o-T3)<br />
Alejandrina Cristia 1 , Yasuyo Minagawa-Kawai 2 ,<br />
Inga Vendelin 1 , Natalia Egorova 3 , Emmanuel Dupoux 1<br />
1 LSCP, EHESS, ENS-DEC, CNRS, Paris, France,<br />
2 Keio University, Tokyo, Japan, 3 University of Cambridge,<br />
Cambridge, United Kingdom<br />
The functional organization of the left STS: a large<br />
scale meta-analysis of PeT and fmrI studies, (o-T3)<br />
Einat Liebenthal 1,2 , Rutvik Desai 1 , Colin Humphries 1 ,<br />
Merav Sabri 1<br />
1 Medical College of Wisconsin, Milwaukee, WI, 2 National<br />
Research Council Institute <strong>for</strong> Biodiagnostics, Winnipeg,<br />
Canada<br />
Do elderly hear with their premotor cortices?<br />
Pascale Tremblay 1 , Blythe Buchholz 2 , Anthony Dick 3 ,<br />
Steven Small 1<br />
1 The University of Chicago, Chicago, United States,<br />
2 The University of Chocago, Chicago, IL,<br />
3 Florida International University, Miami, FL<br />
Why do blind people engage the visual cortex<br />
during listening to ultra-fast speech?<br />
Susanne Dietrich 1 , Ingo Hertrich 1 , Hermann Ackermann 2<br />
1 Department of General Neurology, Hertie Institute <strong>for</strong><br />
Clinical <strong>Brain</strong> Research, Univ. of Tübingen, Tübingen,<br />
Germany, 2 Department of General Neurology, Hertie<br />
Institute <strong>for</strong> Clinical <strong>Brain</strong> Research, Univ. of Tübingen,<br />
Tuebingen, Germany<br />
New evidence <strong>for</strong> a fronto-parietal network in<br />
processing intelligible speech<br />
Daniel Abrams 1 , Srikanth Ryali 1 , Evan Balaban 2 ,<br />
Daniel Levitin 2 , Vinod Menon 1<br />
1 Stan<strong>for</strong>d University, Palo Alto, United States,<br />
2 McGill University, Montreal, QC<br />
auditory speech processing and predictive coding<br />
in the visual cortex of congenitally blind adults<br />
Laureline Arnaud 1 , Lucie Ménard 2 , Marc Sato 3 ,<br />
Vincent Gracco 1<br />
1 McGill University, Montreal, Canada, 2 , Université du<br />
Québec à Montréal, Montreal, Canada, 3 GIPSA-lab,<br />
CNRS & Grenoble Universités, Grenoble, France
Language<br />
Speech Perception, continued<br />
799<br />
800<br />
801<br />
802<br />
803<br />
804<br />
Facilitatory tDCS of left inferior frontal gyrus improves<br />
perceptual learning of degraded speech<br />
Bernhard Sehm 1,2 , Tim Schnitzler 1 , Sonia Rossi 1 ,<br />
Jonas Obleser 3 , Arno Villringer 1,2 , Hellmuth Obrig 1,2<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Department of Neurology, Leipzig,<br />
Germany, 2 Clinic of Cognitive Neurology, University of<br />
Leipzig, Leipzig, Germany, 3 Max Planck Institute <strong>for</strong><br />
<strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Department of<br />
Neuropsychology, Leipzig, Germany<br />
Hearing by hands: how phonology is processed<br />
in the brain<br />
Mario APARICIO 1,2 , Philippe PEIGNEUX 3 , Danielle<br />
BALERIAUX 4 , Martin KAVECS 4 , Thierry METENS 4 ,<br />
Brigitte Charlier 1 , Jacqueline Leybaert 1<br />
1 LCLD -Laboratory of cognition, Language and<br />
Development, ULB, Bruxelles, Belgium, 2 Postdoctoral<br />
Researcher at FRS-FNRS, Bruxelles, Belgium, 3 UR2NF<br />
- Neuropsychology and Functional Neuroimaging<br />
Research Unit, ULB, Bruxelles, Belgium, 4 Department of<br />
Radiology,Clinics of Magnetic Resonance, Hôpital Erasme,<br />
ULB, Bruxelles, Belgium<br />
exploring the temporal and spatial characteristics of<br />
auditory word comprehension using eeg<br />
Ajay Halai 1,2 , Stephen Welbourne 1 , Laura Parkes 3 ,<br />
Geoffrey Parker 3<br />
1 Neuroscience and Aphasia Research Unit, Univeristy of<br />
Manchester, Manchester, United Kingdom, 2 Biomedical<br />
Imaging Institute, University of Manchester, Manchester,<br />
United Kingdom, 3 Imaging Sciences and Biomedical<br />
Engineering, University of Manchester, Manchester,<br />
United Kingdom<br />
Frontal activity during speech perception differs by<br />
modality and available in<strong>for</strong>mation.<br />
Benjamin Elgie 1 , Laura Copeland 1 , Shari Baum 1 ,<br />
Vincent Gracco 1<br />
1 McGill University, Montreal, Quebec<br />
a mediating role of temporal, parietal, and premotor<br />
cortices in selective adaptation to speech<br />
Krystyna Grabski 1 , Pascale Tremblay 2 , Vincent Gracco 3 ,<br />
Marc Sato 4<br />
1 Gipsa-Lab, CNRS & Grenoble University, Grenoble,<br />
France, 2 University of Chicago, Chicago, USA,<br />
3 McGill University, Montreal, Canada, 4 GIPSA-Lab,<br />
CNRS & Grenoble University, Grenoble, France<br />
mirror mechanisms and predictive coding during<br />
vowel perception and production<br />
Krystyna Grabski 1 , Laurent LAMALLE 2 , Marc Sato 1<br />
1 GIPSA-lab, Speech and Cognition department,<br />
Grenoble, France, 2 Institut Fédératif de Recherche n°1<br />
“RMN Biomédicale et Neurosciences”; Unité IRM 3T /<br />
INSERM, Grenoble, France<br />
805<br />
806<br />
807<br />
808<br />
809<br />
810<br />
811<br />
managing Simultaneity in Speech: Neural Substrates of<br />
Simultaneous Interpretation and Shadowing<br />
Alexis Hervais-Adelman 1 , Barbara Moser-Mercer 2 ,<br />
Christoph Michel 1 , Narly Golestani 1<br />
1 Functional <strong>Brain</strong> <strong>Mapping</strong> Laboratory, University Of<br />
Geneva, Geneva, Switzerland, 2 Ecole de Traduction et<br />
d’Interprétation, University of Geneva, Geneva, Switzerland<br />
Functional lateralization of prosodic processing:<br />
an fmrI study<br />
Jurriaan Witteman 1 , Niels Schiller 2 , Vincent Van Heuven 2<br />
1 Leiden University, 2 Leiden University, Leiden, Netherlands<br />
The neural basis of speech rhythm and semantic<br />
processing<br />
Kathrin Rothermich 1 , Sonja Kotz 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany<br />
The effect of Consolidation on the Learning of<br />
Novel Spoken Words: an meg Study<br />
Pierre Gagnepain 1 , Richard Henson 1 , Matthew Davis 1<br />
1 MRC-CBSU, Cambridge, United Kingdom<br />
Hearing loss in older adults affects neural systems<br />
supporting speech processing<br />
Jonathan Peelle 1 , Vanessa Troiani 1 , Murray Grossman 1 ,<br />
Arthur Wingfield 2<br />
1 University of Pennsylvania, Philadelphia, USA,<br />
2 Brandeis University, Waltham, USA<br />
Neural adaptation of Normal Hearing Listeners to a<br />
Portable Cochlear Implant acoustic Simulation<br />
Christopher Smalt 1 , Javier Gonzalez-Castillo 2 ,<br />
Mario Svirsky 3 , David Pisoni 4 , Thomas Talavage 1<br />
1 School of Electrical and Computer Engineering,<br />
Purdue University, West Lafayette, IN, USA,<br />
2 National Institute of Mental Health, NIH, Bethesda, MD,<br />
USA, 3 New York University School of Medicine, New York,<br />
NY, USA, 4 Department of Psychology, Indiana University,<br />
Bloomington, IN, USA<br />
Neural Synchrony related to Contextual effects in<br />
auditory Word Perception in Dyslexia<br />
Jooman Han 1 , Maria Mody 1 , Seppo Ahl<strong>for</strong>s 1<br />
1 Athinoula A. Martinos Center <strong>for</strong> Biomedical Imaging,<br />
Massachusetts General Hospital, Charlestown, MA<br />
HBM 2011 >> <strong>abstracts</strong> 159<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Language<br />
Speech Perception, continued<br />
812<br />
813<br />
814<br />
815<br />
Deactivation depends on the auditory speech<br />
complexity: an fmrI study<br />
Isabelle Hesling 1 , Bixente Dilharreguy 1 ,<br />
Martine Bordessoules 1 , Michèle Allard 2<br />
1 Université Bordeaux INCIA UMR CNRS 5287, Bordeaux,<br />
France, 2 Université Bordeaux INCIA UMR CNRS 5287,<br />
EPHE, Bordeaux, France<br />
Instruction dependent modulation of speech<br />
production and perception networks in auditory<br />
perception<br />
Berge Osnes 1 , Kenneth Hugdahl 2 , Helene Hjelmervik 1 ,<br />
Karsten Specht 3<br />
1 University of Bergen, Bergen, Norway, 2 Division of<br />
Psychiatry and Bergen Mental Health Center, Haukeland<br />
University Hospital, Bergen, Norway, 3 Department of<br />
Biological and Medical Psychology, University of Bergen,<br />
Bergen, Norway<br />
Functional and anatomical correlates of phonetic<br />
categorization in professional musicians<br />
Stefan Elmer 1 , Jürgen Hänggi 1 , Martin Meyer 1 ,<br />
Lutz Jancke 1<br />
1 Division Neuropsychology, Institute of Psychology,<br />
University of Zurich, Zurich, Switzerland<br />
The Neural System Supporting the enhancement by<br />
attention of the Processing of Degraded Speech<br />
Conor Wild1 , Matthew Davis2 , Daryl Wilson3 , Afiqah Yusuf4 ,<br />
Jonathan Peelle5 , Ingrid Johnsrude6 1 2 Kingston, Canada, MRC Cognition and <strong>Brain</strong> Sciences<br />
Unit, Cambridge, United Kingdom, 3Queen’s University,<br />
Kingston, Ontario, 4McGill University, Montreal, Quebec,<br />
5University of Pennsylvania, Philadelphia, PA,<br />
6Queen’s University<br />
language<br />
Speech Production<br />
816*<br />
817<br />
818<br />
819<br />
Identifying regions of the auditory cortex responsible<br />
<strong>for</strong> sensory voice control, (o-T3)<br />
Amy Parkinson 1 , Charles Larson 2 , Jeremy Greenlee 3 ,<br />
Sabina Flagmeier 1 , Jordan Manes 1 , William Rogers 1 ,<br />
Donald Robin 1<br />
1 University of Texas Health Science Center, San Antonio,<br />
TX, 2 Northwestern University, Evanston, IL,<br />
3 University of Iowa, Iowa, United States<br />
Withdrawn<br />
resting-state networks of the speech control system<br />
Manjula Khubchandani 1 , Barry Horwitz 2 , Kristina Simonyan 1<br />
1 Mount Sinai School of Medicine, New York, NY,<br />
2 NIDCD-NIH, Rockville, United States<br />
Neural correlates of voluntary vs. automatic imitation<br />
of speech<br />
Maeva GARNIER 1 , Laurent LAMALLE 2 , Marc Sato 1<br />
1 GIPSA-Lab, Speech and Cognition department, Grenoble,<br />
France, 2 Institut Fédératif de Recherche n°1 “RMN<br />
Biomédicale et Neurosciences”; Unité IRM 3T / INSERM,<br />
Grenoble, France<br />
160 HBM 2011 >> <strong>abstracts</strong><br />
820<br />
821<br />
822<br />
823<br />
824<br />
825<br />
826<br />
Neural correlates of subsyllabic speech motor<br />
sequence learning<br />
Jennifer Segawa 1 , Frank Guenther 1 , Jason Tourville 1<br />
1 Boston University, Boston, MA<br />
a large-group fmrI validation of the visual half field<br />
technique as language laterality indicator<br />
Lise Van der Haegen 1 , Qing Cai 1 , Ruth Seurinck 1 ,<br />
Marc Brysbaert 1<br />
1 Ghent University, Ghent, Belgium<br />
a magnetoencephalographic investigation of picturenaming<br />
in pre-schoolers who stutter<br />
Paul Sowman 1 , Blake Johnson 2 , Melanie Reid 1 ,<br />
Elisabeth Harrison 1 , Stephen Crain 1<br />
1 Macquarie University, Sydney, Australia,<br />
2 Macquarie University, Sydney, New South Wales<br />
removal of muscle artifacts from eeg recordings by<br />
ICa during overt speech production<br />
Maria Teresa Medaglia 1 , Camillo Porcaro 1 ,<br />
Antje Meyer 2 , Andrea Krott 3<br />
1 Institute of Neuroscience, Newcastle University,<br />
Medical School, Newcastle upon Tyne, NE2 4HH, UK,<br />
Newcastle, United Kingdom, 2 Max Planck Institute <strong>for</strong><br />
Psycholinguistics, Nijmegen, The Netherlands, Nijmegen,<br />
Netherlands, 3 School of Psychology and Birmingham<br />
University Imaging Centre, University of Birmingham,<br />
Birmingham, Birmingham, United Kingdom<br />
Neural control of speech versus nonspeech oral<br />
movements: a meta-analytic approach<br />
Sabina Flagmeier 1 , Angela Laird 2 , Kirrie Ballard 3 ,<br />
Miranda Null 4 , Peter Fox 5 , Donald Robin 6<br />
1 UT Health Science Center San Antonio, 2 Research<br />
Imaging Center, University of Texas Health Science Center<br />
at San Antonio, San Antonio, TX, 3 University of Sydney,<br />
Lidcombe, Australia, 4 UT Health Science Center San<br />
Antonio, San Antonio, United States, 5 Research Imaging<br />
Center, UT Health Science Center, San Antonio, TX,<br />
6 University of Texas Health Science Center at San Antonio,<br />
San Antonio, United States<br />
Left dorsal premotor cortex is essential <strong>for</strong> speech<br />
production: Virtual lesion and imaging evidence<br />
Shalini Narayana 1 , Wei Zhang 1 , Adam Jacks 2 ,<br />
Casey Strickland 1 , Crystal Franklin 1 , Sara Hartnett 3 ,<br />
Roselyn Ikamba 1 , Donald Robin 1 , Peter Fox 1<br />
1 Research Imaging Institute, University of Texas Health<br />
Science Center at San Antonio, San Antonio, TX, USA,<br />
2 The University of North Carolina, Chapel Hill, NC,<br />
3 University of Texas Health Science Center at San Antonio,<br />
San Antonio, TX, USA<br />
examining bilingual verb generation with meg<br />
Elizabeth Pang 1 , Matt Macdonald 1<br />
1 Hospital <strong>for</strong> Sick Children, Toronto, Ontario
Language<br />
Speech Production, continued<br />
827<br />
828<br />
Prominence in english spoken utterances:<br />
fmrI evidence <strong>for</strong> left hemisphere cortical recruitment<br />
Elisa Golfinopoulos 1 , Frank Guenther 1,2,3<br />
1 Department of Cognitive and Neural Systems, Boston<br />
University, Boston, MA, 2 Department of Speech, Language,<br />
and Hearing Sciences, Boston University, Boston, MA,<br />
3 Athinoula A. Martinos Center <strong>for</strong> Biomedical Imaging,<br />
Massachusetts General Hospital, Charlestown, MA<br />
right-hemisphere dominance of language processing<br />
dynamics in callosal agenesis<br />
Leighton Hinkley 1 , Elysa Marco 2 , Jacquelyn Gold 2 ,<br />
Anne Findlay 2 , Mari Wakahiro 2 , A. James Barkovich 3 ,<br />
Srikantan Nagarajan 4 , Elliot Sherr 3<br />
1 University of Cali<strong>for</strong>nia, San Francisco,<br />
2 University of Cali<strong>for</strong>nia, San Francisco, San Francisco,<br />
CA, 3 University of Cali<strong>for</strong>nia San Francisco, San Francisco,<br />
United States, 4 Biomagnetic Imaging Lab, Department of<br />
Radiology, University of Cali<strong>for</strong>nia in San Francisco,<br />
San Francisco, CA<br />
learning and Memory<br />
Skill Learning<br />
829*<br />
830<br />
831*<br />
greater integration of a cortico-striatal network<br />
following consolidation of motor sequence<br />
learning, (o-T4)<br />
Karen Debas 1 , Julie Carrier 1 , Pierre Orban 1 , Marc Barakat 1 ,<br />
Abdallah Hadj Tahar 2 , Avi Karni 3 , Leslie Ungerleider 4 ,<br />
Guillaume Marrelec 2 , Habib Benali 5 , Julien Doyon 6<br />
1 University of Montreal, Montreal, Canada, 2 Unité de<br />
Neuroimagerie fonctionnelle, Montreal, Canada, 3 The<br />
<strong>Brain</strong>-Behavior Research Centre, University of Haifa,<br />
Haifa, Israel, 4 Bethesda, United States, 5 INSERM/UPMC,<br />
Paris, France, 6 Functional Neuroimaging Unit, University<br />
of Montreal Geriatric Institute, Montreal, Quebec<br />
altered resting State Network during 4 Weeks of<br />
motor Skill Learning<br />
Liangsuo Ma 1 , Shalini Narayana 2 , Donald Robin 2 ,<br />
Peter Fox 2 , Jinhu Xiong 3<br />
1 University of Texas Health Science Center at Houston,<br />
Houston, United States, 2 University of Texas Health<br />
Science Center at San Antonio, San Antonio, United States,<br />
3 University of Iowa, Iowa City, United States<br />
Functional reorganization of visuo-motor cortical<br />
networks in Formula 1 pilots versus naive drivers,<br />
(o-T4)<br />
Giulio Bernardi 1 , Emiliano Ricciardi 1,2,3 , Lorenzo Sani 1,2,3 ,<br />
Anna Gaglianese 1 , Alessandra Papasogli 4 , Riccardo<br />
Ceccarelli 4 , Ferdinando Franzoni 5 , Fabio Galetta 5 ,<br />
Gino Santoro 5 , Rainer Goebel 6 , Pietro Pietrini 1,2<br />
1 Laboratory of Clinical Biochemistry and Molecular Biology,<br />
University of Pisa, Pisa, Italy, 2 Department of Laboratory<br />
Medicine and Molecular Diagnostics, AOUP, Pisa, Italy,<br />
3 MRI Laboratory, Fondazione Regione Toscana/CNR<br />
‘G.Monasterio’, Pisa, Italy, 4 Formula Medicine, Viareggio,<br />
Italy, 5 Department of Internal Medicine, University of Pisa,<br />
Pisa, Italy, 6 Maastricht <strong>Brain</strong> Imaging Center, Universiteit<br />
Maastricht, Maastricht, Netherlands<br />
832<br />
833<br />
834<br />
835<br />
836<br />
837<br />
838<br />
Differential contribution of Ba4a and Ba4p to the<br />
acquisition of motor skill<br />
Nikhil Sharma 1 , Michael Dimyan 2 , Alissa Fourkas 2 ,<br />
Lindsay Walker 3 , Carlo Pierpaoli 4 , Leo Cohen 2<br />
1 NINDS, Bethesda, 2 NINDS, Bethesda, United States 3 ,<br />
United States, 4 NICHD, Bethesda, United States<br />
The Temporal Dynamics of micro-Structural Plasticity<br />
Ido Tavor 1 , Shir Hofstetter 1 , Yaniv Sagi 1 , Shani Ben Amitay 1 ,<br />
Yaniv Assaf 1<br />
1 Tel Aviv University, Tel Aviv, Israel<br />
Structural Correlates of Sensorimotor Synchronisation:<br />
evidence from musicians<br />
Christopher Steele 1 , Jennifer Bailey 1 , Robert Zatorre 2 ,<br />
Bruce Pike 3 , Virginia Penhune 1<br />
1 Concordia University, Montreal, Canada, 2 Montreal<br />
Neurological Institute, McGill University; BRAMS; CIRMMT,<br />
Montreal, Canada, 3 Montreal Neurological Institute,<br />
Montreal, Canada<br />
role of Nap on Consolidation of Different<br />
representations of motor Sequence memory<br />
assessed by fmrI<br />
Genevieve Albouy 1 , Stuart Fogel 1 , Vo An Nguyen 1 ,<br />
Amel Bouyoucef 1 , Frederic Jeay 1 , Edwin Robertson 2 ,<br />
Julien Doyon 3<br />
1 CRIUGM, University of Montreal, Montreal, Canada,<br />
2 Berenson-Allen Center <strong>for</strong> Noninvasive <strong>Brain</strong> Stimulation,<br />
Harvard Medical School, Boston, MA, 3 Functional<br />
Neuroimaging Unit, University of Montreal Geriatric<br />
Institute, Montreal, Quebec<br />
<strong>Brain</strong> regions associated with Improved motor<br />
Sequence Per<strong>for</strong>mance Following a Daytime Nap<br />
Stuart Fogel 1 , Genevieve Albouy 1 , Catherine Vien 1 ,<br />
Romana Popovici 1 , Vo An Nguyen 1 , Frederic Jeay 1 ,<br />
Amel Bouyoucef 1 , Richard Hoge 1 , Saad Jbabdi 2 ,<br />
Habib Benali 3 , Avi Karni 4 , Pierre Maquet 5 , Julie Carrier 1 ,<br />
Julien Doyon 1<br />
1 Functional Neuroimaging Unit, CRIUGM, University of<br />
Montreal, Montreal, Canada, 2 FMRIB Centre, University<br />
of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom, 3 Functional<br />
Neuroimaging Laboratory, INSERM, Paris, France,<br />
4 The <strong>Brain</strong>-Behavior Research Centre, University of Haifa,<br />
Haifa, Israel, 5 Cyclotron Research Centre, University of<br />
Liege, Liege, Belgium<br />
<strong>Brain</strong> circuits underlying motor learning with haptic<br />
guidance and error amplification<br />
Marie-Helene Milot 1 , Laura Marchal-Crespo 1 ,<br />
David Reinkensmeyer 1 , Steven Cramer 1<br />
1 University of Cali<strong>for</strong>nia, Irvine, United States<br />
<strong>Brain</strong> Stimulation to the PPC/DLPFC reveals a Double<br />
Dissociation between Learning and automaticity<br />
Roi Cohen Kadosh 1 , Teresa Iuculano 2,1<br />
1 University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United Kingdom,<br />
2 University College London, London, United Kingdom<br />
HBM 2011 >> <strong>abstracts</strong> 161<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
learning and Memory<br />
Skill learning, continued<br />
839<br />
840<br />
841<br />
Structural and Functional Changes in the <strong>Brain</strong> after<br />
one week of Learning a Complex motor Skill<br />
Martin Gryga 1 , Marco Taubert 2 , Juergen Dukart 1 ,<br />
Henning Vollmann 1 , Virginia Conde 1 , Bernhard Sehm 1 ,<br />
Arno Villringer 1 , Patrick Ragert 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 Max Planck Institute<br />
For <strong>Human</strong> Cognitive And <strong>Brain</strong> Sciences, Germany<br />
Confounding factors in neurofeedback training based<br />
on fmrI of motor imaginary<br />
Tibor Auer 1 , Jens Frahm 1<br />
1 Biomedizinische NMR Forschungs GmbH am MPI fuer<br />
biophysikalische Chemie, Goettingen, Germany<br />
Learning effect on brain activity during implicit<br />
imitation of bimanual tool making and word speech<br />
Naoki Miura 1 , Takeru Akazawa 1 , Kenji Nagai 2 ,<br />
Mika Yamazaki 3 , Yumiko Yoshida 3 , Hiroki Tanabe 3 ,<br />
Norihiro Sadato 3<br />
1 Kochi University of Technology, Kami, Japan,<br />
2 Kokushikan University, Tokyo, Japan, 3 National Institute<br />
For Physiological Sciences, Okazaki, Japan<br />
learning and Memory<br />
Working Memory<br />
842**<br />
843**<br />
844**<br />
Differentiated parietal connectivity of frontal regions<br />
<strong>for</strong> “what” and “where” memory<br />
Claudia Rottschy1 , Christian Roski2 , Svenja Caspers3 ,<br />
Kathrin Reetz4 , Imis Dogan4 , Jörg Schulz4 , Karl Zilles5 ,<br />
Angela R. Laird6 , Peter Fox7 , Simon Eickhoff8 1Department of Neurology, University Hospital Aachen,<br />
2Institute of Neuroscience and Medicine, INM-2, Research<br />
Centre Jülich, Juelich, Germany, 3Institute of Neuroscience<br />
and Medicine, INM-2, Research Center Julich, Julich,<br />
Germany, 4Department of Neurology, University Hospital<br />
Aachen, Aachen, Germany, 5Institute of Neuroscience and<br />
Medicine, Jülich, Germany, 6Research Imaging Center,<br />
University of Texas Health Science Center at San Antonio,<br />
San Antonio, TX, 7University Of Texas Health Science<br />
Center At San Antonio, San Antonio, United States,<br />
8Department of Psychiatry and Psychotherapy,<br />
Aachen, Germany<br />
Pre-chemotherapy differences in working memory in<br />
breast cancer patients compared to controls<br />
Carole Scherling 1 , Joyce MacKenzie 2 , Nancy Wallis 3 ,<br />
Barbara Collins 2 , Andra Smith 3<br />
1 School of Psychology, University of Ottawa, Ottawa,<br />
Canada, 2 Ottawa Hospital, Ottawa, Ontario, 3 School of<br />
Psychology, University of Ottawa, Ottawa, Ontario<br />
Functional and anatomical correlates to the<br />
per<strong>for</strong>mance of an auditory short-term memory task<br />
Patrick Bermudez 1 , Stephan Grimault 2 , Christine Lefebvre 3 ,<br />
Pierre Jolicoeur 3<br />
1 Université de Montréal, BRAMS Laboratory, Montréal,<br />
Canada, 2 Université de Montréal, BRAMS Laboratory,<br />
CNRS France, Montréal, Québec, 3 Université de Montréal,<br />
BRAMS Laboratory, Montréal, Québec<br />
162 HBM 2011 >> <strong>abstracts</strong><br />
845<br />
846<br />
847<br />
848<br />
849<br />
850<br />
851<br />
Functional neuroimaging of n-back working memory<br />
in school-age preterm children<br />
Sarah Yao Lin 1,2 , Elizabeth Donner 1 , Wayne Lee 1 ,<br />
Margot Taylor 1,2<br />
1 The Hospital <strong>for</strong> Sick Children, Toronto, Canada,<br />
2 University of Toronto, Toronto, Canada<br />
effects of anxiety feelings on memory-related<br />
activations<br />
Hajime Ikenouchi 1 , Yayoi Shigemune 2 , Kei Takahashi 3 ,<br />
Takashi Tsukiura 3 , Ryuta Kawashima 4<br />
1 Tohoku University School of Medicine, Sendai, Japan,<br />
2 IDAC, Tohoku university, Sendai, Japan, 3 IDAC, Tohoku<br />
University, Sendai, Japan, 4 SAIRC, IDAC, Tohoku Uniersity,<br />
Sendai, Japan<br />
Different networks and capacity limits <strong>for</strong> articulatory<br />
and non-articulatory mechanisms of verbalSTm<br />
Bernd Kraemer 1 , Sabrina Trapp 2 , Karsten Mueller 2 ,<br />
Stephan Konrad 2 , Joeran Lepsien 2 , Oliver Gruber 1<br />
1 Center <strong>for</strong> Translational Research in Systems<br />
Neuroscience and Psychiatry, Georg August University,<br />
Goettingen, Germany, 2 Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Leipzig, Germany<br />
Functional <strong>Brain</strong> Network efficiency Predicts<br />
Intelligence<br />
Nicolas Langer 1 , Lorena Gianotti 2 , Lutz Jaencke 1 ,<br />
Daria Knoch 2 , Andreas Pedroni 2 , Jürgen Haenggi 3<br />
1 University Zurich, Department Neuropsychology,<br />
Zurich, Switzerland, 2 University Basel, Social and Affective<br />
Neuroscience, Basel, Switzerland, 3 University of Zurich,<br />
Institute of Psychology, Zurich, Switzerland<br />
Inter and Intra-subject activation Timing Variation<br />
in a Working memory Task<br />
Stephen Robinson 1 , Tom Holroyd 1 , Daniel Rubinstein 1 ,<br />
Frederick Carver 1 , Richard Coppola 2<br />
1 NIMH MEG Core, Bethesda, MD, 2 CBDB, NIMH MEG<br />
Core, Bethesda, MD<br />
relations among Personality, mood and Prefrontal<br />
Cortex activity during Working memory Tasks<br />
Ryuta Aoki1,2 , Hiroki Sato3 , Takusige Katura3 ,<br />
Ryoichi Matsuda1 , Hideaki Koizumi3 1Graduate School of Arts and Sciences, The University<br />
of Tokyo, Tokyo, Japan, 2Research Fellow of the Japan<br />
Society <strong>for</strong> the Promotion of Science, Tokyo, Japan,<br />
3Advanced Research Laboratory, Hitachi, Ltd.,<br />
Saitama, Japan<br />
aerobic fitness and cortical thickness in young adults<br />
Karl Koschutnig 1 , Kerstin Schweitzer 2 , Gernot Reishofer 3 ,<br />
Anja Ischebeck 4 , Wolfram Müller 5 , Christa Neuper 4 ,<br />
Franz Ebner 3<br />
1 Division of Neuroradiology, Graz, Austria, 2 Medical<br />
University Graz, Graz, Austria, 3 Medical University Graz,<br />
Department of Radiology, Graz, Austria, 4 Karl-Franzens<br />
University, Department of Psychology, Graz, Austria,<br />
5 <strong>Human</strong> Per<strong>for</strong>mance Research, Graz, Austria
learning and Memory<br />
Working Memory, continued<br />
852<br />
853<br />
854<br />
855<br />
856<br />
857<br />
858<br />
Pitch maintenance in acoustic short-term memory:<br />
an meg study<br />
Synthia Guimond 1 , Stephan Grimault 1 , Yann Potiez 1 ,<br />
Christine Lefebvre 1 , Pierre Jolicoeur 1<br />
1 CERNEC, Universite de Montreal, Montreal, Canada<br />
Withdrawn<br />
Breast cancer chemotherapy alters brain activity during<br />
working memory<br />
Kimberly Albert 1 , Julie Dumas 1 , Barbara Kelly 2 , Kim Dittus 3 ,<br />
Paul Newhouse 1<br />
1 University of Vermont, Burlington, VT, 2 Vermont Cancer<br />
Center, Burlington, VT, 3 FAHC Hematology/ Oncology,<br />
Burlington, VT<br />
Bold Signal in memory Paradigms in Hippocampal<br />
region depends on echo Time<br />
Lena Zeltner 1 , Michael Erb 2 , Monika Milian 3 , Sabine Rona 3 ,<br />
Uwe Klose 4<br />
1 Department of Neurology, University Hospital, Tübingen,<br />
Germany, 2 MR Research Group, Department of<br />
Neuroradiology, University Hospital, Tübingen, Germany,<br />
3 Department of Neurosurgery, University Hospital,<br />
Tübingen, Germany, 4 MR Research Group, Department of<br />
Neuroradiology, University Hospital, Tübingen, Germany<br />
Color Preference affects the Visual Working<br />
memory Capacity<br />
Masahiro Kawasaki 1 , Yoko Yamaguchi 1,2<br />
1 RIKEN, BSI-TOYOTA Collaboration Center, Wako, Japan,<br />
2 RIKEN <strong>Brain</strong> Science Institute, Wako, Japan<br />
The Comparison of Task-related Networks and<br />
resting State Networks During Working memory<br />
Jessica Cohen1 , Mark D’Esposito1 1Helen Wills Neuroscience Institute, UC Berkeley,<br />
Berkeley, CA<br />
Neuronal correlates of reduced memory per<strong>for</strong>mance<br />
in overweight subjects<br />
Krunoslav Stingl 1,2 , Caroline Ketterer 3 , Martin Heni 3 ,<br />
Andreas Fritsche 3 , Hubert Preissl 1,4<br />
1 MEG Center, University of Tuebingen, Tuebingen,<br />
Germany, 2 Graduate School of Neural and Behavioural<br />
Sciences,International Max Planck Research School,<br />
Tuebingen, Germany, 3 Department of Internal Medicine,<br />
Division of Endocrinology, Eberhard Karls University<br />
Tuebingen, Tuebingen, Germany, 4 Department of<br />
Obstetrics and Gynecology, University of Arkansas <strong>for</strong><br />
Medical Sciences, Little Rock, AR<br />
859<br />
860<br />
861<br />
862<br />
863*<br />
864<br />
Fiber Tracts responsible For Face recognition:<br />
a Study Integrating fmrI and Diffusion<br />
Tensor Imaging<br />
Kwan-Jin Jung 1 , Hae-Song Jung 2 , Emilie Muelly 3 ,<br />
Timothy Hughes 4<br />
1 Scientific Imaging and <strong>Brain</strong> Research Center,<br />
Department of Psychology, Carnegie Mellon University,<br />
Pittsburgh, United States, 2 Department of Psychology,<br />
Middlebury College, Middlebury, VT, 3 Center <strong>for</strong> Emerging<br />
Neurotechnology and Imaging, Hershey Neurosciences<br />
Institute, Penn State Coll, Hershey, PA, 4 Department of<br />
Epidemiology, Graduate School of Public Health,<br />
University of Pittsburgh, Pittsburgh, PA<br />
mathematical Processing in adolescents: a Functional<br />
magnetic resonance Study of addition and Subtr<br />
Prasanna Karunanayaka 1 , Mary Hughes 1 ,<br />
Christopher Weitekamp 1 , Clancy Blair 2 , Jianli Wang 1 ,<br />
Quing Yang 1,3 , Paul Eslinger 1,4<br />
1 Radiology, Center <strong>for</strong> NMR Research, Penn State<br />
University College of Medicine, Hershey, PA,<br />
2 <strong>Human</strong> Development and Family Studies, Penn<br />
State University College of Medicine, Hershey, PA,<br />
3 Neurosurgery, Penn State University College of Medicine,<br />
Hershey, PA, 4 Neurology, Penn State University College of<br />
Medicine, Hershey, PA<br />
Cortical representation of tactile short-term memory<br />
revealed by load manipulation<br />
Ulysse Fortier-Gauthier 1 , Stephan Grimault 2 ,<br />
Douglas Cheyne 3 , Pierre Jolicoeur 2<br />
1 CERNEC, Université de Montréal, Montréal, Canada,<br />
2 CERNEC, Universite de Montreal, Montreal, Canada,<br />
3 Program in Neurosciences and Mental Health, Hospital<br />
For Sick Children Research Institute, Toronto, ON<br />
The Neural Correlates of Verbal Working memory<br />
reflect Demands on Inner Speech<br />
Cherie Marvel1 , Monica Faulkner1 , Eric Strain1 ,<br />
Miriam Mintzer1 , John Desmond1 1Johns Hopkins University School of Medicine,<br />
Baltimore, MD<br />
lifespan Development<br />
Normal <strong>Brain</strong> Development: Fetus to Adolescence<br />
Detection of Hemispheric asymmetries during early<br />
Folding by Surface-Based analysis of Fetal mrI, (o-W1)<br />
Piotr Habas 1 , Julia Scott 1 , Vidya Rajagopalan 1 , Kio Kim 1 ,<br />
Francois Rousseau 2 , A. James Barkovich 1 , Orit Glenn 1 ,<br />
Colin Studholme 1<br />
1 University of Cali<strong>for</strong>nia San Francisco, San Francisco,<br />
United States, 2 University of Strasbourg, Illkirch, France<br />
Development of dynamic causal control signals during<br />
cognition in children<br />
Kaustubh Supekar 1 , Vinod Menon 1<br />
1 Stan<strong>for</strong>d University, Stan<strong>for</strong>d, United States<br />
HBM 2011 >> <strong>abstracts</strong> 163<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
lifespan Development<br />
Normal <strong>Brain</strong> Development: Fetus to Adolescence, continued<br />
865<br />
866<br />
867<br />
868<br />
869<br />
870<br />
871<br />
Quantifying asymmetry in local tissue growth patterns<br />
in normal fetal human brain<br />
Vidya Rajagopalan 1 , Julia Scott 1 , Piotr Habas 1 , Kio Kim 2 ,<br />
James Corbett-Detig 2 , Francois Rousseau 3 ,<br />
A. James Barkovich 2 , Orit Glenn 2 , Colin Studholme 2<br />
1 University of Cali<strong>for</strong>nia San Francisco, San Francisco,<br />
CA, 2 University of Cali<strong>for</strong>nia San Francisco, San Francisco,<br />
United States, 3 University of Strasbourg, Illkirch, France<br />
Longitudinal evolution of resting-state networks in<br />
healthy infants from four to nine months of age<br />
Eswar Damaraju 1 , John Phillips 2 , Jean Lowe 2 ,<br />
Vince Calhoun 1 , Arvind Caprihan 3<br />
1 Mind Research Network, Albuquerque, United States,<br />
2 University of New Mexico, Albquerque, United States,<br />
3 Mind Research Network, Abuquerque, United States<br />
3D morphometric analysis of <strong>Human</strong> Cerebellar<br />
Development during mid-gestation: an in utero<br />
mrI study<br />
Kia Hamzelou1 , Julia Scott1 , Piotr Habas1 , Vidya<br />
Rajagopalan1 , Kio Kim1 , A. James Barkovich1 , Orit Glenn1 ,<br />
Colin Studholme1 1University of Cali<strong>for</strong>nia San Francisco, San Francisco,<br />
United States<br />
Intellectual ability is Correlated with regional <strong>Brain</strong><br />
Volumes in Normally Developing Children<br />
Christina Boyle 1 , Xue Hua 2 , Reva Stidd 3 , Jay Giedd 4 ,<br />
Judith Rapoport 4 , Arthur Toga 5 , Paul Thompson 6 ,<br />
Nitin Gogtay 3<br />
1 UCLA, Laboratory of Neuro Imaging, Los Angeles, USA,<br />
2 Laboratory Of Neuro Imaging, Department Of Neurology,<br />
UCLA School Of Medicine, United States, 3 NIMH Child<br />
Pyschiatry Branch, Bethesda, MD, 4 NIMH, Bethesda, DC,<br />
5 UCLA School of Medicine, Department of Neurology, Los<br />
Angeles, CA, 6 Laboratory of Neuro Imaging - UCLA School<br />
of Medicine, Los Angeles, CA<br />
The developmental trajectories of emerging cortical<br />
face-networks extend throughout adolescence<br />
Kathrin Cohen Kadosh 1 , Mark Johnson 2 , Frederic Dick 3 ,<br />
Roi Cohen Kadosh 4 , Sarah-Jayne Blakemore 1<br />
1 University College London, London, United Kingdom,<br />
2 Centre <strong>for</strong> <strong>Brain</strong> and Cognitive Development, Birkbeck<br />
College, London, United Kingdom, 3 Birbeck-UCL Centre<br />
<strong>for</strong> Neuroimaging, London, United Kingdom,<br />
4 University of Ox<strong>for</strong>d<br />
LINKINg myeLINaTIoN WITH BeHaVIouraL<br />
DeVeLoPmeNT IN HeaLTHy INFaNTS<br />
Sean Deoni 1 , Douglas Dean 1 , Beth Jerskey 2<br />
1 Brown University School of Engineering, Providence, RI,<br />
2 Alpert Medical School of Brown University, Providence, RI<br />
getting smarter is related to cortical preservation<br />
Miguel Burgaleta 1 , Roberto Colom 2 , Alan Evans 3 ,<br />
Sherif Karama 3<br />
1 Universidad Autónoma De Madrid, Madrid, Spain,<br />
2 Universidad Autónoma de Madrid, Madrid, Spain,<br />
3 McGill University, Montreal, Canada<br />
164 HBM 2011 >> <strong>abstracts</strong><br />
872<br />
873<br />
874<br />
875<br />
876<br />
Longitudinal development of white matter and<br />
influence of puberty, sex and cognitive factors<br />
Daniel Simmonds 1 , David Montez 1 , Michael Hallquist 1 ,<br />
Beatriz Luna 1<br />
1 University of Pittsburgh, Pittsburgh, PA, USA<br />
regional Cortical asymmetry from Childhood to<br />
older adulthood<br />
Dongming Zhou 1 , Catherine Lebel 1 , Claude Lepage 2 ,<br />
Alan Evans 2 , Christian Beaulieu 1<br />
1 Department of Biomedical Engineering, University of<br />
Alberta, Edmonton, Alberta, Canada, 2 McConnell <strong>Brain</strong><br />
Imaging Center, Montreal Neurological Institute, McGill<br />
University, Montreal, Quebec, Canada<br />
Tracking Development of the Corpus Callosum in<br />
Fetal and early Postnatal Baboons using mrI<br />
Kimberley Phillips 1,2,3 , Peter Kochunov 4<br />
1 Trinity University, 2 Southwest Foundation <strong>for</strong> Biomedical<br />
Research, San Antonio, TX, 3 Research Imaging Institute,<br />
University of Texas Health Sciences Center at San Antonio,<br />
San Antonio, TX, 4 UTHSCSA, San Antonio, United States<br />
maturation of the default language network: From<br />
interhemispheric to intrahemispheric connectivity<br />
Jens Brauer 1 , Gabriele Lohmann 1 , Angela Friederici 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
age modulation of Language Task Induced<br />
Deactivation in Children<br />
Binjian Sun 1 , Madison Berl 2,3 , William Gaillard 2,3 ,<br />
Thomas Burns 1 , Richard Jones 1,4<br />
1 Children’s Healthcare of Atlanta, Atlanta, GA,<br />
2 Children’s National Medical Center, Washington, DC,<br />
3 George Washington University, Washington, DC,<br />
4 Emory University, Atlanta, GA
lifespan Development<br />
Normal <strong>Brain</strong> Development: Fetus to Adolescence, continued<br />
877<br />
878<br />
879<br />
Functional Connectivity in the Face Network during<br />
adolescence: Sex Difference and Sex-Steroid genes<br />
Amir Tahmasebi 1 , Natasa Kovacevic 1 , E Artiges 2 ,<br />
Tobias Banaschewski 3 , Gareth Barker 4 , Ruediger Bruehl 5 ,<br />
Christian Büchel 6 , Patricia Conrod 4 , Herta Flor 7 ,<br />
Hugh Garavan 8 , Juergen Gallinat 9 , Andreas Heinz 9 ,<br />
Bernd Ittermann 5 , Eva Loth 4 , Klara Mareckova 1 ,<br />
Anthony McIntosh 1 , Jean-Luc Martinot 2 , Zdenka Pausova 10 ,<br />
Jean Baptiste Poline 11 , Marcella Rietschel 12 ,<br />
Michael Smolka 13 , Andreas Ströhle 7 , Gunter Schumann 4 ,<br />
Tomas Paus 1,14,15 , the IMAGEN Consortium 16<br />
1 Rotman Research Institute, University of Toronto,<br />
Toronto, Canada, 2 Institut National de la Santé et de<br />
la Recherche Médicale, Paris, France, 3 Department of<br />
Child and Adolescent Psychiatry, Central Institute of<br />
Mental Health, Mannheim, Germany, 4 King’s College<br />
London, Institute of Psychiatry, London, United Kingdom,<br />
5 Physikalisch-Technische Bundesanstalt, Berlin, Germany,<br />
6 NeuroimageNord, Institute <strong>for</strong> Systems Neuroscience,<br />
University-Medical Center Hamburg-Eppendorf, Ger,<br />
Hamburg, Germany, 7 Department of Cognitive and<br />
Clinical Neuroscience, Central Institute of Mental<br />
Health, Mannheim, Germany, 8 Trinity College Institute of<br />
Neuroscience, Dublin, Ireland, 9 Department of Psychiatry<br />
and Psychotherapy, Campus Charité Mitte, Charité –<br />
Universitätsmedizin, Berlin, Germany, 10 Hospital <strong>for</strong> Sick<br />
Children, University of Toronto, Toronto, Canada, 11 CEA-<br />
I2BM-Neurospin, Paris, France, 12 Central Institute of Mental<br />
Health, Mannheim, Germany, 13 Technische Universität<br />
Dresden, Dresden, Germany, 14 School of Psychology,<br />
University of Nottingham, Nottingham, United Kingdom,<br />
15 Montreal Neurological Institute, Montreal, Canada,<br />
16 King’s College London, London, United Kingdom<br />
Developmental Differences in Connectivity within<br />
motor, Task Positive and Default mode Networks<br />
Anita Barber 1,2 , Mary Beth Nebel 1,2 , Suresh Joel 1,2 ,<br />
James Pekar 1,2 , Stewart Mostofsky 1,2<br />
1 Kennedy Krieger Institute, Baltimore, MD,<br />
2 Johns Hopkins University, Baltimore, MD<br />
<strong>Brain</strong> anatomy of children’s socioeconomic status<br />
Katarzyna Jednorog 1,2 , Irene Altarelli 3 , Karla Monzalvo 4 ,<br />
Joel Fluss 5 , Catherine Billard 5 , Ghislaine Dehaene-<br />
Lambertz 6 , Franck Ramus 7<br />
1 Laboratoire de Sciences Cognitives et Psycholinguistique,<br />
ENS, Paris, France, 2 Nencki Institute of Experimental<br />
Biology, Warsaw, Poland, 3 Laboratoire de Sciences<br />
Cognitives et Psycholinguistique, ENS, PARIS, France,<br />
4 INSERM, U562, CEA/SAC/DSV/I2BM Neurospin, Gif-sur-<br />
Yvette, France, 5 Centre de Reference sur les Troubles des<br />
Apprentissages, Hopital Bicetre, PARIS, France, 6 INSERM-<br />
CEA Cognitive Neuroimaging Unit, GIF/YVETTE, France,<br />
7 Laboratoire de Sciences Cognitives et Psycholinguistique,<br />
Ecole Normale Supérieure, Paris, France<br />
880<br />
881<br />
882<br />
883<br />
884<br />
885<br />
886<br />
887<br />
<strong>Brain</strong> Connectivity and Verbal Working memory in<br />
Typically Developing Children and adolescents<br />
Gerbrich van den Bosch 1 , Hanan El Marroun 2 ,<br />
Marcus Schmidt 1 , Dick Tibboel 1 , Dara Manoach 3 ,<br />
Vince Calhoun 4 , Tonya White 5<br />
1 Erasmus MC-Sophia, Rotterdam, Netherlands, 2 Erasmus<br />
Medical Centre -Sophia Children’s Hospital, Rotterdam,<br />
Netherlands, 3 Massachusetts General Hospital,<br />
Charlestown, MA, 4 Mind Research Network, Albuquerque,<br />
NM, 5 Erasmus Medical Centre, Rotterdam, Netherlands<br />
Newborn brain’s responses to speech and<br />
non-linguistic emotional vocalizations<br />
Alejandrina Cristia 1 , Yasuyo Minagawa-Kawai 2 ,<br />
Inga Vendelin 1 , Emmanuel Dupoux 1<br />
1 LSCP, EHESS, ENS-DEC, CNRS, Paris, France,<br />
2 Keio University, Tokyo, Japan<br />
maturation of eeg Coherence during rest and<br />
Intermittent Photic Stimulation<br />
Ala Birca 1 , Anne Lortie 1 , Lionel Carmant 1 ,<br />
Phetsamone Vannasing 1 , Maryse Lassonde 1<br />
1 Université de Montréal, Montreal, Canada<br />
Developmental Changes and gender Differences<br />
in Structural <strong>Brain</strong> Networks of Children<br />
Budhachandra Khundrakpam 1 , Sherif Karama 2 ,<br />
Jens Brauer 3 , Felix Carbonell 2 , Junki Lee 4 , Gaolang Gong 5 ,<br />
Zhang Chen 6 , Yong He 7 , Alan Evans 2<br />
1 Montreal Neurological Institute, Montreal, Canada,<br />
2 McGill University, Montreal, Canada, 3 Max Planck<br />
Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong> Sciences, Leipzig,<br />
Germany, 4 Montreal Neurological Institute, Montreal,<br />
Quebec, 5 Montreal neurological institute, Montreal,<br />
Quebec, 6 McConnell <strong>Brain</strong> Imaging Centre, Montréal<br />
Neurological Institute, McGill University, Montreal, Canada,<br />
7 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing 100875, China<br />
age and gender effects on the Volume of<br />
Corpus Callosum<br />
Wenjing Li 1 , Huiguang He 1 , Meng Li 1 , Qianwen Miao 1 ,<br />
Bin Lv 1 , Martin Walter 2<br />
1 Institute of Automation, Chinese Academy of Sciences,<br />
Beijing, China, 2 Department of Psychiatry, Otto-von-<br />
Guericke University, Magdeburg, Germany<br />
rocket-ship meg: an interactive video game<br />
environment to facilitate brain measurements<br />
in children<br />
Wendy Tham 1 , Melanie Reid 1 , Graciela Tesan 1 ,<br />
Blake Johnson 1 , Stephen Crain 1<br />
1 Macquarie University, Sydney, Australia<br />
Finding Stable Sulcal Subunits in Developing <strong>Brain</strong>:<br />
a group analysis of Cortical and Depth maxima<br />
Grégory Operto 1 , Guillaume Auzias 2 , Denis Rivière 1 ,<br />
Jessica Dubois 3 , Petra Huppi 4 , Jean-François Mangin 1<br />
1 NeuroSpin, CEA, Gif-sur-Yvette, France, 2 CNRS LSIS,<br />
Marseille, France, 3 U992 Cognitive NeuroImaging Unit,<br />
Gif-sur-Yvette, France, 4 Dept of Pediatrics, University of<br />
Geneva, Geneva, Switzerland<br />
Withdrawn<br />
HBM 2011 >> <strong>abstracts</strong> 165<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
lifespan Development<br />
Normal <strong>Brain</strong> Development: Fetus to Adolescence, continued<br />
888<br />
889<br />
890<br />
891<br />
892<br />
893<br />
Functional architectures of the Primate <strong>Brain</strong> and the<br />
Implication of recapitulation Theory<br />
Ci-Rong Liu1 , Synnöve Carlson2 , Tianzi Jiang3 , Yuanye Ma1 1Kunming Institute of Zoology, Chinese Academy of<br />
Science, Kunming, China, 2Institute of Biomedicine/<br />
Physiology, University of Helsinki, Helsinki, Finland,<br />
3Institute of Automation, Chinese Academy Of Sciences,<br />
Beijing, China<br />
associations between Laterality in Network<br />
Connectivity and Children’s motor abilities<br />
Anita Barber 1,2 , Suresh Joel 1,2 , Mary Beth Nebel 1,2 ,<br />
James Pekar 1,2 , Stewart Mostofsky 1,2<br />
1 Kennedy Krieger Institute, Baltimore, MD,<br />
2 Johns Hopkins University, Baltimore, MD<br />
The Developing Social <strong>Brain</strong>: Face-selective regions<br />
in the Superior Temporal Cortex<br />
Sarah Weigelt 1 , Kami Koldewyn 1 , Eyal Dechter 1 ,<br />
Daniel Dilks 1 , Nancy Kanwisher 1<br />
1 MIT, Cambridge, United States<br />
Testosterone-related Sex Differences in Cortical<br />
Thickness in the Developing <strong>Human</strong> <strong>Brain</strong><br />
Tuong-Vi Nguyen 1 , Simon Ducharme 1 , Kelly Botteron 2 ,<br />
James McCracken 3 , Megan Mahabir 1 , Mimi Israel 1 ,<br />
Alan Evans 1 , Sherif Karama 1<br />
1 McGill University, Montreal, Canada, 2 Washington Univ<br />
School Of Medicine Dept. Of Psychiatry, St. Louis,<br />
United States, 3 University of Cali<strong>for</strong>nia in Los Angeles,<br />
Los Angeles, CA<br />
Development of reward-related Circuitry in<br />
adolescence and young adulthood<br />
Janna Marie Hoogendam 1 , René Kahn 1 ,<br />
Mariët van Buuren 1 , Matthijs Vink 1<br />
1 Rudolf Magnus Institute Of Neuroscience, University<br />
Medical Center Utrecht, Utrecht, Netherlands<br />
Structural and functional development of early visual<br />
cortical areas: an fmrI and DTI study<br />
Ines Violante1 , Maria Ribeiro1 , André Santos1 ,<br />
Nicolás Lori1 , Eduardo Silva1 , Miguel Castelo-Branco1 1IBILI, Faculty of Medicine, University of Coimbra,<br />
Coimbra, Portugal<br />
166 HBM 2011 >> <strong>abstracts</strong><br />
894<br />
895<br />
896<br />
897<br />
898<br />
a Developmental fmrI Study of medial Temporal Lobe<br />
activity During Verbal Working memory in Healthy<br />
Samantha Huang 1 , Heidi Thermenos 2,3 , Ariel Brown 3,4 ,<br />
Eve Valera 3,4 , Jyrki Ahveninen 1 , Martin Albert 5 , Joseph<br />
Biederman 3,4 , Nikos Makris 6 , Stephen Faraone 3,7 ,<br />
Ming Tsuang 2,8 , Larry Seidman 2,3,4<br />
1 Harvard Medical School - Martinos Center, Department<br />
of Radiology, Massachusetts General Hospital,<br />
Charlestown, MA, 2 Massachusetts Mental Health Center<br />
Public Psychiatry Division, Beth Israel Deaconess<br />
Medical Center, Boston, MA, 3 Department of Psychiatry,<br />
Harvard Medical School, Massachusetts General<br />
Hospital, Boston, MA, 4 Neuroimaging Program in ADHD<br />
and Pediatric Psychopharmacology, Massachusetts<br />
General Hospital, Boston, MA, 5 Veterans Affairs Boston<br />
Healthcare System, Boston, MA, 6 Harvard Medical School<br />
Departments of Neurology and Radiology Services, Center<br />
<strong>for</strong> Morphometric Anal, Boston, MA, 7 SUNY Genetics<br />
Research Program and Department of Psychiatry, SUNY<br />
Upstate Medical University, Syracuse, NY, 8 Center <strong>for</strong><br />
Behavior Genomics, University of Cali<strong>for</strong>nia, San Diego,<br />
La Jolla, CA<br />
Phonological awareness correlate with Caudate<br />
Nucleus and amygdala Volumes in Healthy Children<br />
Beatriz Moreno1 , Luis Concha1 , Leopoldo Gonzalez-<br />
Santos1 , Juan Ortiz1 , Fernando Barrios1 1Universidad Nacional Autonoma de Mexico,<br />
QUERETARO, QRO<br />
Cortical auditory processing of speech and<br />
non-speech stimuli from early childhood to adult life<br />
Natacha Paquette 1,2 , Phetsamone Vannasing 2 , Mélanie<br />
Lefrançois 1,2 , Francine Lefebvre 2 , Marie-Sylvie Roy 1 ,<br />
Michelle McKerral 1 , Franco Lepore 1,2 , Maryse Lassonde 1,2<br />
1 Centre de Recherche en Neuropsychologie et Cognition,<br />
Université de Montréal, Montreal, Quebec, Canada,<br />
2 Centre de Recherche, University Hospital Center Sainte-<br />
Justine, Montreal, Quebec, Canada<br />
Cerebral Volumes of Prematurely Born Neonates and<br />
Fetuses do not differ at similar gestational ages<br />
Julia Scott 1 , Piotr Habas 1 , Kio Kim 1 , Vann Chau 2 , Kenneth<br />
Poskitt 2 , A. James Barkovich 1 , Steven Miller 2 , Orit Glenn 1 ,<br />
Colin Studholme 1<br />
1 University of Cali<strong>for</strong>nia San Francisco, San Francisco,<br />
United States, 2 University of British Columbia,<br />
Vancouver, Canada<br />
Prenatal maternal Folate Levels and Fetal<br />
Neurodevelopment<br />
Alette Walstra 1 , Jolien de Graaff 2 , Hanan El Marroun 3 ,<br />
Frank Verhulst 4 , Henning Tiemeier 4 , Tonya White 4<br />
1 ErasmusMC, 2 Erasmusmc, Rotterdam, Netherlands,<br />
3 Erasmus Medical Centre -Sophia Children’s Hospital,<br />
Rotterdam, Netherlands, 4 Erasmus Medical Centre,<br />
Rotterdam, Netherlands
Motor Behavior<br />
Basal Ganglia/<strong>Brain</strong>stem/Spinal Cord Function<br />
899<br />
900<br />
resting State Networks of the <strong>Human</strong> Cervical Spinal<br />
Cord revealed by group PICa<br />
Yazhuo Kong 1 , Jonathan Brooks 1 , Christian Beckmann 2,3 ,<br />
Jesper Andersson 2 , Christian Büchel 4 , Falk Eippert 4,2<br />
1 FMRIB Centre, University Of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 2 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d,<br />
United Kingdom, 3 Radboud University Nijmegen,<br />
Nijmegen, Netherlands, 4 University Medical Center<br />
Hamburg-Eppendorf, Hamburg, Germany<br />
SePs mapping during restoration Functions of Central<br />
and Peripheral Nervous System<br />
Sergey Lytaev 1 , Olga Timkina 1 , Aleksandr Sukhanov 1<br />
1 Saint Petersburg State Pediatric Medical Academy,<br />
Saint Petersburg, Russian Federation<br />
Motor Behavior<br />
<strong>Brain</strong>-Machine Interface<br />
901<br />
902<br />
903<br />
904<br />
a brain-computer interface <strong>for</strong> navigation through<br />
a virtual environment in real-time fmrI Studies<br />
Andrea Thoms 1 , Charles Mueller 2 , Johannes Bernarding 3<br />
1 Department <strong>for</strong> Biometrics and Medical In<strong>for</strong>matics,<br />
2 IBMI, Otto-Von-Guericke-University, Germany, 3 Otto Von<br />
Guericue University, Magdeburg, Germany<br />
a Qt-based virtual environment stimulus application<br />
<strong>for</strong> rfmrI using an improved TCP/IP framework<br />
Charles Mueller 1 , Michael Lührs 1 , Claudia Hänel 2 ,<br />
Andrea Thoms 3 , Johannes Bernarding 4<br />
1 IBMI, Otto-Von-Guericke-University, Magdeburg,<br />
Germany, 2 Institute <strong>for</strong> Biometry and Medical In<strong>for</strong>matics,<br />
Otto-von-Guericke University Magdeburg, 3 Department <strong>for</strong><br />
Biometrics and Medical In<strong>for</strong>matics, 4 Otto Von Guericue<br />
University, Magdeburg, Germany<br />
an exploratory fNIrS study towards the implementation<br />
of a BCI <strong>for</strong> lower limbs movements<br />
Massimiliano Rea 1 , Mohit Rana 1 , Pavel Terekhin 1 ,<br />
Ranganatha Sitaram 2 , Ann-Christine Ehlis 3 ,<br />
Ramona Taeglich 3 , Andreas Fallgatter 4 , Niels Birbaumer 1 ,<br />
Andrea Caria 1<br />
1 Institute of Medical Psychology and Behavioral<br />
Neurobiology, University of Tübingen, Tübingen,<br />
Germany, 2 Institute of medical psychology and behavioral<br />
neurobiology, University of Tübingen, Tübingen, Germany,<br />
3 Department of Psychiatry and Psychotherapy, University<br />
of Tübingen, Tübingen, Germany, 4 Psychophysiology<br />
and Optical Imaging, University of Tübingen, Tübingen,<br />
Germany<br />
Command Classification by using Hidden markov<br />
model in SSVeP-based <strong>Brain</strong> Computer Interface<br />
Hua-Ting Deng 1 , Po-Lei Lee 1,2,3 , Chi-Hsun Wu 1,2 , Yen-Ju Lu 1<br />
1 Department of Electrical Engineering, National Central<br />
University, Jhongli, Taiwan, Republic of China, 2 Department<br />
of Medical Research and Education, Taipei General<br />
Veterans Hospital, Taipei, Taiwan, Republic of China,<br />
3 Institute of <strong>Brain</strong> Science, National Yang-Ming University,<br />
Taipei, Taiwan, Republic of China<br />
905<br />
906<br />
907<br />
908<br />
909<br />
Neural decoding of 5 leaning directions in motor<br />
imagery from event-related potentials<br />
Yuichiro Takai 1 , Hitoshi Nakazawa 2 , Masaya Kato 1 ,<br />
Yuki Kamatani 1 , Michiteru Kitazaki 3<br />
1 Graduate School of Engineering, Toyohashi University<br />
of Technology, Toyohashi, Aichi, Japan, 2 Department of<br />
Psychology, Senshu University, Kawasaki, Kanagawa,<br />
Japan, 3 Department of Computer Science and<br />
Engineering, Toyohashi University of Technology,<br />
Toyohashi, Aichi, Japan<br />
Classical Conditioning of the BoLD signal: a paradigm<br />
<strong>for</strong> basic BCI communication<br />
Giulia Liberati 1 , Linda van der Heiden 2 , Sunjung Kim 3 ,<br />
Mohit Rana 3 , Antonino Raffone 4 , Marta Olivetti Belardinelli 5 ,<br />
Piotr Jaskowski 2 , Niels Birbaumer 6 , Ranganatha Sitaram 7<br />
1 Interuniversity Centre <strong>for</strong> Research on Cognitive<br />
Processing in Natural and Artificial Systems, Rome, Italy,<br />
2 Department of Cognitive Psychology, University of Finance<br />
and Management, Warsaw, Poland, 3 Institute of Medical<br />
Psychology and Behavioral Neurobiology, University<br />
of Tuebingen, Tuebingen, Ger, Tuebingen, Germany,<br />
4 Department of Psychology, University “Sapienza” of<br />
Rome, Rome, Italy, 5 Interuniversity Centre <strong>for</strong> Research<br />
on Cognitive Processing in Natural and Artificial, Rome,<br />
Italy, 6 Institute of Medical Psychology and Behavioral<br />
Neurobiology, University of Tuebingen, Tuebingen,<br />
Germany, 7 Institute of medical psychology and behavioral<br />
neurobiology, Tuebingen, Germany<br />
Neurophysiological prediction of BCI per<strong>for</strong>mance <strong>for</strong><br />
people with aLS<br />
Sebastian Halder 1 , Carolin Ruf 1 , Adrian Furdea 1 ,<br />
Emanuele Pasqualotto 1 , Martin Bogdan 2 , Andrea Kübler 3 ,<br />
Wolfgang Rosenstiel 1 , Tamara Matuz 1 , Niels Birbaumer 4<br />
1 University of Tübingen, Tübingen, Germany, 2 University<br />
of Leipzig, Leipzig, Germany, 3 University of Würzburg,<br />
Würzburg, Germany, 4 Institute of Medical Psychology<br />
and Behavioral Neurobiology, University of Tuebingen,<br />
Tuebingen, Germany<br />
a SSVeP − based BCI using the combination of<br />
biphasic stimulation and hidden markov model<br />
Hsiang-Chih Chang 1 , Kuo-Kai Shyu 1 , Po-Lei Lee 1,2,3 ,<br />
Chi-Hsun Wu 1,2 , Hung-Yi Wu 1,3<br />
1 Department of Electrical Engineering, National Central<br />
University, Jhongli, Taiwan, Republic of China, 2 Department<br />
of Medical Research and Education, Taipei General<br />
Veterans Hospital, Taipei, Taiwan, Republic of China,<br />
3 Institute of <strong>Brain</strong> Research, National Yang-Ming University,<br />
Taipei, Taiwan, Republic of China<br />
real-time feedback enhances cross-frequency coupling<br />
of ongoing brain activity during motor imagery<br />
Elizabeth Bock 1 , Esther Florin 2,1 , Sylvain Baillet 3<br />
1 Department of Neurology, Froedtert & The Medical<br />
Collegee of Wisconsin, Milwaukee, WI, 2 Department<br />
of Neurology, University Hospital Cologne, Cologne,<br />
Germany, 3 Departments of Neurology & Biophysics,<br />
Froedtert & The Medical Collegee of Wisconsin,<br />
Milwaukee, WI<br />
HBM 2011 >> <strong>abstracts</strong> 167<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Motor Behavior<br />
<strong>Brain</strong>-Machine Interface, continued<br />
910<br />
<strong>Brain</strong> signal change during directional hand<br />
movements<br />
Hong Gi Yeom 1 , June Sic Kim 2 , Chun Kee Chung 2<br />
1 Interdisciplinary Program in Neuroscience, Seoul National<br />
University, Seoul, Korea, Republic of, 2 MEG Center,<br />
Department of Neurosurgery, Seoul National University<br />
College of Medicine, Seoul, Korea, Republic of<br />
Motor Behavior<br />
Cerebellar Function<br />
911<br />
912<br />
913<br />
Catching falling objects and processing sensory<br />
prediction errors. an fmrI study<br />
Lilian Fautrelle 1 , Cedric Pichat 2 , Frederic Ricolfi 3 ,<br />
Carole Peyrin 2 , Francois Bonnetblanc 1<br />
1 INSERM U887, Dijon, France, 2 CNRS UMR 5105,<br />
Grenoble, France, 3 CHU Dijon Neuroradiologie, Dijon,<br />
France<br />
1. <strong>Brain</strong> Imaging of eye Blink Conditioning<br />
Following acute marijuana use<br />
Daniel o’Leary 1 , John Freeman 1 , Julie Koeppel 1 ,<br />
Robert Block 1<br />
1 University of Iowa, Iowa City, IA<br />
Cerebellum modulates the peripheral in<strong>for</strong>mation<br />
needed <strong>for</strong> cortical plasticity induction<br />
Traian Popa 1,2,3 , Balu Velayudhan 4 , Cécile Hubsch 1,2,5 ,<br />
Sabine Meunier 1,5,6 , Asha Kishore 4<br />
1 Centre de Recherche de l’Institut du Cerveau et de la<br />
Moelle épinière (CR-ICM), Paris, France, 2 Université<br />
‘Pierre et Marie Curie‘ (UPMC – Paris 6), Paris, France,<br />
3 Centre de NeuroImagerie de Recherche (CENIR), Paris,<br />
France, 4 Comprehensive Care Center <strong>for</strong> Movement<br />
Disorders, SCTIMST, Thiruvanathapuram, India, 5 Inserm<br />
UMR-S975, CNRS, UMR 7225, Paris, France, 6 Fédération<br />
de Neurologie, Groupe Hospitalier Pitié Salpétrière, Paris,<br />
France<br />
Motor Behavior<br />
Eye Movements/ Visuomotor System Function<br />
914* The Search <strong>for</strong> the Neural mechanisms of the<br />
Set Size effect, (o-W2)<br />
Trenton Jerde1 , Akiko Ikkai1 , Clayton Curtis1 1New York University, New York, NY<br />
915<br />
916<br />
917<br />
Fronto-parietal interactions <strong>for</strong> effector selection<br />
during reaching: a simultaneous eeg-fmrI study<br />
Pierre-Michel Bernier 1 , Scott Grafton 2<br />
1 University Of Cali<strong>for</strong>nia Santa Barbara, United States,<br />
2 University of Cali<strong>for</strong>nia, Santa Barbara, Santa Barbara, CA<br />
Cerebellar activations induced by Saccadic<br />
Inaccuracies<br />
Jos van der Geest 1 , Esmee Liem 1 , Maarten Frens 1<br />
1 Neuroscience, Erasmus MC, Rotterdam, Netherlands<br />
Withdrawn<br />
168 HBM 2011 >> <strong>abstracts</strong><br />
918<br />
Functional subdivisions of the human frontal eye fields<br />
and their connections to the basal ganglia<br />
Sebastiaan Neggers 1 , René Mandl 2 , Rosanne van Diepen 2 ,<br />
Tjerk Gutteling 2<br />
1 Rudolf Magnus Institute <strong>for</strong> Neuroscience, Utrecht ,<br />
Utrecht, 2 Rudolf Magnus Institute <strong>for</strong> Neuroscience,<br />
Utrecht, Netherlands<br />
Motor Behavior<br />
Motor-Premotor Cortical Functions<br />
919* Functional connectivity reveals the mid-cingulate<br />
cortex as center axis of intentional motor control,<br />
(o-W2)<br />
Felix Hoffstaedter1 , Christian Grefkes2 , Svenja Caspers3 ,<br />
Christian Roski3 , Angela R. Laird4 , Peter Fox5 , Karl Zilles6 ,<br />
Simon Eickhoff1 1Department of Psychiatry and Psychotherapy, Aachen,<br />
Germany, 2Max Planck Institute <strong>for</strong> Neurological Research<br />
Cologne, Cologne, Germany, 3Institute of Neuroscience<br />
and Medicine, INM-2, Research Center Juelich, Juelich,<br />
Germany, 4Research Imaging Center, University of Texas<br />
Health Science Center at San Antonio, San Antonio, TX,<br />
5University Of Texas Health Science Center At San Antonio,<br />
San Antonio, United States, 6Institute of Neuroscience and<br />
Medicine, Research Center Juelich, Juelich, Germany<br />
920<br />
921<br />
922<br />
923<br />
Simultaneous eeg-emg-fmrI investigation of the key<br />
movement controllers during isometric contraction<br />
Stephen Mayhew 1 , Camillo Porcaro 2 , Dirk Ostwald 3 ,<br />
Franca Tecchio 4 , Andrew Bagshaw 1<br />
1 Birmingham University Imaging Centre (BUIC),<br />
University of Birmingham, Birmingham, United Kingdom,<br />
2 Institute of Neuroscience, Newcastle University, Medical<br />
School, Newcastle upon Tyne, NE2 4HH, UK, Newcastle,<br />
United Kingdom, 3 Department of Neurology and Bernstein<br />
Centre <strong>for</strong> Computational Neuroscience, Charite, Berlin,<br />
Germany, 4 3ISTC-CNR, Ospedale Fatebenefratelli, Isola<br />
Tiberina, 00186, Rome, Italy<br />
Cerebral lateralization of praxis during unimanual<br />
and bimanual tool pantomiming<br />
Guy Vingerhoets 1 , Frederic Acke 1 , Ann-Sofie Alderweireldt 1 ,<br />
Jo Nys 1 , Pieter Vandemaele 1 , Eric Achten 1<br />
1 Ghent University, Ghent, Belgium<br />
moving Hands or moving Feet: Cortical Connectivity<br />
during isolated limb movements<br />
Christian Grefkes 1 , Anna-Sophia Sarfeld 1 , Svenja Diekhoff 1 ,<br />
Simon Eickhoff 2<br />
1 Max Planck Institute <strong>for</strong> Neurological Research Cologne,<br />
Cologne, Germany, 2 Department of Psychiatry and<br />
Psychotherapy, Aachen, Germany<br />
Functional connectivity of frontal components of the<br />
human mirror system: a PPI study<br />
Fausta Lui 1 , Davide Duzzi 1 , Marta Ghio 2 , Armando Bauleo 1 ,<br />
Carlo Porro 1<br />
1 University of Modena and Reggio Emilia, Modena,<br />
Italy, 2 Scuola Normale Superiore, Pisa, Italy
Motor Behavior<br />
Motor-Premotor Cortical Functions, continued<br />
924<br />
925<br />
926<br />
927<br />
928<br />
929<br />
a fine fmrI exploration of hand cortical representation<br />
in humans<br />
Chantal Delon-Martin 1 , Fabrizio Pizzagalli 2 , Michel Dojat 3<br />
1 INSERM, F-38700 La Tronche, France, 2 INSERM / Univ.<br />
Joseph Fourier Grenoble 1, F-38700 La Tronche, France,<br />
3 INSERM / CEA / Univ. Joseph Fourier Grenoble 1 / CHU,<br />
U836 GIN, F-38000 Grenoble, France<br />
Hemispheric specialization of praxis in right- and<br />
left-handers: Same pattern, different strength<br />
Guy Vingerhoets 1 , Ann-Sofie Alderweireldt 1 , Frederic<br />
Acke 1 , Jo Nys 1 , Pieter Vandemaele 1 , Eric Achten 1<br />
1 Ghent University, Ghent, Belgium<br />
attention and the readiness <strong>for</strong> action<br />
Katharine Baker 1 , Jason Mattingley 1 , Chris Chambers 2 ,<br />
Ross Cunnington 1<br />
1 Queensland <strong>Brain</strong> Institute, The University Of Queensland,<br />
St Lucia, Australia, 2 Cardiff University, United Kingdom<br />
Corticomuscular coherence between Sma and right<br />
hand muscles in a bimanual precision grip task<br />
Sophie Chen 1 , Jonathan Entakli 2 , Florent JAILLET 3 ,<br />
Jozina De Graaf 2<br />
1 Institut of Movement Sciences, CNRS - Aix-Marseille<br />
University, Marseille, France, 2 Institut of Movement<br />
Sciences, CNRS - Aix-Marseillle University, Marseille,<br />
France, 3 Mediterranean Institut of Cognitive Neuroscience,<br />
CNRS - Aix-Marseille University, Marseille, France<br />
movement timing and sequencing in the<br />
Supplementary motor area: high-resolution fmrI<br />
at 7.0 Tesla<br />
Ross Cunnington 1 , Ronald Sladky 2 , Ewald Moser 3 ,<br />
Christian Windischberger 4<br />
1 University Of Queensland, St Lucia, Australia, 2 MR Centre<br />
Of Excellence, Medical University Of Vienna, Austria,<br />
3 Medical Universsity of Vienna, Vienna, Austria, 4 MR<br />
Center, Medical University of Vienna, Vienna, Austria<br />
Neural correlates of active and passive movements of<br />
hip and knee: an fNIrS study<br />
mohit rana 1,2 , massimiliano rea 3 , pavel terekhin 3 ,<br />
Ranganatha Sitaram 4 , Andreas Fallgatter 5 , Ann-Christine<br />
Ehlis 6 , ramona taeglich 5 , Niels Birbaumer 7 , Andrea Caria 3<br />
1 Institute of Medical Psychology and Behavioral<br />
Neurobiology, tuebingen germany, 2 Graduate School of<br />
Neural & Behavioural Sciences, tuebingen, Germany,<br />
3 Institute of Medical Psychology and Behavioral<br />
Neurobiology, tuebingen, Germany, 4 Institute of medical<br />
psychology and behavioral neurobiology, Tuebingen,<br />
Germany, 5 Department of Psychiatry and Psychotherapy,<br />
tuebingen, Germany, 6 University of Tuebingen,<br />
Department of Psychiatry and Psychotherapy,<br />
Tuebingen, Germany, 7 Institute of Medical Psychology<br />
and Behavioral Neurobiology, University of Tuebingen,<br />
Tuebingen, Germany<br />
930<br />
931<br />
932<br />
933<br />
934<br />
935<br />
936<br />
937<br />
Loss of interhemispheric inhibition is correlated to<br />
structural abnormalities in mirror movements<br />
Cecile Gallea 1 , Traian Popa 2 , Sabine Meunier 3 ,<br />
Cecile Hubsch 3 , Vanessa Brochard 3 , Romain Valabregue 4 ,<br />
Michael Sharman 4 , Christine Delmaire 3 , Segolene Billot 3 ,<br />
Marie Vidailhet 3 , Stéphane Lehéricy 3 , Lucie Hertz-pannier 5 ,<br />
Constance Flamand 3 , Emmanuel Roze 3<br />
1 Institut du Cerveau et de la Moelle, Paris, France, 2 CRICM,<br />
Institut du Cerveau et de la Moelle Epinière, Paris, France,<br />
3 CRICM, Paris, France, 4 Institut du Cerveau et de la Moelle<br />
Epiniere, Paris, France, 5 Neurospin, Saclay, France<br />
effect of strength-training on cortical oscillatory<br />
activity modulations in isometric contractions<br />
Fabien Dal Maso 1 , David Amarantini 1,2 ,<br />
Marieke Longcamp 1,3<br />
1 PRISSMH, Université Paul Sabatier, Toulouse, France,<br />
2 Département de kinésiologie, Centre de réadaptation<br />
Marie-Enfant, Montréal, Canada, 3 INCM, CNRS-Université<br />
de la Méditerranée, Marseille, France<br />
Premovement <strong>Brain</strong> activity in a Bimanual<br />
Load-Lifting Task<br />
Tommy Ng 1 , Paul Sowman 1 , Jon Brock 1 , Blake Johnson 1<br />
1 Macquarie University, Sydney, Australia<br />
Functional connectivity of the supplementary motor<br />
area parceled by domain specific meta-analysis<br />
Shalini Narayana 1 , Angela R. Laird 1 , Jack Lancaster 1 ,<br />
Peter Fox 1<br />
1 Research Imaging Institute, University of Texas Health<br />
Science Center at San Antonio, San Antonio, TX, United<br />
States<br />
assessing the Functional Significance of<br />
meg motor Cortex gamma oscillations<br />
Cheng Liu 1 , William Gaetz 2 , Timothy Roberts 2 ,<br />
Hongmei Zhu 1<br />
1 Department of Mathematics and Statistics,<br />
York University, Toronto, ON, 2 Lurie Family Foundation<br />
MEG Imaging Center, Children’s Hospital of Philadelphia,<br />
Philadelphia, PA<br />
Co-speech gesture processing in natural conversation<br />
Michael Andric 1 , Steven Small 2<br />
1 The University of Chicago, Chicago, United States,<br />
2 University of Cali<strong>for</strong>nia Irvine, Irvine, CA<br />
motor control and action goal coding of<br />
orofacial movements<br />
Krystyna Grabski 1 , Laurent LAMALLE 2 , Marc Sato 3<br />
1 Gipsa-Lab, Speech and Cognition department,<br />
Grenoble, France, 2 Institut Fédératif de Recherche n°1<br />
“RMN Biomédicale et Neurosciences”; Unité IRM 3T /<br />
INSERM, Grenoble, France, 3 GIPSA-lab, Speech and<br />
Cognition department, Grenoble, France<br />
multi-frequency coordination of cortical oscillations<br />
Tjeerd Boonstra 1 , Pete Ashwin 2 , Michael Breakspear 3<br />
1 University of New South Wales, Sydney, Australia,<br />
2 University of Exeter, Exeter, UK, 3 Queensland Institute<br />
of Medical Research, Brisbane, Australia<br />
HBM 2011 >> <strong>abstracts</strong> 169<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Motor Behavior<br />
Motor-Premotor Cortical Functions, continued<br />
938<br />
939<br />
940<br />
941<br />
942<br />
943<br />
944<br />
rostral inferior frontal gyrus monitors visuomotor<br />
behaviour by linking visual and motor cortices<br />
Christos Papadelis 1 , Carola Arfeller 2 , Silvia Erla 3 ,<br />
Giandomenico Nollo 3 , Luigi Cattaneo 1 , Christoph Braun 1<br />
1 Center <strong>for</strong> Mind/<strong>Brain</strong> Sciences (CIMeC), University<br />
of Trento, Mattarello, Italy, 2 MEG Center, University of<br />
Tübingen, Tübingen, Germany, 3 Biophysics and Biosignals<br />
Lab, Department of Physics & Biotech, University of Trento,<br />
Mattarello, Italy<br />
attention to actions, goals, and agency Influences<br />
Neural activity During action observation<br />
Veronika Halasz1 , Jason Mattingley1 , Ross Cunnington1 1Queensland <strong>Brain</strong> Institute, The University Of Queensland,<br />
St Lucia, Australia<br />
role of the PPC in vestibular in<strong>for</strong>mation processing<br />
during goal-directed movements tested with TmS<br />
Alexandra Reichenbach 1 , Jean Pierre Bresciani 2 ,<br />
Heinrich H. Bülthoff 3 , Axel Thielscher 4<br />
1 MPI For Biological Cybernetics, Germany,<br />
2 Université Pierre Mendes France, Grenoble, France,<br />
3 MPI <strong>for</strong> Biological Cybernetics, Tübingen, Germany,<br />
4 MPI Biol Cybernetics, Tübingen, Germany<br />
mapping human motor cortex organization after<br />
hemispherectomy: a case study with fmrI, DTI and TmS<br />
Marie-Helene Grosbras 1 , Jen-Kai Chen 2 , Sandra Leh-Seal 3 ,<br />
Alain Ptito 4<br />
1 University of Glasgow, 2 Graduate Department of<br />
Rehabilitation Science, Toronto, Canada, 3 Toronto Western<br />
Hospital, Toronto, Canada, 4 Department of Psychology,<br />
McGill University Health Centre, Montreal, Canada<br />
What is so unique about writing with the dominant<br />
hand?<br />
Silvina Horovitz 1 , Cecile Gallea 2 , Muslimah ‘Ali Najee-ullah 3 ,<br />
Prantik Kundu 4 , Mark Hallett 1<br />
1 HMCS - MNB - NINDS - NIH, Bethesda, MD,<br />
2 Hôpital Pitié-Salpêtrière, INSERM, Paris, France,<br />
3 Louis Stokes Institute, Council <strong>for</strong> Opportunity in<br />
Education, Washington, DC, 4 NIMH - NIH, Bethesda, MD<br />
Improved Per<strong>for</strong>mance Without Detectable m1 gaBa<br />
Change in early-phase Implicit motor Learning<br />
Eric Mooshagian 1,2 , Trelawny Zimmermann 2 , Jan Willem<br />
van der Veen 3 , Sasha Tereshchenko 2 , Eric Wassermann 2<br />
1 Henry M. Jackson Foundation, Bethesda, MD, 2 <strong>Brain</strong><br />
Stimulation Unit, National Institute of Neurological<br />
Disorders and Stroke, Bethesda, MD, 3 Magnetic<br />
Resonance Spectroscopy Core, National Institute of<br />
Mental Health, Bethesda, MD<br />
Imaging of the human sensorimotor cortex using a<br />
novel device <strong>for</strong> feet stimulation: an fmrI study<br />
Elena Kremneva1 , Ludmila Chernikova1 , Rodion<br />
Konovalov1 , Marina Krotenkova1 1Research center of neurology of RAMS, Moscow,<br />
Russian Federation<br />
170 HBM 2011 >> <strong>abstracts</strong><br />
945<br />
946<br />
947<br />
948<br />
949<br />
950<br />
951<br />
gaze effects on directional coding of reaching in<br />
human frontal and parietal cortex<br />
Patrick Bedard 1 , Tessa Churchill 1 , Jerome Sanes 2<br />
1 Brown University, Providence, RI, 2 Brown Medical School,<br />
Providence, United States<br />
Neural correlates of singing and vocal fold anesthesia –<br />
the role of somatosensation<br />
Boris Kleber 1,2 , Anthony Zeitouni 3 , Robert Zatorre 4<br />
1 Montreal Neurological Institute, McGill University;<br />
BRAMS; CIRMMT, Montreal, Canada, 2 University of<br />
Tübingen, Institute of Medical Psychology and Behavioral<br />
Neurobiology, Tübingen, Germany, 3 Department of<br />
Otolaryngology Royal Victoria Hospital, Montreal, Canada,<br />
4 Montreal Neurological Institute, McGill University; BRAMS;<br />
CIRMMT, Montreal, QC<br />
Incidence and Thresholds of Ipsilateral Cortical Silent<br />
Period elicited by Bi-manual Low Force Task<br />
Christopher Rábago 1 , Shalini Narayana 2 , Wei Zhang 2 ,<br />
Casey Strickland 2 , Peter Fox 2 , Jack Lancaster 2<br />
1 Military Per<strong>for</strong>mance Lab, Center <strong>for</strong> the Intrepid, Fort<br />
Sam Houston, San Antonio, TX, United States, 2 Research<br />
Imaging Institute, University of Texas Health Science<br />
Center at San Antonio, San Antonio, TX, United States<br />
Direction of movement is encoded in the human<br />
primary motor cortex<br />
Carolien Toxopeus1,2 , Bauke de Jong1,2 , Gopal Valsan3 ,<br />
Bernard Conway3 , Johannes van der Hoeven1 ,<br />
Klaus Leenders1,2 , Natasha Maurits1,2 1Department of Neurology, University Medical Center<br />
Groningen, Groningen, Netherlands, 2Neuroimaging Center<br />
(NIC), University of Groningen, Groningen, Netherlands,<br />
3Bioengineering Unit, University of Strathclyde, Glasgow,<br />
United Kingdom<br />
Categorization of action sequences in the human motor<br />
planning network<br />
Hame Park 1 , June Sic Kim 2 , Chun Kee Chung 2<br />
1 Seoul National University, Seoul, Korea, Republic of,<br />
2 MEG Center, Department of Neurosurgery, Seoul National<br />
University College of Medicine, Seoul, Korea, Republic of<br />
action related Words modulate the activity of the<br />
mirror Neuron System during action Imitation<br />
Haiyan Wu 1 , Honghong Tang 1 , Yue Ge 1 , Yue-Jia Luo 1 ,<br />
Chao Liu 1<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing, China<br />
Difference and similar effects of motor execution and<br />
motor imagery on intermanual transfer<br />
kaoru amemiya 1,2,3 , Shozo Kojima 4 , Yoshiaki Someya 4<br />
1 univ of tokyo, 2 Keio GCOE, Tokyo, Japan, 3 JSPS, Tokyo,<br />
Japan, 4 Keio GCOE Carls, Tokyo, Japan
Motor Behavior<br />
Motor-Premotor Cortical Functions, continued<br />
952 FmrI study of the observation and imagination of<br />
right-handed,left-handed and bilateral hand actions<br />
Sunjin Hong 1 , Marie Davergne 2 , Paul Kennedy 3 ,<br />
Katie Overy 1 , Liz Franz 4 , Neil Roberts 3<br />
1 School of Music, University of Edinburgh, United<br />
Kingdom, 2 Ecole des Hautes Etudes d’Ingénieur, Lille,<br />
France, 3 Clinical Research Imaging Centre (CRIC),<br />
University of Edinburgh, United Kingdom, 4 Department of<br />
Psychology, University of Otagoity of Otago, New Zealand<br />
Neuroanatomy<br />
<strong>Brain</strong> Networks<br />
953* Connectome Classification: Statistical graph Theoretic<br />
methods <strong>for</strong> analysis of mr-Connectome Data, (o-m3)<br />
Joshua Vogelstein1 , William Gray2 , R. Jacob Vogelstein3 ,<br />
John Bogovic4 , Susan Resnick5 , Jerry Prince6 ,<br />
Carey Priebe2 1Johns Hopkins University, Baltimore, United States,<br />
2 3 Johns Hopkins University, United States, JHU Applied<br />
Physics Lab, Laurel, United States, 4Johns Hopkins<br />
University, 5National Institute of Aging, National Institute<br />
of Health, Baltimore, MD, 6Johns Hopkins University,<br />
Baltimore, MD<br />
954**<br />
955*<br />
956<br />
graph-theory analysis of functional brain connectivity<br />
during bimanual coordination in the elderly<br />
Marcus Heitger 1 , Dann Goble 1 , Thijs Dhollander 2 ,<br />
Patrick Dupont 3 , Stephan Swinnen 1<br />
1 Research Center <strong>for</strong> Movement Control and<br />
Neuroplasticity, K.U. Leuven, Belgium, 2 Medical Imaging<br />
Research Center, University Hospital Gasthuisberg,<br />
Leuven, Belgium, 3 Laboratory <strong>for</strong> Cognitive Neurology,<br />
Dept. of Neurosciences, K.U. Leuven, Belgium<br />
Connectional anatomy of the middle Temporal gyrus,<br />
(o-T2)<br />
And Umit Turken 1 , Nina Dronkers 2<br />
1 US Dept of Veterans Affairs, Research Service, Martinez,<br />
United States, 2 VA Northern Cali<strong>for</strong>nia Health Care<br />
System/UC Davis, Martinez, United States<br />
Intrinsic Functional Networks in Six-year-old<br />
Healthy Children: a large scale rsfmrI study<br />
jidan zhong 1 , Anqi Qiu 2,3,4<br />
1 NUS Graduate School <strong>for</strong> Integrative Sciences and<br />
Engineering, National University of Singapore, Singapore,<br />
2 Division of Bioengineering, National University of<br />
Singapore, Singapore, Singapore, 3 Clinical Imaging<br />
Research Center, National University of Singapore,<br />
Singapore, Singapore, 4 Singapore Institute <strong>for</strong> Clinical<br />
Sciences, the Agency <strong>for</strong> Science, Technology and<br />
Research, Singapore, Singapore<br />
957<br />
958<br />
959<br />
960<br />
a large-sample fmrI study (n = 1,252) of individual<br />
differences in inhibitory control<br />
Robert Whelan 1 , Patricia Conrod 2 , Jean-Baptiste Poline 3 ,<br />
Tobias Banaschewski 4 , Gareth Barker 5 , Mark Bellgrove 6 ,<br />
Christian Büchel 7 , Mark Byrne 8 , Tarrant Cummins 6 , Mira<br />
Buehler 9 , Herta Flor 10 , Juergen Gallinat 11 , Andreas Heinz 12 ,<br />
Bernd Ittermann 13 , Anbarasu Lourdusamy 14 , Kar Mann 10 ,<br />
Jean-Luc Martinot 15 , Edmund Lalor 8 , Mark Lathrop 16 ,<br />
Eva Loth 2 , Tomas Paus 17 , Marcella Rietschel 10 , Michael<br />
Smolka 18 , Rainer Spanagel 10 , Dai Stephens 19 , Maren<br />
Struve 10 , Benjamin Thyreau 20 , Sabine Vollstaedt-Klein 10 ,<br />
Trevor Robbins 21 , Gunter Schumann 2 , Hugh Garavan 1<br />
1 Trinity University Dublin, Dublin, Ireland, 2 King’s<br />
College London, Institute of Psychiatry, London, United<br />
Kingdom, 3 CEA-I2BM-Neurospin, 4 Department of Child<br />
and Adolescent Psychiatry, Central Institute of Mental<br />
Health, Mannheim, Germany, 5 Institute of Psychiatry,<br />
King’s College, London, United Kingdom, 6 The University<br />
of Queensland, St Lucia, Australia, 7 University Medical<br />
Center Hamburg-Eppendorf, Hamburg, Germany,<br />
8 Institute of Neuroscience, Trinity College Dublin, Dublin,<br />
Ireland, 9 Central Institute of Mental Health, Department of<br />
Addictive Behaviour and Addiction Medicine, Mannheim,<br />
Germany, 10 Central Institute of Mental Health, Mannheim,<br />
Germany, 11 Charite Universitaetsmedizin Berlin, Berlin,<br />
Germany, 12 Department of Psychiatry and Psychotherapy,<br />
Charité – Universitätsmedizin Berlin, Berlin, Germany,<br />
13 Physikalisch-Technische Bundesanstalt, Berlin,<br />
Germany, 14 Institute of Psychiatry, London, United<br />
Kingdom, 15 Institut National de la Santé et de la<br />
Recherche Médicale, Paris, France, 16 Centre National de<br />
Génotypage, Evry, France , 17 Rotman Research Institute,<br />
University of Toronto, Toronto, Canada, 18 Technische<br />
Universität Dresden, Dresden, Germany, 19 Department<br />
of Psychology, University of Sussex, Sussex, United<br />
Kingdom, 20 CEA Neurospin, Gif sur Yvette, France,<br />
21 University of Cambridge, Cambridge, United Kingdom<br />
anatomical Covariance Pattern associated with <strong>Brain</strong><br />
atrophy in Presymptomatic Huntington’s Disease<br />
Shichun Peng 1 , Yilong Ma 1 , Phoebe Spetsieris 1 ,<br />
Peter Kingsley 1 , Andrew Feigin 1 , David Eidelberg 1<br />
1 Feinstein Institute <strong>for</strong> Medical Research, Manhasset, NY<br />
regionally constrained voxel-based network of left<br />
hippocampus in left medial temporal lobe epilepsy<br />
Jarang Hahm 1 , Moo K. Chung 2 , Hyejin Kang 1 ,<br />
Sang Kun Lee 3 , Dong Soo Lee 1<br />
1 Seoul National University, Seoul, Korea, Republic of,<br />
2 University of Wisconsin, Madison, WI, 3 Department of<br />
Neurology, Seoul National University College of Medicine,<br />
Seoul , Korea, Republic of<br />
Functional connectivity profiles of the human<br />
hippocampus<br />
Arabinda Mishra 1 , Stephan Heckers 1 , Baxter Rogers 2<br />
1 Vanderbilt University, Nashville, TN, 2 VANDERBILT UNIV.<br />
INSTITUTE OF IMAGING SCIENCE, Nashville,<br />
United States<br />
HBM 2011 >> <strong>abstracts</strong> 171<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Neuroanatomy<br />
<strong>Brain</strong> Networks, continued<br />
961<br />
962<br />
963<br />
964<br />
965<br />
966<br />
Sex differences in cerebral anatomy are an effect of<br />
testosterone and the X-chromosome<br />
Maki Kasahara 1 , Tie-Qiang Li 2 , Stefan Arver 3 ,<br />
Ivanka Savic 1<br />
1 Dept of Clinical Neuroscience, Karolinska Institute,<br />
Stockholm, Sweden, 2 Dept of Medical Physics, Karolinska<br />
University Hospital, Huddinge, Sweden, 3 Andrology<br />
Centre, Karolinska University Hospital, Stockholm,<br />
Sweden<br />
Directed <strong>Brain</strong> Network analysis Based on granger<br />
Causality and modularity-Based graph Partitioning<br />
Yu-Teng Chang 1 , Dimitrios Pantazis 2 , Sylvain Baillet 3 ,<br />
Richard Leahy 1<br />
1 University of Southern Cali<strong>for</strong>nia, Los Angeles, CA,<br />
2 McGovern Institute <strong>for</strong> <strong>Brain</strong> Research, Boston, MA,<br />
3 Medical college of Wisconsin, Milwaukee, WI<br />
Characterizing resting State Network Dynamics in the<br />
<strong>Brain</strong> with Transcranial magnetic Stimulation<br />
Mark Eldaief 1 , Mark Halko 1 , Randy Buckner 2 ,<br />
Alvaro Pascual-Leone 1<br />
1 Beth Israel Deaconess Medical Center, Harvard Medical<br />
School, Boston, MA, 2 Harvard University, Department of<br />
Psychology, Cambridge, MA<br />
Structural and Functional Networks in the<br />
<strong>Human</strong> <strong>Brain</strong><br />
Judith Segall 1 , Elena Allen 2 , Sunil Arja 2 , Erik Erhardt 3 ,<br />
Vince Calhoun 2<br />
1 Mind Research Network & University of New Mexico,<br />
Albuerque, United States, 2 Mind Research Network,<br />
Albuquerque, United States, 3 The MIND Research<br />
Network, Albuquerque, United States<br />
Hemispheric asymmetries of the Default mode<br />
Network: a resting state fmrI study<br />
Victor Saenger 1 , Maria de Lourdes Martinez 2 ,<br />
Fernando Barrios 3 , Sarael Alcauter 4,3<br />
1 Facultad de Ciencias, UNAM., Mexico D.F., Mexico,<br />
2 Instituto Nacional de Psiquiatria, INPRF., Mexico D.F.,<br />
Mexico, 3 Universidad Nacional Autonoma de Mexico,<br />
QUERETARO, QRO, 4 Instituto Nacional de Psiquiatria,<br />
INPRF, MEXICO D.F., Mexico<br />
Differential Functional Connectivity of the<br />
medial and Lateral orbitofrontal Cortex<br />
David H. Zald 1 , Kimberly Ray 2 , Maureen McHugo 1 ,<br />
Simon Eickhoff 3 , David Glahn 4 , Angela R. Laird 5<br />
1 Vanderbilt University, Nashville, TN, 2 UTHSCSA,<br />
San Antonio, TX, 3 University Hospital Aachen, Aachen,<br />
Germany, 4 Yale University, Hart<strong>for</strong>d, CT, 5 Research<br />
Imaging Center, University of Texas Health Science<br />
Center at San Antonio, San Antonio, TX<br />
172 HBM 2011 >> <strong>abstracts</strong><br />
967<br />
968<br />
969<br />
970<br />
971<br />
972<br />
mapping hubs in the neocortical structural network of<br />
the human brain shows lateralization<br />
Emil Nijhuis 1,2 , Anne-Marie van Cappellen van Walsum 3,2 ,<br />
David Norris 1,2,4<br />
1 Donders Institute <strong>for</strong> <strong>Brain</strong>, Cognition and Behaviour,<br />
Radboud University, Nijmegen, Netherlands, 2 MIRA<br />
Institute <strong>for</strong> Biomedical Technology and Technical<br />
Medicine, University of Twente, Enschede, Netherlands,<br />
3 University Medical Centre St. Radboud, Nijmegen,<br />
Netherlands, 4 Erwin L Hahn Institute <strong>for</strong> MRI, Universität<br />
Duisburg-Essen, Essen, Germany<br />
Looking into the Differences between gymnastic<br />
Champion and Normal in Structural Cortical Networks<br />
Bin Wang 1 , Yuanyuan Fan 1 , Jun Wang 2 , Shumei Li 1 ,<br />
Zheng Song 2 , Min Lu 2,3 , Xiaoling Peng 1 , Hengchan Yin 3 ,<br />
Yong He 2 , Ruiwang Huang 1<br />
1 Center <strong>for</strong> Studies of Psychological Application,<br />
Guangdong Key Laboratory of Mental Health and<br />
Cognitive Science, South China Normal University,<br />
Guangzhou 510631, China, 2 State Key Laboratory of<br />
Cognitive Neuroscience and Learning, Beijing Normal<br />
University, Beijing 100875, China, 3 School of Physical<br />
Education and Sports Science, Beijing Normal University,<br />
Beijing 100875, China<br />
anatomical Connections between <strong>Brain</strong> regions of<br />
the autonomic Network<br />
Ruma Goswami 1 , Maria F. Frances 1 , Harish A. Sharma 2 ,<br />
J. Kevin Shoemaker 3<br />
1 School of Kinesiology, The University of Western Ontario,<br />
London, Ontario, 2 Robarts Research Institute,<br />
The University of Western Ontario, London, Ontario,<br />
3 School of Kinesiology, Dept. of Physiology and<br />
Pharmacology, The University of Western Ontario,<br />
London, Ontario<br />
Inter-subject variability of structural network:<br />
a DTI study<br />
Hu Cheng 1 , Yang wang 2 , Jinhua Sheng 2 , Olaf Sporns 1 ,<br />
William Kronenberger 2 , Vincent Mathews 2 , Tom Hummer 2 ,<br />
Andrew Saykin 2<br />
1 Indiana University, Bloomington, IN, 2 Indiana University<br />
School of Medicine, Indianapolis, IN<br />
evaluation of Connectivity measures and anatomical<br />
Features <strong>for</strong> Statistical <strong>Brain</strong> Networks<br />
Anand Joshi 1 , Shantanu Joshi 1 , Moriah Thomason 2 ,<br />
Ivo Dinov 1 , Arthur Toga 1<br />
1 UCLA School of Medicine, Department of Neurology, Los<br />
Angeles, USA, 2 Stan<strong>for</strong>d University/UCLA, United States<br />
Disrupted white matter structural networks in<br />
clinically isolated syndrome<br />
Ni Shu 1 , Yong He 2 , Kuncheng Li 3 , Yaou Liu 3<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing,China, 2 Beijing Normal University,<br />
Beijing, China, 3 Department of Radiology, Xuanwu<br />
Hospital, Capital Medical University, Beijing, China
Neuroanatomy<br />
<strong>Brain</strong> Networks, continued<br />
973<br />
974<br />
975<br />
976<br />
977<br />
graph theoretical analysis of human cerebellum<br />
structural network<br />
Lingzhong Fan 1 , Zhang Chen 2 , Gaolang Gong 3 ,<br />
Yong He 4 , Yuchun Tang 5 , Shuwei Liu 5 , Alan Evans 6<br />
1 Institute of Automation of the Chinese Academy of<br />
Sciences, Beijing, China, 2 McConnell <strong>Brain</strong> Imaging<br />
Centre, Montréal Neurological Institute, McGill University,<br />
Montreal, Canada, 3 Montreal Neurological Institute And<br />
Hospital, McGill University, Canada, 4 Beijing Normal<br />
University, Beijing, China, 5 Research Center <strong>for</strong> Sectional<br />
and Imaging Anatomy, School of Medicine, Shandong<br />
University, Jinan, China, 6 McGill University, Montreal,<br />
Canada<br />
overrecruitment of brain regions and network<br />
efficiency in cognitive aging<br />
Kristi Clark 1 , Katherine Narr 1 , Roger Woods 2 ,<br />
Susumu Mori 3 , John Mazziotta 4 , Arthur Toga 5<br />
1 UCLA, Los Angeles, CA, 2 UCLA, LOS ANGELES, CA,<br />
3 The Johns Hopkins University School of Medecine,<br />
Baltimore, MD, 4 UCLA <strong>Brain</strong> <strong>Mapping</strong> Center, Los<br />
Angeles, United States, 5 Laboratory of Neuro Imaging,<br />
UCLA, Los Angeles, CA<br />
Default network in Deaf<br />
Evguenia Malaia 1 , Ruwan Ranaweera 2 , Ronnie Wilbur 2 ,<br />
Thomas Talavage 3<br />
1 Indiana University, 2 Purdue University, West Lafayette, IN,<br />
3 Purdue University, West Lafayette, United States<br />
exploring CSF Influence on the <strong>Human</strong> <strong>Brain</strong><br />
Structural Network using FLaIr-DTI and<br />
Conventional DTI<br />
Shumei Li 1 , Pengfei Xu 2 , Bin Wang 1 , Qixiang Lin 2 ,<br />
Yuanyuan Fan 1 , Xiaoling Peng 1 , Peng Wang 3 ,<br />
Qian Wang 1 , Yong He 2 , Ruiwang Huang 1<br />
1 Center <strong>for</strong> Studies of Psychological Application,<br />
Guangdong Key Laboratory of Mental Health and<br />
Cognitive Science, South China Normal University,<br />
Guangzhou 510631, China, 2 State Key Laboratory of<br />
Cognitive Neuroscience and Learning, Beijing Normal<br />
University, Beijing 100875, China, 3 School of Computer<br />
Science, South China Normal University, Guangzhou<br />
510631, China<br />
age-related changes in topological organization<br />
of structural brain networks<br />
Kai Wu 1 , Yasuyuki Taki 2 , Kazunori Sato 2 , Ryuta<br />
Kawashima 3 , Yong He 4 , Alan Evans 5 , Hiroshi Fukuda 2<br />
1 Department Of Nuclear Medicine And Radiology, Institute<br />
Of Development,Aging And, Japan, 2 IDAC, Tohoku<br />
University, Sendai, Japan, 3 SAIRC, IDAC, TOHOKU<br />
UniV, Sendai, Japan, 4 State Key Laboratory of Cognitive<br />
Neuroscience and Learning, Beijing Normal University,<br />
Beijing 100875, China, 5 McGill University, Montreal,<br />
Canada<br />
978<br />
979<br />
980<br />
981<br />
an exploratory Investigation of Small-World <strong>Brain</strong><br />
Functional Networks of gymnastic World Champions<br />
Min Lu 1,2 , Yuanyuan Fan 3 , Xiaoling Peng 3 , Bin Wang 3 ,<br />
Shumei Li 3 , Zheng Song 1 , Jinghui Wang 1 , Hengchan Yin 2 ,<br />
Yong He 1 , Ruiwang Huang 3 , Jun Wang 1<br />
1 State Key Laboratory of Cognitive Neuroscience and<br />
Learning, Beijing Normal University, Beijing 100875,<br />
China, 2 School of Physical Education and Sports Science,<br />
Beijing Normal University, Beijing 100875, China,<br />
3 Center <strong>for</strong> the Study of Applied Psychology, South China<br />
Normal University, Guangzhou 510631, China<br />
Spontaneous <strong>Brain</strong> oscillations Beyond resting <strong>Brain</strong><br />
I-Ning Tang 1 , Tun Jao 2 , Ya-Chih Yu 1 , Yun-An Huang 1 ,<br />
Edward Bullmore 2 , Jyh-Horng Chen 1<br />
1 National Taiwan University, Taipei, Taiwan, 2 University<br />
Of Cambridge <strong>Brain</strong> <strong>Mapping</strong> Unit, Cambridge, United<br />
Kingdom<br />
The Impact of Tracking Criteria on <strong>Brain</strong> Wm Network<br />
Construction<br />
Chun-Yi Lo 1 , Wei-Hsu Chang 1 , Kun-Hsien Chou 1 , Yong<br />
He 2 , Jinhui Wang 3 , Ching-Po Lin 4<br />
1 National Yang Ming University, Taiwan- Republic Of<br />
China, 2 State Key Laboratory of Cognitive Neuroscience<br />
and Learning, Beijing Normal University, Beijing 100875,<br />
China, 3 State Key Laboratory of Cognitive Neuroscience<br />
and Learning, Beijing Normal University, Beijing 100875,<br />
P. R. China, 4 National Yang-Ming University, Taipei,<br />
Taiwan- Republic Of China<br />
TmS to inferior parietal changes functional<br />
connectivity of default and dorsal-attention networks<br />
Mark Halko 1 , Mark Eldaief 1 , Randy Buckner 2 ,<br />
Alvaro Pascual-Leone 1<br />
1 Beth Israel Deaconess Medical Center, Harvard Medical<br />
School, Boston, MA, 2 Harvard University, Department of<br />
Psychology, Cambridge, MA<br />
Neuroanatomy<br />
Cortical Anatomy and Segregation<br />
982 Visualization of the orientational Structure of the<br />
<strong>Human</strong> Stria of gennari with High-resolution DWI<br />
Christoph Leuze1 , Bibek Dhital1 , Alfred Anwander1 ,<br />
Andre Pampel1 , Robin Heidemann1 , Stefan Geyer1 ,<br />
Katja Reimann1 , Marcel Gratz2 , Robert Turner1 1Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2University of Leipzig,<br />
Leipzig, Germany<br />
983<br />
984<br />
mapping <strong>Human</strong> Cortical areas in vivo Based<br />
on myelin Content as revealed by T1 and<br />
T2-weighted mrI<br />
Matthew Glasser 1 , David Van Essen 1<br />
1 Washington University, USA<br />
Comparison of Surface gradients Derived from<br />
myelin maps and Functional Connectivity analysis<br />
Matthew Glasser 1 , Timothy Laumann 1 , Timothy Coalson 1 ,<br />
Alexander Cohen 1 , Abraham Snyder 1 , Bradley Schlaggar 1 ,<br />
Steven Petersen 1 , David Van Essen 1<br />
1 Washington University, St. Louis, USA<br />
HBM 2011 >> <strong>abstracts</strong> 173<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Neuroanatomy<br />
Cortical Anatomy and Segregation, continued<br />
985<br />
986<br />
987<br />
988<br />
989<br />
990<br />
Cortical surface and depth analysis of T2* in the<br />
human brain<br />
Julien Cohen-Adad 1 , Karl Helmer 1 , Thomas Benner 1 ,<br />
Jonathan Polimeni 1 , Jennifer McNab 1 , Lawrence Wald 1 ,<br />
Bruce Rosen 1 , Caterina Mainero 1<br />
1 A.A. Martinos Center <strong>for</strong> Biomedical Imaging, MGH,<br />
Harvard Medical School, Charlestown, MA, United States<br />
In vitro layer-specific Diffusion Weighted Imaging in<br />
human primary visual cortex<br />
Michiel Kleinnijenhuis 1,2 , Markus Barth 2,3 , Valerio Zerbi 1,4 ,<br />
Kees-Jan Sikma 1,5 , Benno Küsters 6 , Cornelis Slump 5 ,<br />
David Norris 2,3 , Dirk Ruiter 1,2 , Anne-Marie van Cappellen<br />
van Walsum 1,7<br />
1 Radboud University Nijmegen Medical Centre,<br />
Department of Anatomy, Nijmegen, Netherlands,<br />
2 Radboud University Nijmegen, Donders Institute For<br />
<strong>Brain</strong>, Cognition And Behaviour, Nijmegen, Netherlands,<br />
3 Erwin L. Hahn Institute <strong>for</strong> Magnetic Resonance Imaging,<br />
Essen, Germany, 4 Radboud University Nijmegen Medical<br />
Centre, Department of Radiology, Nijmegen, Netherlands,<br />
5 University of Twente, Signals and Systems, Electrical<br />
Engineering, Mathematics and Computer Science,<br />
Enschede, Netherlands, 6 Radboud University Nijmegen<br />
Medical Centre, Department of Pathology, Nijmegen,<br />
Netherlands, 7 University of Twente, MIRA Institute<br />
<strong>for</strong> Biomedical Technology and Technical Medicine,<br />
Enschede, Netherlands<br />
High resolution Structural and Diffusion mrI of Ex<br />
Vivo <strong>Human</strong> motor Cortex<br />
Andre van der Kouwe 1 , Thomas Benner 1 , Kristen Huber 1 ,<br />
Allison Stevens 1 , Matthew Tisdall 1 , Bruce Fischl 1,2 ,<br />
Jean Augustinack 1<br />
1 MGH/MIT/HMS Athinoula A. Martinos Center <strong>for</strong><br />
Biomedical Imaging, Charlestown, MA, USA, 2 MIT CSAIL,<br />
Cambridge, MA, USA<br />
Diffusion orientations in Primary Sensory Cortices<br />
appear Parallel to the Cortical Surface<br />
Jennifer McNab 1 , Jonathan Polimeni 1 , Karla Miller 2 ,<br />
Allison Stevens 1 , Ruopeng Wang 1 , Jean Augustinack 1 ,<br />
Bruce Fischl 1 , Lawrence Wald 1<br />
1 Harvard Medical School and Massachusetts General<br />
Hospital, Boston, MA, USA, 2 FMRIB Centre, Ox<strong>for</strong>d<br />
University, Ox<strong>for</strong>d, United Kingdom<br />
Convergent multimodal Clustering of the Insula<br />
Clare Kelly 1 , Roberto Toro 2 , Adriana Di Martino 1 ,<br />
F. Xavier Castellanos 1,3 , Michael Milham 1,3<br />
1 Phyllis Green and Randolph Cowen Institute <strong>for</strong> Pediatric<br />
Neuroscience, NYU Langone Medical Center, New York,<br />
NY, USA, 2 Institut Pasteur, Paris, France, 3 Nathan S. Kline<br />
Institute <strong>for</strong> Psychiatric Research, Orangeburg, NY, USA<br />
Specificity of individual-level functional connectivity:<br />
mapping ventrolateral prefrontal cortex<br />
Daniel Margulies 1 , Marco Taubert 1 , Patrick Ragert 1 ,<br />
Clare Kelly 2 , Bharat Biswal 3 , Francisco Castellanos 2 ,<br />
Arno Villringer 1 , Michael Milham 2 , Michael Petrides 4<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 NYU Child Study Center,<br />
New York, United States, 3 UMDNJ, Newark, United States,<br />
4 Montreal Neurological Institute, Montreal, Canada<br />
174 HBM 2011 >> <strong>abstracts</strong><br />
991<br />
992<br />
993<br />
a Large-Scale Voxel-Based morphometric Study<br />
of grey matter Density of alcoholics<br />
Henry Lin1 , Reza Momenan1 , Erica Grodin1 ,<br />
Daniel Hommer2 1 2 NIAAA, NIH, Bethesda, MD, NIAAA/NIH, Bethesda,<br />
United States<br />
Insight into the morphological patterns of the<br />
collateral sulcal complex in the human brain<br />
Sonja Huntgeburth1 , Michael Petrides1 1McGill University, Montreal Neurological Institute,<br />
Montreal, Canada<br />
automated extraction of nested sulcal features<br />
from human brain mrI data<br />
Arno Klein 1 , Forrest Bao 2 , Kiho Im 3 , Denis Rivière 4<br />
1 New York State Psychiatric Institute, Columbia University,<br />
New York, United States, 2 Department of Computer<br />
Science / Electrical Engineering, Texas Tech University,<br />
Lubbock, TX, 3 Children’s Hospital Boston, Harvard<br />
Medical School, Boston, MA, 4 NeuroSpin, CEA, Orsay,<br />
France<br />
Neuroanatomy<br />
Subcortical Structures<br />
994* Surface-based TBm Boosts Power to Detect Disease<br />
effects on the <strong>Brain</strong>: an N=804 aDNI Study, (o-m3)<br />
Yalin Wang1 , Yang Song2 , Priya Rajagopalan3 , Tuo An3 ,<br />
Krystal Liu3 , Yi-Yu Chou3 , Boris Gutman3 , Arthur Toga3 ,<br />
Paul Thompson3 , the Alzheimer’s Disease Neuroimaging<br />
Initiative (ADNI) ,4<br />
1School of Computing, In<strong>for</strong>matics, Decision Systems<br />
Engineering, Arizona State University, Tempe, AZ, 2Dept. of Mathematics, University of Washington, Seattle, WA,<br />
3Laboratory of Neuro Imaging, UCLA Dept. of Neurology,<br />
Los Angeles, CA, 4NIA ADEAR Center, Bathesda, MD<br />
995*<br />
DTI of the <strong>Human</strong> Thalamus: Hemispheric and gender<br />
Variability, (o-T2)<br />
Vinod Kumar 1,2 , Sarah Mang 3 , Susanne Reiterer 1 ,<br />
Wolfgang Grodd 4<br />
1 <strong>for</strong>mer Section Experimental MR, Dept. of<br />
Neuroradiology, University Hospital, Tübingen, Germany,<br />
2 Graduate School of Neural & Behavioural Sciences,<br />
International Max Planck Research School, Tübingen,<br />
Germany, 3 German Cancer Research Center, Heidelberg,<br />
Germany, 4 Department of Psychiatry, Psychotherapy and<br />
Psychosomatics, University Hospital, Aachen, Germany
Neuroanatomy<br />
Subcortical Structures, continued<br />
996<br />
997<br />
998<br />
999<br />
1000<br />
altered striatal morphology in Huntington’s disease,<br />
Frontotemporal dementia & alzheimer’disease<br />
Jeffrey Looi 1 , Priya Rajagopolan 2 , Mark Walterfang 3 , Sarah<br />
Madsen 2 , Paul Thompson 4 , Phyllis Chua 5 ,<br />
Dennis Velakoulis 6<br />
1 Academic Unit of Psychological Medicine (Psychiatry),<br />
Australian National University Medical School, Canberra,<br />
Australia, 2 Laboratory of Neuro Imaging, Department<br />
of Neurology, UCLA School of Medicine, Los Angeles,<br />
CA, United States, 3 Melbourne Neuropsychiatry Centre,<br />
Royal Melbourne Hospital, & University of Melbourne,<br />
Melbourne, VIC, Australia, 4 Laboratory of Neuro Imaging,<br />
Department of Neurology, UCLA School of Medicine, Los<br />
Angeles, CA, United States, 5 Alfred Psychiatry Research<br />
Centre, Monash University, Melbourne, VIC, 6 Melbourne<br />
Neuropsychiatry Centre, Royal Melbourne Hospital, &<br />
University of Melbourne, Melbourne, VIC<br />
Subcortical Structure morphometry in Premature<br />
Neonates: a Parametric Surface-based approach<br />
Yalin Wang 1 , Ashok Panigrahy 2 , Jie Shi 1 , Rafael Ceschin 3 ,<br />
Marvin Nelson 4 , Paul Thompson 5 , Natasha Lepore 4<br />
1 Arizona State University, Tempe, AZ, 2 Children’s Hospital<br />
of Pittsburgh, UPMC, Pittsburgh, PA, 3 Children’s Hospital<br />
of Pittsburgh Radiology, Pittsburgh, PA, 4 University of<br />
Southern Cali<strong>for</strong>nia and Children’s Hospital Los Angeles,<br />
Los Angeles, CA, 5 Laboratory of Neuro Imaging, UCLA,<br />
Los Angeles, CA<br />
Thalamic Shape and Connectivity analyses in<br />
Children with attention Deficit/Hyperactivity Disorder<br />
Shugao Xia 1 , Ariane Kimball 2 , Elyse Sussman 3 ,<br />
Iris Lesser 4 , Mary Kelly 4 , Craig Branch 1 , Xiaobo Li 1<br />
1 Gruss Magnetic Resonance Research Center,<br />
Department of Radiology, Albert Einstein College of<br />
Medicine, Yeshiva University, Bronx, NY, 2 Ferkauf School<br />
of Graduate Psychology at Yeshiva University, Bronx, NY,<br />
3 Department of Neuroscience, Albert Einstein College of<br />
Medicine, Yeshiva University, Bronx, NY, 4 Department of<br />
Pediatrics, Albert Einstein College of Medicine, Yeshiva<br />
University, Bronx, NY<br />
Characterization of the <strong>Human</strong> Habenula in-vivo and<br />
ex-vivo at 7T<br />
Barbara Strotmann 1 , Marcel Weiss 1 , Andreas Schaefer 1 ,<br />
Kögler Carsten 1 , Robert Trampel 1 , Stefan Geyer 1 ,<br />
Arno Villringer 1 , Robert Turner 1<br />
1 Max-Planck-Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany<br />
Functional and anatomical architecture linking the<br />
basal ganglia and cortex: an mrI study<br />
Nobukatsu Sawamoto 1 , Takuya Oguri 1,2 , Hayato Tabu 1 ,<br />
Hidenao Fukuyama 1<br />
1 HBRC Kyoto University School Of Medicine, Kyoto,<br />
Japan, 2 Nagoya City University, Nagoya, Japan<br />
1001<br />
1002<br />
1003<br />
Significant volume and shape abnormalities of basal<br />
ganglia in cases of chronic liver cirrhosis<br />
Jian-Shiun Chen1 , Wei-Che Lin2 , Kun-Hsien Chou1 ,<br />
I-Yun Chen3 , Ching-Po Lin4 1National Yang Ming University, Taiwan- Republic Of<br />
China, 2Department of Diagnostic Radiology, Chang<br />
Gung Memorial Hospital - Kaohsiung Medical Center,<br />
Kaohsiung, Taiwan, Republic of China, 3Institute Of<br />
Neuroscience, NYMU, Taiwan- Republic Of China,<br />
4National Yang-Ming University, Taipei, Taiwan-<br />
Republic Of China<br />
ultra-high resolution ex vivo mr at 7T: the subthalamic<br />
nucleus<br />
Marcel Weiss 1 , Max Keuken 2 , Stefan Geyer 3 ,<br />
Birte Forstmann 4 , Robert Turner 1<br />
1 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and <strong>Brain</strong><br />
Sciences, Leipzig, Germany, 2 University of Amsterdam,<br />
Utrecht, Netherlands, 3 Max Planck Institute <strong>for</strong> <strong>Human</strong><br />
Cognitive and <strong>Brain</strong> Sciences, Dept. Neurophysics,<br />
Leipzig, Germany, 4 University of Amsterdam, Amsterdam,<br />
Netherlands<br />
effect of Family Income on Hippocampus growth:<br />
Longitudinal Study<br />
Moo Chung 1,2 , Jamie Hanson 1 , Richard Davidson 1 ,<br />
Seth Pollak 1<br />
1 University of Wisconsin, Madison, WI,<br />
2 Seoul National University, Korea<br />
Perception and Attention<br />
Perception: Auditory/Vestibular<br />
1004 Sensory and categorical sound representations<br />
are intrinsically linked in human auditory cortex<br />
Michelle Moerel1 , Federico De Martino1 , Elia Formisano1 1Maastricht University, Maastricht, Netherlands<br />
1005<br />
1006<br />
1007<br />
Cortical Processing of Natural Sounds at multiple<br />
Spectral resolutions<br />
Roberta Santoro 1 , Michelle Moerel 1 , Federico De Martino 1 ,<br />
Elia Formisano 1<br />
1 Maastricht University, Maastricht, Netherlands<br />
Distributed Cortical representations of<br />
Newly-Learned Sound Categories<br />
A Walter 1,2 , J Vroomen 2 , G Valente 1 , P de Weerd 1 ,<br />
E Formisano 1<br />
1 Maastricht University, Maastricht, Netherlands,<br />
2 Tilburg University, Tilburg, Netherlands<br />
Transition from Transient to Steady-State gamma-<br />
Band responses: an meg Study on acoustic Beats<br />
Takahiro Miyazaki 1 , Jessica Thompson 2 , Bernhard Ross 1<br />
1 Rotman Research Institute, Baycrest, U of Toronto,<br />
Toronto, Ontario, 2 McGill University, Department of<br />
Psychology, Montreal, Quebec<br />
HBM 2011 >> <strong>abstracts</strong> 175<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Perception and Attention<br />
Perception: Auditory/Vestibular, continued<br />
1008<br />
1009<br />
1010<br />
1011<br />
1012<br />
1013<br />
1014<br />
Frequency selectivity and local map structure in<br />
human auditory cortex measured with 7-T fmrI<br />
Cris Lanting 1 , Sue Francis 2 , Richard Bowtell 2 ,<br />
Katrin Krumbholz 1<br />
1 MRC Institute of Hearing Research, Nottingham,<br />
United Kingdom, 2 Magnetic Resonance Centre,<br />
School of Physics and Astronomy, University of<br />
Nottingham, Nottingham, United Kingdom<br />
“Do you get it?”: an fmrI Study on the role of<br />
Predictive Coding in Speech Perception<br />
Mareike Clos 1 , Robert Langner 2 , Martin Meyer 3 ,<br />
Karl Zilles 1,4,5 , Simon Eickhoff 1,2,5<br />
1 Institute of Neuroscience and Medicine, INM-2,<br />
Research Centre Jülich, Jülich, Germany, 2 Department of<br />
Psychiatry, Psychotherapy and Psychosomatics, RWTH<br />
Aachen University, Aachen, Germany, 3 Department<br />
of Neuropsychology, University of Zurich, Zurich,<br />
Switzerland, 4 C. and O. Vogt <strong>Brain</strong> Research Institute,<br />
University of Düsseldorf, Düsseldorf, Germany, 5 JARA-<br />
Translational <strong>Brain</strong> Medicine, Jülich-Aachen, Germany<br />
Localization of auditory change detection sources in<br />
the human brain: an meg study<br />
Marc Recasens 1 , Sabine Grimm 2 , Lavinia Slabu 2 ,<br />
Rafal Nowak 3 , Almudena Capilla 4 , Carles Escera 2<br />
1 Cognitive Neuroscience Research Group (University<br />
of Barcelona), Barcelona, Spain, 2 Institute <strong>for</strong> <strong>Brain</strong>,<br />
Cognition and Behavior (IR3C), University of Barcelona,<br />
Barcelona, Spain, 3 Magnetoencephalography Unit,<br />
Centro Médico Teknon, Barcelona, Spain, 4 Facultad de<br />
Psicología, Universidad Autónoma de Madrid, Madrid,<br />
Spain<br />
a DTI Study of Children with unilateral<br />
Sensorineural Hearing Loss<br />
Vincent Schmithorst 1 , Scott Holland 2 , Elena Plante 3<br />
1 Cincinnati Children’s Hospital Medical Center, Cincinnati,<br />
OH, 2 Pediatric Neuroimaging Research Consortium,<br />
Cincinnati, OH, 3 University of Arizona, Tucson, AZ<br />
Neural representations of categorically perceived<br />
speech in the human auditory system reveal<br />
Mark Chevillet 1 , Xiong Jiang 1 , Josef Rauschecker 1 ,<br />
Maximilian Riesenhuber 1<br />
1 Georgetown University, Washington, DC<br />
using adaptation to investigate the invariance of<br />
cortical pitch coding to spectral composition<br />
Gemma Hutchinson1 , Jessica de Boer1 , Katrin Krumbholz1 1The Institute of Hearing Research, Nottingham,<br />
United Kingdom<br />
me, you and them: the perception of native<br />
english accents<br />
Patricia E. G. Bestelmeyer 1 , D. Robert Ladd 2 ,<br />
Frances Crabbe 1 , Pascal Belin 1<br />
1 University of Glasgow, Institute of Neuroscience and<br />
Psychology, Glasgow, United Kingdom, 2 University<br />
of Edinburgh, School of Philosophy, Psychology and<br />
Language Sciences, Edinburgh, United Kingdom<br />
176 HBM 2011 >> <strong>abstracts</strong><br />
1015<br />
1016<br />
1017<br />
1018<br />
1019<br />
1020<br />
resting-State fmrI activity in the tinnitus<br />
Audrey Maudoux 1 , Philippe Lefebvre 1 , Jean-Evrard<br />
Cabay 2 , Audrey Vanhaudenhuyse 1 , Athena Demertzi 1 ,<br />
Andrea Soddu 3 , Steven Laureys 4<br />
1 University of Liege, Liège, Belgium, 2 University of Liège,<br />
Liège, Belgium, 3 University of Liege, Liege, Belgium,<br />
4 University of Liege, Belgium, Liege, Belgium<br />
an analysis of spectral and temporal pitch<br />
mechanisms using erPs and source localization<br />
Blake Butler 1 , Nicole Folland 1 , Laurel Trainor 1<br />
1 McMaster University, Hamilton, Ontario<br />
a developmental transition in infants’ mismatch<br />
response to sound duration change<br />
Tomomi Mizuochi-Endo 1 , Hiroaki Oishi 2 , Risako Omori 2 ,<br />
Sho Tsuji 2 , Mihoko Hasegawa 2 , Reiko Mazuka 2<br />
1 Laboratory <strong>for</strong> Language Development, <strong>Brain</strong> Science<br />
Institute, RIKEN, Saitama, JAPAN, 2 Laboratory <strong>for</strong><br />
Language Development, <strong>Brain</strong> Science Institute, RIKEN,<br />
Saitama, Japan<br />
Cochlear Implant use Stimulates Non-auditory<br />
areas of the <strong>Brain</strong> in Some Children<br />
Daniel Wong 1 , Karen Gordon 2<br />
1 The Hospital <strong>for</strong> Sick Children, Toronto, Ontario,<br />
2 The Hospital <strong>for</strong> Sick Children, Toronto, Canada<br />
Sorting sounds in the brain – an fmrI study<br />
Megha Sharda 1 , Nandini Singh 2<br />
1 National <strong>Brain</strong> Research Centre,<br />
2 National <strong>Brain</strong> Research Centre, Gurgaon, India<br />
Different properties of anatomical network between<br />
postlingual and prelingual deaf<br />
Eunkyung Kim 1 , Hyejin Kang 2 , Hyo-Jeong Lee 3 ,<br />
Seung-Ha Oh 4 , Dong Soo Lee 4<br />
1 Seoul National University, Seoul, Korea, Republic of,<br />
2 Seoul National University College of Med, Seoul, Korea,<br />
Republic of, 3 Hallym University College of Medicine,<br />
Anyang-Si, Gyeonggido, 4 Seoul National University<br />
College of Medicine, Seoul, Korea, Republic of<br />
Perception and Attention<br />
Perception: Multisensory and Crossmodal<br />
1021* occipital cortical thickness in blind individuals<br />
predicts per<strong>for</strong>mance in auditory tasks., (o-Th3)<br />
Patrice Voss1 , Robert Zatorre1 1McGill University, Montreal, Canada<br />
1022<br />
audiovisual Integration in Postlingually-deafened<br />
Cochlear Implant users<br />
Hyo-Jeong Lee1 , Seung-Ha Oh2 , Jae-Jin Song2 ,<br />
Hyejin Kang3 , Dong Soo Lee2 1Hallym University College of Medicine, Anyang-Si,<br />
Gyeonggido, Korea, Republic of, 2Seoul National<br />
University College of Medicine, Seoul, Korea, Republic of,<br />
3Seoul National University College of Med, Seoul, Korea,<br />
Republic of
Perception and Attention<br />
Perception: Multisensory and Crossmodal, continued<br />
1023**<br />
1024<br />
1025<br />
1026<br />
1027<br />
1028<br />
reduced occipital alpha power indexes enhanced<br />
excitability rather than improved visual perception<br />
Joachim Lange 1 , Robert Oostenveld 2 , Pascal Fries 3<br />
1 Institute of Clinical Neuroscience and Medical<br />
Psychology, HHU Düsseldorf, Düsseldorf, Germany,<br />
2 Donders Institute <strong>for</strong> <strong>Brain</strong>, Cognition and Behaviour,<br />
Nijmegen, Netherlands, 3 Ernst Strüngmann Institute<br />
(ESI) in Cooperation with Max Planck Society,<br />
Frankfurt, Germany<br />
Body ownership is constructed by multisensory<br />
integration in premotor and intraparietal areas<br />
Valeria Petkova 1 , H Ehrsson 2 , Giovanni Gentile 2 ,<br />
Tomas Jonsson 3 , Tie-Qiang Li 3<br />
1 Karolinska Institute, 2 Karolinska Institute, Stockholm,<br />
Sweden, 3 Karolinska Hospital, Huddinge, Sweden<br />
Crossmodal plasticity but no functional specialization<br />
in the occipital cortex of late blind humans<br />
Olivier Collignon 1 , Genevieve Albouy 2 , Giulia Dormal 3 ,<br />
Gilles Vandewalle 4 , Patrice Voss 5 , Maryse Lassonde 6 ,<br />
Franco Lepore 3<br />
1 Université de Montréal, 2 CRIUGM, University of Montreal,<br />
Montreal, Canada, 3 Université de Montréal, Montréal,<br />
Canada, 4 Functional Neuroimaging Unit, University of<br />
Montreal Geriatric Institute, Montreal, Quebec, 5 McGill<br />
University, Canada, 6 Universite de Montreal, Montreal,<br />
Canada<br />
audio-haptic binding of conceptual object in<strong>for</strong>mation<br />
Tanja Kassuba 1,2,3 , Mareike Menz 2 , Brigitte Röder 4 ,<br />
Hartwig Siebner 5,6,3<br />
1 Danish Research Centre <strong>for</strong> Magnetic Resonance,<br />
Copenhagen University Hospital Hvidovre, Hvidovre,<br />
Denmark, 2 Neuroimage Nord / Department of Systems<br />
Neuroscience, University Medical Center Hamburg-<br />
Eppendorf, Hamburg, Germany, 3 Department of<br />
Neurology, Christian-Albrechts-University, Kiel,<br />
Germany, 4 Biological Psychology and Neuropsychology,<br />
University of Hamburg, Hamburg, Germany, 5 Danish<br />
Research Centre <strong>for</strong> Magnetic Resonance, Hvidovre,<br />
Denmark, 6 NeuroimageNord / Department of Systems<br />
Neuroscience, University Medical Center Hamburg-<br />
Eppendorf, Hamburg, Germany<br />
Conjoint and independent neural coding of bimodal<br />
face/voice identity investigated with fmrI<br />
Marianne Latinus 1 , Frederic Joassin 2 , Rebecca Watson 1 ,<br />
Ian Charest 3 , Pascal Belin 1,4<br />
1 Institute of Neuroscience and Psychology, University<br />
of Glasgow, Glasgow, United Kingdom, 2 Université<br />
catholique de Louvain, Louvain-la-Neuve, Belgium, 3 MRC<br />
Cognition and <strong>Brain</strong> Sciences Unit, Cambridge, United<br />
Kingdom, 4 2 International Laboratories <strong>for</strong> <strong>Brain</strong>, Music<br />
and Sound (BRAMS), McGill University and Université de<br />
Montréal, Montréal, Québec, Canada<br />
using steady state responses in meg to study<br />
in<strong>for</strong>mation integration within and across the senses<br />
Anette Giani 1 , Erick Ortiz 2 , Paolo Belardinelli 2 ,<br />
Mario Kleiner 1 , Hubert Preissl 2 , Uta Noppeney 1<br />
1 Max Planck Institute <strong>for</strong> Biological Cybernetics,<br />
Tuebingen, Germany, 2 MEG Center, University of<br />
Tuebingen, Tuebingen, Germany<br />
1029<br />
1030<br />
1031<br />
1032<br />
1033<br />
1034<br />
1035<br />
a Simultaneous eeg-fmrI Investigation of<br />
Visual-olfactory In<strong>for</strong>mation Processing<br />
Carolin Moessnang 1 , Christina Regenbogen 2 ,<br />
Thilo Kellermann 3 , Andreas Finkelmeyer 3 ,<br />
Frank Schneider 4 , Irene Neuner 3 , Ute Habel 5<br />
1 RWTH Aachen University, 2 RTWH Aachen University,<br />
Aachen, Germany, 3 RWTH Aachen University, Aachen,<br />
Germany, 4 RWTH Aachen University, Department of<br />
Psychiatry, Psychotherapy and Psychosomatics, Aachen,<br />
Germany, 5 University of Aachen, Aachen, Germany<br />
Posterior insular cortex processing of pain and<br />
C fiber touch in a neuronopathy patient<br />
Malin Björnsdotter 1 , Marta Ceko 2 , David Seminowicz 2 ,<br />
Simon Bergstrand 1 , Catherine Bushnell 2 , Hakan Olausson 1<br />
1 University of Gothenburg, Goteborg, Sweden, 2 McGill<br />
University, Montreal, Canada<br />
early attention modulates perceptual interpretation of<br />
multisensory stimuli: an meg study<br />
Mikhail Zvyagintsev1 , Andrey Nikolaev2 , Olga Sachs3 ,<br />
Klaus Mathiak1 1RWTH Aachen University, Aachen, Germany,<br />
2RIKEN <strong>Brain</strong> Science Institute, Wako-shi, Japan,<br />
3Fraunhofer Center <strong>for</strong> Sustainable Energy Systems CSE,<br />
Cambridge, MA<br />
effects of incongruence in audiovisual gender<br />
integration: an fmrI study<br />
Rebecca Watson 1 , Marianne Latinus 1 , Ian Charest 2 ,<br />
Patricia Bestelmeyer 1 , Frances Crabbe 3 , Pascal Belin 1<br />
1 Voice Neurocognition Laboratory, Institute of<br />
Neuroscience and Psychology, University of Glasgow,<br />
Glasgow, United Kingdom, 2 MRC Cognition and <strong>Brain</strong><br />
Sciences Unit, Cambridge, United Kingdom, 3 Institute of<br />
Neuroscience and Psychology, University of Glasgow,<br />
Glasgow, United Kingdom<br />
Cortical dynamics of perception and decision in<br />
sensory tasks: an meg study<br />
Lucia Maria Vaina 1 , Kunjan Rana 2 , Matti Hämäläinen 3<br />
1 Boston University& Harvard Medical School,<br />
Massachusetts General Hospital, U.S.A., 2 Boston<br />
University, BME, <strong>Brain</strong> and Vision Research Laboratory,<br />
Boston, MA, 3 Athinoula A. Martinos Center <strong>for</strong> Biomedical<br />
Imaging, Massachusetts General Hospital,<br />
Charlestown, MA<br />
FmrI-adaptation reveals selectivity <strong>for</strong> the space<br />
near the hand<br />
Claudio Brozzoli 1 , Giovanni Gentile 1 , Valeria Petkova 1 ,<br />
H Ehrsson 1<br />
1 Karolinska Institute, Stockholm, Sweden<br />
a possible common corticofugal system <strong>for</strong><br />
music and Speech<br />
Mariacristina Musso 1 , Volkmer Glauche 2 , Bettina Rieck 2 ,<br />
Rebecca Sautter 3 , Cornelius Weiller 2<br />
1 Neurology, 2 Neurology Uniklinik Freiburg, Freiburg,<br />
Germany, 3 University Of Freiburg-Department Of<br />
Neurology, Germany<br />
HBM 2011 >> <strong>abstracts</strong> 177<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Perception and Attention<br />
Perception: Multisensory and Crossmodal, continued<br />
1036<br />
1037<br />
1038<br />
meg analysis of the relationship between Visual and<br />
audiory modalities as Inducing Feelings<br />
Chia-Yen Yang 1 , Ching-Po Lin 2<br />
1 Ming-Chuan University, Taoyuan, Taiwan, 2 National<br />
Yang-Ming University, Taipei, Taiwan- Republic Of China<br />
<strong>Brain</strong> activity in the Color area When Listening to<br />
music: an fmrI Study of Synesthesia<br />
Ryuzo Yayama 1 , Takayuki Shimotomai 2 , Riuma Takahashi 1 ,<br />
Satoshi Akatsuka 1 , Eriko Aiba 1 , Takashi Fujisawa 1 ,<br />
Noriko Nagata 1<br />
1 Kwansei Gakuin University, Sanda, Japan,<br />
2 Tamagawa University, Machida, Japan<br />
<strong>Brain</strong> activity in grapheme-Color Synesthetes<br />
When Seeing Japanese Letters: an fmrI Study<br />
Hiroshi Mazaki 1 , Mayuka Nishimoto 1 , Satoshi Akatsuka 1 ,<br />
Ryuzo Yayama 1 , Takayuki Shimotomai 2 , Eriko Aiba 1 ,<br />
Noriko Nagata 1<br />
1 Kwansei Gakuin University, Sanda, Japan,<br />
2 Tamagawa University, Machida, Japan<br />
Perception and Attention<br />
Perception: Pain and Visceral<br />
1039** multivariate Decoding of Pain and the Quest <strong>for</strong><br />
Legal evidence<br />
Kay Brodersen1 , Chia-shu Lin2 , Ekaterina Lomakina1 ,<br />
Klaas Enno Stephan3 , Katja Wiech2 , Irene Tracey2 1 2 ETH Zurich, Zurich, Switzerland, University of Ox<strong>for</strong>d,<br />
Ox<strong>for</strong>d, United Kingdom, 3University of Zurich, Zurich,<br />
Switzerland<br />
1040<br />
1041<br />
Independent component analysis of the illusion of<br />
duration and pain perception, an fmrI study<br />
Florence Pomares 1,2 , Isabelle Faillenot 1,3 , Roland Peyron 1,2<br />
1 Inserm U879; UCB Lyon1; UJM, Saint-Etienne, France,<br />
2 Department of Neurology and Pain Centre, Saint-Etienne,<br />
France, 3 CM2R CHU, Saint-Etienne, France<br />
Investigating the brain’s response to contact heat<br />
evoked potentials (CHePs) with eeg-fmrI<br />
Nick Hylands-White 1 , Stephen Mayhew 1 , Camillo Porcaro 2 ,<br />
Stuart Derbyshire 1 , Andrew Bagshaw 1<br />
1 Birmingham University Imaging Centre (BUIC), University<br />
of Birmingham, Birmingham, United Kingdom, 2 Institute<br />
of Neuroscience, Newcastle University, Medical School,<br />
Newcastle upon Tyne, NE2 4HH, UK, Newcastle, United<br />
Kingdom<br />
178 HBM 2011 >> <strong>abstracts</strong><br />
1042<br />
1043<br />
1044<br />
1045<br />
1046<br />
The <strong>Brain</strong> Circuitry of Nausea: a reappraisal of<br />
interoceptive afference<br />
Vitaly Napadow 1 , James Sheehan 2 , Jieun Kim 3 ,<br />
Lauren LaCount 3 , Kyungmo Park 4 , Ted Kaptchuk 5 ,<br />
Bruce Rosen 3 , Braden Kuo 6<br />
1 Martinos Center <strong>for</strong> Biomedical Imaging, Massachusetts<br />
General Hospital, Charlestown, MA, 2 Massachusetts<br />
General Hospital, Peabody, MA, 3 Martinos Center <strong>for</strong><br />
Biomedical Imaging, Charlestown, MA, 4 Department of<br />
Biomedical Engineering, Kyunghee University, Yongin,<br />
Korea, Democratic People’s Republic of, 5 Beth Israel<br />
Deaconess Medical Center, Harvard Medical School,<br />
Boston, MA, 6 Massachusetts General Hospital,<br />
Boston, MA<br />
acupuncture analgesia in fibromyalgia is related to<br />
changes in resting fmrI connectivity<br />
Jieun Kim 1 , Richard Harris 2 , Daniel Clauw 2 ,<br />
Vitaly Napadow 1<br />
1 Martinos Center <strong>for</strong> Biomedical Imaging, Massachusetts<br />
General Hospital, Boston, MA, United States,<br />
2 University of Michigan, Ann Arbor, MI, United States<br />
<strong>Brain</strong>stem-fmrI reveals: acupuncture’s antiemetic<br />
effect is due to sympathetic deactivation<br />
Florian Beissner 1 , Ralf Deichmann 2 , Sandra Anti 3 ,<br />
Christian Henke 4 , Karl-Jürgen Bär 1<br />
1 Pain & Autonomics - Integrative Research, Clinic <strong>for</strong><br />
Psychiatry and Psychotherapy, Jena, Germany, 2 <strong>Brain</strong><br />
Imaging Center, Goethe University, Frakfurt, Germany,<br />
3 <strong>Brain</strong> Imaging Center, Goethe University, Frankfurt,<br />
Germany, 4 Clinic of Neurology, Goethe University,<br />
Frankfurt, Germany<br />
Insular glx is associated with resting Functional<br />
Connectivity to Pain modulatory <strong>Brain</strong> regions<br />
Richard Harris 1 , Jieun Kim 2 , Pia Sundgren 1 , Daniel Clauw 1 ,<br />
Vitaly Napadow 2<br />
1 University of Michigan, Ann Arbor, MI, 2 Massachusetts<br />
General Hospital, Charlestown, MA<br />
resting state alterations in irritable bowel syndrome<br />
(IBS)<br />
Kirsten Tillisch 1 , Mats Larsson 2 , Lisa Kilpatrick 3 ,<br />
Maria Engstrom 4 , Bruce Naliboff 5 , Peter Lundberg 6 ,<br />
Jennifer Labus 7 , Susanna Walter 2 , Emeran Mayer 5<br />
1 UCLA, Los Angeles, United States, 2 Institute of Clinical<br />
and Experimental Medicine, University of Linkoping,<br />
Linkoping, Sweden, 3 UCLA Center <strong>for</strong> Neurobiology of<br />
Stress, Los Angeles, United States, 4 Center <strong>for</strong> Medical<br />
Image Science and Visualization, University of Linkoping,<br />
Linkoping, Sweden, 5 Center <strong>for</strong> Neurobiology of Stress,<br />
UCLA, Los Angeles, CA, 6 Department of Radiation<br />
Physics, Linkoping, Sweden, 7 LOS ANGELES,<br />
United States
Perception and Attention<br />
Perception: Pain and Visceral, continued<br />
1047<br />
1048<br />
1049<br />
1050<br />
1051<br />
1052<br />
graded motor imagery and changes in activity of<br />
the pain matrix<br />
Andrea Daniela Walz 1 , Taras Usichenko 2 , G. Lorimer<br />
Moseley 3,4 , Martin Lotze 1<br />
1 Functional Imaging, Institute <strong>for</strong> Diagnostic Radiology<br />
and Neuroradiology, University of Greifswald, Greifswald,<br />
Germany, 2 Department of Anesthesiology and Intensive<br />
Care Medicine, University of Greifswald, Greifswald,<br />
Germany, 3 University of South Australia, Adelaide,<br />
Australia, 4 Neuroscience Research Australia, Sydney,<br />
Australia<br />
Placebo analgesia elicits sustained changes in pain<br />
intensity processing<br />
Lauren Atlas 1 , Tor Wager 2<br />
1 Columbia University, New York, United States,<br />
2 University of Colorado Psychology, Boulder, CO<br />
Linear and nonlinear brain response to deep tissue<br />
pain in core regions of the default mode network<br />
Marco Loggia 1,2,3 , Robert Edwards 2,4 , Jieun Kim 3 ,<br />
Mark Vangel 3 , Ajay Wasan 2,4 , Randy Gollub 1,3 ,<br />
Richard Harris 5 , Kyungmo Park 6 , Vitaly Napadow 3,2<br />
1 Dept of Psychiatry, Massachusetts General Hospital,<br />
Harvard Medical School, Boston, MA, 2 Dept of<br />
Anesthesiology, Brigham and Women’s Hospital,<br />
Harvard Medical School, Boston, MA, 3 Martinos Center<br />
<strong>for</strong> Biomedical Imaging, MGH, Boston, MA, 4 Dept of<br />
Psychiatry, Brigham and Women’s Hospital, Harvard<br />
Medical School, Boston, MA, 5 Chronic Pain and Fatigue<br />
Research Center, Department of Anesthesiology,<br />
University of Michigan, Ann Arbor, MI, 6 Department of<br />
Biomedical Engineering, Kyunghee University, Yongin,<br />
Korea, Republic of<br />
a Core NeTWorK IN CeNTraL PaIN ProCeSSINg<br />
Franco Cauda 1 , Martina Amanzio 2 , Sergio Duca 3 ,<br />
Elisabetta Geda 1 , Giuliano Geminiani 1 , Diana Torta 2 ,<br />
Katiuscia Sacco 4 , Federico D’Agata 1<br />
1 CCS fMRI, University of Turin, Turin, Italy, 2 University of<br />
Turin, Turin, Italy, 3 CCS fMRI, Koelliker Hospital, Turin,<br />
Italy, 4 CCS fMRI, University of Turin, Torino, Italy<br />
The cortical rhythms of chronic back pain<br />
Marwan Baliki 1 , Alex Baria 1 , A Vania Apkarain 1<br />
1 Northwestern University, Chicago, IL<br />
abnormal gray matter aging in patients with<br />
temporomandibular disorder<br />
Massieh Moayedi 1,2 , Irit Weissman-Fogel 3 , Tim Salomons 4 ,<br />
Michael Goldberg 5 , Bruce Freeman 5 ,<br />
Howard Tenenbaum 5 , Karen Davis 6<br />
1 University of Toronto, Toronto, Ontario, Canada,<br />
2 Toronto Western Research Institute, University Health<br />
Network, Toronto, Ontario, Canada, 3 Toronto Western<br />
Research Institute, University Health Network, Toronto,<br />
Ontario, 4 Toronto Western Research Institute, University<br />
Health Network, Toronto, Canada, 5 Mount Sinai Hospital<br />
Dental Clinic, Toronto, Ontario, 6 Toronto Western Hospital,<br />
University Health Network, Toronto, Canada<br />
1053<br />
1054<br />
1055<br />
1056<br />
1057<br />
1058<br />
Cortical correlates of temperature and pain sensitivity<br />
Nathalie Erpelding 1 , Massieh Moayedi 2 , Karen Davis 3<br />
1 Toronto Western Research Institute, Toronto, Canada,<br />
2 University of Toronto, Toronto, Canada, 3 Toronto Western<br />
Hospital, Toronto, Canada<br />
arterial spin labeling and functional connectivity<br />
study on endogenous low back pain<br />
Jian Kong 1 , Alexandra Cheetham 1 , Rita Loiotile 1 ,<br />
Karleyton Evans 2 , Karin Jensen 2 , Marco Loggia 2 ,<br />
Vitaly Napadow 2 , Robert Edwards 3 , Ajay Wasan 3 ,<br />
Randy Gollub 2<br />
1 Massachusetts General Hospital, Charlestown, MA,<br />
2 Massachusetts General Hospital, Charlestown,<br />
United States, 3 Brigham & Women’s Hospital, Boston,<br />
United States<br />
Spatial attention differentially modulates oscillatory<br />
activity associated with pain – an meg study<br />
Elisabeth May 1 , Markus Butz 1,2 , Nina Kahlbrock 1 ,<br />
Meike Brenner 1 , Alfons Schnitzler 1<br />
1 Institute of Clinical Neuroscience and Medical<br />
Psychology, Heinrich-Heine-University, Düsseldorf,<br />
Germany, 2 University College London Institute of<br />
Neurology, London, United Kingdom<br />
mrI versus hemodynamic score regressions yield<br />
CNS evidence <strong>for</strong> altered autonomic function in CFS<br />
Leighton Barnden 1 , Benjamin Crouch 1 , Richard Burnet 2 ,<br />
Richard Kwiatek 3<br />
1 The Queen Elizabeth Hospital, Adelaide, Australia,<br />
2 Royal Adelaide Hospital, Adelaide, Australia,<br />
3 Lyell McEwin Hospital, Adelaide, Australia<br />
effects of menstrual cycle phase on task-directed<br />
attention during pain processing<br />
Timothy Meeker 1 , Dieuwke Veldhuijzen 2 , Michael Keaser 1 ,<br />
Rao Gullapalli 3 , Joel Greenspan 1<br />
1 Department of Neural and Pain Sciences, University<br />
of Maryland, Baltimore, USA, 2 Rudolf Magus Institute of<br />
Neuroscience, University Medical Center Utrecht, Utrecht,<br />
Netherlands, 3 Department of Diagnostic Radiology,<br />
University Of Maryland, Baltimore, USA<br />
Placebo modulates regional power of BoLD<br />
oscillations in chronic low back pain patients<br />
Javeria Hashmi 1 , Alex Baria 1 , Marwan Baliki 1 ,<br />
Vania Apkarian 1<br />
1 Northwestern University, Chicago, IL<br />
HBM 2011 >> <strong>abstracts</strong> 179<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Perception and Attention<br />
Perception: Pain and Visceral, continued<br />
1059<br />
1060<br />
1061<br />
1062<br />
1063<br />
1064<br />
mVPa <strong>for</strong> drug discovery: single FmrI session<br />
discrimination of low dose remifentanil and placebo<br />
Eugene Duff 1 , Richard Wise 2 , Frederick Wilson 3 ,<br />
Kyle Pattinson 4 , Giandomenico Iannetti 5 , Mark Woolrich 6 ,<br />
Stephen Smith 4<br />
1 FMRIB Centre, Ox<strong>for</strong>d, United Kingdom, 2 Cardiff<br />
University, Cardiff, United Kingdom, 3 Pfizer, Sandwich,<br />
Kent, 4 FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d, United<br />
Kingdom, 5 Department of Neuroscience, Physiology<br />
and Pharmacology, University College London, London,<br />
United Kingdom, 6 University of Ox<strong>for</strong>d, Ox<strong>for</strong>d,<br />
United Kingdom<br />
The effect of psychopathic traits on somatosensory<br />
excitability while observing pain in others<br />
Louis-Alexandre Marcoux 1,2 , Pierre-Emmanuel Michon 3 ,<br />
Julien Voisin 3,4 , Sophie Lemelin 2,1 , Philip Jackson 1,2,3<br />
1 École de Psychologie, Université Laval, Québec,<br />
Canada, 2 CRULRG, Québec, Canada, 3 CIRRIS, Québec,<br />
Canada, 4 Département de réadaptation, Université Laval,<br />
Québec, Canada<br />
mrI vs CFS severity score regressions detect<br />
midbrain, internal capsule and pre-frontal involvement<br />
Benjamin Crouch 1 , Leighton Barnden 1 , Richard Kwiatek 2 ,<br />
Richard Burnet 3<br />
1 The Queen Elizabeth Hospital, Adelaide, Australia,<br />
2 Lyell McEwin Hospital, Adelaide, Australia,<br />
3 Royal Adelaide Hospital, Adelaide, Australia<br />
White matter mechanisms of Helplessness in<br />
Chronic Pain<br />
Tim Salomons 1 , Massieh Moayedi 2 , Irit Weissman-Fogel 3 ,<br />
Bruce Freeman 4 , Michael Goldberg 4 ,<br />
Howard Tenenbaum 4 , Karen Davis 5<br />
1 Toronto Western Research Institute, Toronto, Canada,<br />
2 University of Toronto, Toronto, Canada, 3 Toronto Western<br />
Research Institute, University Health Network, Toronto,<br />
Ontario, 4 Mount Sinai Hospital Dental Clinic, Toronto,<br />
Ontario, 5 Toronto Western Hospital, Toronto, Canada<br />
meta-analysis of brain activity differences between<br />
esophageal, gastric and rectal distention<br />
James Sheehan 1 , Braden Kuo 1 , Vitaly Napadow 1<br />
1 Massachusetts General Hospital, Boston, MA<br />
multimodal imaging of cortical and white matte<br />
abnormalities in neuropathic pain after spinal cord<br />
Eun Jin Yoon 1 , Yu Kyeong Kim 1 , Hyoung Ik Shin 2 ,<br />
Sang Eun Kim 1<br />
1 Department of Nuclear Medicine, Seoul National<br />
University College of Medicine, Seoul, Korea, Republic of,<br />
2 Department of Rehabilitation, Seoul National University<br />
Bundang Hospital, Gyeonggi, Korea, Republic of<br />
180 HBM 2011 >> <strong>abstracts</strong><br />
1065<br />
1066<br />
1067<br />
grey matter reduction in chronic bowel disease:<br />
a voxel based morphometric study<br />
Francesca Benuzzi 1 , Alessandro Agostini 2,3 , Chiara Leoni 4 ,<br />
Valentina Farinelli 1 , Nicola Filippini 5 , Massimo Campieri 3 ,<br />
Paolo Nichelli 1<br />
1 Dip. di Neuroscienze, Università di Modena e Reggio<br />
Emilia, Modena, Italy, 2 Dip. di Psicologia, Università<br />
di Bologna, Bologna, Italy, 3 Dip. di Medicina Clinica,<br />
Università di Bologna, Bologna, Italy, 4 Di. di Radiologia,<br />
Università di Bologna, Bologna, Italy, 5 Dep. of Psychiatry<br />
and FMRIB Centre, University of Ox<strong>for</strong>d, Ox<strong>for</strong>d,<br />
United Kingdom<br />
Standard and individually determined thermal pain<br />
stimuli induce similar brain activations<br />
Gerbrich van den Bosch 1 , Judy van Hemmen 2 ,<br />
Tonya White 3 , Dick Tibboel 1 , Jeroen Peters 4 ,<br />
Jos van der Geest 2<br />
1 Erasmus MC-Sophia, Rotterdam, Netherlands, 2 Erasmus<br />
MC, Rotterdam, Netherlands, 3 Erasmus Medical Centre,<br />
Rotterdam, Netherlands, 4 HAN University of Applied<br />
Sciences, Arnhem , Netherlands<br />
Nociceptive long-term habituation in chronic low<br />
back pain and depression<br />
Rea Rodriguez-Raecke 1 , Kristin Ihle 2 , Christian Otte 2 ,<br />
Christoph Muhtz 2 , Arne May 3<br />
1 Uke, Germany, 2 University Medical Center Hamburg<br />
Eppendorf, Hamburg, Germany, 3 Dept. of Systems<br />
Neuroscience, 20246 Hamburg, Germany<br />
Perception and Attention<br />
Perception: Tactile/Somatosensory<br />
1068 Pre-stimulus oscillatory activity predicts subjective<br />
perception of tactile simultaneity<br />
Joachim Lange1 , Johanna Halacz1 , Hanneke van Dijk1 ,<br />
Nina Kahlbrock2 , Alfons Schnitzler3 1Institute of Clinical Neuroscience and Medical<br />
Psychology, HHU Düsseldorf, Düsseldorf, Germany,<br />
2Institute of Clinical Neuroscience and Medical<br />
Psychology, Düsseldorf, Germany, 3Institute of Clinical<br />
Neuroscience and Medical Psychology, Heinrich-Heine-<br />
University, Düsseldorf, Germany
Perception and Attention<br />
Perception: Tactile/Somatosensory, continued<br />
1069<br />
1070<br />
1071<br />
1072<br />
1073<br />
The negative BoLD signal is associated with<br />
perfusion decreases in the human somatosensory<br />
cortex<br />
Katharina Schaefer 1,2 , Felix Blankenburg 3,4 , Ron Kupers 5,6 ,<br />
Ian Law 7 , Martin Lauritzen 5,8 , Henrik Larsson 1,2,9<br />
1 Functional Imaging Unit, Glostrup Hospital, University<br />
of Copenhagen, Glostrup, Denmark, 2 Department of<br />
Clinical Physiology and Nuclear Medicine, Glostrup<br />
Hospital, University of Copenhagen, Glostrup, Denmark,<br />
3 Department of Neurology, Charité - Universitätsmedizin,<br />
Berlin, Germany, 4 Bernstein Center <strong>for</strong> Computational<br />
Neuroscience, Berlin, Germany, 5 Department of<br />
Neuroscience and Pharmacology, The Panum Institute,<br />
University of Copenhagen, Copenhagen, Denmark,<br />
6 PET Unit, Rigshospitalet, University of Copenhagen,<br />
Copenhagen, Denmark, 7 PET and Cyclotron Unit,<br />
Rigshospitalet, University of Copenhagen, Copenhagen,<br />
Denmark, 8 Department of Clinical Neurophysiology,<br />
Glostrup Hospital, Glostrup, Denmark, 9 Department of<br />
Radiology, Glostrup Hospital, University of Copenhagen,<br />
Glostrup, Denmark<br />
Cortical alpha and Beta oscillations during<br />
Somatosensory Stimulation<br />
Emily Ruzich 1 , Thomas Witzel 2 , Norman Kettner 3 ,<br />
Matti Hämäläinen 2 , Vitaly Napadow 2 , RUPALI DHOND 2<br />
1 Harvard Medical School - MGH; Martinos Center <strong>for</strong><br />
Biomedical Imaging, Charlestown, MA, USA, 2 Harvard<br />
Medical School - MGH, Martinos Center <strong>for</strong> Biomedical<br />
Imaging, Charlestown, MA, USA, 3 Logan College of<br />
Chiropratic, Chesterfield, MO, USA<br />
recurrent neural processing and somatosensory<br />
awareness<br />
Ryszard Auksztulewicz 1 , Felix Blankenburg 2,3 ,<br />
Bernhard Spitzer 2,3<br />
1 Berlin School of Mind and <strong>Brain</strong>, Humboldt-Universität<br />
zu Berlin, Berlin, Germany, 2 Department of Neurology,<br />
Charité - Universitätsmedizin, Berlin, Germany, 3 Bernstein<br />
Center <strong>for</strong> Computational Neuroscience, Berlin, Germany<br />
Power and phase of ongoing mu-oscillation at<br />
stimulus onset differentially influence the SeP<br />
Till Nierhaus 1 , Jens Steinbrink 1 , Arno Villringer 2<br />
1 Charité Universitätsmedizin Berlin, Germany,<br />
2 Max Planck Institute <strong>for</strong> <strong>Human</strong> Cognitive and<br />
<strong>Brain</strong> Sciences, Leipzig, Germany<br />
Functional mrI of intra-digital topographic maps in<br />
the human primary somatosensory cortex<br />
Renate Schweizer 1 , Meike Annika Schweisfurth 1 ,<br />
Jens Frahm 1<br />
1 Biomedizinische NMR Forschungs GmbH am<br />
Max-Planck-Institut fuer biophysikalische Chemie,<br />
Goettingen, Germany<br />
1074<br />
1075<br />
1076<br />
1077<br />
1078<br />
Neural correlates of tactile frequency discrimination:<br />
a meg study<br />
Gaetan Sanchez 1,2 , Sebastien Daligault 3 ,<br />
Emmanuel Maby 1,2 , Romain Bouet 1,2 , Olivier Bertrand 1,2 ,<br />
Jérémie Mattout 1,2<br />
1 INSERM U1028, CNRS UMR5292, Lyon Neuroscience<br />
Research Center, <strong>Brain</strong> Dynamics and Cognition Team,<br />
Lyon, F-69500, France, 2 University Lyon 1, Lyon, France,<br />
3 CERMEP, Lyon, F-69500, France<br />
Cortical adaptation is correlated to SI digit<br />
somatotopy in Carpal Tunnel Syndrome<br />
Yumi Maeda 1,2 , Jieun Kim 1 , Jameson Holden 3 ,<br />
Stephan Cina 1 , Ang Li 1 , Cristina Malatesta 4 , Pia Hugus 1 ,<br />
Leslie Morse 4 , Mark Tommerdahl 3 , Norman Kettner 2 ,<br />
Joseph Audette 5 , Vitaly Napadow 1,2<br />
1 Martinos Center <strong>for</strong> Biomedical Imaging, Department<br />
of Radiology, Charlestown, MA, 2 Logan College of<br />
Chiropratic, Department of Radiology, Chesterfield,<br />
MO, 3 University of North Carolina School of Medicine,<br />
Department of Biomedical Engineering, Chapel Hill,<br />
NC, 4 Spaulding Rehabilitation Hospital, Department of<br />
Physical Medicine and Rehabilitation, Med<strong>for</strong>d, MA,<br />
5 Harvard Vanguard Medical Associates, Atrius Health,<br />
Department of Pain Medicine, Boston, MA<br />
FmrI Indicates Consistent Intra-digit Topography in<br />
the Little But Not the Index Finger of <strong>Human</strong> SI<br />
Meike Annika Schweisfurth 1,2 , Renate Schweizer 1 ,<br />
Jens Frahm 1<br />
1 Biomedizinische NMR Forschungs GmbH am<br />
Max-Planck-Institut fuer biophysikalische Chemie,<br />
Goettingen, Germany, 2 Cognitive Neuroscience<br />
Laboratory, German Primate Center, Goettingen, Germany<br />
modulation of somatosensory evoked fields from<br />
SII by interfering stimuli<br />
Manyoel Lim1 , June Sic Kim2 , Chun Kee Chung3 1Seoul National University Hospital, Seoul, Korea,<br />
Republic of, 2Seoul National University Hospital, Seoul,<br />
3MEG center, Seoul National University Hospital, Seoul,<br />
Korea, Republic of<br />
Between and within site variability in a multicenter<br />
fmrI study<br />
Jakob Rath 1,2 , Moritz Wurnig 1,2 , Nikolaus Klinger 1,2 ,<br />
Ilse Höllinger 1,2 , Alexander Geissler 1,2 , Markus Aichhorn 3 ,<br />
Thomas Foki 1,2 , Martin Kronbichler 4 , Janpeter Nickel 5 ,<br />
Christian Siedentopf 6 , Wolfgang Staffen 4 , Michael<br />
Verius 6 , Stephan Felber 7 , Stefan Golaszewski 3 , Florian<br />
Koppelstätter 6 , Rudiger Seitz 5 , Roland Beisteiner 1,2<br />
1 Study Group Clinical fMRI, Department of Neurology,<br />
Medical University of Vienna, Vienna, Austria, 2 MR<br />
Center of Excellence, Medical University of Vienna,<br />
Vienna, Austria, 3 2Department of Neurology, Christian<br />
Doppler Clinic and Center <strong>for</strong> Neurocognitive Research,<br />
Paracelsu, Salzburg, Austria, 4 Department of Neurology,<br />
Christian Doppler Clinic and Center <strong>for</strong> Neurocognitive<br />
Research, Paracelsu, Salzburg, Austria, 5 Department<br />
of Neurology, University Hospital Düsseldorf, Germany,<br />
Duesseldorf, Germany, 6 Department of Radiology,<br />
Subdivision Neuroradiology, Medical University of<br />
Innsbruck, Innsbruck, Austria, 7 Institute <strong>for</strong> Diagnostic<br />
Radiology, Stiftungsklinikum Mittelrhein, Koblenz,<br />
Germany<br />
HBM 2011 >> <strong>abstracts</strong> 181<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Perception and Attention<br />
Perception: Tactile/Somatosensory, continued<br />
1079<br />
1080<br />
1081<br />
Functional mrI finding by Proprioceptive Input in<br />
Patients with Thalamic Hemorrhage<br />
mi-young Lee 1 , Sung Ho Jang 2 , Sang Seok yeo 3<br />
1 Daegu Haany University, Daegu, Republic of Korea,<br />
2 Yeungnam University, Daegu, Korea, Republic of,<br />
3 Daegu University, Daegu, Korea, Republic of<br />
Neural Correlates of Defense and orienting response<br />
to acupuncture Stimulation: an er-fmrI study<br />
Kyungmo Park 1 , Jeungchan Lee 1 , Jieun Kim 2 , Stephan<br />
Cina 2 , Yumi Maeda 2 , Riccardo Barbieri 2 , Norman Kettner 3 ,<br />
Vitaly Napadow 2<br />
1 Kyung Hee University, Yongin, Korea, Republic of,<br />
2 Martinos Center <strong>for</strong> Biomedical Imaging, Massachusetts<br />
General Hospital, Boston, MA, United States, 3 Logan<br />
College of Chiropratic, Chesterfield, United States<br />
Neural Correlates of Spatial encoding of Sensory<br />
Stimuli in Healthy Subjects, an fmrI Study<br />
Erick Pasaye1,2 , Sarael Alcauter3 , Roberto Mercadillo1 ,<br />
Clemens Bauer4 , Arturo Ramirez Mayorga5 , Juan Ortiz6 ,<br />
Fernando Barrios7 1Universidad Nacional Autonoma de Mexico, Instituto de<br />
Neurobiologia, Juriquilla, Queretaro, Mexico., 2Instituto Nacional de Neurologia y Neurocirugia MVS, Mexico<br />
DF, Mexico, 3National Institute of Psychiatry, Mexico,<br />
Mexico D.F., Mexico, 4Universidad Nacional Autonoma de<br />
Mexico, Instituto de Neurobiologia, Juriquilla, Querétaro,<br />
Mexico, 5National Institute of Rehabilitation, Mexico D.F.,<br />
Mexico, 6Universidad Nacional Autonoma de Mexico,<br />
Instituto de Neurobiologia, Juriquilla, Queretaro, Mexico,<br />
7Universidad Nacional Autonoma de Mexico, Juriquilla,<br />
Queretaro, Mexico<br />
Perception and Attention<br />
Perception: Visual<br />
1082* Columnar organization <strong>for</strong> motion directions in human<br />
mT complex revealed by high-resolution fmrI, (o-Th3)<br />
Mauro Costagli1,2 , Pei Sun1 , Kenichi Ueno1 , Xiaohong<br />
Wan1 , Justin Gardner1 , R. Allen Waggoner1 , Keiji Tanaka1 ,<br />
Kang Cheng1 1RIKEN <strong>Brain</strong> Science Institute, Wakoshi, Saitama,<br />
Japan, 2University of Pisa, Pisa, Italy<br />
1083*<br />
1084**<br />
Disentangling Visual Imagery and Perception of<br />
real-World objects across the Ventral Visual Cortex,<br />
(o-Th3)<br />
Sue-Hyun Lee 1 , Dwight Kravitz 1 , Chris Baker 1<br />
1 LBC/NIMH/NIH, Bethesda, MD, United States<br />
a Salience Network Supports the Processing of<br />
unseen Faces<br />
Vanessa Troiani 1 , Elinora Hunyadi 2 , Robert Schultz 2<br />
1 University of Pennsylvania, Philadelphia, United States,<br />
2 Children’s Hospital of Philadelphia, Philadelphia, PA<br />
182 HBM 2011 >> <strong>abstracts</strong><br />
1085<br />
1086<br />
1087<br />
1088<br />
1089<br />
1090<br />
1091<br />
1092<br />
1093<br />
response amplitude in supra-granular layers of V1<br />
differs <strong>for</strong> coherent and incoherent visual motion<br />
Denis Chaimow1,2 , Essa Yacoub2 , Ute Goerke2 , Kamil<br />
Ugurbil2 , Amir Shmuel3 1MPI <strong>for</strong> Biological Cybernetics, Tuebingen, Germany,<br />
2University of Minnesota, Minneapolis, MN, United States,<br />
3Montreal Neurological Institute, Montreal, Quebec,<br />
Canada<br />
effective Connectivity Between amygdala and<br />
Fusi<strong>for</strong>m gyrus During Facial recognition<br />
James Taylor 1 , John Herrington 1 , Daniel Grupe 2 ,<br />
Kim Curby 3 , Robert Schultz 4<br />
1 Children’s Hospital of Philadelphia, Philadelphia, United<br />
States, 2 University of Wisconsin-Madison, Madison,<br />
United States, 3 Temple University, Philadelphia, PA,<br />
4 Children’s Hospital of Philadelphia, Philadelphia, PA<br />
Directional anisotropy in retinotopic Cortex <strong>for</strong><br />
Temporally Decorrelated motion<br />
Wouter Schellekens 1 , Mathijs Raemaekers 1<br />
1 UMC Utrecht, Utrecht, Netherlands<br />
Ventral and Dorsal Stream activation in response<br />
to object Shape and object Location<br />
Valentinos Zachariou 1 , Roberta Klatzky 1 , Marlene<br />
Behrmann 1<br />
1 Carnegie Mellon University, Pittsburgh, PA<br />
Now you see it, now you don’t: Surround suppression<br />
of BoLD is predictive of perceptual pop-out<br />
Branka Milivojevic 1,2 , Mathijs Raemaekers 2 ,<br />
Johan Jansma 2 , Nick Ramsey 2 , Margarita Calabrese 3 ,<br />
Chantal Kemner 2,1<br />
1 Utrecht University, Utrecht, Netherlands, 2 Rudolf<br />
Magnus Institute of Neuroscience, UMC Utrecht, Utrecht,<br />
Netherlands, 3 University of Amsterdam, Amsterdam,<br />
Netherlands<br />
Building contextual associations: the effects of<br />
number and temporal order<br />
Sophie Herbst 1,2 , Kestas Kveraga 1 , Moshe Bar 1<br />
1 MGH/Harvard Medical School, Charlestown, MA,<br />
2 Berlin School of Mind and <strong>Brain</strong>, Berlin, Germany<br />
Sad but beautiful; <strong>Brain</strong> responses to emotional<br />
appraisal and aesthetic judgment of art<br />
Jisun Kim 1 , Eun-Hye Shin 1 , Hanmo Kang 1 , Chai-Youn Kim 1<br />
1 Korea university, Seoul, Korea, Republic of<br />
Top-down task constraints modulate bottom-up face<br />
erPs: a single-trial gLm approach<br />
Guillaume Rousselet 1 , Carl Gaspar 2 , Kacper Wieczorek 3 ,<br />
Cyril Pernet 4<br />
1 University of Glasgow, Glasgow, UK, 2 University Of<br />
Glasgow, Glasgow, United Kingdom, 3 University of<br />
Glasgow, Glasgow, United Kingdom, 4 University of<br />
Edinburgh, Edinburgh, United Kingdom<br />
eeg Signatures of Target Detection in an Immersive<br />
3-D environment<br />
David Jangraw 1 , Paul Sajda 1<br />
1 Columbia University, New York, NY
Perception and Attention<br />
Perception: Visual, continued<br />
1094<br />
1095<br />
1096<br />
1097<br />
1098<br />
1099<br />
1100<br />
gray matter variations in children allowing the<br />
emergence of a global adult-like visual preference<br />
Nicolas Poirel 1 , Grégory Simon 1 , Arlette Pineau 1 , Gaëlle<br />
Leroux 1 , Céline Lanoë 1 , Amélie Lubin 1 , Sandrine Rossi 1 ,<br />
Mathieu Cassotti 2 , Guy Perchey 3 , Olivier Houdé 1<br />
1 UMR6232, Caen, Paris, France, 2 Mines ParisTech, Paris,<br />
France, 3 CHU de Caen, UMR 6232, Caen, France<br />
occipital TmS masking of visual stimuli: new insights<br />
on chronometry, intensity, and stimulus type<br />
Tom de Graaf 1 , Alexander Sack 2<br />
1 Department of Cognitive Neuroscience, Faculty of<br />
Psychology and Neuroscience, Maastricht University,<br />
Maastricht, the Netherlands, 2 Department of Cognitive<br />
Neuroscience, Faculty of Psychology and Neuroscience,<br />
Maastricht University, Maastricht, Netherlands<br />
Cracking the Code of oscillatory activity<br />
Philippe Schyns 1 , Gregor Thut 2 , Joachim Gross 2<br />
1 University of Glasgow, Glasgow, United Kingdom,<br />
2 Glasgow, United Kingdom<br />
erP evidence that meaning can early impact<br />
global/local visual processing<br />
Nicolas Poirel 1 , Mathieu Cassotti 2 , Grégory Simon 1 ,<br />
Arlette Pineau 1 , Miléna Kostova 3 , Olivier Houdé 1 ,<br />
Virginie Beaucousin 3<br />
1 UMR6232, Paris, Caen, France, 2 Mines ParisTech,<br />
Paris, France, 3 EA2027, Paris, France<br />
Can we simulate an action that we cannot<br />
temporarily per<strong>for</strong>m?<br />
Claire Calmels 1 , Swann Pichon 2 , Julie Grèzes 3<br />
1 INSEP, Recherche, Paris, France, 2 Department of<br />
Neuroscience, Medical School, University of Geneva,<br />
Geneva, Switzerland, 3 LNC INSERM U960 DEC ENS &<br />
CENIR, Paris, France<br />
ongoing alpha activity predicts orientation bias in<br />
perceptual organization<br />
Andrei Nikolaev 1 , Sergei Gepshtein 2 , Cees van Leeuwen 3<br />
1 Riken <strong>Brain</strong> Science Institute, Wako-shi, Japan, 2 The Salk<br />
Institute <strong>for</strong> Biological Studies, La Jolla, CA, 3 RIKEN <strong>Brain</strong><br />
Science Institute, Wako-shi, Japan<br />
Comprehensive retinotopic mapping by fmrI and<br />
direct cortical stimulation in occipital lobe epilepsy<br />
Akihiro Shimotake 1 , Riki Matsumoto 1 , Masanori Kanazu 2 ,<br />
Hiroki Yamamoto 2 , Yukihiro Yamao 3 , Masao Matsuhashi 4 ,<br />
Nobukatsu Sawamoto 4 , Nobuhiro Mikuni 5 , Susumu<br />
Miyamoto 3 , Hidenao Fukuyama 4 , Ryosuke Takahashi 1 ,<br />
Akio Ikeda 1<br />
1 Dept. Neurology, Kyoto University Graduate School of<br />
Medicine, Kyoto, Japan, 2 Graduate School of <strong>Human</strong> and<br />
Environmental Studies, Kyoto University, Kyoto, Japan,<br />
3 Dept. Neurosurgery, Kyoto University Graduate School of<br />
Medicine, Kyoto, Japan, 4 HBRC Kyoto University School<br />
Of Medicine, Kyoto, Japan, 5 Dept. Neurosurgery, Sapporo<br />
Medical University, Sapporo, Japan<br />
1101<br />
1102<br />
1103<br />
1104<br />
1105<br />
1106<br />
1107<br />
1108<br />
resting-state functional connectivity of amblyopic<br />
visual cortex shows less selectivity than normal<br />
Janine Mendola 1 , Lewis Lindsay 1 , Kuwook Cha 1 ,<br />
Felix Carbonell 1 , Amir Shmuel 2<br />
1 McGill University, Montreal, Quebec, 2 Montreal<br />
Neurological Institute, Montreal, Quebec<br />
eFa: Face-selective patches within the exstrastriate<br />
Body area<br />
Jose Rebola1 , João Castelhano1 , Carlos Ferreira1 ,<br />
Miguel Castelo-Branco1 1Institute of Biomedical Research in Light and Image,<br />
Coimbra, Portugal<br />
Between- and within-category functional localiser<br />
combining block- and event-related analysis<br />
Ian Charest 1 , Hamed Nili 2 , Nikolaus Kriegeskorte 3<br />
1 MRC CBSU, Cambridge, United-Kingdom, 2 MRC CBSU,<br />
Cambridge, United Kingdom, 3 MRC CBSU, Cambrige,<br />
United Kingdom<br />
Support vector machine classification of perceptual<br />
states as indexed by gamma-band activity<br />
João Castelhano 1 , Bruno Direito 2 , Britta Graewe 3 ,<br />
Jose Rebola 4 , Reza Farivar 5 , Eugenio Rodriguez 6 ,<br />
Miguel Castelo-Branco 4<br />
1 Faculty of Medicine, Coimbra, Portugal, 2 Centre <strong>for</strong><br />
In<strong>for</strong>matics and Systems, Coimbra, Portugal, 3 Maastricht,<br />
Netherlands, 4 IBILI, Coimbra, Portugal, 5 Department of<br />
Psychology, McGill University, Motreal, Canada, 6 Pontificia<br />
Universidad Catolica de Chile, Escuela de psicología,<br />
Chile, Santiago, Chile<br />
abnormal visual dorsal stream processing and 3D<br />
face perception in a neurodevelopmental disorder<br />
Inês Bernardino 1 , João Castelhano 1 , Reza Farivar 2 ,<br />
Miguel Castelo-Branco 1<br />
1 IBILI- Faculty of Medicine, University of Coimbra,<br />
Coimbra, Portugal, 2 Department of Psychology, McGill<br />
University, Motreal, Canada<br />
Trial-by-trial analysis of combined eeg and<br />
fmrI during visual stimulation<br />
Ana Diukova 1 , John Evans 1 , Jessica Smith 2 ,<br />
Peter Rogers 2 , Richard Wise 1<br />
1 Cardiff University <strong>Brain</strong> Research Imaging Centre,<br />
Cardiff, United Kingdom, 2 Department of Experimental<br />
Psychology, University of Bristol, Bristol, United Kingdom<br />
Critical Timing of TPJ and Lo in abrupt- and<br />
ramped- onset object recognition:<br />
a TmS investigation<br />
Robin Laycock 1 , Bonnie Alexander 2 , David Crewther 3 ,<br />
Sheila Crewther 4<br />
1 La Trobe University, Melbourne, Australia, 2 La Trobe<br />
University, Melbourne, Victoria, 3 Swinburne University,<br />
Melbourne, Australia, 4 La Trobe University, Melbourne,<br />
Australia<br />
Characteristics of inter-hemispheric transfer of<br />
face in<strong>for</strong>mation<br />
Yulwan Sung 1 , Hiroshi Tsubokawa 1 , Seiji Ogawa 1<br />
1 Kansei Fukushi Research Institute, Tohoku Fukushi<br />
University, Sendai, Miyagi<br />
HBM 2011 >> <strong>abstracts</strong> 183<br />
> > Wednesday, June 29: 13:15 – 15:45 (even numbers)<br />
> > Thursday, June 30: 10:30 – 13:00 (odd numbers)
Perception and Attention<br />
Perception: Visual, continued<br />
1109<br />
1110<br />
1111<br />
1112<br />
1113<br />
1114<br />
analysis of Superior and Inferior Parietal Lobe<br />
Function during Depth Perception in robotic Surgery<br />
Giulia Paggetti 1 , Gloria Menegaz 1 , Daniel Leff 2 ,<br />
Felipe Orihuela-Espina 2 , George Mylonas 2 , Ara Darzi 2 ,<br />
Guang-Zhong Yang 2<br />
1 Department of Computer Science, University of Verona,<br />
Italy, Verona, Italy, 2 The Hamlyn Centre <strong>for</strong> Robotic<br />
Surgery, Imperial College London, London,<br />
United Kingdom<br />
The effect of Stimulus Spatial Frequency on<br />
Negative BoLD in Visual Cortex<br />
Sian Robson 1 , John Evans 1 , Krish Singh 1<br />
1 Cardiff University, Cardiff, United Kingdom<br />
Natural scene category effect in scene-selective<br />
regions<br />
Benoit Musel 1 , Cédric Pichat 1 , Sylvie Chokron 2 ,<br />
Jean-François Le Bas 3 , Carole Peyrin 1<br />
1 Laboratoire de Psychologie et NeuroCognition, CNRS<br />
UMR 5105, Grenoble, France, 2 Unité Fonctionnelle Vision<br />
& Cognition, Fondation Ophtalmologique Rothschild,<br />
Paris, France, 3 INSERM U836/Université Joseph Fourier -<br />
GRenoble Institut des Neurosciences, Grenoble, France<br />
Neural response to Body Images in adolescents<br />
Courtney Gray 1 , Amir Tahmasebi 1 , Rosanne Aleong 1 ,<br />
Tomas Paus 1,2,3 , the IMAGEN Consortium 4<br />
1 Rotman Research Institute, Baycrest, Toronto, Ontario,<br />
Canada, 2 Montreal Neurological Institute, McGill<br />
University, Montreal, Quebec, Canada, 3 School of<br />
Psychology, University of Nottingham, Nottingham,<br />
United Kingdom, 4 King’s College, University of London,<br />
London, United Kingdom<br />
Neural interaction between frontal and parietal areas<br />
in P3 responses during visual target detection<br />
Sunao Iwaki 1 , Kouichi Sutani 1<br />
1 National Institute of Advanced Industrial Science<br />
and Technology (AIST), Osaka, Japan<br />
Neural activity associated with subjective color<br />
preference: a preliminary fmrI study<br />
Gwang-Woo Jeong 1 , Tae-Hoon Kim 1 , Jin-Kyu Song 2<br />
1 Dept of Radiology, Chonnam National University<br />
Medical School, Gwang-Ju, Republic of Korea, 2 Dept of<br />
Architectural Engineering, Chonnam National University,<br />
Gwang-Ju, Republic of Korea<br />
Neuroanatomy<br />
<strong>Brain</strong> Networks<br />
1115 Semi-automatic prediction of local neural network<br />
structure from spike train data,<br />
Masanori Shimono1 , John Beggs2 , Shinya Ito2 1 2 Indiana Univerisity, Indiana University, Bloomington, IN<br />
184 HBM 2011 >> <strong>abstracts</strong>
author index<br />
a<br />
Aarabi, B - 314 MT<br />
Aarnoutse, Erik - 1051 MT<br />
Abar, Caitlin - 763 WTh<br />
Abbott, Chris - 81 WTh<br />
Abbott, Christopher - 107 WTh<br />
Abbott, David - 364 WTh<br />
Abdel Rahman, Rasha - 14 MT<br />
Abdi, Hervé - 418 MT, 295 WTh, 592 WTh,<br />
657 WTh, 749 WTh<br />
Abdul-Kareem, Ihssan - 967 mT<br />
Abdullah, Jafri - 461 WTh<br />
Abdullah, Jafri Malin - 444 WTh<br />
Abe, Osamu - 635 MT<br />
Abe, Toshi - 153 WTh<br />
Abelson, James - 11 WTh<br />
Abhayaratna, Walter - 581 MT<br />
Abler, Birgit - 329 mT, 514 MT, 1056 MT<br />
Abolmaali, Nasreddin - 130 MT<br />
Abou Elseoud, Ahmed - 231 mT, 733 MT<br />
Aboulafia, Tatiana - 161 WTh<br />
Abrams, Daniel - 738 WTh, 797 WTh<br />
Absalom, Anthony - 420 MT, 436 WTh, 1022 MT<br />
Abugharbieh, Rafeef - 769 MT<br />
Acevedo, Daniel - 308 WTh<br />
Achten, Eric - 921 WTh, 925 WTh<br />
Acke, Frederic - 921 WTh, 925 WTh<br />
Ackermann, Hermann - 796 WTh<br />
Ackermann, Johannes - 794 MT<br />
Ackley, Elena - 480 MT, 567 WTh<br />
Acosta, Maria - 326 WTh<br />
ADALAT, Reza - 344 WTh<br />
Adam Ferguson, Michael - 102 MT<br />
Adams, Charles - 817 WTh<br />
Adams, Reginald - 486 MT, 257 WTh<br />
Adamson, Christopher - 570 MT<br />
Adan, Roger - 187 WTh<br />
Adapa, Ram - 420 mT, 436 WTh, 1022 MT<br />
Addis, Donna Rose - 854 MT<br />
Adelstein, Jonathan - 681 WTh, 732 MT<br />
Ademo,lu, Ahmet - 478 WTh, 544 WTh<br />
Adenis, Marie-Sarah - 1076 MT<br />
Adesman, Andrew - 585 MT<br />
Adewuyi, Oluwatoyin - 204 WTh<br />
Adeyemo, Adebanke - 262 MT<br />
Adhikari, Bhim - 389 WTh<br />
Adler, William - 264 WTh<br />
Admon, Roee - 320 mT, 325 MT<br />
Adnams, Colleen - 146 MT<br />
Adriany, Gregor - 473 MT<br />
Adrover-Roig, Daniel - 378 MT, 916 mT<br />
Afacan, Onur - 521 mT<br />
Aganj, Iman - 568 MT, 572 MT, 609 WTh<br />
Agartz, Ingrid - 80 WTh, 94 WTh, 120 WTh,<br />
129 WTh, 311 WTh, 677 WTh<br />
Aggernaes, Bodil - 95 WTh<br />
Aghajani, Moji - 256 WTh<br />
Agosta, Federica - 81 MT<br />
Agostini, Alessandro - 1065 WTh<br />
Agravat, Sanjay - 541 WTh<br />
Agrawal, Deepashri - 286 WTh, 442 MT<br />
Ahearn, Trevor - 688 MT, 911 MT, 913 MT<br />
Ahl<strong>for</strong>s, Seppo - 811 WTh, 985 MT<br />
Ahmad, Farooq - 346 WTh<br />
Ahmadi, Gelareh - 190 WTh<br />
Ahmed, Alwani - 444 WTh, 461 WTh<br />
Ahn, Sang Ho - 600 MT, 624 WTh<br />
Ahrens, Cory - 589 mT<br />
Ahrens, Tobias - 188 MT, 219 MT<br />
Ahveninen, Jyrki - 715 WTh, 894 WTh, 985 mT<br />
Ai, Hui - 259 WTh<br />
Ai, Leo - 546 mT<br />
Aiba, Eriko - 532 WTh, 1037 WTh, 1038 WTh<br />
Aichhorn, Markus - 534 MT, 1078 WTh<br />
Aiguabella, Maria - 192 mT<br />
Aizawa, Kenichi - 923 MT<br />
Aizawa, Takuya - 635 MT<br />
Aizenstein, Howard - 493 WTh, 636 MT<br />
Akatsuka, Satoshi - 1037 WTh, 1038 WTh<br />
Akazawa, Takeru - 841 WTh<br />
Akbar, Michael - 155 MT<br />
Akdag, Sare - 190 MT<br />
Akhlaghi, Hamed - 48 WTh<br />
Akimoto, Yoritaka - 1086 MT, 1090 mT<br />
Akitsuki, Yuko - 191 WTh<br />
Akrofi, Kwaku - 637 WTh<br />
Al-Rawi, Mohammed - 587 WTh<br />
Alaerts, Kaat - 751 mT<br />
Alagappan, Vijayanand - 476 MT<br />
Alam-Mehrjerdi, Zahra - 29 WTh<br />
Alarcon, Gabriela - 462 mT<br />
Albaugh, Matthew - 226 MT, 254 mT<br />
Albert, Kimberly - 854 WTh<br />
Albert, Martin - 894 WTh<br />
Alberts, Jay - 50 WTh<br />
Albin, Roger - 140 MT<br />
Albouy, Genevieve - 289 MT, 835 WTh, 836 WTh,<br />
1025 WTh<br />
Alcauter, Sarael - 53 WTh, 576 MT, 965 WTh,<br />
1079 MT, 1081 WTh<br />
Aldenkamp, Albert - 184 MT, 193 MT, 199 MT,<br />
599 WTh<br />
Alderweireldt, Ann-Sofie - 921 WTh, 925 WTh<br />
Aleida, Jorge - 591 MT<br />
Aleman, A. - 133 WTh, 310 WTh, 1062 MT<br />
Aleman, Andre - 18 WTh, 88 WTh, 96 WTh,<br />
256 WTh, 267 MT, 270 MT, 471 MT, 1095 MT,<br />
1109 MT<br />
Alemán-Gómez, Yasser - 59 MT<br />
Alemanno, Federica - 393 WTh<br />
Aleong, Rosanne - 1112 WTh<br />
Alessio, Andrea - 216 MT<br />
Alexander, Andrew - 74 MT, 102 MT<br />
Alexander, Bonnie - 1000 mT, 1107 WTh<br />
Alexander, Daniel - 51 MT, 605 WTh, 608 WTh<br />
Alexander-Bloch, Aaron - 679 WTh<br />
Alexiuk, Mark - 633 MT<br />
Alexopoulos, George - 439 WTh<br />
Alger, Jeffry - 108 MT, 489 MT, 304 MT, 591 mT<br />
AlGhamdi, Jamaan - 967 MT<br />
Ali Najee-ullah, Muslimah - 942 WTh<br />
Alicata, Daniel - 21 WTh<br />
Alizadeh, Faraz - 243 MT<br />
Allard, Eric - 917 mT<br />
Allard, Michèle - 67 WTh, 812 WTh, 847 MT,<br />
884 MT, 901 MT<br />
Allen, Elena - 107 WTh, 657 MT, 690 WTh,<br />
964 WTh<br />
Allen, Genevera - 656 MT, 662 mT<br />
Allen, Nicholas - 224 MT<br />
Allendorfer, Jane - 195 MT, 825 mT, 903 MT<br />
Allet, Lara - 161 WTh<br />
Allington, James - 21 MT<br />
Allman, Claire - 159 WTh<br />
Almasy, Laura - 507 MT<br />
Almryde, Kyle - 366 MT<br />
Bolded Poster numbers indicate first author.<br />
Alonso, Pino - 32 WTh, 33 WTh, 37 WTh, 39 WTh<br />
Alstott, Jeff - 734 mT<br />
Altarelli, Irene - 148 mT, 879 WTh<br />
Altaye, Mekibib - 802 MT<br />
Altena, Ellemarije - 43 WTh, 594 MT<br />
Alter, Kai - 288 WTh<br />
Althoff, Robert - 254 MT<br />
Altmann, Ulrike - 787 WTh<br />
Altshuler, Lori - 228 MT. 237 MT, 247 MT,<br />
256 MT, 591 MT<br />
Alvarez, Alfredo - 467 MT<br />
Alvarez, Ruben - 512 MT, 228 WTh, 233 WTh<br />
Álvarez-Linera, Juan - 498 WTh, 752 MT,<br />
1015 MT<br />
Alzheimer’s Disease Neuroimaging Initiative<br />
(ADNI), the - 48 MT, 49 MT, 314 WTh,<br />
679 MT, 994 WTh<br />
Amanzio, Martina - 1050 WTh<br />
Amaral, Selene - 575 WTh<br />
Amarantini, David - 931 WTh<br />
Amaro, Edson - 76 MT, 296 MT, 340 WTh,<br />
406 MT, 488 WTh, 531 MT<br />
Amdur, Richard - 262 MT<br />
Amemiya, Kaoru - 951 WTh<br />
Amieva, Hélène - 847 MT<br />
Amirbekian, Bagrat - 598 WTh<br />
Amita, Takashi - 529 WTh<br />
Amunts, Katrin - 805 MT, 925 MT, 950 MT<br />
Amyot, Franck - 525 WTh<br />
An, Ningyu - 87 MT<br />
An, Tuo - 994 WTh<br />
Anagnostou, Evdokia - 124 MT, 735 MT<br />
Anazodo, Udunna - 611 mT<br />
Anders, Silke - 1100 mT<br />
Anderson, Adam - 188 WTh, 202 WTh<br />
Anderson, Ariana - 114 MT<br />
Anderson, Jeffrey - 102 MT, 764 WTh<br />
Anderson, Tim - 51 WTh<br />
Anderson Zose, Amy - 232 mT<br />
Andersson, Frederic - 946 MT<br />
Andersson, Jesper - 595 WTh, 604 WTh,<br />
899 WTh<br />
Ando, Ayaka - 54 WTh, 66 WTh<br />
Andoh, Jamila - 23 mT<br />
Andorn, Anne - 335 MT<br />
Andrade, Alexandre - 111 MT, 117 MT, 655 WTh,<br />
741 WTh<br />
Andrade, Katia - 702 MT<br />
André, Elodie - 600 WTh<br />
Andreassen, Ole - 80 WTh, 94 WTh, 129 WTh,<br />
311 WTh<br />
Andrew, Gail - 141 MT<br />
Andrews, Randolph - 37 MT<br />
Andrews, Trevor - 599 MT<br />
Andric, Michael - 935 WTh<br />
Andriole, Katherine - 349 WTh<br />
Ang, Beng Ti - 169 WTh<br />
Ang, Kai Keng - 169 WTh<br />
Angeles, Annemarie - 301 MT<br />
Angulo-Perkins, Arafat - 280 WTh, 432 mT<br />
Annese, Jacopo - 951 mT<br />
Annoni, Jean-Marie - 10 WTh<br />
Ansado, Jennyfer - 58 mT, 906 mT<br />
Ansaldo, Ana Inés - 378 MT, 804 MT, 916 MT<br />
Ansari, Daniel - 413 WTh, 416 WTh, 418 WTh<br />
Anschütz, Andrea - 1063 MT<br />
Ansell, Emily - 249 MT<br />
Ansseau, Marc - 289 MT<br />
Anstey, Kaarin - 581 MT<br />
HBM 2011 >> <strong>abstracts</strong> 185
Anteraper, Sheeba - 713 WTh<br />
Anti, Sandra - 1044 WTh<br />
Antonini, Angelo - 70 WTh<br />
Antshel, Kevin - 108 WTh<br />
Anwander, Alfred - 555 MT, 557 MT, 560 MT,<br />
564 MT, 588 MT, 601 WTh, 645 WTh, 926 MT,<br />
968 MT, 977 MT, 982 WTh<br />
Aoki, Ryuta - 850 WTh<br />
Aoki, Shigeki - 635 MT<br />
APARICIO, Mario - 800 WTh<br />
Apkarain, A Vania - 1051 WTh<br />
Apkarian, Vania - 582 WTh, 708 MT, 775 MT,<br />
1058 WTh<br />
Apostolova, Liana - 70 mT<br />
Appenzeller, Monique - 10 WTh<br />
Apps, Matthew - 1083 mT<br />
Apud, Jose - 89 WTh, 90 WTh<br />
Aqil, Muhammad - 509 WTh<br />
Aquino, Ana - 256 MT<br />
Aquitaine cohort group, the ANRS C03 - 847 MT<br />
Arbabshirani, Mohammad Reza - 556 WTh<br />
Arfeller, Carola - 495 WTh, 938 WTh<br />
Arienzo, Donatello - 269 mT, 264 MT, 271 MT<br />
Arja, Sunil - 964 WTh<br />
Armony, Jorge - 280 WTh, 432 MT, 1076 MT<br />
Arnaud, Laureline - 798 WTh<br />
Arnold, Douglas - 456 MT<br />
Aronen, Eeva - 125 MT<br />
Arora, jagriti - 349 MT, 780 MT<br />
Arslan, Burcu - 526 WTh<br />
Artiges, E - 877 WTh, 1084 MT<br />
Artino, Anthony - 411 WTh<br />
Artu, Alan - 120 MT<br />
Arver, Stefan - 961 WTh<br />
Asamizuya, Takeshi - 271 WTh<br />
Asano, Kohei - 887 WTh, 1013 mT<br />
Asano, Michiko - 887 WTh, 1013 MT<br />
Asarnow, Robert - 85 WTh, 86 WTh<br />
Ashburner, John - 576 WTh, 949 MT<br />
Ashby, F Gregory - 554 WTh<br />
Asherson, Philip - 161 MT, 346 MT<br />
Ashkenazi, Sarit - 406 WTh<br />
Ashtari, Manzar - 585 mT, 866 MT<br />
Ashwin, Pete - 937 WTh<br />
Aslan, Sina - 582 MT<br />
Asmussen, Sarah - 301 MT<br />
Aso, Toshihiko - 608 mT, 613 MT<br />
Assaf, Yaniv - 39 MT, 833 WTh<br />
Astafiev, Serguei - 309 mT<br />
Asthana, Sanjay - 74 MT<br />
Astolfi, Laura - 423 MT, 440 WTh, 1102 mT<br />
Aston-Jones, Gary - 470 MT<br />
At, Ayse - 28 mT<br />
Atba,o,lu, Cem - 40 WTh<br />
Athanasiou, Thanos - 521 WTh, 523 WTh,<br />
530 WTh<br />
Atlas, Lauren - 240 WTh, 1048 WTh<br />
Atri, Alireza - 763 MT<br />
Attias, Hagai - 632 WTh<br />
Atzil, Shir - 253 WTh<br />
Aubé, William - 432 MT<br />
Aubert, Eduardo - 652 WTh<br />
Audette, Joseph - 871 MT, 1075 WTh<br />
Auer, Dorothee - 223 MT, 225 MT<br />
Auer, Tibor - 840 WTh<br />
Auerbach, Edward - 499 MT<br />
Auff, Eduard - 77 WTh<br />
Augustinack, Jean - 936 MT, 987 WTh, 988 WTh<br />
Auksztulewicz, Ryszard - 1071 WTh<br />
Aunio, Antti - 231 MT<br />
Aurousseau, Kristina - 628 WTh<br />
Auzias, Guillaume - 615 mT, 886 WTh<br />
Avants, Brian - 650 mT, 954 MT, 91 MT<br />
Ávila Rivera, César - 330 MT, 397 MT, 801 MT,<br />
840 MT<br />
186 HBM 2011 >> <strong>abstracts</strong><br />
Aviyente, Selin - 100 WTh<br />
Avsar, Kathy - 105 WTh, 109 WTh, 112 WTh,<br />
136 WTh, 121 WTh<br />
Axer, Markus - 950 MT<br />
Axmacher, Nikolai - 845 MT<br />
Ayaz, Hasan - 526 WTh<br />
Aybek, Selma - 196 WTh<br />
Aydore, Sergul - 644 WTh<br />
Aylward, Elizabeth - 140 MT, 877 MT<br />
Aylward, Stephen - 304 MT<br />
Ayoub, Kareem - 313 mT<br />
Aziz, Tipu - 3 MT, 4 MT, 940 MT<br />
Azma, Sheeva - 262 mT<br />
b<br />
Baaré, William - 95 WTh, 562 MT<br />
Babb, Casey - 244 MT, 250 MT<br />
Babiloni, Claudio - 22 MT<br />
Babiloni, Fabio - 423 MT, 440 WTh, 1102 MT<br />
Babo Rebelo, Mariana - 1025 mT<br />
Babul, Arif - 756 MT<br />
Bach, Dominik - 1059 MT<br />
Bachmann, Silke - 147 WTh<br />
Bachtiar, Velicia - 159 WTh<br />
Baciu, Monica - 218 MT, 830 MT<br />
Backasch, Bianca - 1108 mT<br />
Backes, Walter - 184 MT, 193 MT, 199 MT,<br />
599 WTh<br />
Bäckman, Lars - 231 WTh, 301 WTh<br />
Badewien, Meike - 25 MT<br />
Badgaiyan, Rajendra - 533 WTh<br />
Badier, Jean-Michel - 205 MT<br />
Badre, David - 765 MT<br />
Baechler, Angelika - 927 MT<br />
Baek, Han-Su - 354 MT<br />
Bagary, Manny - 194 MT<br />
Bagic, Anto - 283 MT<br />
Bagnato, Francesca - 192 WTh<br />
Bagshaw, Andrew - 194 MT, 475 WTh, 479 WTh,<br />
484 WTh, 489 WTh, 920 WTh, 1029 MT,<br />
1041 WTh, 1049 MT<br />
Bai, Dai Seg - 605 MT<br />
Baier, Gerold - 630 WTh<br />
Bailey, Jennifer - 436 mT, 834 WTh<br />
Baillet, Sylvain - 209 MT, 701 MT, 909 WTh,<br />
962 WTh<br />
Bakels, Jan Hendrik - 266 WTh<br />
Baker, Chris - 1083 WTh<br />
Baker, Curtis - 549 WTh<br />
Baker, Dewleen - 301 MT<br />
Baker, Katharine - 926 WTh<br />
Baker, Mary - 637 WTh, 770 WTh<br />
Bakker, Catherine - 35 MT<br />
Bakker, Rembrandt - 357 WTh<br />
Bakour, Akram - 943 MT<br />
Balaban, Evan - 797 WTh<br />
Balardin, Joana - 76 mT<br />
Balcer, Laura - 91 MT<br />
Baldinger, Pia - 535 WTh<br />
BALERIAUX, Danielle - 137 MT, 800 WTh<br />
Baliki, Marwan - 582 WTh, 1051 WTh, 775 MT,<br />
1058 WTh, 708 MT<br />
Ball, Tonio - 285 WTh<br />
Ballard, Kirrie - 824 WTh<br />
Baller, Erica - 239 mT, 462 MT<br />
Ballinger, Tom - 601 MT<br />
Balsters, Joshua - 251 WTh, 920 MT<br />
Balteau, Evelyne - 289 MT<br />
Banachewski, Thomas - 352 MT<br />
Banari, Liliana - 614 MT<br />
Banaschewski, Tobias - 6 WTh, 321 MT, 333 MT,<br />
337 MT, 877 WTh, 957 WTh, 1084 MT<br />
Banca, Paula - 35 WTh<br />
Bance, Manohar - 965 MT<br />
Bandettini, Peter - 481 MT, 484 MT, 538 MT,<br />
630 MT, 683 WTh, 100 MT, 490 MT, 576 WTh,<br />
696 WTh, 776 MT, 725 WTh, 736 MT<br />
Banerjee, Arpan - 629 WTh<br />
Bangaru, Saroja - 128 MT, 129 MT<br />
Bani, Massimo - 335 MT<br />
Banks, Christi - 441 MT, 825 MT, 903 MT<br />
Bao, Forrest - 993 WTh<br />
Bär, Karl-Jürgen - 1044 WTh<br />
Bar, Moshe - 257 WTh, 1090 WTh<br />
Bar-Shira, Anat - 39 MT<br />
Barakat, Marc - 829 WTh<br />
Baraniuk, James - 204 WTh<br />
Barapatre, Nirav - 447 MT<br />
Barbalat, Guillaume - 379 WTh<br />
Barbe, Michael - 5 MT<br />
Barbeau, Emmanuel - 862 MT<br />
Barber, Anita - 152 MT, 878 WTh, 889 WTh,<br />
144 MT, 163 MT, 711 MT<br />
Barbieri, Riccardo - 1080 WTh<br />
Barbot, Alexis - 317 WTh, 354 WTh<br />
Barbour, Randall - 511 WTh<br />
Barch, Deanna - 222 MT, 244 MT, 250 MT<br />
Bargallo, Nuria - 312 MT, 689 MT, 706 WTh<br />
Bargiacchi, Anne - 623 WTh<br />
Baria, Alex - 708 MT, 1051 WTh, 1058 WTh<br />
Barillot, Christian - 346 WTh<br />
Barker, Anthony - 19 MT<br />
Barker, Gareth - 6 WTh, 180 MT, 252 WTh,<br />
321 MT, 333 MT, 337 MT, 352 MT, 877 WTh,<br />
957 WTh, 1084 MT<br />
Barker, Roger - 43 WTh, 64 WTh<br />
Barkhof, Frederik - 696 MT, 728 MT<br />
Barkovich, A. James - 828 WTh, 863 WTh,<br />
865 WTh, 867 WTh, 897 WTh<br />
Barlow, Karen - 206 MT<br />
Barmet, Christoph - 485 MT<br />
Barnden, Leighton - 1056 WTh, 1061 WTh<br />
Barnes, Gareth - 239 WTh, 450 WTh, 762 MT,<br />
665 WTh<br />
Barnes, Josephine - 51 MT<br />
Barnett, Alan - 693 mT<br />
Baron, Jean-Claude - 419 MT<br />
Baron-Cohen, Simon - 111 MT, 117 MT, 761 MT<br />
BARONNET, Flore - 166 WTh<br />
Barraza, Jorge - 1092 MT<br />
Barreiros, Maria - 406 MT<br />
Barrett, Kyle - 814 MT<br />
Barrett, Lisa - 565 WTh<br />
Barrick, Thomas - 617 WTh<br />
Barrios, Fernando - 53 WTh, 280 WTh, 401 WTh,<br />
424 MT, 432 MT, 576 MT, 895 WTh, 965 WTh,<br />
1079 MT, 1081 WTh<br />
Barros-Loscertales, Alfonso - 330 mT<br />
Barsalou, Lawrence W. - 1021 MT<br />
Barter, Joseph - 344 MT, 348 MT, 378 WTh<br />
Barth, Markus - 477 WTh, 637 MT, 986 WTh,<br />
524 MT<br />
Barthel, Henryk - 64 MT<br />
Bartholomeusz, Cali - 126 WTh<br />
Bartolomei, Fabrice - 205 MT<br />
Bartova, Lucie - 274 MT<br />
Barttfeld, Pablo - 118 mT, 558 MT<br />
Barysheva, Marina - 228 mT, 297 WTh, 315 WTh<br />
Basak, Chandramallika - 370 MT<br />
Bashir, Shahid - 31 MT, 33 mT, 173 WTh<br />
Basile, Barbara - 1002 mT<br />
Bassett, Susan - 35 mT<br />
Bassi, Andrea - 1002 MT<br />
Bastiaansen, Marcel - 693 WTh<br />
Bastin, Julien - 419 WTh
Bastin, Mark - 505 MT, 779 MT<br />
Batalla, Iolanda - 213 WTh<br />
Bates, Joseph - 770 WTh<br />
Bath, Jessica - 138 MT<br />
Bathula, Deepti - 128 MT, 162 MT<br />
Batistuzzo, Marcelo - 76 MT<br />
Batouli, Seyed Amir Hosein - 323 WTh<br />
Batrancourt, Bénédicte - 346 WTh<br />
Battistella, Giovanni - 10 WTh<br />
Baudewig, Juergen - 16 MT, 276 WTh, 371 WTh<br />
Baudrexel, Simon - 5 MT<br />
Bauer, Clemens - 424 mT, 1081 WTh<br />
Bauer, Eva - 919 MT<br />
Bauer, Herbert - 1089 MT<br />
Bauer, Markus - 1059 mT, 1085 MT<br />
Bauer, Michael - 282 MT<br />
Bauer, Miriam - 595 MT, 618 WTh<br />
Bauleo, Armando - 923 WTh<br />
Baum, Shari - 802 WTh<br />
Baum, Stefi - 727 MT<br />
Baumgartner, Richard - 750 WTh, 760 WTh<br />
Bäuml, Josef - 141 WTh<br />
Baxter, Lewis - 749 MT, 758 MT<br />
BAYARD, Sophie - 157 WTh<br />
Bayraktaro,lu, Zübeyir - 478 WTh<br />
Bayram, Ali - 478 WTh, 544 WTh<br />
Bazih, Adam - 472 MT<br />
Bazin, Pierre-Louis - 674 MT, 690 MT, 603 WTh<br />
Beall, Erik - 50 WTh, 569 MT, 978 MT<br />
Bean, Stephanie - 710 WTh<br />
Bearden, Carrie - 99 WTh, 251 mT, 91 WTh<br />
Beason-Held, Lori - 764 MT, 895 mT<br />
Beaucousin, Virginie - 1097 WTh<br />
Beaudoin, Gilles - 469 MT<br />
Beaulieu, Christian - 191 MT, 206 MT, 141 MT,<br />
174 MT, 873 WTh<br />
Beauregard, Mario - 276 MT, 756 WTh<br />
Beaver, John - 335 MT<br />
Becerra, Lino - 209 WTh, 222 WTh<br />
Becirspahic, Marc - 1073 MT<br />
Beck, Anne - 25 WTh<br />
Beck, Stefanie - 369 mT<br />
Becker, J. Alex - 41 MT<br />
Becker, James - 636 MT<br />
Becker, Robert - 625 WTh<br />
Beckman, Thomas - 411 WTh<br />
Beckmann, Christian - 44 WTh, 335 MT, 740 MT,<br />
659 MT, 736 WTh, 899 WTh, 19 WTh,<br />
697 WTh, 717 MT<br />
Bedard, Patrick - 765 WTh, 945 WTh<br />
Bedenbender, Johannes - 307 WTh, 506 mT<br />
Beer, Anton - 973 mT<br />
Beers, Craig - 504 mT<br />
Beevers, Christopher - 848 MT<br />
Beg, Faisal - 305 WTh, 756 MT<br />
Beggs, John – 1115 WTh<br />
Begum, Tahamina - 444 WTh, 461 WTh<br />
Behan, Brendan - 23 WTh, 360 mT<br />
Behnke, Marylou - 134 MT, 171 MT<br />
Behr, Joachim - 101 WTh<br />
Behrens, Timothy - 366 WTh, 368 WTh, 369 WTh,<br />
536 WTh, 595 WTh, 609 WTh, 646 MT, 671<br />
MT, 727 WTh<br />
Behrmann, Marlene - 992 MT, 1088 WTh<br />
Beilock, Sian - 233 MT<br />
Beissner, Florian - 1044 WTh<br />
Beisteiner, Roland - 77 WTh, 525 MT, 534 MT,<br />
535 mT, 643 MT, 1078 WTh<br />
Bekinschtein, Tristan - 303 MT, 436 WTh<br />
Bekkering, Harold - 818 MT<br />
Belardinelli, Paolo - 1028 WTh, 665 WTh<br />
Belden, Andy - 244 mT<br />
Beldzik, Ewa - 1050 MT<br />
Belin, Pascal - 827 MT, 1014 WTh, 1027 WTh,<br />
1032 WTh, 1073 MT<br />
Bellec, Pierre - 361 WTh, 596 WTh, 678 WTh,<br />
680 WTh, 726 WTh, 68 MT, 90 MT<br />
Belleville, Sylvie - 780 WTh, 828 MT, 922 mT<br />
Bellgowan, Patrick - 228 WTh, 233 WTh, 512 MT,<br />
859 MT<br />
Bellgrove, Mark - 957 WTh<br />
Belliveau, John - 715 WTh, 985 MT<br />
Bello-Espinosa, Luis - 206 MT<br />
Bells, Sonya - 390 WTh<br />
Beltramini, Guilherme - 217 MT<br />
Beltz, Adriene - 763 WTh<br />
Ben Amitay, Shani - 833 WTh<br />
Ben-Shachar, Michal - 777 WTh<br />
Benali, Habib - 184 WTh, 474 MT, 492 WTh,<br />
702 WTh, 726 MT, 829 WTh, 512 WTh,<br />
836 WTh<br />
Bénar, Christian - 205 MT<br />
Bendlin, Barbara - 34 MT, 74 MT<br />
Benedict, Ralph - 224 WTh<br />
Benferhat, Anees - 851 MT<br />
Benner, Thomas - 621 MT, 985 WTh, 987 WTh<br />
Bennett, Jean - 866 MT<br />
Bennett, Randi - 122 MT<br />
Bennetto, Loisa - 807 MT<br />
Benoit, Sophie - 829 MT<br />
Benson, Randall - 307 MT<br />
Bentall, Richard - 275 MT<br />
Benuzzi, Francesca - 1065 WTh<br />
Berenbaum, Sheri - 763 WTh<br />
Berger, Kevin - 55 MT<br />
Berger, Martijn - 796 MT<br />
Berglund, Hans - 195 WTh<br />
Bergmann, Ørjan - 677 WTh<br />
Bergouignan, Loretxu - 843 mT<br />
Bergstrand, Simon - 1030 WTh<br />
Berkman, Elliot - 256 MT<br />
Berl, Madison - 876 WTh<br />
Berman, Karen - 47 WTh, 89 WTh, 230 WTh,<br />
265 WTh, 331 WTh, 345 MT, 462 MT, 492 MT,<br />
851 MT, 386 MT, 239 MT, 327 WTh, 534 WTh<br />
Berman, Marc - 581 WTh<br />
Berman, Susan - 493 WTh<br />
Bermel, Robert - 960 MT, 978 MT<br />
Bermpohl, Felix - 537 WTh, 282 mT<br />
Bermudez, Diana - 262 MT<br />
Bermudez, Patrick - 844 WTh<br />
Bernacer-Maria, Javier - 116 WTh<br />
Bernard, Charlotte - 847 mT<br />
Bernard, Manon - 295 WTh, 306 WTh<br />
Bernardi, Giulio - 586 WTh, 831 WTh<br />
Bernardi, Laura - 70 WTh<br />
Bernardi, Ricardo - 71 MT<br />
Bernardi Soder, Ricardo - 72 MT, 90 MT<br />
Bernarding, Johannes - 353 WTh, 557 MT,<br />
588 MT, 793 MT, 901 WTh, 902 WTh<br />
Bernardino, Inês - 1105 WTh<br />
Bernasconi, Andrea - 201 MT, 213 MT, 215 MT<br />
Bernasconi, Neda - 182 MT, 201 MT, 213 MT,<br />
215 MT<br />
Bernat, Edward - 100 WTh<br />
Bernhardt, Boris - 182 mT, 201 MT, 213 mT,<br />
215 MT<br />
Bernholt, Sascha - 1063 MT<br />
Bernier, Pierre-Michel - 915 WTh<br />
BERRE, Jacques - 1026 MT<br />
Bertagnolli, Darren - 336 WTh<br />
Berthoux, Maxime-Louis - 382 WTh<br />
Berthoz, Alain - 419 WTh<br />
Bertoldo, Alessandra - 970 MT<br />
Bertram, Lars - 305 WTh<br />
BERTRAN, Françoise - 850 MT<br />
Bertrand, Olivier - 402 MT, 993 MT, 1001 MT,<br />
198 MT, 656 WTh, 1074 WTh<br />
Bolded Poster numbers indicate first author.<br />
Berwid, Olga - 1005 MT<br />
Besseling, René - 599 WTh<br />
Bestelmeyer, Patricia E. G. - 1014 WTh,<br />
1032 WTh, 1073 MT<br />
Bestmann, Sven - 368 WTh<br />
Betrisey, Carine - 114 WTh<br />
Betz, Josh - 314 MT<br />
Betzler, Felix - 12 MT<br />
Beucke, Jan - 30 WTh<br />
Beuzeron-Mangina, Helen - 421 WTh<br />
Beyea, Steven - 519 MT<br />
Bezerra, Diana - 296 mT<br />
Bezgin, Gleb - 357 WTh<br />
Bezzola, Ladina - 453 mT<br />
Bhaganagarapu, Kaushik - 364 WTh<br />
Bhaskar, Shalini - 461 WTh<br />
Bhawnani, Jitendra - 234 WTh, 639 MT<br />
Bherer, Louis - 414 WTh, 500 WTh, 514 WTh,<br />
898 MT, 1045 MT<br />
Biagi, Laura - 109 MT<br />
Bialystok, Ellen - 372 MT, 399 MT<br />
Bianciardi, Marta - 527 mT, 715 mT<br />
Biassou, Nadia - 496 MT<br />
Biazoli Junior, Claudinei Eduardo - 488 WTh<br />
Biederman, Joseph - 894 WTh<br />
Biehl, Stefanie - 393 mT<br />
Bier, Bianca - 922 MT<br />
Biessels, Geert Jan - 583 MT<br />
Bigal, Marcelo - 209 WTh, 222 WTh<br />
Bigler, Erin - 102 MT<br />
Bigos, Kristin - 875 MT, 483 MT<br />
Bigras, Cristina - 195 mT<br />
Bijsterbosch, Janine - 19 mT, 716 mT<br />
Bilek, Edda - 24 mT<br />
Bilevicius, Elisabeth - 216 MT<br />
Bilkei-Gorzo, Andreas - 227 WTh<br />
Billard, Catherine - 148 MT, 879 WTh<br />
Billot, Segolene - 930 WTh<br />
Binder, Jeffrey - 781 WTh<br />
Bingaman, William - 945 MT<br />
Binkofski, Ferdinand - 52 WTh, 65 WTh, 68 WTh<br />
Binnewijzend, Maja - 728 MT<br />
Birbaumer, Niels - 169 WTh, 235 WTh,<br />
524 WTh, 688 WTh, 903 WTh, 906 WTh,<br />
907 WTh, 929 WTh<br />
Birca, Ala - 882 WTh<br />
Birn, Rasmus M - 680 WTh<br />
Bischoff, Matthias - 634 WTh<br />
Bishop, Courtney - 679 mT<br />
Biswal, Bharat - 343 WTh, 990 WTh<br />
Bitan, Tali - 816 mT<br />
Biundo, Roberta - 70 WTh<br />
Bizzo, Bernardo - 378 MT, 403 MT<br />
Bjork, James - 351 mT<br />
Björnsdotter, Malin - 1030 WTh<br />
Bjornson, Bruce - 190 MT<br />
Black, Maureen - 26 WTh<br />
Black, Sandra - 77 MT, 183 WTh<br />
Blackburn, Marianna - 275 MT<br />
Blagdon, Ryan - 388 WTh<br />
Blair, Clancy - 860 WTh<br />
Blakemore, Sarah-Jayne - 869 WTh<br />
Blanchet, Sophie - 860 MT<br />
Blancho, Sophie - 184 WTh<br />
Blanco, Laura - 32 WTh, 33 WTh, 37 WTh,<br />
213 WTh<br />
Blanco, Yolanda - 689 MT<br />
Blangero, John - 296 WTh, 309 WTh, 455 MT,<br />
507 MT, 892 MT<br />
Blanke, Olaf - 533 MT<br />
Blankenburg, Felix - 1069 WTh, 1071 WTh<br />
Blankstein, Udi - 897 MT<br />
Blatow, Maria - 155 MT<br />
Blautzik, Janusch - 739 mT, 771 MT<br />
Blecker, Carlo - 634 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 187
Bleichner, Martin - 1051 MT<br />
Bliss, Daniel - 381 MT<br />
Blitzer, David - 344 mT, 348 MT<br />
Block, Robert - 912 WTh<br />
Bloemendaal, Mirjam - 362 MT, 363 MT<br />
Blokland, Gabriella - 318 WTh<br />
Blomert, Leo - 418 WTh<br />
Blumberg, Hilary - 313 WTh<br />
Blume, Jeffrey - 765 MT<br />
Blumenfeld, Robert - 381 mT<br />
Bluml, Stefan - 966 MT<br />
Blunck, Yasmin - 175 WTh<br />
Boada, Fernando - 593 MT<br />
Boas, David - 503 WTh, 517 WTh, 1043 MT,<br />
1044 MT<br />
Bobrow, James - 21 MT<br />
Boccardi, Marina - 57 MT<br />
Bocchetta, Martina - 57 MT<br />
Bochdanovitz, Zoltan - 310 WTh<br />
Bock, Elizabeth - 909 WTh<br />
Bodammer, Nils - 301 WTh<br />
Boddaert, Nathalie - 329 WTh<br />
Bodde, Nynke - 193 MT<br />
Bode, Stefan - 372 WTh<br />
Bodurka, Jerzy - 228 WTh, 233 WTh, 484 MT,<br />
512 MT, 515 MT, 736 MT<br />
Boecker, Henning - 227 WTh<br />
Boegle, Rainer - 584 WTh<br />
Boehringer, Andreas - 10 mT<br />
Boekel, Wouter - 387 WTh<br />
Boeker, Heinz - 1058 MT<br />
Boesiger, Peter - 1058 MT<br />
Boespflug, Erin - 60 mT<br />
Bogacz, Rafal - 377 WTh<br />
Bogdahn, Ulrich - 178 WTh<br />
Bogdan, Martin - 907 WTh<br />
Bogerts, Bernhard - 220 MT, 266 MT,<br />
275 WTh, 464 WTh<br />
Bogler, Carsten - 510 WTh<br />
Bogovic, John - 674 mT, 953 WTh<br />
Bohanna, India - 66 WTh<br />
Bohlken, Marc - 61 WTh<br />
Bohon, Cara - 243 mT, 264 MT, 271 MT, 277 MT<br />
Bohrn, Isabel - 787 WTh<br />
Bohus, Martin - 189 WTh<br />
Boivin, Michel - 276 MT<br />
Bokde, Arun - 251 WTh, 920 MT<br />
Bolding, Mark - 112 WTh<br />
Bolling, Danielle - 1113 mT<br />
Boly, Melanie - 1016 MT, 1017 mT, 1019 MT,<br />
1025 MT, 1028 mT, 1032 MT<br />
Bonelli, Silvia - 178 MT<br />
Bonetti, Matteo - 57 MT<br />
Bonino, Daniela - 278 WTh, 1082 mT<br />
Bonnefond, Mathilde - 853 WTh<br />
Bonnet, Fabrice - 847 MT<br />
Bonnetblanc, Francois - 868 mT, 911 WTh<br />
Bontempi, Bruno - 850 MT<br />
Boogerd, Willem - 469 WTh, 200 WTh<br />
Bookheimer, Susan - 114 MT, 237 MT, 247 MT,<br />
256 MT, 350 WTh, 551 MT, 104 MT, 472 MT<br />
Boomsma, Dorret - 384 MT, 445 MT, 497 MT<br />
Boon, Paul - 179 MT, 204 MT<br />
Boonstra, Tjeerd - 937 WTh<br />
Boor, Rainer - 175 MT, 200 MT<br />
Boos, Heleen - 111 WTh<br />
Booth, James - 404 WTh, 331 MT<br />
Bordessoules, Martine - 812 WTh<br />
Boré, Arnaud - 962 MT<br />
Borghesani, Paul - 877 mT<br />
Bornmann, Sarah - 34 WTh<br />
Borrego, Mayelin - 652 WTh<br />
Borromeo, Susana - 1015 MT<br />
Borroni, Edilio - 552 WTh<br />
Borsook, David - 209 WTh, 222 WTh<br />
188 HBM 2011 >> <strong>abstracts</strong><br />
Bosch-Bayard, Jorge - 652 WTh<br />
Bosco, Paolo - 65 MT<br />
Bosetti, Francesca - 457 MT<br />
Boshyan, Jasmine - 257 WTh<br />
Bosnell, Rosemary - 159 WTh<br />
Bosquet, Laurent - 1045 MT<br />
Bossa, Laura - 213 WTh<br />
Bossong, Matthijs - 4 WTh, 113 WTh, 342 MT<br />
Botteron, Kelly - 222 MT, 226 MT, 250 MT,<br />
254 MT, 244 MT, 891 WTh<br />
Bottino, Cássio - 296 MT<br />
Boubela, Roland - 785 MT, 754 WTh, 769 WTh<br />
Bouchard, Maryse - 469 MT<br />
Boucher, Maxime - 619 MT<br />
BOUDOUSQ, Vincent - 157 WTh<br />
Boudrias, Marie-Hélène - 163 WTh<br />
Bouet, Romain - 198 mT, 402 MT, 1074 WTh<br />
Bouix, Sylvain - 306 MT<br />
Bourguignon, Mathieu - 798 MT<br />
Bourque, Josiane - 117 WTh, 138 WTh,<br />
143 WTh, 144 WTh<br />
Boutte, David - 324 WTh<br />
Bouyoucef, Amel - 835 WTh, 836 WTh<br />
Boven, Epie - 469 WTh<br />
Boveroux, Pierre - 1017 MT, 1019 MT, 1025 MT,<br />
1028 MT<br />
Bowen, Chris - 388 WTh, 508 MT<br />
Bowl, Wadim - 104 WTh<br />
Bowman, DuBois - 541 WTh, 563 WTh, 566 WTh<br />
Bowman, Ian - 358 WTh, 577 WTh<br />
Bowtell, Richard - 489 WTh, 667 WTh, 1008 WTh,<br />
1049 MT<br />
Boy, Frederic - 128 WTh<br />
Boy, Sandra - 178 WTh<br />
Boyacioglu, Rasim - 524 mT<br />
Boyle, Christina - 193 WTh, 251 MT, 868 WTh<br />
Bozoki, Andrea - 55 MT<br />
Bozzali, Marco - 1002 MT<br />
Bradshaw, John - 48 WTh<br />
Braet, Wouter - 775 WTh<br />
Brambati, Simona - 780 WTh<br />
Brambati, Simona Maria - 826 MT, 828 mT<br />
Brammer, Michael - 537 WTh, 551 WTh<br />
Branch, Craig - 998 WTh<br />
Brandeis, Daniel - 494 WTh, 772 WTh<br />
Brandt, Christine Lycke - 80 WTh<br />
Brar, Jasmit - 105 MT<br />
Braskie, Meredith - 297 WTh<br />
Brassen, Stefanie - 321 MT, 352 MT<br />
Bratzke, Hansjürgen - 556 MT<br />
Brauer, Jens - 875 WTh, 883 WTh<br />
Braun, Allen - 831 MT<br />
Braun, Christoph - 433 MT, 938 WTh<br />
Braun, Urs - 24 MT<br />
Brauns, Stefan - 123 WTh<br />
Braunstein, Verena - 408 WTh<br />
Brazdil, Milan - 721 WTh, 795 MT, 1116 MT<br />
Brázdová, Veronika - 634 mT<br />
Breakspear, Michael - 220 MT, 357 MT, 625 WTh,<br />
742 WTh, 937 WTh<br />
Breckel, Thomas - 708 WTh<br />
Breeden, Andrew - 107 mT, 204 WTh<br />
Breedlove, Evan - 307 MT<br />
Breen, David - 64 WTh<br />
Bregman, Noa - 60 WTh<br />
Breier, Joshua - 571 MT<br />
Breitenstein, Caterina - 392 WTh<br />
Brenner, Meike - 1010 MT, 1055 WTh<br />
Bresciani, Jean Pierre - 940 WTh<br />
Breteler, Monique - 200 WTh<br />
Breton, Estelle - 756 WTh<br />
Bretscher, Johannes - 245 WTh<br />
Brett, Matthew - 598 WTh<br />
Brett, Salmons - 281 MT<br />
Brewer, Judson - 1060 mT<br />
Brian, Eric - 788 WTh<br />
Brice, Alexis - 45 WTh<br />
Brichant, Jean-Francois - 1028 MT<br />
Brickman, Adam - 692 MT, 918 MT<br />
BRIGANTI, CHIARA - 132 MT<br />
Brindley, Lisa - 1048 MT<br />
Bringas, Maria L - 729 mT<br />
Britz, Juliane - 124 WTh, 434 WTh<br />
Broadwell, Christina - 274 WTh<br />
Brochard, Vanessa - 930 WTh<br />
Brock, Jon - 133 MT, 142 mT, 932 WTh<br />
Brocke, Burkhard - 274 MT, 290 MT, 1031 MT<br />
Brodersen, Kay - 366 WTh, 369 WTh, 397 WTh,<br />
538 WTh, 545 WTh, 546 WTh, 646 MT,<br />
1039 WTh<br />
Brodeur, Marie-Eve - 469 MT<br />
Bromberg, Uli - 321 MT, 352 mT<br />
Brooks, Brian - 206 MT<br />
Brooks, Dana - 521 MT<br />
Brooks, Jonathan - 899 WTh<br />
Brooks, William - 164 WTh<br />
Brosnan, Sarah - 389 WTh<br />
Broster, Lucas - 45 MT<br />
Brown, Amira - 371 MT<br />
Brown, Andrew - 311 WTh<br />
Brown, Ariel - 894 WTh<br />
Brown, Clark - 186 WTh<br />
Brown, Ethan - 115 WTh<br />
Brown, Jesse - 104 MT, 350 WTh, 114 MT<br />
Brown, Kevin - 491 WTh<br />
Brown, Matthew - 396 mT<br />
Brown, Peter - 58 WTh<br />
Brown, Shaquanna - 214 WTh<br />
Brown, Timothy - 140 MT<br />
Brozinsky, Craig - 858 mT<br />
Brožová, Hana - 71 WTh<br />
Brozzoli, Claudio - 1034 WTh<br />
Bruce, Lori - 471 MT<br />
Brück, Carolin - 243 WTh, 288 WTh, 260 WTh<br />
Bruehl, Hannah - 194 WTh<br />
Bruehl, Ruediger - 501 WTh, 877 WTh, 1084 MT<br />
Bruffaerts, Rose - 812 mT<br />
Bruggeman, Richard - 88 WTh, 133 WTh<br />
Brühl, Hannah - 301 WTh<br />
Brumbaugh, Margaret - 455 MT<br />
Brun, Caroline - 319 WTh, 606 WTh<br />
Brunelle, Francis - 329 WTh<br />
Brunet, Denis - 442 WTh<br />
Brunetti, Maddalena - 917 WTh<br />
Brunetti, Marcella - 410 WTh<br />
Bruno, Marie-Aurelie - 773 MT, 1017 MT,<br />
1025 MT, 1028 MT, 1032 mT<br />
Bruns, Andreas - 552 WTh<br />
Brusoni, Stefano - 393 WTh<br />
Bruyand, Mathias - 847 MT<br />
Brysbaert, Marc - 364 MT, 821 WTh<br />
Buades, Antonio - 644 MT<br />
Bucci, Monica - 180 WTh<br />
Büchel, Christian - 6 WTh, 321 MT, 322 MT,<br />
333 MT, 337 MT, 375 WTh, 899 WTh,<br />
957 WTh, 1084 MT, 252 WTh, 352 MT,<br />
376 WTh, 877 WTh<br />
Buchheim, Anna - 1070 MT<br />
Buchholz, Blythe - 795 WTh, 174 WTh<br />
Buchsbaum, Bradley - 418 mT<br />
Buchsbaum, Monte - 17 WTh, 116 WTh<br />
Buchy, Lisa - 146 WTh<br />
Buckner, Randy - 617 MT, 712 MT, 963 WTh,<br />
981 WTh, 343 WTh, 883 MT<br />
Buclin, Thierry - 10 WTh<br />
Buehler, Mira - 324 MT, 957 WTh<br />
Bueller, Josh - 282 WTh<br />
Bugden, Stephanie - 413 WTh<br />
Buhle, Jason - 240 WTh
Buhmann, Joachim - 366 WTh, 369 WTh,<br />
545 WTh, 546 WTh, 646 MT<br />
Buitelaar, J.K. - 128 MT, 129 MT, 343 WTh<br />
Bukhpun, Polina - 154 MT<br />
Bullmore, Edward - 335 MT, 679 WTh, 699 WTh,<br />
708 WTh, 734 MT, 761 MT, 979 WTh<br />
Bülthoff, Heinrich H. - 940 WTh<br />
Burdette, Jonathan - 724 WTh<br />
Burgaleta, Miguel - 752 MT, 871 WTh<br />
Burianova, Hana - 889 mT<br />
Burn, David - 64 WTh<br />
Burnet, Richard - 1056 WTh, 1061 WTh<br />
Burnod, Yves - 474 MT<br />
Burns, Thomas - 186 WTh, 876 WTh<br />
Burstein, Rami - 209 WTh, 222 WTh<br />
Burton, Philip - 777 mT<br />
Buruck, Gabriele - 1096 MT<br />
Busey, Thomas - 658 WTh<br />
Bushnell, Catherine - 1030 WTh<br />
Busse, Franziska - 333 WTh<br />
Bustamante, Juan Carlos - 330 MT<br />
Bustillo, Juan - 93 WTh, 107 WTh<br />
Butler, Blake - 1016 WTh, 443 MT<br />
Butman, John - 787 MT, 334 WTh<br />
Butson, Christopher - 701 MT<br />
Butters, Meryl - 636 MT<br />
Butts, Alissa - 42 MT<br />
Butts-Pauly, Kim - 953 MT<br />
Butz, Markus - 1 mT, 659 WTh, 1010 MT,<br />
1055 WTh, 455 WTh<br />
Butzkueven, Helmut - 190 WTh<br />
Byars, Anna - 196 MT, 802 MT<br />
Byholt Endresen, Cecilie - 1007 MT, 1046 mT<br />
Byl, Nancy - 768 WTh<br />
Byne, William - 116 WTh<br />
Byrne, James - 468 WTh, 480 WTh<br />
Byrne, Mark - 957 WTh<br />
Bzdok, Danilo - 1072 mT<br />
Bzishvili, Samantha - 142 MT<br />
Bærentsen, Klaus B. - 1027 mT<br />
c<br />
Caan, Matthan - 15 WTh, 469 WTh<br />
Caballero Gaudes, Cesar - 719 MT<br />
Cabanis, Maurice - 140 WTh<br />
Cabay, Jean-Evrard - 1015 WTh<br />
Cabeza, Roberto - 1050 MT<br />
Cachia, Arnaud - 623 WTh<br />
Cacic, Kelsey - 26 WTh<br />
Cacioppo, John - 212 WTh<br />
Caeyenberghs, Karen - 298 MT, 300 mT, 592 MT<br />
Caffo, Brian - 152 MT, 711 MT, 722 MT<br />
Cafiero, Riccardo - 821 MT<br />
Cahill, Nathan - 727 MT<br />
Cahn, Wiepke - 111 WTh<br />
Cai, Qing - 364 mT, 821 WTh<br />
Cakir, Murat - 526 WTh<br />
Calabrese, Margarita - 1089 WTh<br />
Calabresi, Peter - 603 WTh<br />
Calcagnini, Giovanni - 1002 MT<br />
Calcott, Rebecca - 676 MT<br />
Caldeira, Liliana - 671 WTh<br />
Calderoni, Sara - 109 MT<br />
Calhoun, Vince - 41 MT, 81 WTh, 83 WTh, 652<br />
MT, 690 WTh, 727 MT, 768 MT, 866 WTh, 880<br />
WTh, 964 WTh, 87 WTh, 324 WTh, 343 WTh,<br />
351 WTh, 556 WTh, 574 WTh, 646 WTh, 653<br />
MT, 657 MT, 672 MT, 721 WTh, 753 MT<br />
Callan, Daniel - 660 MT<br />
Callicot, Joseph - 875 MT, 90 WTh, 483 MT<br />
Calmels, Claire - 1098 WTh<br />
Caltagirone, Carlo - 1002 MT<br />
Calvar, Jorge - 118 MT, 558 MT<br />
CALZADA, ANA - 467 mT<br />
Cameron, George - 911 MT, 913 MT<br />
Cameron, Ian - 383 mT<br />
Cammoun, Leila - 955 MT<br />
CAMPAGNE, Aurélie - 284 WTh<br />
Campanella, Salvatore - 268 MT<br />
Campbell, Darren - 227 mT, 245 mT, 261 MT<br />
Campbell, Karen - 757 MT<br />
Campbell, Kimberly - 500 MT, 550 MT<br />
Campi, Cristina - 661 WTh<br />
Campieri, Massimo - 1065 WTh<br />
Campos, Brunno - 217 MT<br />
Campoy, Cristina - 207 WTh, 223 WTh<br />
Canessa, Nicola - 393 WTh<br />
Canive, Jose - 93 WTh<br />
Canizales, Dora Linsey - 1093 mT<br />
Cannon, Christopher - 760 WTh<br />
Cannon, Tyrone - 91 WTh, 99 WTh, 251 MT<br />
Cao, Fan - 784 WTh<br />
Cao, Ting - 467 WTh<br />
Cao, Yanxiang - 712 MT<br />
Capaldi, Vincent - 411 WTh<br />
Capilla, Almudena - 1010 WTh<br />
Caplan, Rochelle - 108 MT<br />
Capotosto, Paolo - 22 mT<br />
Cappa, Stefano - 393 WTh<br />
Caprihan, Arvind - 81 WTh, 574 WTh, 866 WTh<br />
Caprio, Sonia - 349 MT<br />
Carass, Aaron - 791 mT<br />
Carbonell, Felix - 883 WTh, 1101 WTh<br />
Carbonell Gonzalez, Felix - 90 MT<br />
Carbonnell, Felix - 68 MT, 361 WTh<br />
Cardoner, Narcis - 32 WTh, 33 WTh, 37 WTh,<br />
39 WTh, 213 WTh, 255 MT, 258 MT<br />
Cardoso, Jorge Manuel - 634 MT<br />
Carey, Paul - 263 MT, 22 WTh<br />
Caria, Andrea - 903 WTh, 929 WTh<br />
Cariello, Annahir - 102 MT<br />
Carlson, Helen - 206 mT<br />
Carlson, Jean - 491 WTh<br />
Carlson, Josh - 254 WTh<br />
Carlson, Synnöve - 125 MT, 888 WTh<br />
Carlsson, Cynthia - 74 MT<br />
Carmant, Lionel - 882 WTh<br />
Carmeli, Cristian - 79 mT<br />
Carmichael, David - 718 mT<br />
Caroli, Anna - 931 MT<br />
Carp, Joshua - 519 WTh<br />
Carp, Stefan - 1043 MT<br />
Carpenter, Linda - 279 MT<br />
Carrier, Julie - 829 WTh, 836 WTh, 914 MT<br />
Carroll, Allison - 5 WTh<br />
Carsten, Kögler - 999 WTh<br />
Carter, Cameron - 426 WTh<br />
Caruyer, Emmanuel - 597 WTh<br />
Carvalho, Simone - 17 WTh<br />
Carver, Frederick - 723 MT, 738 MT, 849 WTh<br />
Casadio, Maura - 577 MT<br />
Casali, Adenauer - 1016 MT<br />
Casanova, Ramon - 564 WTh<br />
Casarotto, Silvia - 1016 MT<br />
Caseras, Xavier - 234 mT<br />
Cash, Sydney - 631 MT<br />
Caspers, Julian - 925 mT<br />
Caspers, Svenja - 244 WTh, 367 MT, 689 WTh,<br />
727 WTh, 842 WTh, 893 MT, 919 WTh, 958 mT<br />
Cassidy, Ryan - 654 mT<br />
Cassotti, Mathieu - 1094 WTh, 1097 WTh<br />
Castelhano, João - 207 MT, 1102 WTh, 1104<br />
WTh, 1105 WTh<br />
Castellano, Gabriela - 743 WTh, 1042 mT,<br />
216 MT<br />
Bolded Poster numbers indicate first author.<br />
Castellanos, F. Xavier - 128 MT, 158 MT, 173 MT,<br />
326 WTh, 343 WTh, 550 WTh, 566 MT, 705<br />
MT, 731 MT, 779 WTh, 989 WTh, 1075 MT,<br />
110 MT, 129 MT, 214 WTh, 681 WTh, 725 MT,<br />
735 WTh, 788 MT, 990 WTh, 707 WTh<br />
Castellanos-Ryan, Natalie - 6 WTh<br />
Castelo-Branco, Miguel - 35 WTh, 67 MT, 207 MT,<br />
330 WTh, 893 WTh, 1102 WTh, 1104 WTh,<br />
1105 WTh<br />
Castonguay, Nathalie - 514 WTh<br />
Castro, Eduardo - 574 WTh<br />
Catarino, Ana - 111 mT, 117 mT<br />
Cath, Danielle - 445 MT<br />
Catheline, Gwénaëlle - 847 MT, 884 MT, 901 MT<br />
Caticha, Nestor - 575 WTh<br />
Cattaneo, Luigi - 495 WTh, 938 WTh<br />
Cattrell, Anna - 252 WTh<br />
Cauda, Franco - 1050 WTh<br />
CAULO, MASSIMO - 132 mT<br />
Cavinato, Marianna - 11 MT<br />
Caza, Nicole - 916 MT<br />
Ceccaldi, Mathieu - 862 MT<br />
Ceccarelli, Riccardo - 831 WTh<br />
Cecchi, Guillermo - 582 WTh, 666 MT<br />
Ceko, Marta - 1030 WTh<br />
Cendes, Fernando - 216 MT, 217 MT, 296 MT<br />
Cera, Nicoletta - 356 mT<br />
Cervantes, Juan José - 292 MT<br />
Ceschin, Rafael - 948 mT, 966 mT, 997 WTh<br />
Cha, Jung-Ho - 482 WTh<br />
Cha, Jungho - 92 mT<br />
Cha, Kuwook - 1101 WTh<br />
Chabernaud, Camille - 326 WTh, 158 mT,<br />
681 WTh<br />
Chaddock, Christopher - 79 WTh<br />
Chaddock, Laura - 370 MT<br />
Chadwick, Michèle - 1076 MT<br />
Chafee, Matthew - 100 WTh<br />
Chai, Xiaoqian - 857 mT<br />
Chaimow, Denis - 1085 WTh<br />
Chak, Kathleen - 91 WTh<br />
Chakraborty, Anya - 205 WTh<br />
Chakravarty, M. Mallar - 123 MT, 132 WTh,<br />
145 WTh, 295 WTh, 306 WTh, 676 mT<br />
Chalavi, Sima - 284 mT<br />
Chambers, Chris - 926 WTh, 994 MT<br />
Chambers, Micah - 304 MT<br />
Champagne, Julie - 138 WTh, 143 WTh,<br />
117 WTh, 144 WTh<br />
Champoux, François - 964 MT<br />
Chan, Alexander - 631 MT<br />
Chan, Kevin - 625 MT<br />
Chan, Min-ju - 789 WTh<br />
Chan, Raymond - 748 MT<br />
Chan, Vicky - 21 MT<br />
Chandramohan, Dharshan - 331 WTh<br />
Chanes, Lorena - 1004 MT<br />
Chang, Catie - 686 WTh, 697 WTh<br />
Chang, Che-Wei - 339 WTh<br />
Chang, Chia-Ming - 339 WTh<br />
Chang, Hsiang-Chih - 908 WTh<br />
Chang, Linda - 21 WTh<br />
Chang, Wei-Hsu - 980 WTh<br />
Chang, Wei-Tang - 475 mT<br />
Chang, Won Hyuk - 9 MT, 172 WTh<br />
Chang, Yu-Teng - 962 WTh<br />
Chao, Yi-Ping - 682 mT<br />
Chappell, Michael - 704 MT<br />
Charest, Ian - 1027 WTh, 1032 WTh, 1103 WTh<br />
Charlet, Katrin - 25 WTh<br />
Charlier, Brigitte - 800 WTh<br />
Chatelle, Camille - 303 MT, 431 WTh, 773 MT<br />
Chau, Vann - 897 WTh<br />
Chauvel, Patrick - 205 MT<br />
Chee, Michael - 154 WTh, 990 MT, 1003 MT<br />
HBM 2011 >> <strong>abstracts</strong> 189
Cheetham, Alexandra - 1054 WTh<br />
Chen, Annabel - 590 MT<br />
Chen, Anthony - 90 WTh<br />
Chen, Ashley - 221 mT<br />
Chen, Chi-Hua - 325 WTh<br />
Chen, Chia-Lin - 933 MT<br />
Chen, Chih-Feng - 158 WTh<br />
Chen, Chun-Chuan - 988 MT<br />
Chen, Chung-Ming - 561 MT<br />
Chen, David - 897 mT<br />
Chen, Eunice - 212 WTh<br />
Chen, Gang - 351 MT, 739 WTh, 701 MT<br />
Chen, Hongji - 107 WTh<br />
Chen, Hsin-Yu - 430 WTh<br />
Chen, Huafu - 89 MT<br />
Chen, I-Yun - 355 MT, 1001 WTh<br />
Chen, J - 878 MT<br />
Chen, Jean - 559 mT<br />
Chen, Jen-Kai - 61 WTh, 941 WTh<br />
Chen, Jian - 41 WTh, 215 WTh<br />
Chen, Jian-Shiun - 1001 WTh<br />
Chen, Jiayu - 87 WTh<br />
Chen, Jun - 517 MT<br />
Chen, Jyh-Horng - 552 MT, 585 WTh,<br />
720 WTh, 1104 MT, 499 WTh, 979 WTh,<br />
1117 MT, 339 WTh<br />
Chen, Kewei - 744 WTh<br />
Chen, Li-Fen - 553 WTh<br />
Chen, Liyong - 499 mT<br />
Chen, Min - 791 MT<br />
Chen, Pin-Yu - 750 MT, 197 mT<br />
Chen, Qiang - 90 WTh, 578 WTh<br />
Chen, S.H. Annabel - 110 WTh, 574 MT,<br />
786 WTh, 909 mT<br />
Chen, Sheng-Fu - 425 WTh<br />
Chen, Shuo - 541 WTh, 566 WTh<br />
Chen, Sophie - 927 WTh<br />
Chen, Tianwen - 98 MT, 589 WTh, 738 WTh<br />
Chen, Vanessa - 154 WTh<br />
Chen, Wei-Ta - 40 MT, 871 MT<br />
Chen, Yi - 998 MT<br />
Chen, Yi-Ling - 433 WTh<br />
Chen, Yong-Sheng - 553 WTh<br />
Chen, Yu-Ting - 682 MT<br />
Chen, Zhang - 182 MT, 881 mT, 883 WTh,<br />
973 WTh<br />
Chen, Zikuan - 768 mT<br />
Cheng, Chia-Hsiung - 887 mT, 900 mT<br />
Cheng, Hu - 27 WTh, 970 WTh<br />
Cheng, Kang - 271 WTh, 1082 WTh<br />
Cheng, Philip E. - 461 MT<br />
Cheng, Wei-Chen - 461 mT<br />
Cheng, Yawei - 429 WTh, 430 WTh, 206 WTh<br />
Chennu, Srivas - 303 MT, 318 MT, 431 WTh<br />
Cherbuin, Nicolas - 581 mT<br />
Chernikova, Ludmila - 944 WTh<br />
Cherodath, Sarika - 205 WTh<br />
Cheung, Bing Leung - 1036 MT<br />
Chevalier, Therese - 965 mT<br />
Chevillet, Mark - 1012 WTh<br />
Chey, Jeanyung - 910 MT<br />
Cheyne, Douglas - 390 WTh, 456 WTh,<br />
642 WTh, 653 WTh, 660 WTh, 861 WTh<br />
Chiang, Ming-Chang - 49 MT, 315 WTh, 873 MT<br />
Chiang, Wen-Yang - 185 WTh, 561 MT, 573 MT,<br />
586 MT<br />
Chiarelli, Antonio - 507 WTh<br />
Chiew, Mark - 501 MT<br />
Chincarini, Andrea - 65 mT<br />
Chirivella, Javier - 317 MT<br />
Chiry, Oriana - 556 MT<br />
Chiu, Pearl - 8 WTh<br />
Cho, Hee Kyung - 607 MT, 600 mT<br />
Cho, IhnHo - 797 MT<br />
Cho, Maeng Je - 150 WTh<br />
190 HBM 2011 >> <strong>abstracts</strong><br />
Cho, Raymond - 558 WTh<br />
Cho, Sang Soo - 910 MT<br />
Cho, Soohyun - 412 WTh<br />
Cho, Woosang - 524 WTh<br />
Cho, Yoon Woo - 600 MT<br />
Choe, Myong-sun - 449 WTh<br />
Choi, Changho - 102 WTh<br />
Choi, Jeewook - 759 MT<br />
Choi, Jeong Woo - 428 WTh<br />
Choi, Ki Sueng - 613 WTh, 640 MT<br />
Choi, Kyungin - 212 mT<br />
Choi, Soo Hee - 1099 MT<br />
Choi, Weonhee - 225 WTh<br />
Chokron, Sylvie - 1111 WTh<br />
Choo, Daniel - 1020 MT<br />
Chou, Kun-Hsien - 14 WTh, 40 mT, 355 MT,<br />
576 WTh, 980 WTh, 1001 WTh<br />
Chou, Tai-Li - 126 MT, 1104 MT, 1117 MT<br />
Chou, Yi-Yu - 994 WTh<br />
Chow, Ho Ming - 831 mT<br />
Chowdhury, Rasheda - 448 WTh<br />
Christensen, Ken - 809 mT<br />
Christensen, Thomas - 366 mT<br />
Christine, BREFEL-COURBON - 2 MT<br />
Christophe, ARBUS - 2 MT<br />
Christoploulos, George - 378 WTh<br />
Christopoulos, George - 1111 MT<br />
Chu, Chia-Yueh Carlton - 576 WTh, 630 MT<br />
Chu, K C - 197 MT<br />
Chu, King-Wai - 116 WTh<br />
Chu, Wen-Cheng - 789 WTh<br />
Chu, Ying-Hua - 715 WTh, 751 WTh<br />
Chu, Zili - 313 MT<br />
Chua, Hannah - 11 WTh<br />
Chua, Karen - 169 WTh<br />
Chua, Phyllis - 54 WTh, 66 WTh, 996 WTh<br />
Chuang, Tony - 789 MT<br />
Chuanlu, Jiang - 78 MT<br />
Chudgar, Amy - 107 MT<br />
Chumbley, Justin - 546 WTh<br />
Chun, Ji-Won - 292 WTh<br />
Chun, KyungAh - 797 mT<br />
Chung, Ai Wern - 617 WTh<br />
Chung, Chun Kee - 453 WTh, 1077 WTh,<br />
127 WTh, 210 MT, 212 MT, 910 WTh,<br />
949 WTh, 458 WTh, 641 WTh<br />
Chung, Jae-Hoon - 754 MT<br />
Chung, June-Key - 150 WTh<br />
Chung, Moo - 1003 WTh<br />
Chung, Moo K. - 648 MT, 669 MT, 670 MT,<br />
954 MT, 959 WTh<br />
Chupin, Marie - 634 MT<br />
Churches, Owen - 111 MT, 117 MT<br />
Churchill, Nathan - 638 mT<br />
Churchill, Tessa - 945 WTh<br />
Churchwell, John - 22 WTh<br />
Churchyard, Andrew - 54 WTh, 66 WTh<br />
Chwiesko, Caroline - 61 MT<br />
Çiçek, Metehan - 40 WTh<br />
Cieslik, Edna-Clarisse - 285 MT, 367 mT,<br />
689 WTh<br />
Ciftci, Koray - 691 WTh<br />
Ciftcioglu, Mustafa - 526 WTh<br />
Cina, Stephan - 1075 WTh, 1080 WTh<br />
Cincotti, Febo - 423 MT, 440 WTh, 1102 MT<br />
Cirino, Paul - 166 MT<br />
Cirstea, Carmen M - 164 WTh<br />
Cisler, Josh - 253 mT<br />
Cisler, Joshua - 232 MT<br />
Ciuciu, Philippe - 623 WTh<br />
Clark, Jessica - 305 mT<br />
Clark, Kristi - 86 WTh, 974 WTh, 982 MT<br />
Clarke, Robert - 242 WTh<br />
Clarke, Stephanie - 28 MT, 924 MT<br />
Clarkson, Matt - 51 MT<br />
Clasen, Liv - 465 MT, 679 WTh<br />
Clauw, Daniel - 1043 WTh, 1045 WTh<br />
CLERC, Maureen - 662 WTh<br />
Clerkin, Suzanne - 1005 mT<br />
Cloak, Christine - 21 WTh<br />
Clos, Mareike - 1009 WTh<br />
Coalson, Timothy - 338 WTh, 984 WTh<br />
Coan, Ana Carolina - 217 mT<br />
Coates, Ute - 84 WTh, 116 MT<br />
Cobia, Derin - 97 WTh<br />
COCHEN DE COCK, Valérie - 157 WTh<br />
Coghill, Robert - 391 MT, 774 WTh, 614 MT<br />
Cohen, Alexander - 984 WTh<br />
Cohen, Jessica - 857 WTh, 943 MT<br />
Cohen, Laurent - 792 WTh<br />
Cohen, Leo - 832 WTh<br />
Cohen, Mark - 114 MT<br />
Cohen Kadosh, Kathrin - 869 WTh<br />
Cohen Kadosh, Roi - 838 WTh, 869 WTh<br />
Cohen-Adad, Julien - 184 WTh, 985 WTh<br />
Cohrs, Christopher - 1078 MT<br />
Coimbra, Alexandre - 750 WTh, 760 WTh<br />
Coimbra, Raul - 301 MT<br />
Cointepas, Yann - 360 WTh<br />
Colalillo, Sam - 344 MT, 348 mT<br />
Colby, John - 593 WTh, 621 WTh<br />
Colcombe, Stan - 343 WTh, 566 MT, 725 MT,<br />
735 WTh<br />
Cole, David - 44 WTh, 335 mT<br />
Cole, Michael - 591 WTh<br />
Colibazzi, Tiziano - 151 WTh<br />
Coll, Michel-Pierre - 1093 MT<br />
Collet, Christian - 426 MT<br />
Collette, Fabienne - 398 MT<br />
Collier, Amanda - 493 WTh<br />
Collignon, Olivier - 1025 WTh<br />
Collingwood, Joanna - 749 MT, 758 MT<br />
Collins, Barbara - 197 WTh, 843 WTh<br />
Collins, D. Louis - 132 WTh, 456 MT, 474 WTh,<br />
673 MT, 676 MT<br />
Collins, Dan - 101 MT<br />
Collins, Louis - 58 MT, 624 MT, 644 MT<br />
Cologan, Victor - 773 MT<br />
Colom, Roberto - 752 MT, 871 WTh<br />
Colon, Albert - 179 MT, 204 MT<br />
Colzato, Lorenza - 388 MT<br />
Comair, Youssef - 370 WTh<br />
Coman, Ioana - 108 WTh<br />
Committeri, Giorgia - 419 WTh, 510 MT<br />
Comuzzie, Anthony - 1040 MT<br />
Concha, Luis - 432 MT, 895 WTh, 174 MT,<br />
280 WTh, 401 WTh, 424 MT, 191 MT<br />
Conde, Virginia - 839 WTh<br />
Con<strong>for</strong>t-Gouny, Sylviane - 862 MT<br />
Congdon, Eliza - 343 WTh, 943 mT<br />
Conklin, Chris - 549 MT, 786 MT<br />
Conklin, Heather - 167 MT<br />
Conner, Christopher - 567 mT, 632 MT, 1047 mT<br />
Connolly, Andrew - 820 MT, 541 MT<br />
Connolly, Joanna - 920 mT<br />
Connolly, Mary - 190 MT<br />
Conrod, Patricia - 6 WTh, 252 WTh, 321 MT,<br />
333 MT, 337 MT, 352 MT, 877 WTh, 957 WTh,<br />
1084 MT<br />
Conroy, Susan - 299 WTh<br />
Consonni, Monica - 821 mT<br />
Consortium, the IMAGEN - 877 WTh, 1112 WTh,<br />
333 MT, 1084 MT<br />
Constable, R. Todd - 234 WTh, 349 MT, 639 MT,<br />
780 MT, 986 MT, 520 MT<br />
CONTE, EMANUELA - 132 MT<br />
Contreras, Oren - 32 WTh, 37 WTh<br />
Contreras Rodríguez, Oren - 213 WTh,<br />
33 WTh, 258 MT<br />
Conway, Bernard - 57 WTh, 948 WTh
Cook, Jacquelynn - 760 WTh<br />
Cook, Philip - 91 mT, 650 MT<br />
Cooke, Gillian - 331 mT<br />
Cooper, Shelly - 963 MT<br />
Cooperrider, Jason - 102 MT<br />
Copeland, Laura - 802 WTh<br />
Copolla, Giovanni - 70 MT<br />
Coppola, Richard - 723 MT, 738 MT, 849 WTh<br />
Corballis, Michael - 854 MT<br />
Corben, Louise - 48 WTh<br />
Corbett-Detig, James - 865 WTh<br />
Corbetta, Maurizio - 309 MT, 447 WTh, 22 MT<br />
Corbitt, Beverly - 894 MT<br />
Corcoran, Cheryl - 151 WTh<br />
Cordes, Dietmar - 46 MT, 85 MT, 96 mT,<br />
664 mT, 778 mT<br />
Cordovez, Jorge - 788 MT<br />
Cornes, Katherine - 112 MT<br />
Cornier, Marc-Andre - 221 WTh<br />
Coroian, Cristian - 615 WTh<br />
Correia, Marta - 594 MT<br />
Cortelli, Pietro - 1002 MT<br />
Cortese, Filomeno - 143 MT<br />
Cortese, Samuele - 173 mT<br />
Corvin, Aiden - 302 WTh<br />
Costa, Albert - 397 MT<br />
Costa da Costa, Jaderson - 203 MT<br />
Costa Dias, Taciana - 128 MT, 162 mT<br />
Costagli, Mauro - 1082 WTh<br />
Costanzo, Michelle - 281 WTh<br />
Costumero, Victor - 330 MT<br />
Coull, Jennifer - 417 WTh<br />
Coulon, Olivier - 615 MT, 624 mT, 686 MT, 691 MT<br />
Coupe, Pierrick - 456 MT, 474 WTh, 644 MT,<br />
673 MT<br />
Courtemanche, Jérôme - 756 WTh<br />
Courtet, Philippe - 218 WTh, 246 MT<br />
Courtney, William - 351 WTh<br />
Cousijn, Janna - 20 WTh<br />
Cousin, Emilie - 218 MT, 284 WTh<br />
Coutanche, Marc - 732 WTh<br />
Covanis, Panagiotis - 1048 MT<br />
Coveleskie, Kristen - 198 WTh, 282 WTh<br />
Covolan, Roberto - 1042 MT, 216 MT, 217 MT<br />
Cox, Christine - 1075 mT<br />
Cox, James - 112 WTh<br />
Cox, Jenniver - 224 WTh<br />
Cox, Patrick - 105 mT<br />
Cox, Robert - 694 MT, 709 MT, 739 WTh<br />
Cox, Sylvia - 328 mT<br />
Coxon, James - 298 MT<br />
Crabbe, Frances - 1014 WTh, 1032 WTh,<br />
1073 MT<br />
Craciunas, Sorin - 164 WTh<br />
Craddock, R. Cameron - 343 WTh, 550 WTh<br />
Craddock, Richard - 640 MT<br />
Craik, Fergus - 372 MT, 399 MT<br />
Crain, Stephen - 133 MT, 815 MT, 822 WTh,<br />
885 WTh<br />
Cramer, Steven - 21 MT, 308 WTh, 789 mT,<br />
837 WTh<br />
Cremers, Henk - 343 mT<br />
Cretti, Fabiola - 609 mT<br />
Crewther, David - 1000 MT, 1107 WTh<br />
Crewther, Sheila - 1000 MT, 1107 WTh<br />
Cribben, Ivor - 731 WTh<br />
Crippa, Ana Chrystina - 183 MT<br />
Cristea, Ioana - 278 WTh<br />
Cristia, Alejandrina - 793 WTh, 881 WTh<br />
Crittenden, Ben - 407 mT<br />
Crocetti, Deana - 144 MT, 463 WTh<br />
Crone, Julia Sophia - 1018 mT<br />
Cropp, Brett - 345 MT, 492 mT, 230 WTh,<br />
265 WTh<br />
Cross, Katy - 395 mT<br />
Crossley, Nicolas - 472 WTh<br />
Crouch, Benjamin - 1056 WTh, 1061 WTh<br />
Cruse, Damian - 303 mT, 318 MT, 431 WTh<br />
Cruz, Francisco - 207 WTh, 223 WTh<br />
Csernansky, John - 97 WTh, 721 MT<br />
Cui, Li - 301 MT<br />
Cukier, Sebastian - 118 MT<br />
Cummi<strong>for</strong>d, Chelsea - 226 WTh<br />
Cummings, Jeffrey - 70 MT<br />
Cummins, Tarrant - 957 WTh<br />
Cunha, Gil - 207 MT<br />
Cunha, João Paulo - 207 MT<br />
Cunningham, Cameron - 504 MT<br />
Cunnington, Ross - 486 WTh, 641 MT, 926 WTh,<br />
928 WTh, 939 WTh<br />
Curby, Kim - 1086 WTh<br />
Curcic-Blake, Branislava - 88 WTh, 96 WTh<br />
Curran, Tim - 96 MT, 664 MT, 778 MT, 46 MT<br />
Curtis, Clayton - 914 WTh<br />
Curty, Eduardo - 378 MT<br />
Cusack, Rhodri - 417 MT<br />
Cutting, Laurie - 202 WTh<br />
Cuzzocreo, Jennifer - 690 MT, 791 MT<br />
Cyckowski, Laura - 585 MT, 866 mT<br />
Cyran, Carolin - 584 WTh<br />
Czechowska, Yvonne - 146 WTh<br />
Czisch, Michael - 702 MT<br />
d<br />
D’Agata, Federico - 1050 WTh<br />
D’Agostini, Serena - 710 MT<br />
D’Arcy, Ryan - 508 MT, 519 MT<br />
D’Esposito, Mark - 381 MT, 383 MT, 711 WTh,<br />
773 WTh, 857 WTh, 858 MT<br />
Da Costa, Sandra - 924 mT, 486 MT<br />
DA ROS, Marc - 1026 MT<br />
Daalman, Kirstin - 118 WTh<br />
Dabbs, Kevin - 214 MT<br />
Dabringhaus, Andreas - 178 WTh, 466 MT<br />
Dager, Stephen - 120 MT<br />
Dagher, Alain - 71 MT, 319 MT, 327 MT, 328 MT,<br />
68 MT, 72 MT, 90 MT, 1 WTh<br />
Dahnke, Robert - 673 WTh, 675 mT<br />
Dai, Dai - 761 WTh<br />
Dai, Guangping - 587 MT<br />
Dai, Haitao - 80 MT, 87 MT<br />
Dai, Zhengjia - 75 mT<br />
Dal Maso, Fabien - 931 WTh<br />
Dalal, Sarang - 656 WTh, 1012 MT, 654 WTh<br />
Dale, Anders - 94 WTh, 129 WTh, 311 WTh,<br />
325 WTh<br />
Dale, Corby - 115 WTh<br />
Daligault, Sebastien - 1074 WTh<br />
Dalla Barba, Gianfranco - 856 MT<br />
Dalrymple-Al<strong>for</strong>d, John - 51 WTh<br />
Dalton, Kim M. - 648 MT<br />
Daly, Barry - 336 WTh<br />
Damaraju, Eswar - 866 WTh<br />
Damman, Philipp - 740 MT<br />
Dammers, Jürgen - 950 MT<br />
Damoiseaux, Jessica - 83 mT<br />
Damsgaard Bruhn, Johannes - 1027 MT<br />
Daneault, Véronique - 914 mT, 756 WTh<br />
Danells, Cynthia - 183 WTh<br />
Dang, Chinh - 336 WTh<br />
Dang-Vu, Thien Thanh - 289 MT<br />
Dankner, Nathan - 100 MT<br />
Danner, Unna - 187 WTh<br />
Danti, Sabrina - 421 WTh<br />
Dapretto, Mirella - 104 MT, 114 MT<br />
Darki, Fahimeh - 304 WTh<br />
Bolded Poster numbers indicate first author.<br />
Darsaud, Annabelle - 289 MT<br />
Dartigues, Jean-François - 884 MT, 901 MT<br />
Darzi, Ara - 521 WTh, 523 WTh, 530 WTh,<br />
1008 MT, 1109 WTh<br />
Das, Sandhitsu - 177 mT<br />
Das, Satyajit - 45 MT<br />
Das, Saumitra - 875 MT, 483 MT<br />
Daselaar, Sander - 1050 MT<br />
Dasmasceno, Benito - 216 MT<br />
Datta, Sushmita - 678 mT<br />
Dauchy, Frédéric - 847 MT<br />
Daughters, Stacey - 263 WTh, 273 WTh<br />
Daunizeau, Jean - 543 WTh, 649 WTh, 752 WTh,<br />
538 WTh, 546 WTh, 539 WTh<br />
DAUVILLIERS, Yves - 157 WTh<br />
Davenport, Nancy - 74 MT<br />
Davenport, Nicholas - 302 mT, 315 MT<br />
Davergne, Marie - 952 WTh<br />
Davey, Catherine - 698 WTh<br />
Davey, Christopher - 224 mT<br />
David, Anthony - 196 WTh<br />
David, Daniel - 278 WTh<br />
David, Höhn - 702 MT<br />
David, Olivier - 830 MT<br />
Davidson, Richard - 1003 WTh<br />
Davidson, Richard J. - 648 MT, 954 MT<br />
Davis, James - 172 MT<br />
Davis, Karen - 897 MT, 974 MT, 1052 WTh,<br />
1053 WTh, 1062 WTh<br />
Davis, Matthew - 815 WTh, 808 WTh<br />
Davis, Nicole - 202 WTh<br />
Davison, Andrew - 356 WTh<br />
Davranche, Karen - 417 WTh<br />
De Araujo, Draulio - 488 WTh<br />
De Beaumont, Louis - 311 MT<br />
De Bock, Thibaut - 45 MT<br />
de Boer, Jessica - 1013 WTh<br />
De Deyne, Simon - 812 MT<br />
de Diego-Balaguer, Ruth - 451 MT<br />
de Geus, Eco - 384 MT<br />
De Graaf, Jozina - 927 WTh<br />
de Graaf, Tom - 1095 WTh<br />
de Graaff, Jolien - 898 WTh<br />
de Greck, Moritz - 548 MT<br />
de Groot, Marius - 604 WTh<br />
De Guio, François - 145 mT<br />
de Jong, Bauke - 57 WTh, 948 WTh<br />
de Krom, Marc - 199 MT<br />
de kwaasteniet, Bart - 341 mT<br />
de la Garza, Raul - 351 WTh<br />
De La Garza, Richard - 8 WTh<br />
de la Iglesia Vaya, Maria - 642 MT, 343 WTh<br />
de Leeuw, Max - 540 mT<br />
De Martino, Federico - 473 MT, 1004 WTh,<br />
1005 WTh<br />
De Munck, Jan - 179 MT, 204 MT, 497 MT,<br />
672 WTh, 675 WTh, 696 mT, 915 mT<br />
De Pape, Anne-Marie - 399 MT<br />
de Pasquale, Francesco - 447 WTh, 510 MT<br />
de Ridder, Denise - 380 WTh<br />
de Ruiter, Michiel - 469 WTh, 530 MT<br />
De Simoni, Sara - 1053 mT<br />
De Tiège, Xavier - 798 MT<br />
De Vico Fallani, Fabrizio - 440 WTh, 1102 MT<br />
DE WEER, An-Sofie - 1026 MT<br />
de Weerd, Peter - 67 MT, 1006 WTh<br />
De Weijer, Antoin - 118 WTh<br />
De Wit, Stella - 31 WTh<br />
de Zubicaray, Greig - 49 MT, 297 WTh, 315 WTh,<br />
578 MT, 294 WTh, 318 WTh, 319 WTh, 322<br />
WTh, 550 WTh, 947 MT, 314 WTh<br />
de Zwart, Jacco - 481 WTh, 701 WTh, 715 MT<br />
Deakin, Bill - 119 WTh<br />
Dean, Douglas - 870 WTh<br />
Debas, Karen - 829 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 191
DeBay, Drew - 508 MT<br />
DeBoysson, Chloé - 922 MT<br />
DeCastro, Alex - 17 WTh<br />
Dechent, Peter - 16 MT, 88 MT, 152 WTh, 365 MT,<br />
371 WTh, 380 MT, 381 WTh, 458 MT, 1039 mT<br />
Dechter, Eyal - 890 WTh<br />
Deckert, Jürgen - 25 MT, 393 MT<br />
Declerck, Jerome - 679 MT<br />
Degueldre, Christian - 289 MT<br />
DeGutis, Joseph - 545 MT<br />
Dehaene, Stanislas - 792 WTh, 810 MT<br />
Dehaene-Lambertz, Ghislaine - 148 MT,<br />
508 WTh, 879 WTh<br />
Dehaes, Mathieu - 503 WTh<br />
Deib, Gerard - 895 MT<br />
Deichmann, Ralf - 1044 WTh<br />
Dejonckere, Philippe - 46 WTh<br />
Del Gratta, Cosimo - 356 MT, 410 WTh<br />
del Pozo, Francisco - 498 WTh<br />
Del Zotto, Marzia - 279 WTh<br />
Delany, David - 920 MT<br />
Delatycki, Martin - 48 WTh<br />
Delgado, Pedro - 248 MT<br />
Delgado-Rico, Elena - 207 WTh, 223 WTh<br />
Della Penna, Stefania - 447 WTh<br />
Dellani, Paulo - 76 WTh<br />
Delmaire, Christine - 59 WTh<br />
Delmaire, Christine - 930 WTh<br />
Delon-Martin, Chantal - 872 MT, 924 WTh<br />
Delpuech, Claude - 426 MT, 198 MT<br />
Demenescu, Liliana - 270 MT<br />
Demertzi, Athena - 1015 WTh<br />
Demir, Özlem Ece - 776 WTh<br />
Demirakca, Traute - 882 mT<br />
Demiralp, Tamer - 478 WTh, 544 WTh<br />
Demonet, Jean-Francois - 922 MT<br />
den Braber, Anouk - 384 MT, 445 mT, 497 MT<br />
den Hollander, Jan - 105 WTh, 109 WTh<br />
Den Ouden, Dirk-Bart - 817 WTh, 813 MT<br />
Den Ouden, Hanneke - 543 WTh<br />
Deng, Hua-Ting - 650 WTh, 904 WTh<br />
Deng, Weiran - 476 MT<br />
Dengler, R - 286 WTh<br />
Dengler, Reinhard - 44 WTh, 442 MT<br />
denHollander, Jan - 894 MT<br />
Dennis, Maureen - 166 MT<br />
Denys, Damiaan - 341 MT, 530 MT<br />
Deoni, Sean - 870 WTh, 127 MT<br />
Deppe, Michael - 187 MT, 188 MT, 219 MT,<br />
392 WTh, 575 mT, 876 MT, 616 WTh<br />
Derado, Gordana - 541 WTh, 563 WTh<br />
Derauf, Chris - 172 mT<br />
Derbyshire, Stuart - 1041 WTh<br />
Deriche, Rachid - 118 MT, 558 MT, 597 WTh<br />
Derntl, Birgit - 270 WTh, 1105 MT, 1110 mT<br />
Derrfuss, Jan - 682 WTh<br />
Desai, Rutvik - 781 WTh, 794 WTh<br />
Descoteaux, Maxime - 614 WTh, 962 MT<br />
Desgranges, Béatrice - 430 MT, 850 MT<br />
Desguerre, Isabelle - 329 WTh<br />
DeShetler, Natalie - 371 MT<br />
Deshpande, Gopikrishna - 724 mT<br />
Deshpande, Hrishikesh - 99 MT, 894 MT<br />
Desjardins, Michèle - 414 WTh, 514 WTh<br />
Desjardins-Crépeau, Laurence - 414 WTh,<br />
514 WTh, 898 MT, 1045 MT, 500 WTh<br />
Desmond, John - 862 WTh<br />
DeSouza, Danielle - 897 MT<br />
DeSouza, Joseph - 390 WTh<br />
Desseilles, Martin - 248 WTh, 289 mT<br />
Destrieux, Christophe - 946 MT<br />
Detre, John - 63 MT, 177 MT<br />
Deuerling-zheng, Yu - 468 WTh, 480 WTh<br />
Deus, Joan - 213 WTh, 255 MT<br />
192 HBM 2011 >> <strong>abstracts</strong><br />
Deus, Johan - 32 WTh, 33 WTh, 37 WTh,<br />
39 WTh, 258 MT<br />
Deuschl, Christine - 61 MT<br />
Deuschl, Günther - 200 MT<br />
Deutsch, Georg - 894 mT<br />
deVeber, Gabrielle - 182 WTh<br />
DeYoe, Edgar - 995 MT<br />
Dhaliwal, Harinder - 518 WTh<br />
Dhamala, Mukesh - 389 WTh<br />
Dhital, Bibek - 928 MT, 982 WTh<br />
Dhollander, Thijs - 300 MT, 954 WTh<br />
DHOND, RUPALI - 871 mT, 1070 WTh<br />
Di, Xin - 553 MT<br />
Di Martino, Adriana - 110 mT, 158 MT, 681 WTh,<br />
731 MT, 735 WTh, 1075 MT, 566 MT, 707 WTh,<br />
779 WTh, 989 WTh<br />
Di Pierro, Ezio - 356 MT<br />
Di Rienzo, Franck - 426 mT<br />
Diaconescu, Andreea Oliviana - 907 mT<br />
Diamond, Solomon - 504 WTh, 505 WTh<br />
Dias, Carlos - 1042 MT<br />
Diaz, Alexander - 384 MT<br />
Díaz, José - 424 MT<br />
Diaz, Jose luis - 1079 MT<br />
Diaz, Michele - 814 mT<br />
Díaz, Rosalinda - 53 WTh<br />
DiCamillo, Paul - 496 MT<br />
Dick, Anthony - 795 WTh<br />
Dick, Frederic - 869 WTh<br />
Dickerson, Brad<strong>for</strong>d - 942 MT<br />
Dickie, Erin - 1084 mT<br />
Dickinson, Dwight - 327 WTh<br />
Dickscheid, Timo - 950 MT<br />
Dickstein, Daniel - 128 MT, 129 MT, 343 WTh<br />
Didic, Mira - 862 MT<br />
Diederen, Kelly - 118 WTh<br />
Diehl, Maria - 389 mT<br />
Diekhof, Esther - 371 WTh, 381 WTh, 929 MT<br />
Diekhoff, Svenja - 162 WTh, 165 WTh, 922 WTh<br />
Dien, Joseph - 788 WTh<br />
Dierker, Donna - 338 WTh<br />
Dierks, Thomas - 14 MT<br />
Diers, Kersten - 274 MT, 290 MT, 1031 MT<br />
Dieterich, Marianne - 584 WTh<br />
Dietrich, Susanne - 796 WTh<br />
Dietz, Martin - 438 WTh<br />
Dietzek, Maren - 747 MT<br />
DiFrancesco, Mark - 441 MT, 1020 mT<br />
Dijksterhuis, Ap - 1071 MT<br />
Dilharreguy, Bixente - 812 WTh, 847 MT, 884 MT,<br />
901 MT<br />
Dilks, Daniel - 890 WTh<br />
Diltz, Mark - 389 MT<br />
DiMarco, Andrew - 549 MT<br />
Dimyan, Michael - 832 WTh<br />
Ding, Yang - 218 WTh<br />
Dinov, Ivo - 593 WTh, 623 MT, 971 WTh, 625 MT<br />
Dion, Laurie-anne - 469 mT<br />
Direito, Bruno - 1104 WTh<br />
DiSano, Michael - 567 MT, 571 mT, 632 MT,<br />
1047 MT<br />
Dittus, Kim - 854 WTh<br />
Diukova, Ana - 1106 WTh<br />
Diwadkar, Vaibhav - 78 WTh, 157 mT, 165 mT<br />
Diwakar, Mithun - 301 MT<br />
Dixon, Eunice - 106 MT<br />
Dixson, Luanna - 223 MT, 225 mT<br />
Djarmati, Ana - 68 WTh<br />
Djurovic, Srdjan - 311 WTh<br />
Do Lam, Anne - 845 mT<br />
Dodge, Neil - 157 MT, 188 WTh<br />
Doehrmann, Oliver - 240 mT<br />
Dogan, Imis - 52 WTh, 65 WTh, 842 WTh<br />
Dohen, Marion - 130 WTh<br />
Dohle, Christian - 917 WTh<br />
Dohn, Anders - 835 MT<br />
Dojat, Michel - 346 WTh, 872 MT, 924 WTh<br />
Dolan, Raymond - 239 WTh, 1059 MT<br />
Dolzhenko, Juli - 891 MT<br />
Domagalik, Aleksandra - 1050 MT<br />
Domenech, Philippe - 379 WTh<br />
Domi, Trish - 182 WTh<br />
Domingues, Romeu - 378 MT, 539 MT<br />
Dominguez D., Juan - 372 WTh<br />
DOMIZIO, SERGIO - 132 MT<br />
Dong, Zhangye - 487 WTh, 746 MT, 518 MT<br />
Donix, Markus - 472 MT<br />
Donnelly, Kiely - 903 mT<br />
Donnelly, Nick - 112 MT<br />
Donner, Elizabeth - 412 MT, 845 WTh<br />
Donohoe, Gary - 302 WTh<br />
Dörfel, Denise - 1096 mT<br />
Döring, Thomas - 378 MT, 403 MT<br />
Dormal, Giulia - 1025 WTh<br />
Dornhof, Lina - 25 WTh<br />
Dosenbach, Nico - 128 MT<br />
Doshi, Chiran - 209 mT<br />
Douaud, Gwenaelle - 66 mT, 469 WTh<br />
Doud, Alexander - 1102 MT<br />
Dougherty, Darin - 36 WTh<br />
Dougherty, Jaimie - 786 mT<br />
Dougherty, Robert - 610 WTh, 777 WTh, 953 MT<br />
Douglas, Pamela - 114 mT<br />
Doyle-Thomas, Krissy - 124 mT<br />
Doyon, Julien - 678 WTh, 836 WTh, 829 WTh,<br />
835 WTh, 914 MT<br />
Draganski, Bogdan - 196 WTh, 446 MT, 888 MT,<br />
949 MT<br />
Drake, Angela - 301 MT<br />
Drakesmith, Mark - 424 WTh<br />
Dramsdahl, Margaretha - 971 MT<br />
Drane, Daniel - 741 MT<br />
Dreher, Jean-Claude - 379 WTh<br />
Dresler, Thomas - 2 WTh, 25 MT, 393 MT,<br />
551 WTh<br />
Dressing, Harald - 1106 MT<br />
Drevets, Wayne - 228 WTh, 233 WTh, 321 WTh,<br />
512 MT, 859 MT, 1055 MT<br />
Driver, Jon - 1059 MT<br />
Dronkers, Nina - 955 WTh, 957 mT<br />
Druzgal, T. Jason - 102 MT<br />
Dryden, Ian - 719 MT<br />
Du, Jia - 616 mT<br />
Du, Yuhui - 647 mT<br />
Du Plessis, Lindie - 203 WTh<br />
Duan, Yunyun - 86 MT<br />
Duann, Jeng-Ren - 585 WTh<br />
Duarte, Isabel Catarina - 207 mT<br />
Dubbini, Nevio - 571 WTh<br />
Dubé, Audrey-Anne - 114 WTh<br />
Dube, Sarahjane - 385 MT<br />
Dubeau, François - 189 MT, 192 MT, 202 MT<br />
Dubois, Jessica - 886 WTh<br />
Dubovik, Sviatlana - 161 WTh, 654 WTh<br />
DuBray, Molly - 102 MT<br />
Duca, Sergio - 1050 WTh<br />
Ducharme, Simon - 226 mT, 254 MT, 891 WTh<br />
Duchesnay, Edouard - 316 WTh, 317 WTh,<br />
623 WTh<br />
Duchesne, Simon - 362 WTh, 931 MT<br />
Duda, Jeffrey - 497 WTh<br />
Duerden, Emma - 123 mT, 124 MT<br />
Duff, Eugene - 579 WTh, 1059 WTh<br />
Duffau, Hugues - 868 MT<br />
Duggirala, Ravi - 892 MT<br />
Duggirala, Ravindranath - 296 WTh, 309 WTh,<br />
455 MT, 507 MT<br />
Dukart, Juergen - 10 MT, 47 mT, 64 mT, 839 WTh<br />
Dumas, Julie - 274 WTh, 454 MT, 854 WTh,<br />
912 mT
Dumont, Marie - 914 MT<br />
Dunaif, Andrea - 721 MT<br />
Duncan, Erica - 1021 MT<br />
Duncan, John - 178 MT, 180 MT, 208 MT, 407 MT<br />
Duncan, Niall - 548 MT, 596 WTh<br />
Duning, Thomas - 876 MT<br />
Dunlop, John - 63 MT<br />
Dunlop, Joseph - 592 WTh, 657 WTh<br />
Dunn, Jeff - 518 WTh<br />
Dupont, Patrick - 300 MT, 812 MT, 954 WTh<br />
Dupoux, Emmanuel - 793 WTh, 881 WTh<br />
Dupuy, Olivier - 898 MT, 1045 MT<br />
Durfee, Jackie - 224 WTh<br />
Durgerian, Sally - 42 mT<br />
Durning, Steven - 411 WTh<br />
Durr, Alexandra - 59 WTh<br />
Dursun, Serdar - 396 MT<br />
Duru, Deniz - 544 WTh<br />
Dušek, Petr - 49 WTh<br />
Duthie, Kristen - 630 MT<br />
Dutt, Shubir - 237 WTh<br />
Dutton, Mary Ann - 262 MT<br />
Dutton, Rebecca - 251 MT<br />
Duyn, Jeff - 192 WTh, 444 MT, 457 MT, 481 WTh,<br />
527 MT, 701 WTh, 715 MT<br />
Duzzi, Davide - 11 MT, 923 WTh<br />
Dykstra, Andrew - 631 mT<br />
Dymowski, Alicia - 54 WTh, 66 WTh<br />
Dyrby, Tim - 564 MT<br />
Dziobek, Isabel - 194 WTh<br />
e<br />
E, Keren - 909 MT<br />
Eagan, Danielle - 288 MT<br />
Eaton, Kenneth - 196 MT, 823 MT<br />
Ebdrup, Bjørn - 95 WTh<br />
Ebeling, Hanna - 125 MT<br />
Ebner, Franz - 408 WTh, 851 WTh<br />
Ebrat, Bahar - 198 WTh<br />
Ecker, Christine - 761 MT<br />
Eckert, Mark - 470 MT<br />
Eckert, Ulf - 266 MT<br />
Eco, de Geus - 445 MT, 497 MT<br />
Edden, Richard - 128 WTh, 462 WTh,<br />
463 WTh, 236 mT<br />
Eden, Guinevere - 149 MT, 782 WTh<br />
Edwards, Dylan - 173 WTh<br />
Edwards, Robert - 1054 WTh, 1049 WTh<br />
Egan, Gary - 54 WTh, 48 WTh, 66 WTh, 190 WTh,<br />
372 WTh, 698 WTh<br />
Egashira, Kazuteru - 238 MT, 259 MT, 295 MT,<br />
513 WTh<br />
Eger, Evelyn - 555 WTh<br />
Egger, Karl - 601 mT<br />
Eggermann, Thomas - 52 MT<br />
Egorova, Natalia - 793 WTh<br />
Ehlis, Ann-Christine - 2 WTh, 25 MT, 551 WTh,<br />
903 WTh, 929 WTh, 1068 MT<br />
Ehmke, Ross - 705 MT<br />
Ehrlich, Stefan - 123 WTh<br />
Ehrsson, H - 843 MT, 1024 WTh, 1034 WTh<br />
Eichele, Heike - 382 mT<br />
Eichele, Tom - 141 WTh, 382 MT, 690 WTh,<br />
80 WTh, 653 MT, 657 MT, 753 MT<br />
Eichner, Cornelius - 557 MT, 560 mT<br />
Eickhoff, Simon - 92 WTh, 162 WTh, 171 WTh,<br />
244 WTh, 285 MT, 367 MT, 689 WTh, 747<br />
WTh, 842 WTh, 893 MT, 919 WTh, 922 WTh,<br />
925 MT, 958 MT, 987 MT, 1072 MT, 1110 MT,<br />
78 WTh, 727 WTh, 966 WTh, 1009 WTh,<br />
1077 MT<br />
Eidelberg, David - 655 MT, 958 WTh<br />
Eippert, Falk - 899 WTh<br />
Eirich, Elisa - 551 WTh<br />
Eisenberg, Daniel - 47 WTh, 89 WTh, 230 WTh,<br />
492 MT, 534 WTh, 851 MT<br />
Ekhtiari, Hamed - 29 WTh<br />
Ekman, Matthias - 682 WTh<br />
El Marroun, Hanan - 464 mT, 880 WTh, 898 WTh<br />
EL MENDILI, Mohamed-Mounir - 184 WTh<br />
El-Deredy, Wael - 119 WTh, 275 MT, 424 WTh,<br />
427 WTh<br />
Elben, Saskia - 1 MT, 455 WTh<br />
Eldaief, Mark - 963 WTh, 981 WTh<br />
Elger, Christian - 845 MT<br />
Elgie, Benjamin - 802 WTh<br />
Elia, Josephine - 585 MT<br />
Eliez, Stephan - 120 WTh, 124 WTh, 955 MT<br />
Ellefsen-Gauthier, Paule - 414 WTh<br />
Ellis, Robert - 528 mT<br />
Ellmore, Timothy - 567 MT, 571 MT, 632 MT,<br />
1047 MT<br />
Elman, Lauren - 612 WTh<br />
Elmer, Stefan - 814 WTh<br />
Elshoff, Lydia - 185 mT<br />
Elton, Amanda - 377 mT<br />
Ely, Tim - 253 MT<br />
Ely, Timothy - 377 MT<br />
Emerson, John - 681 WTh<br />
Emmanuel, MOYSE - 2 MT<br />
Emmorey, Karen - 961 MT, 778 WTh<br />
Ende, Gabriele - 882 MT<br />
Endres, Matthias - 170 WTh<br />
Engel, Stephen - 777 MT<br />
Engels, Anna - 763 WTh<br />
Englisch, Susanne - 104 WTh<br />
Engstrom, Maria - 1046 WTh<br />
Ennabil, Nourane - 906 MT<br />
Enoch, Mary-Anne - 939 MT<br />
Entakli, Jonathan - 927 WTh<br />
Entis, Jonathan - 17 WTh, 116 WTh<br />
Erb, Michael - 855 WTh, 1068 mT<br />
Erdo,an, Basri - 478 WTh<br />
Erhardt, Erik - 657 mT, 690 WTh, 964 WTh<br />
Erickson, Crystal - 327 mT<br />
Erickson, Kirk - 370 MT, 565 MT<br />
Eriksson, Johan - 890 MT<br />
Erla, Silvia - 938 WTh<br />
Ernst, Lena - 2 WTh, 25 MT, 1068 MT<br />
Ernst, Monique - 26 WTh<br />
Ernst, Thomas - 21 WTh<br />
Erpelding, Nathalie - 1053 WTh<br />
Ertl, Matthias - 410 MT<br />
Escera, Carles - 1010 WTh<br />
Eshaghi, Arman - 36 MT, 94 MT<br />
Eskandar, Emad - 36 WTh<br />
Eskildsen, Simon - 673 mT<br />
Eslinger, Paul - 737 WTh, 860 WTh<br />
Espeland, Mark - 564 WTh<br />
Espie, Colin - 156 WTh<br />
Esposito, Fabrizio - 262 WTh<br />
Esposito, Mario - 65 MT<br />
Essig, Marco - 147 WTh<br />
Esslinger, Christine - 24 MT, 104 WTh, 229 MT<br />
Estebanez, Luc - 356 WTh<br />
Esteitie, Rania - 204 WTh<br />
Esterbauer, Harald - 274 MT, 290 MT<br />
Esterman, Michael - 545 MT<br />
Estes, Annette - 120 MT<br />
Estrada-Hernández, Christian - 576 MT<br />
Eswaran, Hari - 452 WTh<br />
Ethofer, Thomas - 243 WTh, 245 WTh, 288 WTh,<br />
1100 MT<br />
Etkin, Amit - 221 MT<br />
Etzel, Joset - 591 WTh<br />
Eugène, Fanny - 421 MT<br />
Bolded Poster numbers indicate first author.<br />
Eustache, Francis - 430 MT, 850 MT<br />
Evans, Alan - 164 MT, 182 MT, 344 WTh,<br />
361 WTh, 619 MT, 871 WTh, 883 WTh,<br />
891 WTh, 959 MT, 973 WTh, 977 WTh,<br />
114 WTh, 226 MT, 254 MT, 873 WTh, 881 MT,<br />
150 MT<br />
Evans, Jennifer - 490 MT, 683 WTh, 696 WTh,<br />
725 WTh<br />
Evans, Jennifer - 776 mT<br />
Evans, John - 128 WTh, 236 MT, 281 MT,<br />
462 WTh, 1106 WTh, 1110 WTh<br />
Evans, Karleyton - 1054 WTh<br />
Everling, Stefan - 999 MT<br />
Eviatar, Zohar - 816 MT<br />
Ewers, Michael - 84 MT<br />
Eyler, Fonda Davis - 134 MT, 171 MT<br />
Eyler, Lisa - 325 WTh<br />
Eymard, Bruno - 329 WTh<br />
Ezekiel, Frederick - 392 mT<br />
f<br />
Fabbro, Franco - 821 MT<br />
Faber, Ron - 232 WTh<br />
Fabienne, ORY - 2 MT<br />
Faes, Theo - 696 MT<br />
Fahey, Ciara - 302 WTh<br />
Fahim, Cherine - 114 WTh, 164 mT<br />
Fahoum, Firas - 189 mT<br />
Faillenot, Isabelle - 1040 WTh<br />
Fair, Damien - 128 mT, 129 MT, 343 WTh, 162 MT<br />
Falcon, Carles - 689 MT<br />
Falip, Mercè - 451 MT<br />
Falkai, Peter - 149 WTh, 152 WTh, 371 WTh,<br />
468 MT, 620 MT<br />
Falkenberg, Irina - 287 WTh<br />
Falkenberg, Liv - 373 mT, 971 MT<br />
Fallah, Mazyar - 390 WTh<br />
Fallgatter, Andreas - 2 WTh, 25 MT, 903 WTh,<br />
1068 MT, 929 WTh, 551 WTh<br />
Fan, Jin - 124 MT, 735 MT<br />
Fan, lingzhong - 973 WTh<br />
Fan, Qiuyun - 202 WTh<br />
Fan, Yong - 647 MT<br />
Fan, Yuanyuan - 517 MT, 976 WTh, 978 WTh,<br />
968 WTh<br />
Fang, Candice - 418 MT<br />
Fang, Chunsheng - 557 WTh<br />
Fang, Jiliang - 981 MT<br />
Fang, Jing - 532 MT<br />
Fang, Yan - 102 WTh, 148 WTh<br />
Faraguna, Dino - 507 WTh<br />
Faraone, Stephen - 161 MT, 346 MT, 894 WTh<br />
Farinelli, Valentina - 1065 WTh<br />
Farivar, Reza - 67 MT, 1104 WTh, 1105 WTh<br />
Farnetano, Bruno - 539 MT<br />
Faro, Scott - 786 MT, 549 MT<br />
Farooqi, Sadaf - 332 WTh<br />
Farroni, Teresa - 507 WTh<br />
Fattori, Patrizia - 510 MT<br />
Faulkner, Monica - 862 WTh<br />
Faure, Sylvane - 58 MT<br />
Fautrelle, Lilian - 911 WTh<br />
Favrat, Bernard - 10 WTh<br />
Federico, Paolo - 504 MT, 518 WTh<br />
Feeser, Melanie - 282 MT<br />
Fehm, Lydia - 286 MT<br />
Fehr, Ernst - 1106 MT<br />
Fehse, Kai - 1066 MT<br />
Feige, Bernd - 135 MT<br />
Feigin, Andrew - 655 MT, 958 WTh<br />
Feinberg, David - 473 MT, 499 MT<br />
HBM 2011 >> <strong>abstracts</strong> 193
Feindel, Kirk - 508 MT<br />
Feiweier, Thorsten - 555 MT, 557 MT,<br />
560 MT, 588 MT<br />
Fekete, Tomer - 588 WTh<br />
Felber, Stephan - 534 MT, 1078 WTh<br />
Feldbaek, Joergen - 438 WTh<br />
Feldman, Ruth - 253 WTh, 544 MT<br />
Feldman Barrett, Lisa - 257 WTh<br />
Felician, Olivier - 862 MT<br />
Fell, Juergen - 845 MT<br />
Fellows, Lesley - 328 MT<br />
Feng, Chunliang - 1094 MT<br />
Feng, Dai - 750 WTh, 760 WTh<br />
Feng, Tongxin - 440 MT<br />
Feng, Yenju - 429 WTh<br />
Fennema-Notestine, Christine - 94 WTh, 325 WTh<br />
Fenoglio, Angela - 1043 MT<br />
Ferguson, Michael - 764 WTh<br />
Fermin-Delgado, Rafael - 76 WTh<br />
Fernandes, Henrique - 741 WTh<br />
Fernandes, José Maria - 529 mT<br />
Fernández, Guillén - 236 WTh<br />
Fernandez-Egea, Emilio - 139 WTh<br />
Fernandez-Espejo, Davinia - 303 MT, 318 mT<br />
Fernandez-Miranda, Juan - 593 MT<br />
Fernández-Ruiz, Juan - 53 WTh<br />
Ferracini, Rafael - 403 MT<br />
Ferrari, Paolo - 495 WTh<br />
Ferrari, Paul - 390 WTh, 456 WTh, 653 WTh<br />
Ferreira, Carlos - 67 MT, 1102 WTh<br />
Ferrett, Helen - 22 WTh<br />
Ferretti, Antonio - 410 WTh, 356 MT<br />
Ferrier, Cyrille - 1051 MT<br />
Ferrucci, Luigi - 895 MT<br />
Fesi, Jeremy - 763 WTh<br />
Fettich, Karla - 212 WTh<br />
Feusner, Jamie - 264 mT, 243 MT, 269 MT,<br />
277 MT, 271 MT<br />
Fiebach, Christian - 682 WTh<br />
Fiebach, Jochen - 170 WTh, 896 MT<br />
Fiecas, Mark - 750 WTh, 755 WTh, 760 WTh<br />
Figee, Martijn - 341 MT<br />
Figueiredo, Patrícia - 211 MT, 485 WTh, 669 WTh,<br />
684 WTh, 741 WTh, 760 MT<br />
Filippi, Christopher - 454 MT, 599 MT<br />
Filippi, Massimo - 81 MT<br />
Filippini, Nicola - 1065 WTh<br />
Fillard, Pierre - 623 WTh<br />
Filzmoser, Peter - 754 WTh, 769 WTh, 785 MT<br />
Findlay, Anne - 828 WTh, 115 WTh<br />
Fink, Gereon - 162 WTh, 165 WTh, 171 WTh,<br />
385 WTh<br />
Fink, James - 554 MT<br />
Finkelmeyer, Andreas - 1029 WTh<br />
Firbank, Michael - 64 WTh<br />
Fisch, Sophie-Alexandra - 268 MT<br />
Fischer, Håkan - 231 WTh<br />
Fischer, Jeffery - 256 MT<br />
Fischer, Matthias - 2 WTh<br />
Fischer, Thomas - 1031 mT<br />
Fischl, Bruce - 325 WTh, 340 WTh, 617 MT,<br />
621 MT, 622 MT, 684 MT, 685 mT, 705 WTh,<br />
936 MT, 987 WTh, 988 WTh<br />
Fischmeister, Florian - 643 mT<br />
Fitzpatrick, Kevin - 190 MT<br />
Flagmeier, Sabina - 816 WTh, 824 WTh<br />
Flamand, Constance - 930 WTh<br />
Fletcher, Jack - 166 MT<br />
Flöel, Agnes - 896 MT<br />
Flor, Herta - 6 WTh, 252 WTh, 321 MT, 333 MT,<br />
337 MT, 352 MT, 877 WTh, 957 WTh, 1084 MT<br />
Florea, Olivia - 186 MT, 515 WTh, 803 MT<br />
FLORES GUTIÉRREZ, ENRIQUE OCTAVIO -<br />
292 mT<br />
Florin, Esther - 909 WTh<br />
194 HBM 2011 >> <strong>abstracts</strong><br />
Flowers, Lynn - 149 MT<br />
Flück, Daniela - 483 WTh<br />
Fluss, Joel - 148 MT, 879 WTh<br />
Focke, Niels - 178 MT, 620 MT<br />
Foerster, Bernd - 76 WTh, 1042 MT<br />
Fogel, Stuart - 836 WTh<br />
Fogel, Stuart - 835 WTh<br />
Foki, Thomas - 77 WTh, 534 MT, 1078 WTh<br />
Foland-Ross, Lara - 247 MT, 256 MT<br />
Folland, Nicole - 443 mT, 1016 WTh<br />
Foltynie, Thomas - 949 MT<br />
Fonov, Vladimir - 43 MT, 959 MT, 58 MT, 72 MT,<br />
624 MT, 673 MT<br />
Fonov, Vladmir - 68 MT, 90 MT, 361 WTh,<br />
456 MT, 71 MT<br />
FONSECA, ROCHELE - 378 mT, 403 mT<br />
Fonseca-Pinto, Rui - 655 WTh<br />
Font, Mireia - 139 WTh<br />
Fonteijn, Hubert - 51 mT<br />
Ford, Judith - 324 WTh<br />
Ford, Kristen - 350 mT<br />
Forester, Brent - 284 MT<br />
Foret, Ariane - 600 WTh<br />
Formento-Dojot, Patrizia - 70 WTh<br />
Formisano, Elia - 262 WTh, 547 WTh, 1004 WTh,<br />
1005 WTh, 1006 WTh<br />
Fornari, Eleonora - 10 WTh, 38 mT, 730 WTh<br />
Foroud, Tatiana - 299 WTh, 320 WTh<br />
Forsberg, Lars - 355 WTh<br />
Förstl, Hans - 141 WTh, 220 WTh<br />
Forstmann, Birte - 377 WTh, 387 WTh, 388 MT,<br />
926 mT, 1002 WTh<br />
Fortier, Catherine - 16 WTh<br />
Fortier, Emilie - 276 mT<br />
Fortier-Gauthier, Ulysse - 861 WTh<br />
Fortin, Claudette - 414 WTh<br />
Fortin, Julie - 860 mT<br />
Foryt, Paul - 754 mT<br />
Foscolo, Luciano - 11 MT, 70 WTh<br />
Fosnæs, Mark - 1027 MT<br />
Fossati, Philippe - 382 WTh<br />
Foster, Nicholas - 97 mT, 113 MT<br />
Fouche, Jean-Paul - 263 mT<br />
Fouque, Anne-Laure - 623 WTh<br />
Fourkas, Alissa - 832 WTh<br />
Fox, Mickle - 736 WTh<br />
Fox, Nick - 51 MT<br />
Fox, P - 352 WTh<br />
Fox, P Mickle - 659 MT<br />
Fox, Peter - 29 MT, 244 WTh, 248 MT, 296 WTh,<br />
309 WTh, 367 MT, 487 MT, 507 MT, 659 MT,<br />
689 WTh, 727 WTh, 747 WTh, 830 WTh,<br />
842 WTh, 892 MT, 919 WTh, 933 WTh,<br />
1040 MT, 15 MT, 92 WTh, 352 WTh, 455 MT,<br />
736 WTh, 824 WTh, 825 WTh, 947 WTh,<br />
1077 MT<br />
Frackowiak, Richard - 164 MT, 888 MT, 949 MT,<br />
79 MT, 446 MT, 730 WTh, 924 MT<br />
FRADCOURT, Benoit - 284 WTh<br />
Frahm, Jens - 840 WTh, 1039 MT, 1073 WTh,<br />
1076 WTh<br />
Frances, Maria F. - 969 WTh<br />
Franceschini, Maria Angela - 503 WTh, 1043 MT<br />
Francis, Sue - 1008 WTh<br />
Francis, Susan - 489 WTh, 719 MT, 1049 MT<br />
Franco, Alexandre - 640 mT, 613 WTh<br />
Frank, Michael - 328 MT<br />
Frank, Sabine - 235 WTh, 332 WTh<br />
Franke, Katja - 572 WTh, 573 WTh, 879 mT<br />
Frankemolle, Anneke - 50 WTh<br />
Franken, Ingmar - 9 WTh<br />
Franklin, Crystal - 29 MT, 487 MT, 825 WTh<br />
Franz, Carol - 325 WTh<br />
Franz, Liz - 952 WTh<br />
Franzen, John - 153 MT, 159 mT<br />
Franzoni, Ferdinando - 831 WTh<br />
Fraser, Nicole (Nikki) - 315 mT<br />
Fraser, Sarah - 514 WTh<br />
Frasnelli, Johannes - 1014 mT<br />
Frazier, Jean - 463 MT<br />
Frederick, Blaise - 284 MT, 490 WTh, 476 WTh<br />
Freel, Stefanie - 257 MT<br />
Freeman, Bruce - 1052 WTh, 1062 WTh<br />
Freeman, John - 912 WTh<br />
Freissmuth, Michael - 274 MT<br />
Fremont, Wanda - 108 WTh<br />
French, Louis - 308 MT<br />
Frens, Maarten - 916 WTh<br />
Frey, Dieter - 1066 MT<br />
Freyer, Frank - 625 WTh<br />
Friederici, Angela - 800 MT, 875 WTh<br />
Friedland, David - 701 MT<br />
Friedman, Edward - 493 WTh<br />
Friedman, Rhonda - 785 WTh, 819 MT<br />
Friedrich, Michaela-Elena - 785 MT<br />
Fries, Pascal - 1023 WTh<br />
Frisch, Stefan - 219 WTh<br />
Frisoni, Giovanni - 57 MT, 81 MT, 410 WTh,<br />
931 MT<br />
Friston, Karl - 58 WTh, 368 WTh, 538 WTh,<br />
542 WTh, 543 WTh, 649 WTh, 721 WTh,<br />
752 WTh, 1017 MT, 1028 MT, 539 WTh,<br />
762 MT<br />
Frith, Chris - 1085 MT<br />
Fritsch, Virgile - 938 mT<br />
Fritsche, Andreas - 326 MT, 332 WTh, 332 MT,<br />
858 WTh<br />
Fritz, Tom - 928 MT<br />
Froehlich, Alyson - 102 MT<br />
Froelich, Lutz - 84 MT<br />
Frokjaer, Vibe - 562 MT<br />
Frölich, Lutz - 53 MT<br />
Frosch, Matthew - 936 MT<br />
Frost, Martin - 626 mT<br />
Frouin, Frédérique - 898 MT<br />
FROUIN, Vincent - 316 WTh, 317 WTh<br />
Fuchs, Alexander - 1058 MT<br />
Fuchs, Christina - 84 WTh<br />
Fuenfstueck, Tillmann - 287 MT<br />
Fuentes, Paola - 330 MT<br />
Fuhr, Shannon - 334 WTh<br />
Fujii, Kenko - 1008 MT<br />
Fujii, Kurumi - 923 MT<br />
Fujii, Ryo - 153 WTh<br />
Fujii, Takeshi - 390 MT<br />
Fujii, Tetsunoshin - 147 MT<br />
Fujii, Yuko - 238 MT, 513 WTh<br />
Fujimoto, Ayataka - 8 MT<br />
Fujimoto, Kyoko - 621 mT, 705 WTh<br />
Fujimura, Tomomi - 271 WTh<br />
Fujioka, Takako - 399 mT, 437 mT, 446 WTh<br />
Fujisawa, Takashi - 1037 WTh<br />
Fukuda, Hiroshi - 887 WTh, 977 WTh<br />
Fukunaga, Masaki - 457 MT, 715 MT<br />
Fukushima, Makoto - 633 WTh<br />
Fukuyama, Hidenao - 608 MT, 613 MT, 945 MT,<br />
1000 WTh, 1100 WTh<br />
Fumuro, Tomoyuki - 945 MT<br />
Furdea, Adrian - 907 WTh<br />
Furey, Maura - 772 MT, 991 MT, 1055 mT,<br />
1057 MT<br />
Furtner, Julia - 717 WTh<br />
Futatsubashi, Masami - 56 WTh<br />
Fydrich, Thomas - 286 MT<br />
Fyshe, Alona - 806 MT
g<br />
GABELLE, Audrey - 157 WTh<br />
Gabilondo, Iñigo - 689 MT<br />
Gabrieli, John - 240 MT, 857 MT, 713 WTh<br />
Gaddis, Andrew - 144 mT, 163 MT<br />
GadElkarim, Johnson - 572 MT<br />
Gaesser, Brendan - 841 MT<br />
Gaetz, William - 934 WTh<br />
Gaffrey, Michael - 222 mT<br />
Gaggl, Wolfgang - 701 MT<br />
Gaglianese, Anna - 571 WTh, 831 WTh<br />
Gagnepain, Pierre - 808 WTh<br />
Gagnon, Caroline - 989 MT<br />
Gagnon, Louis - 517 WTh, 1044 mT<br />
Gaignard, Alban - 346 WTh<br />
Gaillard, William - 105 MT, 876 WTh, 107 MT,<br />
326 WTh<br />
Gajjar, Amar - 167 MT<br />
Galan, Lidice - 467 MT<br />
Galanopoulos, Voula - 1005 MT<br />
Galati, Gaspare - 419 WTh, 510 MT<br />
Galatioto Paradiso, Giuseppe - 356 MT<br />
Galer, Sophie - 798 MT<br />
Galetta, Fabio - 831 WTh<br />
Galka, Andreas - 175 MT<br />
Gallagher, Anne - 211 WTh<br />
Gallay, David - 927 mT<br />
Gallay, Marc - 927 MT<br />
Gallea, Cecile - 930 WTh, 27 MT, 69 WTh,<br />
942 WTh, 45 WTh<br />
Gallen, Courtney - 939 mT<br />
Galletti, Claudio - 510 MT<br />
Gallhofer, Bernd - 634 WTh, 919 MT<br />
Gallinat, Juergen - 252 WTh, 333 MT, 352 MT,<br />
452 MT, 459 MT, 536 MT, 877 WTh, 957 WTh,<br />
1084 MT<br />
Galluzzi, Samantha - 57 MT, 81 MT<br />
Galuske, Ralf - 556 MT<br />
Galvan, Adriana - 943 MT<br />
Galvez, Marcelo - 788 MT<br />
Gambale, Catherine - 450 MT<br />
Gan, Gabriela - 405 MT<br />
Gandjbakhche, Amir - 525 WTh<br />
Gane, Claire - 423 WTh<br />
Ganjgahi, Habib - 29 WTh, 36 mT, 94 MT<br />
Gantner, Ithabi - 494 MT<br />
Gao, Fying - 70 MT<br />
Gao, Jia-Hong - 579 MT, 212 WTh<br />
Gao, Wei - 685 WTh<br />
Garavan, Hugh - 6 WTh, 302 WTh, 321 MT,<br />
1084 MT, 23 WTh, 252 WTh, 333 MT, 337 MT,<br />
352 MT, 360 MT, 877 WTh, 957 WTh<br />
Garbin, Gabriele - 801 MT<br />
Garcia, Samuel - 356 WTh<br />
Garcia Barnet, Juilan - 341 MT<br />
García-Alvárez, Roberto - 498 WTh<br />
Garcia-Finana, Marta - 361 MT<br />
Garcia-Garcia, Manuel - 707 WTh<br />
Garcia-Marti, Gracián - 642 MT<br />
García-Panach, Javier - 317 MT<br />
Gardini, Simona - 24 WTh<br />
Gardner, Justin - 1082 WTh<br />
Garfinkel, Sarah - 291 WTh<br />
Garg, Rahul - 666 mT<br />
Garg, Ranjini - 205 WTh<br />
GARNIER, Maeva - 819 WTh<br />
Garrett, Douglas - 880 mT<br />
Garrido, Marta - 239 WTh, 539 WTh, 1017 MT<br />
Garyfallidis, Eleftherios - 598 WTh<br />
Gaser, Christian - 135 WTh, 572 WTh, 573 WTh,<br />
628 MT, 673 WTh, 675 MT, 747 MT, 879 MT,<br />
941 MT<br />
Gaspar, Carl - 1092 WTh<br />
Gasparetto, Emerson - 378 MT, 403 MT, 539 MT<br />
Gass, Achim - 66 MT, 466 MT, 568 WTh<br />
Gass, Dagmar - 24 MT, 104 WTh<br />
Gasser, Thomas - 5 MT, 740 MT<br />
Gates, Kathleen - 723 WTh, 734 WTh<br />
Gau, Shur-Fen - 185 WTh<br />
Gau, Susan Shur-Fen - 126 MT, 561 MT, 573 MT<br />
Gaudron, Marie - 166 WTh<br />
Gauggel, Siegfried - 811 MT<br />
Gauthier, Claudine - 500 WTh, 898 mT, 1052 mT,<br />
1045 MT, 680 WTh<br />
Gauthier, Serge - 43 MT, 50 MT, 68 MT, 71 MT,<br />
72 MT, 90 MT<br />
Gavaret, Martine - 205 MT<br />
Gawryluk, Jodie - 519 mT<br />
Gaxiola-Valdez, Ismael - 206 MT<br />
Gayda, Jessica - 331 MT<br />
Ge, Shuzhi - 527 WTh<br />
Ge, Yue - 950 WTh, 1094 mT<br />
Geary, David - 412 WTh<br />
Gebel, Benjamin - 433 mT<br />
Gebhardt, Helge - 634 WTh, 919 MT<br />
Geda, Elisabetta - 1050 WTh<br />
Gee, James - 91 MT, 319 WTh, 497 WTh,<br />
606 WTh, 612 WTh, 650 MT, 954 MT<br />
Geffroy, Dominique - 360 WTh<br />
Geier, Charles - 387 MT<br />
Geissler, Alexander - 77 WTh, 525 mT, 534 MT,<br />
535 MT, 643 MT, 1078 WTh<br />
Gelernter, Joel - 131 WTh, 313 WTh<br />
Gelinas, Jennifer - 190 mT<br />
Geminiani, Giuliano - 1050 WTh<br />
Gemme, Gianluca - 65 MT<br />
Gench, Jennifer - 169 MT<br />
Genetti, Melanie - 442 WTh<br />
Geng, Joy - 426 WTh<br />
Geng, Xiujuan - 470 WTh, 939 MT<br />
Gennatas, Efstathios - 62 MT<br />
Genschaft, Marina - 130 MT<br />
Gentile, Giovanni - 1024 WTh, 1034 WTh<br />
Gentili, Claudio - 278 WTh<br />
George, Nathalie - 856 MT, 1080 MT<br />
Georgiou-Karistianis, Nellie - 54 WTh, 66 WTh,<br />
48 WTh<br />
Gepshtein, Sergei - 1099 WTh<br />
Geramita, Matthew - 331 WTh<br />
Gerber, Johannes - 1014 MT<br />
Gerdes, Jan - 219 mT, 575 MT<br />
Gerdes, Jan-Simon - 616 WTh<br />
Gerig, Guido - 304 MT<br />
Gerlach, Alexander - 286 MT<br />
Germann, Jurgen - 932 MT<br />
Gerretsen, Philip - 145 WTh<br />
Gertz, Hermann-Josef - 84 MT<br />
Gervai, Patricia - 261 MT, 471 WTh<br />
Geurts, Monique - 298 MT, 300 MT<br />
Geyer, Stefan - 415 MT, 447 MT, 934 mT,<br />
982 WTh, 999 WTh, 1002 WTh<br />
Ghahremani, Dara - 371 mT<br />
Ghassabian, Akhgar - 405 WTh<br />
Ghassemi, Mohammad - 324 WTh<br />
Ghazi Saidi, Ladan - 804 mT<br />
Ghezzo, Luca - 70 WTh<br />
Ghinani, Sasan - 167 WTh<br />
Ghinato Mainieri, Alessandra - 1087 mT<br />
Ghio, Marta - 923 WTh<br />
Ghosh, Boyd - 44 MT<br />
Ghosh, Satrajit - 240 MT, 857 MT<br />
Ghuman, Avniel - 106 mT<br />
Giani, Anette - 1028 WTh<br />
Gianotti, Lorena - 848 WTh<br />
Gibaud, Bernard - 346 WTh<br />
Giedd, Jay - 132 WTh, 150 MT, 465 MT,<br />
679 WTh, 868 WTh<br />
Giegling, Ina - 103 WTh, 375 MT<br />
Bolded Poster numbers indicate first author.<br />
Giesbrecht, Barry - 491 WTh<br />
Giessing, Carsten - 699 WTh, 708 WTh<br />
Giladi, Nir - 60 WTh<br />
Gilam, Gadi - 249 WTh<br />
Gilbert, Donald - 463 WTh<br />
Gilbert, Guillaume - 469 MT, 614 WTh<br />
Gilger, Jeffrey - 168 MT<br />
Gill, Louisa - 940 MT<br />
Gill, Michael - 302 WTh<br />
Gillabert, Nicole - 161 WTh<br />
Gilliam, Mary - 465 MT<br />
Gilman, Jodi - 340 MT, 665 MT<br />
Gilmore, Rick - 763 WTh<br />
Ginsburg, Daniel - 363 WTh, 629 MT<br />
Girard, Gabriel - 962 MT<br />
Girard, Pascal - 346 WTh<br />
Giroud, Christian - 10 WTh<br />
Girton, Laura - 105 MT<br />
Gitelman, Darren - 72 WTh<br />
Glahn, David - 296 WTh, 309 WTh, 455 MT,<br />
507 MT, 892 MT, 966 WTh<br />
Glasauer, Stefan - 584 WTh<br />
Glasser, Matthew - 338 WTh, 983 WTh, 984 WTh<br />
Glauche, Volkmer - 1035 WTh<br />
Glauser, Tracy - 196 MT<br />
Glen, Daniel - 709 MT<br />
Glenn, Orit - 863 WTh, 865 WTh, 867 WTh,<br />
897 WTh<br />
Glenthøj, Birte - 95 WTh<br />
Glerean, Enrico - 238 WTh, 261 WTh<br />
Glover, Gary - 645 MT, 686 WTh<br />
Gluth, Sebastian - 322 mT<br />
Glynn, Peter - 179 WTh<br />
Go, Tohshin - 799 MT<br />
Goble, Dann - 954 WTh<br />
Godard, David - 346 WTh<br />
Goebel, Rainer - 252 MT, 473 MT, 556 MT,<br />
626 MT, 746 WTh, 748 WTh, 774 MT, 796 MT,<br />
831 WTh, 1067 MT<br />
Goerke, Ute - 1085 WTh<br />
Goerlich, Katharina - 471 mT, 1095 mT<br />
Gogtay, Nitin - 132 WTh, 679 WTh, 868 WTh<br />
Goguin, Alexandre - 512 WTh<br />
Gohil, Sunir - 530 WTh<br />
Gokcay, Didem - 526 WTh<br />
Goker-Alpan, Ozlem - 47 WTh<br />
Golaszewski, Stefan - 534 MT, 1018 MT,<br />
1078 WTh<br />
Golby, Alexandra - 543 MT<br />
Gold, Brian - 56 mT, 788 WTh, 842 MT, 899 MT<br />
Gold, Jacquelyn - 828 WTh<br />
Gold, Mark - 749 MT, 758 MT<br />
Goldberg, Mark - 714 MT<br />
Goldberg, Michael - 1052 WTh, 1062 WTh<br />
Goldenholz, Daniel - 517 WTh<br />
Goldhahn, Dirk - 660 mT, 359 WTh, 720 MT<br />
Goldman, Aaron - 450 MT<br />
Goldman, David - 303 WTh, 939 MT<br />
GOLDMAN, Serge - 1026 MT<br />
Golestani, Ali - 745 WTh<br />
Golestani, Narly - 805 WTh<br />
Golfinopoulos, Elisa - 827 WTh<br />
Gollub, Randy - 123 WTh, 349 WTh, 1049 WTh,<br />
1054 WTh<br />
Goltz, Herb - 143 MT<br />
Gomes-Vilela, Mariléa - 661 mT<br />
Gómez, Francisco - 1019 mT<br />
Gomez Herrero, German - 1037 MT<br />
Gómez Verdejo, Vanessa - 661 MT<br />
Gomez-Herrero, German - 636 WTh<br />
Goncalves, Sonia - 915 MT<br />
Gonen, Tal - 325 mT<br />
Gong, Gaolang - 344 WTh, 973 WTh, 881 MT,<br />
883 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 195
Gong, Qiyong - 131 MT, 242 MT, 89 MT, 230 MT,<br />
273 MT, 278 MT, 467 WTh, 280 MT<br />
Gonoi, Wataru - 635 MT, 923 MT<br />
Gonzales, Mitzi - 288 MT<br />
González, Julio - 840 MT<br />
González Jiménez, Emilio - 207 WTh, 223 WTh<br />
Gonzalez-Castillo, Javier - 481 mT, 484 mT,<br />
496 MT, 538 mT, 630 MT, 736 MT, 810 WTh<br />
González-Frankenberger, Berta - 803 mT<br />
Gonzalez-Santos, Leopoldo - 895 WTh<br />
Goo, Eun-Hoe - 38 WTh<br />
Goodfellow, Marc - 630 WTh<br />
Goodman, Chelain - 17 WTh<br />
Goodyear, Bradley - 95 MT, 483 WTh, 504 MT,<br />
745 WTh<br />
Gooijers, Jolien - 592 mT<br />
Goradia, Dhruman - 157 MT<br />
Gordon, Evan - 105 MT, 710 WTh, 714 WTh<br />
Gordon, Ilanit - 122 mT<br />
Gordon, Karen - 874 MT, 1018 WTh<br />
Gore, John - 188 WTh<br />
Gorgolewski, Krzysztof - 505 mT, 779 mT<br />
Gorka, Stephanie - 263 WTh, 273 WTh<br />
Gorrostieta, Cristina - 639 WTh, 750 WTh,<br />
765 WTh<br />
Goschke, Thomas - 369 MT, 394 MT<br />
Gosseries, Olivia - 773 MT, 1016 MT, 1017 MT,<br />
1032 MT<br />
Goswami, Ruma - 969 WTh<br />
Gotimer, Kristin - 173 MT<br />
Gotlib, Ian - 739 WTh<br />
Gotman, Jean - 176 MT, 181 MT, 189 MT, 192 MT,<br />
202 MT, 726 WTh<br />
Goto, Masami - 635 MT<br />
Gotts, Steve - 709 MT<br />
Goudjil, Sabrina - 508 WTh<br />
Goudriaan, Anna - 374 WTh, 20 WTh<br />
GOULAS, ALEXANDROS - 698 mT<br />
Gour, Natalina - 862 mT<br />
Gouttard, Sylvain - 304 MT<br />
Govindan, Rathinaswamy - 452 WTh<br />
Gowland, Penny - 719 MT<br />
Goya-Maldonado, Roberto - 702 MT<br />
Gozal, David - 1035 MT<br />
Gozenman, Filiz - 526 WTh<br />
Graber, Harry - 511 WTh<br />
Grabowska, Anna - 446 MT<br />
Grabowski, Thomas - 961 MT<br />
Grabski, Krystyna - 803 WTh, 804 WTh, 936 WTh<br />
Gracco, Vincent - 798 WTh, 802 WTh, 803 WTh<br />
Grady, Cheryl - 880 MT, 902 MT, 372 MT, 749<br />
WTh, 889 MT, 757 MT<br />
Graessel, David - 950 mT<br />
Graewe, Britta - 67 mT, 1104 WTh<br />
Graf, Heiko - 514 mT, 1056 MT<br />
Graff, Ariel - 145 WTh<br />
Grafman, Jordan - 1115 MT<br />
Grafton, Scott - 407 WTh, 491 WTh, 915 WTh<br />
Graham, Simon - 501 MT, 654 MT<br />
Grambal, Aleš - 294 mT<br />
Gram<strong>for</strong>t, Alexandre - 445 WTh, 555 WTh,<br />
662 WTh, 667 MT, 692 WTh<br />
Grandjean, Julien - 398 MT<br />
Graner, John - 297 MT, 411 WTh, 308 mT<br />
Grangeon, Murielle - 426 MT<br />
Granger, Richard - 820 MT<br />
Granholm, Ann-Charlotte - 470 MT<br />
Graniello, Barbara - 766 WTh<br />
Grant, Joshua - 114 WTh, 756 WTh<br />
Grant, Michael - 325 WTh<br />
Grant, Patricia - 349 WTh, 449 WTh, 503 WTh,<br />
618 MT, 629 MT, 1043 MT<br />
Gratton, Caterina - 381 MT, 711 WTh, 773 WTh<br />
Gratz, Marcel - 982 WTh<br />
Graupmann, Verena - 1066 mT<br />
196 HBM 2011 >> <strong>abstracts</strong><br />
Graus, Francesc - 689 MT<br />
Graves, William - 781 WTh<br />
Gray, Courtney - 1112 WTh<br />
Gray, Jeremy - 1060 MT<br />
Gray, Marcus - 54 WTh<br />
Gray, William - 953 WTh<br />
Grayden, David - 698 WTh<br />
Grebe, Reinhard - 508 WTh<br />
Greca, Denise - 378 MT, 403 MT<br />
Green, Alexander - 3 MT, 4 MT, 940 MT<br />
Green, Bonnie - 262 MT<br />
Green, Gary - 459 WTh<br />
Green, Jordan - 824 MT<br />
Greenberg, Adam - 992 mT<br />
Greene, Ciara - 302 WTh<br />
Greenlee, Jeremy - 816 WTh<br />
Greenlee, Mark - 973 MT<br />
Greenshaw, Andrew - 396 MT<br />
Greenspan, Joel - 314 MT, 1057 WTh<br />
Greenwald, Mark - 7 WTh<br />
Grefkes, Christian - 162 WTh, 165 WTh, 171 WTh,<br />
919 WTh, 922 WTh<br />
Grégoire, Mathieu - 421 mT<br />
Gregory, Nicholas - 470 MT<br />
Greib, Carine - 847 MT<br />
Greicius, Michael - 63 WTh, 83 MT<br />
Grethe, Jeffrey - 345 WTh<br />
Greve, Douglas - 517 WTh, 617 mT, 705 WTh,<br />
878 MT<br />
Grevent, David - 329 WTh<br />
GREZES, Julie - 1076 mT<br />
Grèzes, Julie - 1098 WTh<br />
Griessenberger, Hermann - 155 WTh<br />
Griffiths, John - 952 mT<br />
Grigg, Omer - 902 mT, 757 MT<br />
Grigutsch, Maren - 694 WTh<br />
Grimault, Stephan - 82 MT, 829 MT, 852 WTh,<br />
861 WTh, 844 WTh<br />
Grimm, Oliver - 323 MT<br />
Grimm, Sabine - 1010 WTh<br />
Grimm, Simone - 1058 MT<br />
Grodd, Wolfgang - 243 WTh, 288 WTh,<br />
995 WTh, 935 MT<br />
Grodin, Erica - 394 WTh, 991 WTh<br />
Groening, Kristina - 208 MT, 185 MT<br />
Grön, Georg - 55 WTh, 1056 MT<br />
Grondin, Simon - 989 MT<br />
Grosbas, Marie-Helene - 156 WTh<br />
Grosbras, Marie-Helene - 941 WTh<br />
Grosenick, Logan - 656 mT, 662 MT<br />
Groshong, Bennett - 7 MT<br />
Gross, Donald - 174 MT, 191 MT<br />
Gross, Joachim - 18 MT, 1096 WTh, 1107 MT<br />
Grossman, Murray - 63 MT, 91 MT, 497 WTh,<br />
650 MT, 809 WTh<br />
Grotz, Thimo - 704 WTh<br />
Grouiller, Frederic - 185 MT, 208 mT, 442 WTh<br />
Groussard, Mathilde - 430 mT<br />
Grova, Christophe - 183 MT, 192 MT, 181 MT,<br />
202 MT, 448 WTh, 506 WTh, 726 WTh<br />
Groves, Adrian - 666 WTh, 670 WTh, 450 WTh<br />
Gruber, Oliver - 149 WTh, 152 WTh, 365 MT,<br />
371 WTh, 380 MT, 381 WTh, 468 MT, 620 MT,<br />
847 WTh, 929 mT<br />
Gruen, Jeffrey - 131 WTh<br />
Gruetter, Rolf - 533 MT<br />
Gründing, Johanna - 1070 MT<br />
Grüner, Renate - 971 MT<br />
Grupe, Daniel - 250 WTh, 1086 WTh<br />
Gruwel, Marco - 471 WTh<br />
Gryga, Martin - 839 WTh<br />
Grzadzinski, Rebecca - 110 MT<br />
Gschwind, Markus - 245 WTh, 248 WTh<br />
Gu, Hong - 303 WTh, 465 WTh, 470 WTh, 493 MT<br />
Guan, Cuntai - 169 WTh, 524 WTh<br />
Guangming, Lu - 745 MT<br />
Guazzelli, Mario - 278 WTh, 1082 MT<br />
Guenot, Marc - 198 MT<br />
Guenther, Frank - 820 WTh, 827 WTh<br />
Guggisberg, Adrian - 161 WTh, 654 WTh<br />
Guhn, Anne - 286 MT<br />
Guillod, Paul - 725 WTh<br />
Guillot, Aymeric - 426 MT<br />
GUILLOTEAU, Denis - 67 WTh<br />
Guillozet-Bongaarts, Angela - 336 WTh<br />
Guimond, Synthia - 852 WTh<br />
Guizard, Nicolas - 456 mT, 474 WTh<br />
Gullapalli, Rao - 314 MT, 700 MT, 1057 WTh,<br />
336 WTh<br />
Gündel, Harald - 220 WTh, 1070 MT<br />
Gunn, Roger - 536 WTh<br />
Gunnar, Krueger - 446 MT<br />
Gunther, Matthias - 509 MT<br />
Guntupalli, J Swaroop - 548 WTh<br />
Guo, Chunyan - 305 MT, 842 mT, 822 MT<br />
Guo, Xiaodong - 579 MT<br />
Guo, Xinyao - 457 WTh, 460 WTh<br />
Guo, Yi - 401 mT<br />
Gur, Raquel - 137 WTh<br />
Gur, Ruben - 103 MT, 137 WTh, 1105 MT,<br />
1110 MT<br />
Gurevich, Tanya - 60 WTh<br />
Guse, Birgit - 152 WTh<br />
Gutierrez, Elizabeth - 857 MT<br />
Gutman, Boris - 994 WTh<br />
Gutman, David - 128 MT, 129 MT, 343 WTh,<br />
725 mT<br />
Gutteling, Tjerk - 918 WTh, 997 mT<br />
Gutwinski, Stefan - 282 MT<br />
Gutyrchik, Evgeny - 398 WTh, 739 MT, 771 MT,<br />
1066 MT<br />
Guye, Maxime - 862 MT<br />
h<br />
Haász, Judit - 886 mT<br />
Habak, Claudine - 62 WTh<br />
Habas, Piotr - 863 WTh, 865 WTh, 867 WTh,<br />
897 WTh<br />
Habayeb, Serene - 807 MT<br />
Habeck, Christian - 655 MT, 753 WTh, 759 WTh,<br />
908 MT, 918 MT<br />
Habel, Ute - 103 mT, 269 WTh, 287 WTh,<br />
516 MT, 811 MT, 1029 WTh, 1065 MT,<br />
1105 MT, 1110 MT<br />
Häberlin, Max - 485 MT<br />
Haddad, Leila - 1106 mT<br />
Haddad, Naim - 452 WTh<br />
Hader, Walter - 206 MT<br />
Hadj Tahar, Abdallah - 829 WTh<br />
Hadjikhani, Nouchine - 112 MT, 121 MT, 486 MT,<br />
257 WTh<br />
Hadwin, Julie - 112 MT<br />
Haegelen, Claire - 474 WTh<br />
Haegens, Saskia - 984 mT<br />
Haenggi, Jürgen - 266 MT, 848 WTh<br />
Haenschel, Corinna - 54 MT, 119 WTh<br />
Haering, Hans-Ulrich - 326 MT, 332 WTh, 332 MT<br />
Hageman, Nathan - 598 mT, 318 WTh<br />
Hagenah, Johann - 68 WTh<br />
Hagiwara, Hiroko - 832 MT<br />
Hagler, Don - 94 WTh<br />
Hagoort, Peter - 808 MT<br />
Hahm, Jarang - 959 WTh<br />
Hahn, Andreas - 535 WTh<br />
Hahn, Tim - 25 MT, 393 MT, 551 WTh, 583 WTh<br />
Hailu, Ayichew - 105 MT
Halacz, Johanna - 1068 WTh<br />
Halai, Ajay - 801 WTh<br />
Halasz, Veronika - 939 WTh<br />
Halberda, Justin - 416 WTh<br />
Halchenko, Yaroslav - 790 MT, 598 WTh<br />
Halder, Sebastian - 907 WTh<br />
Haley, Andreana - 288 MT<br />
Halko, Mark - 963 WTh, 981 WTh<br />
Hall, Jeffery - 189 MT, 192 MT, 448 WTh<br />
Hall, Kevin - 334 MT<br />
Hallett, Mark - 942 WTh<br />
Hallquist, Michael - 387 mT, 872 WTh<br />
Halperin, Jeffrey - 1005 MT<br />
Halpern, Andrea - 416 MT<br />
Hämäläinen, Matti - 449 WTh, 626 WTh,<br />
985 MT, 1033 WTh, 1070 WTh, 445 WTh<br />
Hamamé, Carlos - 1012 mT<br />
Hamandi, Khalid - 1048 MT<br />
Hamid, Laith - 175 MT<br />
Hamilton, A. - 401 MT<br />
Hamilton, J. Paul - 739 WTh<br />
Hammer, Paul - 301 MT<br />
Hammers, Dustin - 217 WTh<br />
Hampel, Harald - 54 MT, 84 MT<br />
Hampshire, Adam - 64 WTh<br />
Hampson, Michelle - 234 WTh, 520 MT, 639 MT<br />
Hamza, Samar - 325 WTh<br />
Hamzelou, Kia - 867 WTh<br />
Han, Hyun Jung - 125 WTh<br />
Han, Joan - 334 WTh<br />
Han, Jooman - 811 WTh<br />
Han, Kiwan - 32 MT<br />
Han, Shihui - 1064 MT, 1088 mT<br />
Han, Xiujie - 491 MT<br />
Handjaras, Giacomo - 586 WTh, 991 MT,<br />
1057 mT<br />
Handwerker, Daniel - 736 mT<br />
Hänel, Claudia - 793 mT, 902 WTh<br />
Haney-Caron, Emily - 208 WTh<br />
Hänggi, Jürgen - 814 WTh<br />
Hanke, Michael - 359 WTh, 790 mT<br />
Hanlon, Faith - 93 WTh<br />
Hans, Arne - 633 mT<br />
Hansen, Mads - 1027 MT<br />
Hansen, Peter - 3 MT, 4 MT, 940 MT<br />
Hanson, Jamie - 954 MT, 1003 WTh<br />
Hanson, Joseph - 789 MT<br />
Hantke, Nathan - 42 MT<br />
Hara, Keiko - 437 WTh, 443 WTh, 664 WTh,<br />
432 WTh<br />
Hara, Kumiko - 238 MT, 259 MT<br />
Hara, Minoru - 664 WTh, 437 WTh, 443 WTh<br />
Haraldsdottir, Ragnheidur - 731 WTh<br />
HARAND, Caroline - 850 mT<br />
Hardan, Antonio - 98 MT, 115 MT<br />
Harding, Ian - 357 mT<br />
Harel, Noam - 572 MT<br />
Harezlak, Jaroslaw - 193 WTh<br />
Hari, Riitta - 238 WTh, 414 MT<br />
Hariz, Marwan - 949 MT<br />
Harp, Jordan - 305 MT<br />
Harris, Philip - 372 WTh<br />
Harris, Richard - 1043 WTh, 1045 WTh,<br />
1049 WTh<br />
Harrison, Ben - 32 WTh, 33 WTh, 37 WTh,<br />
39 WTh, 224 MT, 258 MT, 357 MT, 213 WTh<br />
Harrison, Elisabeth - 822 WTh<br />
Harrivel, Angela - 519 WTh<br />
Hartberg, Cecilie - 94 WTh, 120 WTh, 129 WTh,<br />
311 WTh, 677 WTh<br />
Hartinger, Beate - 274 MT, 290 MT, 754 WTh<br />
Hartmann, Andreas - 702 WTh<br />
Hartmann, Antonie - 329 MT, 514 MT, 1056 MT<br />
Hartmann, Christian - 455 WTh<br />
Hartnett, Sara - 825 WTh<br />
Harvey, Christopher - 156 WTh<br />
Harvey, Matthew - 364 WTh<br />
Harwell, John - 338 WTh<br />
Hasan, Khader - 733 WTh<br />
Hasegawa, Junichi - 781 MT<br />
Hasegawa, Mihoko - 1017 WTh<br />
Haselgrove, Christian - 345 WTh, 463 mT<br />
Hasenkamp, Wendy - 1021 mT<br />
Hashimoto, Akiko - 238 MT, 513 WTh<br />
Hashimoto, Ryuichiro - 119 mT<br />
Hashizume, Hiroshi - 865 MT, 869 MT,<br />
887 WTh, 1013 MT<br />
Hashmi, Javeria - 1058 WTh<br />
Hassani-Abharian, Peyman - 29 WTh<br />
Hassel, Stefanie - 283 mT<br />
Hata, Masahiro - 832 mT<br />
Hatanaka, Wataru - 781 MT<br />
Hatfield, Bradley - 281 WTh<br />
Haubenberger, Dietrich - 77 WTh<br />
Haueisen, Jens - 445 WTh, 632 WTh<br />
Hauert, Claude-Alain - 435 MT, 438 MT<br />
Haufler, Amy J - 281 WTh<br />
Haukvik, Unn - 94 WTh<br />
Haukvik, Unn Kristin - 120 WTh, 129 WTh<br />
Hausmann, Markus - 1007 MT<br />
Häussinger, Dieter - 1010 MT<br />
Haut, Kristen - 99 WTh<br />
Havenhand, Jade - 667 WTh<br />
Havlicek, Martin - 721 WTh<br />
Havránková, Petra - 49 WTh, 71 WTh<br />
Hawrylycz, Michael - 336 WTh<br />
Haxby, James - 541 MT, 548 WTh, 790 MT,<br />
991 MT, 1057 MT<br />
Hayasaka, Satoru - 724 WTh, 762 WTh, 766 MT,<br />
774 WTh<br />
Hayashi, Naoto - 905 MT<br />
Hayashi, Takuya - 1 WTh<br />
Hayashi, Toshihiro - 923 MT<br />
Hayes, Dave - 339 mT, 596 WTh<br />
Hayes, Laura - 186 WTh<br />
Haynes, John-Dylan - 367 WTh, 998 MT,<br />
1100 MT, 510 WTh<br />
Haynes, M Ryan - 344 MT, 348 MT, 378 WTh<br />
Hazlett, Erin - 17 WTh, 116 WTh<br />
Haznedar, Mehmet - 116 WTh<br />
He, Bin - 448 MT, 1102 MT<br />
He, Guojun - 749 MT, 758 MT<br />
He, Huiguang - 761 WTh, 884 WTh<br />
He, Jhih-Wei - 586 mT<br />
He, Lianghua - 744 mT, 766 WTh<br />
He, Yong - 182 MT, 313 WTh, 687 WTh, 968 WTh,<br />
972 WTh, 973 WTh, 976 WTh, 978 WTh, 881<br />
MT, 78 MT, 491 MT, 517 MT, 783 MT, 883 WTh,<br />
885 MT, 977 WTh, 980 WTh, 75 MT, 518 MT<br />
Hearn, Tristan - 519 WTh<br />
Hébert, Marc - 914 MT<br />
Heckers, Stephan - 960 WTh<br />
Hedden, Trey - 883 MT<br />
Heekeren, Hauke - 194 WTh, 276 WTh, 301 WTh<br />
Hegarty, Catherine - 247 mT<br />
Hegerl, Ulrich - 103 WTh, 375 MT<br />
Heher, Mindy - 493 WTh<br />
Heib, Dominik - 155 WTh<br />
Heidemann, Robin - 17 MT, 415 MT, 472 MT,<br />
555 mT, 557 mT, 560 MT, 588 MT, 968 MT,<br />
982 WTh<br />
Heilman, Kenneth - 749 MT, 758 MT<br />
Heim, Christine - 253 MT<br />
Heim, Stefan - 516 MT, 839 MT, 1087 MT<br />
Heine, Angela - 501 WTh<br />
Heinke, Wolfgang - 478 MT<br />
Heinz, Andreas - 25 WTh, 252 WTh, 282 MT,<br />
321 MT, 333 MT, 337 MT, 352 MT, 452 MT,<br />
459 MT, 536 MT, 537 WTh, 877 WTh,<br />
957 WTh, 1084 MT<br />
Bolded Poster numbers indicate first author.<br />
Heinzel, Alexander - 548 MT<br />
Heinzel, Stephan - 867 mT<br />
Heinzle, Jakob - 998 MT<br />
Heisz, Jennifer - 846 mT<br />
Heitger, Marcus - 954 WTh, 300 MT, 592 MT<br />
Heitzeg, Mary - 13 WTh<br />
Hélène, Amiéva - 901 MT<br />
Helle, Liisa - 638 WTh<br />
Hellerbach, Alexandra - 618 WTh, 595 mT<br />
Hellrung, Lydia - 359 WTh, 376 MT, 784 mT<br />
Helmer, Karl - 985 WTh<br />
Helms, Gunther - 88 mT, 458 mT, 888 MT,<br />
1039 MT<br />
Hemmer, Bernhard - 1030 MT<br />
Henderson, James - 757 WTh<br />
Hendler, Talma - 60 WTh, 249 WTh, 253 WTh,<br />
320 MT, 325 MT, 1034 MT<br />
Heni, Martin - 326 MT, 332 WTh, 332 MT,<br />
858 WTh<br />
Henke, Christian - 1044 WTh<br />
Henkel, David - 196 MT, 823 mT<br />
Hennig, Jürgen - 488 MT, 704 WTh<br />
Hennig-Fast, Kristina - 84 WTh, 116 MT, 410 MT<br />
Henning, Anke - 1058 MT<br />
Henry, Roland - 180 WTh<br />
Henseler, Ilona - 149 WTh, 478 MT<br />
Henson, Richard - 808 WTh<br />
Hentschel, Frank - 53 MT<br />
Hepburn, Susan - 101 MT<br />
Herbst, Sophie - 1090 WTh<br />
Herholz, Sibylle - 416 mT<br />
Heringa, Sophie - 583 MT<br />
Herman, Alexander - 115 WTh<br />
Hermann, Bruce - 34 MT, 214 MT<br />
Hermans, Erno - 236 WTh<br />
Hermes, Dora - 1051 mT<br />
Hernandez, Leanna - 104 MT<br />
Hernandez-Garcia, Luis - 7 WTh<br />
Hernández-Ribas, Rosa - 32 WTh, 33 WTh,<br />
37 WTh, 39 WTh, 255 MT, 258 MT, 213 WTh<br />
Hernández-Tamames, Juan Antonio - 498 WTh,<br />
752 MT, 1015 MT<br />
Heron, Delphine - 329 WTh<br />
Herpertz, Sabine - 189 WTh<br />
Herrick, Christopher - 349 WTh<br />
Herrington, John - 1086 WTh<br />
Herrlich, Jutta - 140 WTh<br />
Herrmann, Martin - 25 MT, 393 MT<br />
Herron, Timothy - 460 MT<br />
Herry, Christophe - 435 WTh<br />
Hershey, Andrew - 457 WTh, 460 WTh<br />
Hertrich, Ingo - 796 WTh<br />
Hertz-pannier, Lucie - 930 WTh<br />
Hervais-Adelman, Alexis - 805 WTh<br />
Herzig, Roman - 201 WTh<br />
Herzog, Hans - 1031 MT<br />
Heslenfeld, Dirk - 31 WTh<br />
Hesling, Isabelle - 812 WTh<br />
Hess, Aaron - 203 WTh<br />
Hetrick, William - 27 WTh<br />
Hétu, Sébastien - 421 MT<br />
Heuser, Isabella - 84 MT<br />
Hewig, Johannes - 142 WTh<br />
Hiba, Bassem - 884 MT<br />
Hibar, Derrek - 320 WTh, 49 MT, 314 WTh,<br />
322 WTh<br />
Hickie, Ian - 550 WTh<br />
Higgins, Paul - 1040 MT<br />
High, Jr., Walter - 305 MT<br />
Hilbert, Markus - 77 WTh, 525 MT, 535 MT<br />
Hilker, Rüdiger - 5 MT<br />
Hinger, Ashish - 787 mT<br />
Hinkley, Leighton - 180 WTh, 768 WTh, 828 WTh<br />
Hinson, Vanessa - 470 MT<br />
Hippolyte, Loyse - 112 MT, 121 MT<br />
HBM 2011 >> <strong>abstracts</strong> 197
Hirano, Shogo - 134 WTh<br />
Hirano, Yoji - 134 WTh<br />
Hirji, Zahra - 143 MT<br />
Hirnstein, Marco - 1007 MT<br />
Hiroaki Masaki, Hiroaki - 259 MT<br />
Hirsch, Jochen - 466 MT<br />
Hirschmann, Jan - 455 WTh<br />
Hively, Lee - 45 MT<br />
Hjelmervik, Helene - 813 WTh, 971 MT, 1007 mT,<br />
1046 MT<br />
Hlustik, Petr - 201 WTh, 294 MT<br />
Ho, Beng-Choon - 123 WTh<br />
Ho, Chien-Chang - 339 WTh<br />
Ho, M-H Ringo - 909 MT<br />
Ho, Shao-Hsuan - 11 WTh<br />
Ho, Shao-Shuan - 291 WTh<br />
Hodaie, Mojgan - 897 MT<br />
Hodge, Steven - 463 MT<br />
Hodgkinson, Colin - 303 WTh, 939 MT<br />
Hodneland, Erlend - 886 MT<br />
Hoedlmoser, Kerstin - 155 WTh, 1033 mT<br />
Hoefel, João Rubião - 203 MT<br />
Hoek, Hans - 187 WTh<br />
Hoexter, Marcelo - 580 WTh<br />
Hoffman, Elana - 1055 MT<br />
Hoffman, William - 3 WTh<br />
Hoffstaedter, Felix - 919 WTh<br />
Höflich, Anna - 535 WTh<br />
Hofmaier, Tina - 274 MT<br />
Hofman, Paul - 184 MT, 193 MT, 199 MT, 599 WTh<br />
Hofman, Winni - 1050 MT<br />
Hofmann, Stefan - 240 MT<br />
Hofmeister, Heather - 1065 MT<br />
Hofstetter, Shir - 833 WTh<br />
Hogan, Tiffany - 824 MT<br />
Hoge, Richard - 898 MT, 1045 MT, 1052 MT,<br />
500 WTh, 678 WTh, 836 WTh, 680 WTh<br />
Hoge, W.Scott - 521 MT<br />
Hogstrom, Larson - 814 MT<br />
Hohl, Eva-Maria - 165 WTh<br />
Hohmann, John - 336 WTh<br />
Hok, Pavel - 201 WTh<br />
Holahan, Marie - 760 WTh<br />
Holden, Jameson - 1075 WTh<br />
Holiga, Štefan - 49 WTh<br />
Holland, Scott - 729 WTh, 802 MT, 825 MT,<br />
903 MT, 196 MT, 441 MT, 570 MT, 823 MT,<br />
1011 WTh, 1020 MT<br />
Hollenbeck, Mark - 942 MT<br />
Höllinger, Ilse - 77 WTh, 525 MT, 534 MT, 535 MT,<br />
643 MT, 1078 WTh<br />
Hollmann, Maurice - 376 mT, 784 MT<br />
Holloway, Ian - 418 WTh<br />
Holmboe, Eric - 411 WTh<br />
Holroyd, Tom - 723 MT, 738 MT, 849 WTh<br />
Holsboer, Florian - 223 MT, 702 MT, 225 MT<br />
Holtzheimer, Paul - 613 WTh<br />
Homae, Fumitaka - 473 WTh, 799 mT, 832 MT<br />
Homburger, Melanie - 1 MT, 455 WTh<br />
Hommel, Bernhard - 380 MT<br />
Hommer, Daniel - 340 mT, 351 MT, 394 WTh,<br />
665 MT, 991 WTh<br />
Honer, William - 28 WTh<br />
Hong, Cheol Pyo - 975 MT, 979 MT, 983 MT<br />
Hong, David - 268 WTh<br />
Hong, Elliot - 5 WTh, 303 WTh<br />
Hong, Ji Heon - 547 mT, 605 MT<br />
Hong, Keum-Shik - 6 MT, 441 WTh, 509 WTh,<br />
516 WTh, 527 WTh<br />
Hong, SeokJun - 182 MT, 213 MT, 201 mT<br />
Hong, Soek-Jun - 215 MT<br />
Hong, Sunjin - 952 WTh<br />
Hong, Yang - 981 MT<br />
Hoogduin, Johannes - 477 MT, 1041 MT<br />
Hoogendam, Janna Marie - 892 WTh<br />
198 HBM 2011 >> <strong>abstracts</strong><br />
Hoogendijk, Witte - 310 WTh<br />
Hooker, Christine - 471 MT, 1095 MT<br />
Hoptman, Matthew - 343 WTh<br />
Horga, Guillermo - 139 WTh, 374 mT, 116 WTh,<br />
766 WTh<br />
Horn, Dorothea - 464 WTh, 561 WTh<br />
Horn, Dorothea Irene - 220 mT, 266 MT, 1056 MT<br />
Horn, Helge - 14 MT<br />
Hornboll, Bettina - 336 MT<br />
Horovitz, Silvina - 942 WTh<br />
Horstmann, Annette - 219 WTh, 333 WTh,<br />
376 MT, 720 MT, 977 MT<br />
Horwitz, Barry - 629 WTh, 744 WTh, 746 WTh,<br />
818 WTh<br />
Hossein-Zadeh, Gholam-Ali - 561 WTh<br />
Hosseini, SM Hadi - 191 WTh<br />
Hota, Sunil - 210 WTh<br />
Houdé, Olivier - 1094 WTh, 1097 WTh<br />
Hovda, David - 304 MT<br />
Howard, Matthew - 579 WTh<br />
Howes, Oliver - 79 WTh<br />
Hsieh, Chang-Wei - 552 mT<br />
Hsieh, Chao-Hsien - 552 MT<br />
Hsieh, Jen-Chuen - 291 MT, 553 WTh<br />
Hsu, Ai-Ling - 576 WTh<br />
Hsu, David - 214 MT<br />
Hsu, Eric - 580 MT, 584 MT<br />
Hsu, Irene - 355 mT<br />
Hsu, Wan-Lin - 126 mT<br />
Hsu, Y.C. - 590 MT<br />
Hsu, Yuan-Yu - 789 WTh<br />
Hu, Die - 744 MT<br />
Hu, Xiao-Su - 527 WTh<br />
Hu, Xiaolei - 230 MT, 278 MT<br />
Hu, Xiaoping - 253 MT, 613 WTh, 640 MT, 724 MT<br />
Hua, Xue - 48 MT, 193 WTh, 868 WTh<br />
Huang, Beijun - 89 MT<br />
Huang, Chu-Chung - 14 WTh<br />
Huang, Leijan - 708 MT, 775 MT<br />
Huang, Mingxiong - 301 mT<br />
Huang, Peiyu - 273 MT<br />
Huang, Ping - 517 MT<br />
Huang, Ruiwang - 958 MT, 968 WTh, 976 WTh,<br />
978 WTh, 517 MT, 518 MT<br />
Huang, Samantha - 894 WTh, 985 MT<br />
Huang, Su-Chun - 82 WTh<br />
Huang, W M - 197 MT<br />
Huang, Xiaoqi - 89 MT, 273 MT<br />
Huang, Yun Ying - 524 WTh<br />
Huang, Yun-An - 979 WTh, 1117 MT, 1104 mT<br />
Huang, Yuxia - 259 WTh<br />
Huang, Zirui - 409 WTh<br />
Hubbard, Edward - 420 WTh<br />
Hubbard, Penny - 608 WTh<br />
Huber, Kristen - 936 mT, 987 WTh<br />
Hubert, Anja - 800 mT<br />
Hübner, Thomas - 130 mT, 333 MT, 386 WTh,<br />
394 MT<br />
Hubsch, Cecile - 930 WTh, 913 WTh<br />
Huckans, Marilyn - 3 WTh<br />
Hudac, Caitlin - 1035 mT<br />
Hudziak, James - 226 MT, 254 MT<br />
Hue, Chih-Wei - 786 WTh<br />
Huell, Michael - 84 MT<br />
Huentelman, Matthew - 320 WTh<br />
Huettel, Scott - 154 WTh<br />
Huetz, Timo - 950 MT<br />
Huey, Amanda - 334 WTh<br />
Huf, Wolfgang - 274 MT, 290 MT, 754 WTh,<br />
769 WTh, 785 mT<br />
Huffziger, Silke - 229 MT<br />
Hugdahl, Kenneth - 80 WTh, 98 WTh, 373 MT,<br />
382 MT, 590 WTh, 813 WTh, 971 MT,<br />
1007 MT, 1046 MT<br />
Hugger, Thimo - 488 MT<br />
Hughes, Brent - 240 WTh<br />
Hughes, Laura - 43 WTh, 358 MT, 594 MT,<br />
655 WTh<br />
Hughes, Mary - 860 WTh<br />
Hughes, Timothy - 859 WTh<br />
Hugueville, Laurent - 1080 MT<br />
Hugus, Pia - 871 MT, 1075 WTh<br />
Huijbers, Willem - 1050 mT<br />
Huiskamp, Geertjan - 179 MT<br />
Huisman, Henk - 696 MT<br />
Hulshoff Pol, Hilleke - 111 WTh<br />
Hulten, Annika - 451 WTh<br />
Hummel, Thomas - 130 MT, 1014 MT<br />
Hummer, Allan - 260 MT<br />
Hummer, Tom - 607 WTh, 970 WTh<br />
Humphries, Colin - 781 WTh, 794 WTh<br />
Hünefeld, Lena - 1065 MT<br />
Hung, An-Yi - 206 WTh, 429 WTh<br />
Hung, Yao-Chen - 751 WTh<br />
Hunt, Laurence - 366 WTh, 369 WTh, 450 WTh<br />
Hunter, Jill - 313 MT<br />
Hunter, Michael - 716 MT<br />
Huntgeburth, Sonja - 992 WTh, 61 WTh<br />
Hunyadi, Elinora - 1084 WTh<br />
Huotilainen, Minna - 440 MT<br />
Huppi, Petra - 886 WTh<br />
Hurtig, Tuula - 125 MT<br />
Hussein, Sarah - 224 WTh<br />
Hutcheson, Nathan - 105 WTh, 121 WTh,<br />
136 WTh<br />
Hutchins, Sean - 439 MT<br />
Hutchinson, Gemma - 1013 WTh<br />
Hutton, Chloe - 478 MT, 494 MT<br />
Huttunen, Matti - 251 MT<br />
Hwang, In Jae - 290 WTh<br />
Hwang, Jae Yeon - 42 WTh, 127 WTh, 38 WTh<br />
Hwang, Kristy - 70 MT<br />
Hwang, Ren-Jen - 291 mT<br />
Hwu, H-G. - 586 MT<br />
Hwu, Hai-Go - 110 WTh, 574 MT, 82 WTh<br />
Hyatt, Christopher - 208 WTh<br />
Hyde, Krista - 97 MT, 113 mT, 436 MT<br />
Hyeon Min, An - 290 WTh<br />
Hylands-White, Nick - 1041 WTh<br />
Hynd, George - 168 MT<br />
Hyvarinen, Aapo - 661 WTh, 706 mT<br />
i<br />
Iacoboni, Marco - 873 MT, 395 MT<br />
Iannetti, Giandomenico - 635 WTh, 1059 WTh<br />
Ianni, Angela - 47 WTh, 89 WTh<br />
Ichiyama, Takashi - 513 WTh<br />
Iglesias, Sandra - 397 WTh, 538 WTh<br />
Ihle, Kristin - 1067 WTh<br />
Ikamba, Roselyn - 825 WTh<br />
Ikeda, Akio - 945 MT, 1100 WTh<br />
Ikeda, Yumiko - 277 WTh<br />
Ikenouchi, Hajime - 846 WTh<br />
Ikkai, Akiko - 914 WTh<br />
Ikonomidou, Chrysanthy - 130 MT<br />
Ikonomidou, Vasiliki - 130 MT<br />
Ikram, Arfan - 604 WTh<br />
Ilan, Mizrahi - 33 MT<br />
Ilg, Rüdiger - 1024 MT, 1030 mT<br />
Im, Chang-Hwan - 100 WTh<br />
Im, Kiho - 618 mT, 993 WTh<br />
Imanishi, Jiro - 73 MT<br />
Imperati, Davide - 173 MT, 566 mT, 705 MT<br />
Inano, Sachiko - 905 mT<br />
Inati, Souheil - 490 MT, 498 mT, 683 WTh,<br />
696 WTh
Inenaga, Chikanori - 8 MT<br />
Ingeholm, John - 334 mT<br />
Ingvar, Martin - 413 MT<br />
Inkster, Becky - 223 MT, 225 MT, 450 MT<br />
Inoue, Masayuki - 153 WTh<br />
Inoue, Yoshihiro - 529 WTh<br />
Inoue, Yusuke - 1006 MT, 1011 MT<br />
Inta, Dragos - 104 WTh<br />
Intrator, Nathan - 1034 MT<br />
Irimia, Andrei - 304 mT<br />
Irwin, Louis - 426 WTh<br />
Isabelle, BERRY - 2 MT<br />
Ischebeck, Anja - 408 WTh, 851 WTh<br />
Ishii, Shin - 633 WTh<br />
Ishikawa, Akihiro - 529 WTh<br />
Ishizuka, Akira - 127 MT<br />
Isnard, Jean - 198 MT<br />
Israel, Mimi - 891 WTh<br />
Ito, Shinya - 1115 Wth<br />
Ito, Takehito - 526 mT<br />
Ittermann, Bernd - 6 WTh, 321 MT, 333 MT,<br />
352 MT, 501 WTh, 877 WTh, 957 WTh,<br />
1084 MT<br />
Iturria-Medina, Yasser - 59 MT, 449 MT<br />
Iuculano, Teresa - 115 mT, 838 WTh<br />
Ivanoff, Jason - 388 WTh<br />
Ivanov, Dimo - 415 MT, 478 mT, 560 MT<br />
Iversen, Pernille - 562 MT<br />
Iwaki, Sunao - 790 WTh, 1113 WTh<br />
Iwanami, Akira - 119 MT<br />
Iwata, Atsushi - 923 MT<br />
j<br />
Jääskeläinen, Iiro - 238 WTh, 261 WTh, 414 MT,<br />
742 MT, 985 MT<br />
Jabbi, Mbemba - 230 WTh, 345 MT, 265 WTh,<br />
492 MT<br />
Jack Jr, Clif<strong>for</strong>d - 49 MT, 299 WTh, 305 WTh,<br />
320 WTh, 314 WTh<br />
Jacks, Adam - 825 WTh<br />
Jackson, Daren - 214 MT<br />
Jackson, Graeme - 364 WTh<br />
Jackson, Philip - 427 MT, 1093 MT, 421 MT,<br />
1060 WTh<br />
Jacob, Christian - 393 MT<br />
Jacobs, Arthur - 255 WTh, 266 WTh, 501 WTh,<br />
787 WTh<br />
Jacobson, Joseph - 145 MT, 157 MT, 188 WTh,<br />
203 WTh<br />
Jacobson, Sandra - 145 MT, 157 MT, 188 WTh,<br />
203 WTh<br />
Jacobson, Sarah - 302 WTh, 91 WTh<br />
Jacola, Lisa - 802 MT<br />
Jacquette, Aurelia - 329 WTh<br />
Jaencke, Lutz - 848 WTh<br />
Jager, Gerry - 4 WTh, 113 WTh, 342 MT<br />
Jahanshad, Neda - 49 MT, 228 MT, 294 WTh,<br />
318 WTh, 578 MT, 947 mT, 297 WTh, 320<br />
WTh, 328 WTh, 314 WTh, 322 WTh, 568 MT<br />
Jahfari, Sara - 388 mT, 926 MT<br />
Jahn, Holger - 84 MT<br />
Jahng, Geon-Ho - 681 MT<br />
JAILLET, Florent - 356 WTh, 927 WTh<br />
Jak, Amy - 325 WTh<br />
Jakicic, John - 565 MT<br />
Jakobs, Oliver - 367 MT, 689 WTh, 987 MT<br />
Jamadar, Sharna - 131 WTh<br />
Jamali Gharetape, Shahab - 640 WTh<br />
James, Clara - 435 mT, 438 MT<br />
James, David - 521 WTh, 523 WTh, 530 WTh,<br />
1008 MT<br />
James, George Andrew - 232 MT, 253 MT,<br />
343 WTh, 741 mT<br />
James, Jeffrey - 493 WTh<br />
Jamshy, Shahar - 320 MT<br />
Jan, Jiri - 721 WTh<br />
Jancke, Lutz - 453 MT, 814 WTh<br />
Janela, Filipe - 671 WTh<br />
Jang, Chang-Won - 771 WTh, 1103 mT<br />
Jang, Go-Eun - 38 WTh<br />
Jang, Joon Hwan - 125 WTh, 127 WTh<br />
Jang, Jun Hwan - 42 WTh<br />
Jang, Kyoung-Mi - 409 mT<br />
Jang, Sung Ho - 1079 WTh, 547 MT, 600 MT,<br />
606 MT, 607 MT, 975 MT, 979 MT, 983 MT,<br />
605 MT, 624 WTh<br />
Jangraw, David - 1093 WTh<br />
Janke, Andrew - 361 WTh<br />
Jannin, Pierre - 474 WTh<br />
Janoos, Firdaus - 521 MT<br />
Jansen, Andreas - 52 MT, 93 MT, 307 WTh,<br />
506 MT, 523 MT, 595 MT, 618 WTh, 1078 MT<br />
Jansen, Jaap - 184 MT, 193 MT, 199 MT<br />
Jansma, Johan - 4 WTh, 113 WTh, 342 MT,<br />
772 mT, 1089 WTh<br />
Janssen, Jacobus - 599 WTh<br />
Jansson-Verkasalo, Eira - 125 MT<br />
Jao, Tun - 979 WTh, 339 WTh<br />
Japaridze, Natia - 200 mT<br />
Jarbo, Kevin - 593 MT<br />
Jarczok, Tomasz - 551 WTh<br />
Jasinska, Agnes - 11 WTh<br />
Jaskowski, Piotr - 906 WTh<br />
Jasmin, Czarapata - 534 WTh<br />
Jaspar, Mathieu - 398 mT<br />
Jbabdi, Saad - 671 mT, 536 WTh, 595 WTh,<br />
609 WTh, 727 WTh, 836 WTh<br />
Jean-Albert, LOTTERIE - 2 MT<br />
Jeay, Frederic - 835 WTh, 836 WTh<br />
Jech, Robert - 49 WTh<br />
Jednorog, Katarzyna - 879 WTh<br />
Jelsone-Swain, Laura - 217 WTh, 562 WTh<br />
Jelzow, Alexander - 501 WTh<br />
Jenkinson, Mark - 536 WTh, 679 MT, 683 MT<br />
Jennifer, Perez - 173 WTh<br />
Jensen, Jimmy - 80 WTh<br />
Jensen, Karin - 413 mT, 1054 WTh<br />
Jensen, Ole - 693 WTh, 853 WTh, 984 MT<br />
Jeon, Hong Jin - 150 WTh<br />
Jeon, Seun - 680 mT<br />
Jeong, bum seok - 759 mT<br />
Jeong, Gwang-Woo - 354 mT, 1114 WTh<br />
JEONG, JAESEUNG - 422 MT<br />
Jeong, Ji Woon - 290 WTh<br />
Jeong, Jin Young - 605 MT<br />
Jeong, JuHye - 797 MT<br />
Jeong, Myung Yung - 441 WTh, 509 WTh<br />
Jeong, Woorim - 210 mT<br />
Jeong, Yong - 755 MT<br />
Jerbi, Karim - 656 WTh, 993 MT, 1001 MT,<br />
1012 MT<br />
Jerde, Trenton - 914 WTh<br />
Jerger, James - 657 WTh<br />
Jernigan, Terry - 325 WTh, 562 MT<br />
Jérôme, NEUVILLE - 2 mT<br />
Jerskey, Beth - 870 WTh<br />
Jessen, Frank - 84 MT<br />
Jeurissen, Ben - 583 MT<br />
Jezzard, Peter - 704 MT<br />
Jia, Zhiru - 439 WTh<br />
Jia, Zhiyun - 242 MT, 280 mT<br />
Jiang, Caroline - 21 WTh<br />
Jiang, Tianzi - 86 MT, 87 MT, 298 WTh, 396 WTh,<br />
400 WTh, 767 WTh, 888 WTh, 981 MT<br />
Jiang, Xiong - 1012 WTh<br />
Jiang, Yang - 45 MT, 305 MT, 842 MT<br />
Bolded Poster numbers indicate first author.<br />
Jicha, Greg - 45 MT, 56 MT<br />
Jimenez-Castro, Lorena - 507 mT<br />
Jiminez, Jose - 114 WTh<br />
Jin, Changfeng - 278 MT, 230 MT<br />
Jin, Hua - 553 mT<br />
Jin, Mingwu - 46 mT, 85 mT, 96 MT, 664 MT,<br />
778 MT<br />
Jin, Seung-Hyun - 453 WTh, 458 WTh<br />
Jinhui, Wang - 78 MT, 885 mT<br />
Jo, Hang Joon - 709 mT<br />
Jo, Seongwoo - 225 WTh, 293 WTh<br />
Joanette, Yves - 58 MT, 906 MT, 378 MT,<br />
780 WTh, 828 MT<br />
Joassin, Frederic - 268 MT, 1027 WTh<br />
Jochmann, Thomas - 632 WTh<br />
Joel, Suresh - 144 MT, 152 mT, 163 MT, 711 MT,<br />
722 mT, 878 WTh, 889 WTh<br />
Johansen-Berg, Heidi - 159 WTh<br />
Johnson, Arianne - 407 WTh<br />
Johnson, Blake - 133 mT, 142 MT, 815 MT,<br />
822 WTh, 885 WTh, 932 WTh<br />
Johnson, Clark - 554 MT<br />
Johnson, Hans - 140 MT<br />
Johnson, Julia - 912 MT<br />
Johnson, Keith - 41 MT<br />
Johnson, Kori - 294 WTh, 315 WTh<br />
Johnson, Mark - 507 WTh, 869 WTh<br />
Johnson, Nathan - 899 mT<br />
Johnson, Sam - 459 WTh<br />
Johnson, Sterling - 34 MT, 74 MT<br />
Johnson, Timothy - 565 WTh<br />
Johnsrude, Ingrid - 815 WTh<br />
Johnston, Leigh - 66 WTh, 698 WTh<br />
Johnston, Patrick - 761 MT<br />
Johnstone, Tom - 242 WTh, 267 MT<br />
Jokelainen, Jari - 231 MT<br />
Joldes, Grand - 633 MT<br />
Jolicoeur, Pierre - 82 MT, 829 MT, 852 WTh,<br />
861 WTh, 844 WTh<br />
Jollant, Fabrice - 246 mT, 218 WTh<br />
Jonaitis, Erin - 34 MT<br />
Jones, Allan - 336 WTh<br />
Jones, Craig - 722 MT<br />
Jones, Jeremy - 466 WTh<br />
Jones, Kenneth - 146 MT<br />
Jones, Lisa - 15 MT<br />
Jones, Melissa - 167 MT<br />
Jones, Michael - 472 MT<br />
Jones, Michelle-Lee - 183 mT<br />
Jones, Richard - 186 WTh, 876 WTh<br />
Jones, Simon - 419 MT<br />
Jones-Lush, Lauren - 700 MT<br />
Jonides, John - 581 WTh<br />
Jönsson, Erik - 120 WTh<br />
Jonsson, Tomas - 1024 WTh<br />
Joober, Ridha - 146 WTh<br />
Jordan, Denis - 1024 mT, 1030 MT<br />
Jorge, João - 669 WTh<br />
Josephs, Oliver - 602 WTh<br />
Joshi, Anand - 623 mT, 971 WTh, 625 MT<br />
Joshi, Shantanu - 85 WTh, 577 WTh, 623 MT,<br />
971 WTh, 358 WTh<br />
Joshi*, Anand - 319 WTh<br />
Joubert, Sven - 58 MT, 82 MT, 780 WTh,<br />
828 MT, 829 MT<br />
Jovanovic, Hristina - 195 WTh<br />
Joyal, Kristina - 261 mT, 245 MT<br />
Joyce, Karen - 724 WTh, 762 WTh, 766 mT<br />
Juárez, Michelle - 83 WTh<br />
Jubault, Thomas - 62 WTh<br />
Juncadella, Montserrat - 451 MT<br />
Jung, Hae-Song - 859 WTh<br />
Jung, Julien - 198 MT<br />
Jung, Ki-Young - 428 WTh<br />
Jung, Kwan-Jin - 859 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 199
Jung, Rex - 343 WTh<br />
Jung, Tzyy-Ping - 585 WTh<br />
Jung, Wi Hoon - 38 WTh, 42 WTh, 125 WTh,<br />
127 WTh<br />
Jung, Yong Jae - 607 MT<br />
Junque, Carme - 303 MT, 312 MT, 706 WTh<br />
Juranek, Jenifer - 166 mT<br />
Jurica, Peter - 1009 MT<br />
Jussila, Katja - 125 MT<br />
Juster, Robert-Paul - 852 MT<br />
Jutagir, Devika - 779 WTh<br />
Juvodden, Hilde - 382 MT<br />
k<br />
Kaas, Amanda - 494 MT, 748 WTh<br />
Kaas, Jon - 587 MT<br />
Kabasawa, Hiroyuki - 635 MT<br />
Kabbouche, Marielle - 457 WTh, 460 WTh<br />
Kabisch, Stefan - 333 WTh, 376 MT, 478 MT<br />
Kachenoura, Nadjia - 898 MT<br />
Kadetoff, Diana - 413 MT<br />
Kadivar, Aniseh - 63 MT<br />
Kadkhodaeian Bakhtiari, Shahab - 561 WTh<br />
Kaftory, Asaf - 816 MT<br />
Kahane, Philippe - 419 WTh, 656 WTh, 993 MT,<br />
1001 MT<br />
Kahlbrock, Nina - 1010 mT, 1055 WTh, 1068 WTh<br />
Kahn, Itamar - 325 MT<br />
Kahn, René - 111 WTh, 118 WTh, 122 WTh,<br />
362 MT, 363 MT, 540 MT, 892 WTh<br />
Kainerstorfer, Jana - 525 WTh<br />
Kaiser, Marcus - 772 WTh<br />
Kaiser, Martha - 122 MT<br />
Kakunoori, Sita - 936 MT<br />
Kalberlah, Christian - 998 mT<br />
Kalbfleisch, Layne - 326 WTh<br />
Kalbfleisch, M. Layne - 105 MT<br />
Kalbitzer, Jan - 537 WTh<br />
Kalcher, Klaudius - 274 MT, 290 MT, 754 WTh,<br />
769 WTh, 785 MT<br />
Kalckreuth, Alexander - 220 WTh<br />
Kallenberg, Kai - 88 MT<br />
Kaller, Christoph - 794 MT<br />
Kallman, Seth - 334 MT<br />
Kalnin, Andrew - 550 MT, 500 MT<br />
Kalpouzos, Grégoria - 231 WTh<br />
Kamatani, Yuki - 905 WTh<br />
Kambara, Toshimune - 425 MT, 1091 MT<br />
Kamio, Yoshinobu - 8 mT<br />
KAMRAN, MUDASSAR - 468 WTh, 480 WTh<br />
Kan, Eric - 146 MT<br />
Kan, Li - 585 MT<br />
Kan, Shigeyuki - 904 MT<br />
Kana, Rajesh - 99 MT<br />
Kanaan, Richard - 196 WTh<br />
Kanazu, Masanori - 1100 WTh<br />
Kanemura, Atsunori - 633 WTh<br />
Kang, Eunjoo - 641 WTh, 855 MT<br />
Kang, Hakmook - 755 WTh, 765 mT<br />
Kang, Hanmo - 1091 WTh<br />
Kang, Heoung-Keun - 354 MT<br />
Kang, Hyejin - 150 WTh, 641 WTh, 669 MT,<br />
670 MT, 676 WTh, 855 MT, 959 WTh,<br />
1020 WTh, 1022 WTh<br />
Kang, Ji Yeon - 150 WTh<br />
Kang, Jian - 565 WTh<br />
Kang, Min Jae - 172 WTh<br />
Kang, Seung Suk - 100 WTh<br />
Kang, Xiaojian - 460 mT<br />
Kanno, Toshihiko - 56 WTh<br />
Kanovsky, Petr - 201 WTh<br />
200 HBM 2011 >> <strong>abstracts</strong><br />
Kanwal, Jagmeet - 264 WTh<br />
Kanwisher, Nancy - 890 WTh<br />
Kaping, Daniel - 999 MT<br />
Kaplan, Claire - 578 WTh<br />
Kappelhoff, Hermann - 266 WTh<br />
Kaprio, Jaakko - 251 MT<br />
Kaptchuk, Ted - 1042 WTh<br />
Karahan, Esin - 478 WTh, 544 WTh<br />
Karama, Sherif - 226 MT, 254 MT, 871 WTh,<br />
883 WTh, 891 WTh<br />
Karch, Susanne - 103 WTh, 375 mT, 410 mT<br />
Kardel, Peter - 326 WTh<br />
Karl, Anke - 1096 MT<br />
Karnani, Diraj - 789 MT<br />
Karni, Avi - 829 WTh, 836 WTh<br />
Karunanayaka, Prasanna - 729 WTh, 737 WTh,<br />
860 WTh<br />
Kasahara, Maki - 151 mT, 961 WTh<br />
Kasai, Kiyoto - 635 MT<br />
Kasess, Christian - 274 MT<br />
Kashiwagi, Mitsuru - 790 WTh<br />
Kashou, Nasser - 542 mT<br />
Ka,ıkçı, Itır - 478 WTh<br />
Kaskhedikar, Gayatri - 517 WTh<br />
Kasper, Lars - 485 mT, 513 MT<br />
Kasper, Ryan - 491 WTh<br />
Kasper, Siegfried - 235 MT, 260 MT, 274 MT,<br />
290 MT, 535 WTh, 754 WTh, 769 WTh, 785 MT<br />
Kasprian, Gregor - 434 mT, 717 WTh<br />
Kassel, Gilles - 346 WTh<br />
Kassis, Nicolas - 344 WTh<br />
Kassuba, Tanja - 1026 WTh<br />
Kassubek, Jan - 699 mT, 972 MT<br />
Kastman, Erik - 34 MT, 74 MT<br />
Katahira, Kentaro - 271 WTh<br />
Kates, Wendy - 108 WTh<br />
Kathmann, Norbert - 30 WTh, 452 MT<br />
Kato, Masaya - 905 WTh<br />
Kato, Nobumasa - 119 MT<br />
Kato, Toshinori - 522 WTh, 528 WTh, 944 MT<br />
Katsura, Masaki - 923 MT<br />
Kätsyri, Jari - 338 mT<br />
Katura, Takusige - 850 WTh<br />
Kaufmann, Christian - 30 WTh<br />
Kaufmann, Joern - 220 MT, 275 WTh, 464 WTh<br />
Kaufmann, Ulrike - 535 WTh<br />
Kauppi, Jukka-Pekka - 742 mT<br />
Kaur, Sonya - 288 mT<br />
KAVECS, Martin - 137 MT, 800 WTh<br />
Kawamichi, Hiroaki - 1112 mT<br />
Kawasaki, Masahiro - 856 WTh<br />
Kawashima, Ryuta - 191 WTh, 353 MT, 425 MT,<br />
846 WTh, 865 MT, 869 MT, 887 WTh, 977<br />
WTh, 1013 MT, 1086 MT, 1090 MT, 1091 MT<br />
Kawato, Mitsuo - 633 WTh<br />
Kay, Benjamin - 441 mT<br />
Kay, Kendrick - 953 MT<br />
Kaza, Evangelia - 260 WTh, 433 MT<br />
Ke, Yu-Ting - 933 MT<br />
Kean, Jacob - 500 MT, 550 MT<br />
Keaser, Michael - 1057 WTh<br />
Keedwell, Paul - 236 MT, 281 mT<br />
Keenan, Ross - 51 WTh<br />
Keeser, Daniel - 84 WTh, 116 MT<br />
Kehle, Denise - 699 MT<br />
Kehoe, Elizabeth - 251 WTh<br />
Keil, Boris - 495 MT, 705 WTh<br />
Keil, Maria - 381 WTh<br />
Keilholz, Shella - 712 WTh<br />
Kekatpure, Minal - 169 MT<br />
Kell, Christian Alexander - 46 WTh<br />
Keller, Corey - 631 MT<br />
Keller, Ji,í - 71 WTh<br />
Keller, Simon - 187 mT, 188 MT, 219 MT,<br />
392 WTh, 575 MT, 616 WTh<br />
Kellermann, Tanja - 244 WTh, 285 MT, 367 MT<br />
Kellermann, Thilo - 287 WTh, 811 MT, 1029 WTh,<br />
1105 MT, 1110 MT, 138 MT<br />
Kelley, Stephen - 714 MT<br />
Kelly, Barbara - 854 WTh<br />
Kelly, Clare - 110 MT, 158 MT, 681 WTh, 725 MT,<br />
989 WTh, 1075 MT, 129 MT, 990 WTh,<br />
343 WTh, 566 MT, 707 WTh, 731 MT,<br />
735 WTh, 779 WTh<br />
Kelly, Mary - 998 WTh<br />
Kelly, Wessyl - 493 WTh<br />
Kemani, Mike - 413 MT<br />
Kemether, Eileen - 116 WTh<br />
Kemner, Chantal - 1089 WTh<br />
Kemp, Graham - 361 MT<br />
Kenemans, J. - 997 MT<br />
Kenmochi, Hiroaki - 8 MT<br />
Kennedy, David - 128 MT, 129 MT, 343 WTh,<br />
345 WTh, 463 MT<br />
Kennedy, Paul - 952 WTh<br />
Kenner, Naomi - 384 WTh<br />
Kenning, Peter - 392 WTh<br />
Kensinger, Elizabeth - 853 MT, 917 MT<br />
Kent, Jack - 309 WTh, 892 MT<br />
Keong Kuah, Christopher Wee - 169 WTh<br />
Kere, Juha - 304 WTh<br />
Keren, Noam - 470 mT<br />
Kerr, Andrew - 637 WTh<br />
Kerti, Lucia - 896 MT<br />
Kessler, Carolyn - 110 MT<br />
Ketterer, Caroline - 326 MT, 332 MT, 858 WTh<br />
Kettner, Norman - 1070 WTh, 1075 WTh,<br />
1080 WTh<br />
Keuken, Max - 377 WTh, 926 MT, 1002 WTh<br />
Khalili Mahani, Najmeh - 697 WTh, 717 mT<br />
Khan, Muhammad Naeem - 429 mT<br />
Khatib, Dalal - 165 MT<br />
Khatiwada, Manish - 216 WTh, 281 WTh<br />
Kherif, Ferath - 446 MT, 888 mT<br />
Khoo, Tien Khoo - 64 WTh<br />
Khouzam, Amirah - 98 MT, 115 MT<br />
Khubchandani, Manjula - 818 WTh<br />
Khullar, Siddharth - 727 mT<br />
Khundrakpam, Budhachandra - 883 WTh,<br />
168 WTh<br />
Khusnullina, Aygul - 466 WTh<br />
Kiebel, Stefan - 543 WTh<br />
Kiehl, Kent - 83 WTh, 343 WTh, 574 WTh<br />
Kiel, Sarah - 55 MT<br />
Kielar, Aneta - 834 mT<br />
Kiem, Sara - 702 mT<br />
Kienast, Thorsten - 282 MT<br />
Kiesel, Andrea - 365 MT<br />
Kieseppa, Tuula - 251 MT<br />
Kikinis, Ron - 304 MT<br />
Kilian-Hütten, Niclas - 252 MT, 262 WTh<br />
Kilner, James - 1085 MT<br />
Kilpatrick, Lisa - 198 WTh, 282 WTh, 1046 WTh<br />
Kilpatrick, Trevor - 190 WTh<br />
Kilroy, Emily - 509 MT<br />
Kilts, Clint - 232 MT, 253 MT, 343 WTh, 377 MT<br />
Kim, Boong-Nyun - 669 MT, 670 MT<br />
Kim, Byung Jik - 38 WTh<br />
Kim, Chai-Youn - 1091 WTh<br />
Kim, Chobok - 899 MT<br />
Kim, Dae-Jin - 27 WTh<br />
Kim, Dae-Shik - 556 MT, 619 WTh<br />
Kim, Danny - 190 MT<br />
Kim, Eun Joo - 833 MT, 1114 MT<br />
Kim, Eunkyung - 676 WTh, 1020 WTh<br />
Kim, Han Sun - 605 mT<br />
Kim, Heejung - 641 WTh, 855 MT<br />
Kim, Hosung - 201 MT, 213 MT, 215 MT<br />
Kim, Hyo-Eun - 395 WTh<br />
Kim, Hyun Taek - 290 WTh
Kim, In Young - 272 MT, 422 WTh, 1099 MT<br />
Kim, In-Seong - 422 MT<br />
Kim, Jae-Jin - 1099 MT, 292 WTh<br />
Kim, Jenny - 370 MT<br />
Kim, Ji-woong - 759 MT<br />
Kim, Jieun - 1042 WTh, 1043 WTh, 1045 WTh,<br />
1075 WTh, 1049 WTh, 1080 WTh<br />
Kim, Jisun - 1091 WTh<br />
Kim, Joohan - 833 MT, 1114 MT<br />
Kim, Joong Il - 658 MT<br />
Kim, June Sic - 453 WTh, 458 WTh, 1077 WTh,<br />
127 WTh, 210 MT, 212 MT, 910 WTh, 949 WTh<br />
Kim, Jung-Hyun - 680 MT<br />
Kim, Junghoe - 69 mT<br />
Kim, Kio - 863 WTh, 865 WTh, 867 WTh, 897 WTh<br />
Kim, Kyung Hwan - 428 WTh<br />
Kim, Kyung Ran - 32 MT, 272 MT<br />
Kim, Momo - 293 WTh, 1098 mT<br />
Kim, Myung-Sun - 409 MT<br />
Kim, Pilyoung - 544 MT<br />
Kim, Sang Eun - 910 MT, 1064 WTh<br />
Kim, Sang Hee - 290 WTh<br />
Kim, Seung-Goo - 954 mT<br />
Kim, Sun I. - 32 MT, 92 MT, 272 MT, 422 WTh,<br />
482 WTh, 563 MT, 622 WTh, 680 MT, 681 MT,<br />
687 MT, 1099 MT<br />
Kim, Sung Nyun - 38 WTh, 42 WTh, 127 WTh<br />
Kim, Sungeun - 299 WTh, 305 WTh, 320 WTh,<br />
560 WTh<br />
Kim, Sunjung - 906 WTh<br />
Kim, Tae-Hoon - 1114 WTh<br />
Kim, Woochan - 277 WTh<br />
Kim, Yeongrang - 225 WTh<br />
Kim, Yong-Hwan - 743 mT<br />
Kim, Yu Kyeong - 150 WTh, 1064 WTh<br />
Kim, Yun-Hee - 9 mT, 172 WTh<br />
Kimball, Ariane - 998 WTh<br />
Kindt, Merel - 229 WTh<br />
King, Andrea - 53 mT<br />
King, Margaret - 351 WTh, 672 MT<br />
King-Casas, Brooks - 8 WTh, 1111 MT<br />
Kingsley, Peter - 655 MT, 958 WTh<br />
Kinreich, Sivan - 249 WTh, 1034 mT<br />
Kippenhan, Jonathan - 230 WTh, 265 WTh,<br />
345 MT, 327 WTh, 462 MT, 492 MT, 851 MT<br />
Kippenhan, Shane - 331 WTh<br />
Kipping, Judy - 935 mT<br />
Kiran, Swathi - 179 WTh<br />
Kiran, Swathi - 837 MT<br />
Kircheis, Gerald - 1010 MT<br />
Kircher, Tilo - 286 MT, 688 WTh, 811 MT,<br />
1078 MT, 307 WTh, 1087 MT<br />
Kirchheiner, Julia - 514 MT<br />
Kirilina, Evgeniya - 501 WTh<br />
Kirsch, Peter - 24 MT, 104 WTh, 189 WTh,<br />
229 mT, 1074 MT, 1106 MT<br />
Kirschbaum, Clemens - 130 MT<br />
Kirton, Adam - 206 MT<br />
Kiryu, Shigeru - 1006 MT, 1011 MT<br />
Kiser, Seth - 305 MT<br />
Kishida, Kenneth - 370 WTh<br />
Kishore, Asha - 913 WTh<br />
Kishore, Bhaskar - 690 MT<br />
Kitazaki, Michiteru - 905 WTh<br />
Kiviniemi, Vesa - 491 MT, 733 mT, 125 MT,<br />
231 MT<br />
KJ, John - 461 WTh<br />
Klahr, Kristin - 151 WTh<br />
Klatzky, Roberta - 1088 WTh<br />
Kleber, Boris - 946 WTh<br />
Kleiman, Alexandra - 52 WTh, 65 WTh, 68 WTh<br />
Klein, Arno - 993 WTh<br />
Klein, Christine - 45 WTh, 68 WTh<br />
Klein, Elise - 839 MT<br />
Klein, Johannes - 5 mT<br />
Klein, Julius - 21 MT<br />
Klein, Rachel - 173 MT<br />
Klein, Saskia - 513 MT<br />
Klein-Flügge, Miriam - 368 WTh<br />
Kleiner, Mario - 1028 WTh<br />
Kleiner, Melanie - 950 MT<br />
Kleinhans, Natalia - 120 mT<br />
Kleinnijenhuis, Michiel - 986 WTh<br />
Kleinschmidt, Andreas - 166 WTh<br />
Klemen, Jane - 994 mT<br />
Klengel, Torsten - 702 MT<br />
Klimesch, Wolfgang - 155 WTh, 1033 MT<br />
Kling, Ricarda - 323 MT<br />
Klingberg, Stefan - 140 WTh<br />
Klingberg, Torkel - 304 WTh<br />
Klingenberg, Bradley - 496 WTh, 656 MT<br />
Klinger, Nikolaus - 525 MT, 534 MT, 535 MT,<br />
643 MT, 1078 WTh<br />
Klomhaus, Alexandra - 264 MT<br />
Klomp, Anne - 530 mT<br />
Klöppel, Stefan - 135 MT<br />
Klose, Uwe - 855 WTh<br />
Kluge, Christian - 1059 MT<br />
Knake, Susanne - 618 WTh<br />
Knecht, Stefan - 575 MT, 876 MT<br />
Knegtering, Rikus - 88 WTh, 96 WTh<br />
Knobel, Mark - 173 WTh<br />
Knoch, Daria - 848 WTh<br />
Knösche, Thomas - 555 MT, 557 MT, 560 MT,<br />
564 mT, 601 WTh, 645 WTh<br />
Knott, Nichole - 153 MT, 159 MT<br />
Knowlton, Barbara - 873 MT<br />
Knudsen, Gitte - 336 MT, 562 MT<br />
Knyazeva, Maria - 38 MT, 79 MT, 730 WTh<br />
Ko, Deokwon - 428 WTh<br />
Ko, Ji Hyun - 1 WTh<br />
Ko, Li-Wei - 425 WTh<br />
Kobayashi, Ayumi - 238 MT, 259 MT<br />
Kobayashi, Eliane - 183 MT, 192 MT, 448 WTh,<br />
506 WTh<br />
Kober, Hedy - 240 WTh, 1060 MT<br />
Kober, Tobias - 621 MT<br />
Kobiella, Andrea - 323 MT, 324 mT, 405 MT,<br />
537 WTh<br />
Kocak, Orhan - 40 WTh<br />
Koch, Kathrin - 142 WTh<br />
Koch, Sabrina - 408 WTh<br />
Kochiyama, Takanori - 390 MT<br />
Kochs, Eberhard - 1024 MT, 1030 MT<br />
Kochunov, Peter - 296 WTh, 309 WTh, 312 WTh,<br />
691 mT, 874 WTh, 892 mT, 1040 mT<br />
Kochunov, Peter - 455 MT, 507 MT<br />
Kocienski-Filip, Marcia - 1043 MT<br />
Kodashima, Shinya - 923 MT<br />
Koeda, Michihiko - 277 WTh<br />
Koek, H-Dineke - 583 MT<br />
Koelsch, Stefan - 266 WTh<br />
Koenig, Katherine - 978 mT, 980 mT<br />
Koenig, Thomas - 14 MT, 494 WTh<br />
Koepp, Matthias - 178 MT, 180 MT<br />
Koeppel, Julie - 912 WTh<br />
Koh, Yuri - 127 WTh<br />
Kohannim, Omid - 70 MT, 314 WTh, 320 WTh,<br />
322 WTh<br />
Kohn, Nils - 269 WTh, 287 WTh<br />
Kohn, Philip - 47 WTh, 89 WTh, 239 MT, 327 WTh,<br />
492 MT, 534 WTh, 265 WTh, 345 MT, 386 MT,<br />
851 mT, 230 WTh, 331 WTh<br />
Kohno, Satoru - 529 WTh<br />
Koide, Yuri - 923 MT<br />
Koike, Takahiko - 904 MT<br />
Koizumi, Hideaki - 850 WTh<br />
Kojima, Shozo - 951 WTh<br />
Kolachana, Bhaskar - 89 WTh, 327 WTh,<br />
345 MT, 534 WTh, 90 WTh<br />
Bolded Poster numbers indicate first author.<br />
Kolbe, Scott - 190 WTh<br />
Koldewyn, Kami - 890 WTh<br />
Kollewe, Katja - 44 WTh<br />
Kompus, Kristiina - 98 WTh, 971 MT<br />
Kondo, Masaki - 73 MT<br />
Kondos, Leeza - 412 WTh<br />
Kondra, Shripad - 210 WTh<br />
Kong, Danyang - 1003 mT<br />
Kong, EunJung - 797 MT<br />
Kong, Jian - 1054 WTh<br />
Kong, Li - 147 WTh<br />
Kong, Yazhuo - 899 WTh<br />
Kongolo, Guy - 508 WTh<br />
Konishi, Yukuo - 799 MT<br />
Kono, Satoshi - 56 WTh<br />
Konova, Anna - 139 WTh<br />
Konovalov, Rodion - 944 WTh<br />
Konrad, Stephan - 847 WTh<br />
Konvalinka, Ivana - 1085 mT<br />
Kopell, Brian - 701 MT<br />
Koponen, Hannu - 231 MT<br />
Koppelmans, Vincent - 200 WTh<br />
Koppelstätter, Florian - 534 MT, 1078 WTh<br />
Korczykowski, Marc - 177 MT<br />
Korenkevych, Dmitriy - 749 MT, 758 MT<br />
Kornelsen, Jennifer - 612 mT, 246 WTh<br />
Kornhuber, Johannes - 84 MT<br />
Korolev, Igor - 55 MT<br />
Kortekaas, Rudie - 310 WTh<br />
Kosaka, Hirotaka - 390 MT, 1101 MT<br />
Koschutnig, Karl - 408 WTh, 851 WTh<br />
Koscik, Rebecca - 34 MT<br />
Kosek, Eva - 413 MT<br />
Koski, Lisa - 30 MT<br />
Kosofsky, Barry - 169 MT<br />
Kosofsky, Barry - 172 MT<br />
Kostova, Miléna - 1097 WTh<br />
Kota, Srinivas - 1035 MT<br />
Kotani, Yasunori - 1006 MT, 1011 mT<br />
Kotchoubey, Boris - 299 MT, 838 MT<br />
Kotkar, Ashwini - 108 WTh<br />
Kotozaki, Yuka - 191 WTh, 865 MT, 887 WTh<br />
Kotz, Sonja - 807 WTh<br />
Kovacevic, Natasa - 295 WTh, 877 WTh, 880 MT,<br />
907 MT, 631 WTh, 1084 MT, 749 WTh<br />
Kovacs, Peter - 333 WTh<br />
Kowalski, Matthieu - 445 WTh<br />
Koyama, Maki - 779 WTh<br />
Koychev, Ivan - 119 WTh<br />
Kozasa, Elisa - 406 mT<br />
Krach, Sören - 52 MT, 307 WTh, 506 MT, 1078 MT<br />
Kraemer, Bernd - 847 WTh<br />
Kraemer, Matthias - 178 WTh, 466 mT<br />
Kraft, Robert - 391 MT, 614 MT<br />
Kragel, Philip - 844 MT<br />
Kraguljac, Nina - 109 WTh<br />
Krakovska, Olga - 628 WTh<br />
Kramer, Art - 343 WTh, 370 MT<br />
Kramer, Joel - 62 MT, 83 MT<br />
Krämer, Julia - 392 WTh<br />
Kramer, Larry - 733 WTh<br />
Kranz, Georg - 535 WTh<br />
Kraus, Christoph - 235 MT, 260 MT, 535 WTh<br />
Kraut, Michael - 895 MT<br />
Krauthamer, Michael - 454 MT, 537 MT, 599 MT<br />
Kravitz, Dwight - 1083 WTh<br />
Krebber, Martin - 634 WTh<br />
Krebs, Lena - 323 MT<br />
Kreifelts, Benjamin - 243 WTh, 245 WTh,<br />
260 WTh, 288 WTh<br />
Kremen, William - 325 WTh<br />
Kremneva, Elena - 944 WTh<br />
Kremser, Christian - 601 MT<br />
Krieger, Steffen - 792 mT<br />
Kriegeskorte, Nikolaus - 663 MT, 1103 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 201
Krikorian, Robert - 60 MT<br />
Krishna, Anitha - 489 MT<br />
Krishnan, Anjali - 657 WTh<br />
Kroeher, Bianca - 175 MT<br />
Kroemer, Nils - 323 mT, 324 MT<br />
Krohn, Kenneth - 554 MT<br />
Kronbichler, Martin - 136 MT, 139 MT, 534 MT,<br />
1018 MT, 1078 WTh<br />
Krone, Franziska - 130 MT<br />
Kronenberger, William - 607 WTh, 970 WTh<br />
Kropf, Pascal - 549 WTh<br />
Kross, Ethan - 240 WTh<br />
Krotenkova, Marina - 944 WTh<br />
Krott, Andrea - 823 WTh<br />
Krueger, Frank - 1115 mT<br />
Krueger, Robert - 737 MT<br />
Krug, Axel - 52 MT, 140 WTh, 307 WTh,<br />
506 MT, 523 MT<br />
Kruger, Frank - 228 WTh<br />
Krumbholz, Katrin - 1008 WTh, 1013 WTh<br />
Ku, Jeonghun - 32 MT, 272 MT, 422 WTh<br />
Kuang, Weihong - 273 MT, 280 MT<br />
Kubat, Jessica - 349 MT<br />
Kubicki, Marek - 601 MT, 306 MT<br />
Kübler, Andrea - 907 WTh<br />
Kuchinke, Lars - 255 WTh, 266 WTh<br />
Kucyi, Aaron - 974 mT<br />
Kuehn, Esther - 1061 mT<br />
Kuenecke, Janina - 14 MT<br />
Kugel, Harald - 188 mT, 219 MT, 392 WTh,<br />
575 MT, 616 WTh<br />
Kuhlen, Torsten - 958 MT<br />
Kühn, Simone - 452 MT, 459 MT, 536 mT<br />
Kühner, Christine - 229 MT<br />
Kujala, Jan - 451 WTh, 718 WTh<br />
Kullmann, Stephanie - 326 MT, 332 mT<br />
Kumar, Krishan - 210 WTh<br />
Kumar, Vinod - 995 WTh<br />
Kumari, Veena - 180 MT<br />
Kundu, Prantik - 683 WTh, 725 WTh, 942 WTh,<br />
490 mT, 696 WTh<br />
Kunimatsu, Akira - 923 MT<br />
Künnecke, Basil - 552 WTh<br />
Kuntsi, Jonna - 161 MT, 346 MT<br />
Kuo, Braden - 1042 WTh, 1063 WTh<br />
Kuo, Li-Wei - 444 MT, 481 WTh<br />
Kuo, Wen-Jui - 475 MT, 715 WTh, 479 MT<br />
Kupers, Ron - 1069 WTh<br />
Kuriki, Shinya - 147 MT<br />
Kuroda, Yasufumi - 531 WTh<br />
Kurth, Florian - 108 mT, 199 WTh<br />
Kurup, Pradeep - 26 WTh, 939 MT<br />
Kushan, Leila - 91 WTh<br />
Kussé, Caroline - 570 WTh<br />
Küsters, Benno - 986 WTh<br />
Kutschke, Georg - 602 MT<br />
Kutz, Amanda - 274 WTh, 912 MT<br />
Kveraga, Kestas - 257 WTh, 1090 WTh<br />
Kwak, Ki-Chang - 687 mT<br />
Kwakkel, Gert - 915 MT<br />
Kwiatek, Richard - 1056 WTh, 1061 WTh<br />
Kwok, Ka-Wai - 523 WTh, 530 WTh<br />
Kwon, Hun-Ki - 622 WTh<br />
KWON, HYEOK GYU - 606 MT, 624 WTh<br />
Kwon, Jae-Hyung - 422 MT<br />
Kwon, Jun Soo - 38 WTh, 42 WTh, 127 WTh,<br />
125 WTh<br />
Kwon, Oh-Hun - 563 mT<br />
KWON, YONG HYUN - 606 MT, 624 WTh<br />
Kyeong, Sung-Hyon - 292 WTh<br />
Kyeong, Sunghyon - 771 WTh, 1103 MT<br />
202 HBM 2011 >> <strong>abstracts</strong><br />
l<br />
L Dansereau, Christian - 726 WTh<br />
La Corte, Valentina - 856 mT<br />
La Joie, Renaud - 850 MT<br />
La Rue, Asenath - 34 MT<br />
Laaksonen, Hannu Mikael - 451 WTh<br />
Labus, Jennifer - 282 WTh, 1046 WTh<br />
Lacadie, Cheryl - 986 MT<br />
Lacerda, Shirley - 406 MT<br />
Lachaux, Jean-Philippe - 419 WTh, 656 WTh,<br />
993 MT, 1001 MT, 1012 MT<br />
Lacombe, Jacinthe - 829 mT, 82 MT<br />
LaConte, Stephen - 343 WTh, 550 WTh, 649 MT<br />
LaCount, Lauren - 1042 WTh<br />
Ladd, D. Robert - 1014 WTh<br />
Ladd, Mark - 740 MT<br />
Ladoucer, Cecile - 265 MT<br />
Ladouceur, Cecile - 170 MT<br />
Ladurner, Gunther - 1018 MT<br />
Lage-Castellanos, Agustín - 559 WTh<br />
Laguë-Beauvais, Maude - 514 WTh<br />
Laguitton, Soizic - 360 WTh<br />
Lahna, David - 3 WTh<br />
Lahnakoski, Juha - 414 mT<br />
Lahti, Adrienne - 105 WTh, 109 WTh, 112 WTh,<br />
136 WTh<br />
Lahti, Adrienne - 121 WTh<br />
LaHue, Sara - 963 MT<br />
Lai, Chia-Chi - 789 WTh<br />
Lai, Meng-chuan - 761 MT<br />
Lainhart, Janet - 102 MT<br />
Laird, Angela R. - 92 WTh, 367 MT, 659 MT,<br />
727 WTh, 747 WTh, 824 WTh, 842 WTh,<br />
919 WTh, 933 WTh, 966 WTh, 352 WTh,<br />
736 WTh, 1077 MT<br />
Laje, Gonzalo - 321 WTh<br />
Lakis, Nadia - 117 WTh, 143 WTh, 144 WTh,<br />
138 WTh<br />
Lalancette, Marc - 660 WTh, 390 WTh<br />
Lalanne, Christophe - 316 WTh<br />
Lalonde, Francois - 679 WTh, 465 MT<br />
Lalor, Edmund - 957 WTh<br />
Lalys, Florent - 474 WTh<br />
LAMALLE, Laurent - 804 WTh, 819 WTh,<br />
936 WTh<br />
LAMARE, Frederic - 67 WTh<br />
Lambert, Christian - 949 mT<br />
Lamichhane, Bidhan - 389 WTh<br />
Lamm, Claus - 1089 MT<br />
Lamme, Victor - 1071 MT<br />
Lancaster, Jack - 15 MT, 29 MT, 309 WTh,<br />
691 MT, 892 MT, 933 WTh, 947 WTh, 352 WTh<br />
Lancaster, Melissa - 42 MT<br />
Landeau, Brigitte - 430 MT, 850 MT<br />
Landeira-Fernandez, Jesus - 378 MT<br />
Landgraf, Rainer - 536 MT<br />
Landman, Bennett - 764 MT, 895 MT<br />
Landsness, Eric - 1032 MT<br />
Landwehrmeyer, Bernhard - 55 WTh<br />
Laneri, Davide - 618 WTh, 595 MT<br />
Lanfermann, Heinrich - 1070 MT<br />
Lang, Donna - 28 WTh<br />
Lang, Simone - 299 MT, 838 MT<br />
Langbein, kerstin - 135 WTh, 747 MT<br />
Lange, Elisabeth - 129 WTh, 94 WTh<br />
Lange, Joachim - 454 WTh, 1023 WTh,<br />
1068 WTh<br />
Lange, Nicholas - 102 MT<br />
Langer, Christian - 1089 MT<br />
Langer, Nicolas - 848 WTh<br />
Langeslag, Sandra - 405 WTh<br />
Langner, Robert - 367 MT, 689 WTh, 987 mT,<br />
1009 WTh, 1031 MT, 1072 MT<br />
Langs, Georg - 717 WTh<br />
Lanoë, Céline - 1094 WTh<br />
Lanting, Cris - 1008 WTh<br />
Lantz, Goran - 442 WTh<br />
Lanzenberger, Rupert - 235 MT, 260 MT,<br />
274 MT, 535 WTh<br />
Lappe, Markus - 454 WTh<br />
LaPresto, Eric - 945 MT<br />
Larcher, Kevin - 327 MT, 328 MT<br />
Large, Edward - 437 MT<br />
LaRosa, Nina - 537 MT<br />
Larson, Charles - 816 WTh<br />
Larson-Prior, Linda - 1038 MT<br />
Larsson, Henrik - 1069 WTh<br />
Larsson, Mats - 1046 WTh<br />
Lassonde, Maryse - 311 MT, 882 WTh, 896 WTh,<br />
1025 WTh, 186 MT, 515 WTh, 803 MT<br />
Lathrop, Mark - 252 WTh, 321 MT, 337 MT,<br />
352 MT, 957 WTh<br />
Latinus, Marianne - 1027 WTh, 1032 WTh,<br />
1073 MT<br />
Latta, Peter - 471 WTh, 612 MT<br />
Lau, Chris - 336 WTh<br />
Lau, Wendy - 91 WTh<br />
Laufer, Ilan - 986 mT<br />
Lauharatanahirun, Nina - 8 WTh, 1111 mT<br />
Laumann, Timothy - 984 WTh<br />
Laureiro-Martínez, Daniella - 393 WTh<br />
Laureys, Steven - 303 MT, 431 WTh, 773 MT,<br />
1015 WTh, 1016 MT, 1017 MT, 1019 MT,<br />
1025 MT, 1028 MT, 1032 MT<br />
Laurienti, Paul - 724 WTh, 762 WTh, 774 WTh<br />
Lauritzen, Martin - 1069 WTh<br />
Lauwick, Severine - 1019 MT, 1025 MT<br />
Lavarenne, Anais - 756 WTh<br />
Laverdure-Dupont, Danièle - 114 WTh<br />
Lavigne, Katie - 399 WTh<br />
Lavini, Cristina - 469 WTh<br />
LaViolette, Peter - 209 MT<br />
Lavoie, Marc - 117 WTh, 143 WTh<br />
Lavoie, Suzie - 126 WTh<br />
Lavrador, Rui - 671 WTh<br />
Law, Ian - 1069 WTh<br />
Lawrence, Andrew - 128 WTh, 281 MT<br />
Lawrence, Natalia - 246 MT<br />
Lawson, Katherine - 107 MT<br />
Lax, Ilyse - 412 mT<br />
Laycock, Robin - 1000 MT, 1107 WTh<br />
Lazeron, Richard - 193 MT<br />
Lazeyras, Francois - 435 MT, 438 MT<br />
Le, Vu - 789 MT<br />
Le Bas, Jean-François - 1111 WTh<br />
Le Bihan, Denis - 608 MT, 613 MT<br />
Le Floch, Edith - 316 WTh, 623 WTh<br />
Le Troter, Arnaud - 615 MT, 686 mT<br />
Leahy, Richard - 627 MT, 644 WTh, 962 WTh<br />
Leal, Alberto - 211 MT, 485 WTh, 684 WTh<br />
Lebel, Catherine - 171 mT, 191 MT, 593 WTh,<br />
873 WTh, 141 MT<br />
Leblond, Hugues - 512 WTh<br />
Lebreton, Mael - 382 WTh<br />
Leckman, James - 544 MT<br />
Leclerc, Paul-Olivier - 500 WTh, 1045 MT<br />
Leclercq, Yves - 627 WTh<br />
Ledbetter, Christina - 930 mT<br />
Leder, Helmut - 266 WTh<br />
Lederman, Carl - 623 MT, 625 mT<br />
Ledoux, Didier - 1028 MT<br />
Lee, Ah-Hee - 9 MT<br />
Lee, Buyean - 371 MT<br />
Lee, Changkyu - 336 WTh<br />
Lee, Dong Gyu - 607 MT<br />
Lee, Dong Hoon - 975 mT, 979 mT, 983 mT
Lee, Dong Soo - 150 WTh, 641 WTh, 669 MT,<br />
670 MT, 676 WTh, 855 MT, 959 WTh,<br />
1020 WTh, 1022 WTh<br />
Lee, Dong-Kyun - 681 mT, 687 MT<br />
Lee, Dongha - 658 mT, 1103 MT<br />
Lee, Donghwan - 676 WTh<br />
Lee, Eun - 32 MT, 272 MT<br />
Lee, Eunae - 293 WTh, 1098 MT<br />
Lee, Gwan-taek - 428 WTh<br />
Lee, Hae-Woo - 150 WTh<br />
Lee, Hsu-Lei - 704 WTh<br />
Lee, Hyekyoung - 669 mT, 670 mT, 641 WTh<br />
Lee, Hyeongrae - 32 MT, 272 mT, 422 WTh,<br />
1099 MT<br />
Lee, Hyo-Jeong - 1020 WTh, 1022 WTh<br />
Lee, Jae Sung - 150 WTh<br />
Lee, Je Yeon - 32 mT, 272 MT, 1099 MT<br />
Lee, Jeungchan - 1080 WTh<br />
Lee, Jing-Huei - 557 WTh<br />
Lee, Jong Doo - 74 WTh, 75 WTh, 597 MT<br />
Lee, Jong Min - 681 MT<br />
Lee, Jong-Hwan - 69 MT, 743 MT<br />
Lee, Jong-Min - 92 MT, 482 WTh, 563 MT,<br />
622 WTh, 680 MT, 687 MT<br />
Lee, Jongho - 444 mT, 457 mT<br />
Lee, Jungsoo - 619 WTh<br />
Lee, Junki - 883 WTh<br />
Lee, Kangjoo - 482 mT<br />
Lee, Kwang-Hyuk - 19 MT, 716 MT<br />
Lee, Kyoung-Uk - 291 WTh<br />
Lee, Mary - 939 MT<br />
Lee, Mi Young - 547 MT, 606 MT, 624 WTh<br />
Lee, mi-young - 1079 WTh<br />
Lee, Mijin - 1013 MT<br />
Lee, Myung Chul - 150 WTh<br />
Lee, Phil Hyu - 74 WTh<br />
Lee, Pin-Shiuan - 553 WTh<br />
Lee, Po-Lei - 650 WTh, 433 WTh, 904 WTh,<br />
908 WTh<br />
Lee, Po-Yih - 1117 mT<br />
Lee, Roland - 301 MT<br />
Lee, Sang Kun - 959 WTh<br />
Lee, Sangick - 225 WTh<br />
Lee, Sangkyun - 235 WTh, 383 WTh<br />
Lee, Seungbok - 225 WTh, 293 WTh, 1098 MT<br />
Lee, Shin-Yi - 430 WTh<br />
Lee, Sue-Hyun - 1083 WTh<br />
Lee, Suh - 193 WTh<br />
Lee, Sung-en - 833 mT<br />
Lee, Susan - 807 mT<br />
Lee, Wayne - 412 MT, 845 WTh, 735 MT<br />
Lee, Ying - 568 WTh<br />
Lee, Youngjo - 676 WTh<br />
Lee, Yunjo - 889 MT<br />
Leemans, Alexander - 583 MT, 592 MT<br />
Leenders, Klaus - 57 WTh, 948 WTh<br />
Lefebvre, Christine - 852 WTh, 844 WTh<br />
Lefebvre, Francine - 896 WTh<br />
Lefebvre, Philippe - 1015 WTh<br />
Lefèvre, Julien - 615 MT<br />
Leff, Alexander - 545 WTh<br />
Leff, Daniel - 521 WTh, 523 WTh, 530 WTh,<br />
1008 MT, 1109 WTh<br />
LeFloch, Edith - 317 WTh<br />
Le<strong>for</strong>t, Muriel - 898 MT<br />
Lefrançois, Mélanie - 515 WTh, 896 WTh<br />
Legon, Wynn - 183 WTh<br />
Legrand, Lore - 279 WTh<br />
Leh, Sandra Evelyne - 61 WTh<br />
Leh-Seal, Sandra - 941 WTh<br />
Lehembre, Rémy - 773 MT<br />
Lehéricy, Stéphane - 27 MT, 45 WTh, 59 WTh,<br />
69 WTh, 184 WTh, 492 WTh, 702 WTh,<br />
930 WTh<br />
Lehmann, Manja - 51 MT<br />
Lehrner, Johann - 77 WTh<br />
Leib, Adi - 816 MT<br />
Leicht, Gregor - 375 MT, 410 MT, 103 WTh<br />
Leiguarda, Ramon - 118 MT, 558 MT<br />
Leijten, Frans - 179 MT<br />
Lein, Ed - 336 WTh<br />
Leite, Marco - 211 mT, 485 WTh<br />
Leland, M. Michelle - 15 MT<br />
Lemaitre, Herve - 329 WTh, 693 MT<br />
Lemaréchal, Jean-Didier - 856 MT<br />
Lemay, Etienne - 448 WTh<br />
Lemelin, Sophie - 1060 WTh<br />
Lemieux, Louis - 208 MT, 634 MT, 718 MT<br />
Lemieux, Susan - 763 WTh<br />
Lemire-Rodger, Sabrina - 418 MT<br />
Lemonnier, Eric - 112 MT, 121 MT<br />
Lemos, Raquel - 67 MT<br />
Lenglet, Christophe - 568 MT, 572 MT,<br />
597 WTh, 609 WTh<br />
Lenroot, Rhoshel - 465 MT<br />
Leonard, Gabriel - 295 WTh, 306 WTh<br />
Leonard, Guillaume - 26 MT<br />
Leonhard, Christine - 551 WTh<br />
Leoni, Chiara - 1065 WTh<br />
Leow, Alex - 269 MT, 572 MT, 578 MT<br />
Lepage, Claude - 361 WTh, 226 MT, 873 WTh<br />
Lepage, Martin - 146 WTh, 863 MT<br />
Lepore, Franco - 186 MT, 276 MT, 515 WTh,<br />
803 MT, 896 WTh, 1014 MT, 1025 WTh<br />
Lepore, Natasha - 948 MT, 966 MT, 997 WTh<br />
Lepore, Natasha - 319 WTh<br />
Leppert, Ilana - 175 WTh<br />
Lepsien, Joeran - 333 WTh, 720 MT, 847 WTh,<br />
977 MT<br />
Lerch, Jason - 123 MT, 132 WTh, 653 WTh,<br />
676 MT<br />
LERITZ, ELIZABETH - 16 WTh, 891 mT<br />
Leroux, Gaëlle - 1094 WTh<br />
Leroux, Jean-Maxime - 614 WTh<br />
Lesage, Elise - 1083 MT<br />
Lesage, Frédéric - 186 MT, 414 WTh,<br />
512 WTh, 514 WTh<br />
Lesch, Klaus-Peter - 551 WTh<br />
Lesser, Iris - 998 WTh<br />
Lester, Barry - 169 MT, 172 MT<br />
Leube, Dirk - 93 MT, 1108 MT<br />
Leung, Alex - 106 WTh<br />
Leung, Rachel - 257 MT<br />
Leunissen, Inge - 298 mT, 300 MT<br />
Leuthold, Hartmut - 1107 MT<br />
Leuze, Christoph - 982 WTh<br />
LeVan, Pierre - 488 mT<br />
Leventhal, Bennet - 343 WTh<br />
Leverenz, Larry - 307 MT<br />
Levin, Harvey - 316 MT<br />
Levitin, Daniel - 797 WTh<br />
Levitt, Jennifer - 108 MT, 199 WTh<br />
Levy, Michael - 301 MT<br />
Levy, Ory - 39 mT<br />
Lew, Seok - 449 WTh<br />
Lewis, John - 959 mT<br />
Leybaert, Jacqueline - 800 WTh<br />
Leyton, Marco - 327 MT<br />
Li, Ang - 1075 WTh<br />
Li, Bian - 770 WTh<br />
Li, Chia-Wei - 499 WTh<br />
Li, Fei - 273 MT<br />
Li, Hua - 502 WTh<br />
Li, Juan - 45 MT, 921 mT<br />
Li, Kai-Chiun - 988 mT<br />
Li, Kuncheng - 972 WTh, 75 MT, 712 MT<br />
Li, Li Min - 1042 MT<br />
Li, Lingjiang - 230 MT, 278 MT<br />
Li, Meng - 884 WTh<br />
Li, Shi-Jiang - 701 MT<br />
Bolded Poster numbers indicate first author.<br />
Li, Shu - 396 WTh<br />
Li, Shu-Chen - 301 WTh<br />
Li, Shumei - 976 WTh, 968 WTh, 978 WTh,<br />
517 MT<br />
Li, Sufang - 491 MT<br />
Li, Tao - 981 MT<br />
Li, Tie-Qiang - 151 MT, 961 WTh, 1024 WTh<br />
Li, Wei - 269 MT<br />
Li, Wenjing - 884 WTh<br />
Li, Xiaobo - 998 WTh<br />
Li, Yiou - 154 mT, 963 mT<br />
Li, Yonghui - 298 WTh<br />
Li, Zhengjun - 63 MT<br />
Li, Zhihao - 724 MT<br />
Liang, Dongmei - 89 mT<br />
Liang, Keng-Chen - 1104 MT<br />
Liao, Lun-De - 425 WTh<br />
Liao, Wei - 745 MT<br />
Liao, Yi - 230 MT, 278 MT<br />
Libedinsky, Camilo - 154 WTh<br />
Liberati, Giulia - 906 WTh<br />
Liberzon, Israel - 291 WTh, 11 WTh<br />
Libon, David - 650 MT<br />
Licata, Stephanie - 1054 MT<br />
Lieb, Klaus - 135 MT<br />
Liebenthal, Einat - 633 MT, 794 WTh<br />
Lieberman, Gregory - 537 mT, 599 mT<br />
Lieberman, Matthew - 509 MT<br />
Lieder, Falk - 539 WTh<br />
Liefooghe, Baptist - 408 MT<br />
Liem, Esmee - 916 WTh<br />
Liemburg, Edith - 88 WTh<br />
Liemburg, Etith - 96 WTh<br />
Liettu, Anu - 231 MT<br />
Lightbody, Amy - 160 MT<br />
Liljeström, Mia - 451 WTh, 718 WTh<br />
Lim, Eun bi - 1114 MT<br />
Lim, Kelvin - 302 MT<br />
Lim, Manyoel - 1077 WTh<br />
Lim, Vanessa - 965 MT<br />
Lin, Chia-shu - 1039 WTh<br />
Lin, Chien-Ho Janice - 873 mT<br />
Lin, Chin-Teng - 425 WTh<br />
Lin, Ching-Po - 14 WTh, 40 MT, 355 MT, 576 WTh,<br />
682 MT, 980 WTh, 1001 WTh, 1036 WTh<br />
Lin, Chongde - 553 MT<br />
Lin, Fa-Hsuan - 715 WTh, 751 WTh, 82 WTh,<br />
475 MT, 479 MT, 985 MT<br />
Lin, Henry - 394 WTh, 991 WTh<br />
Lin, Jack - 214 MT<br />
Lin, Jian - 978 MT, 980 MT<br />
Lin, Ker-Neng - 40 MT<br />
Lin, Mei-hsiang - 291 MT<br />
Lin, Qixiang - 976 WTh<br />
Lin, Sarah Yao - 845 WTh<br />
Lin, Wei-Che - 14 WTh, 1001 WTh<br />
Lin, Weili - 685 WTh<br />
Lin, Xiaodi - 316 MT<br />
Lin, Xiaodong - 729 WTh<br />
Lin, Yu-Ching - 158 WTh<br />
Lin, Yuan-Pin - 585 WTh<br />
Lin, Yung-Yang - 887 MT, 900 MT<br />
Lin Yao, Sarah - 412 MT<br />
Lina, Jean-Marc - 176 MT, 183 MT, 435 WTh,<br />
506 WTh, 448 WTh<br />
Lincoln, Samantha - 17 WTh<br />
Linden, David - 54 MT<br />
Lindenberg, Robert - 12 mT, 160 WTh<br />
Lindenberger, Ulman - 301 WTh<br />
Lindquist, Martin - 731 WTh<br />
Lindsay, Lewis - 1101 WTh<br />
Lindsell, Christopher - 825 MT<br />
Lingrand, Diane - 346 WTh<br />
Linke, Annika - 417 mT<br />
Linke, Julia - 53 MT<br />
HBM 2011 >> <strong>abstracts</strong> 203
Linkenkaer-Hansen, Klaus - 384 MT, 636 WTh<br />
Linn, Sabine - 469 WTh<br />
Linotte, Sylvie - 137 MT<br />
Liou, H H - 197 MT<br />
Liou, Michelle - 461 MT, 750 MT<br />
Lippe, Sarah - 614 WTh<br />
Lipsitz, Lewis - 532 MT, 891 MT<br />
Liptrot, Matthew - 564 MT<br />
Lirng, Jiing-Feng - 40 MT<br />
Lisinski, Jonathan - 649 mT<br />
Litvak, Vladimir - 1017 MT<br />
Liu, Bing - 298 WTh<br />
Liu, Bo - 517 MT<br />
Liu, C-C. - 586 MT<br />
Liu, C-M. - 586 MT<br />
Liu, Chao - 950 WTh, 1094 MT<br />
Liu, Chen-Chung - 82 WTh, 110 WTh, 574 MT<br />
Liu, Cheng - 934 WTh<br />
Liu, Chih-Min - 110 WTh, 82 WTh, 574 MT<br />
Liu, Ci-Rong - 888 WTh<br />
Liu, Collin - 489 mT<br />
Liu, Dongqiang - 487 WTh, 491 MT, 746 mT<br />
Liu, Guoxiang - 610 mT<br />
Liu, Hesheng - 211 WTh, 712 MT<br />
Liu, Ho-Ling - 789 WTh<br />
LIU, JIE - 169 mT<br />
Liu, Jieqiong - 86 MT<br />
Liu, Jingyu - 87 WTh, 324 WTh<br />
Liu, Krystal - 994 WTh<br />
Liu, Li-Ting - 573 mT<br />
Liu, Min - 174 mT, 191 mT<br />
Liu, Shuwei - 973 WTh<br />
Liu, Thomas - 301 MT, 348 WTh, 713 MT<br />
Liu, Timon Cheng-Yi - 89 MT<br />
Liu, Wei - 308 MT, 297 MT<br />
Liu, Xian - 517 MT<br />
Liu, Xinmin - 321 WTh<br />
Liu, Yaou - 972 WTh<br />
Liu, Yijun - 745 MT, 749 MT, 758 MT<br />
Liu, Yong - 80 MT, 87 mT<br />
Liu, Zhongming - 481 WTh, 701 WTh<br />
Livingston, Leslie - 51 WTh<br />
Liye, Yi - 78 mT<br />
Lloyd, William - 272 WTh<br />
Lloyd-Fox, Sarah - 507 WTh<br />
Llufriu, Sara - 689 MT<br />
Lo, Albert - 700 MT<br />
Lo, Chun-Che - 933 MT<br />
Lo, Chun-Yi - 980 WTh<br />
Lo, Yu-Chun - 561 MT<br />
Lobanov, Oleg - 774 WTh<br />
Lobmaier, Janek - 272 WTh<br />
Locascio, Joseph - 763 MT<br />
Lockwood, Julie - 366 MT<br />
Loevenbruck, Hélène - 130 WTh<br />
Loggia, Marco - 1049 WTh, 1054 WTh<br />
Lohmann, Gabriele - 359 WTh, 415 MT, 478 MT,<br />
555 MT, 660 MT, 694 WTh, 703 MT, 703 WTh,<br />
720 mT, 875 WTh<br />
Lohrenz, Terry - 370 WTh<br />
Loiotile, Rita - 1054 WTh<br />
Lomakina, Ekaterina - 366 WTh, 369 WTh, 545<br />
WTh, 1039 WTh, 646 mT<br />
Lombardo, Lauren - 455 MT<br />
Lombardo, Michael - 761 MT<br />
Lomena, Francisco - 139 WTh<br />
London, Edythe - 371 MT, 943 MT<br />
Long, Christopher - 536 WTh<br />
Long, Xiangyu - 170 WTh, 758 WTh<br />
Longcamp, Marieke - 783 WTh, 931 WTh<br />
Lonnqvist, Jouko - 251 MT<br />
Looi, Jeffrey - 996 WTh<br />
Lopes, Renaud - 176 mT<br />
Lopes da Silva, Fernando - 915 MT<br />
Lopez, Grisel - 47 WTh<br />
204 HBM 2011 >> <strong>abstracts</strong><br />
Lopez, Oscar - 636 MT<br />
LOPEZ, Regis - 157 WTh<br />
Lopez Sola, Marina - 32 WTh, 33 WTh,<br />
37 WTh, 39 WTh, 258 mT<br />
Lopez-Larson, Melissa - 156 MT, 764 WTh<br />
López-Solà, Marina - 213 WTh, 255 MT<br />
López-Titla, Maria - 576 mT<br />
Lord, Anton - 220 MT<br />
Lord, Catherine - 852 MT, 110 MT<br />
Lorenz, Anke - 53 MT<br />
Lorenz, Robert - 867 MT<br />
Lori, Nicolás - 330 WTh, 671 WTh, 893 WTh<br />
Lortie, Anne - 882 WTh<br />
Losak, Jan - 535 WTh<br />
Loth, Eva - 252 WTh, 321 MT, 333 MT, 337 MT,<br />
352 MT, 877 WTh, 957 WTh, 1084 MT<br />
Lotze, Martin - 260 WTh, 433 MT, 1047 WTh<br />
Loughead, James - 137 WTh<br />
Loui, Psyche - 431 mT<br />
Lourdusamy, Anbarasu - 252 WTh, 306 WTh,<br />
957 WTh<br />
Love, Maia - 28 WTh<br />
Love, Tiffany - 226 WTh<br />
Lowe, Jean - 866 WTh<br />
Lowe, Mark - 50 WTh, 569 MT, 596 mT, 960 MT,<br />
978 MT, 980 MT<br />
Lowen, Steven - 1054 MT<br />
Lowery, Curtis - 452 WTh<br />
Lozier, Leah - 107 MT<br />
Lu, Chiu-Ping - 789 WTh<br />
Lu, Hanzhang - 582 mT, 864 mT, 148 WTh<br />
Lu, Jason - 557 WTh<br />
Lu, Jie - 712 mT<br />
Lu, Min - 968 WTh, 978 WTh<br />
Lu, Yen-Ju - 904 WTh<br />
Lua, Rui-Ping - 909 MT<br />
Lubin, Amélie - 1094 WTh<br />
Lubin, Gad - 320 MT<br />
Lubrich, Oliver - 787 WTh<br />
Luby, Joan - 222 MT, 244 MT, 250 MT<br />
Lüchinger, Rafael - 494 WTh, 772 WTh<br />
Luciana, Monica - 232 WTh<br />
Luck, David - 863 mT, 146 WTh<br />
Luckhaus, Christian - 84 MT<br />
Luders, Eileen - 251 MT, 573 WTh, 982 mT<br />
Lüders, Hans - 945 MT<br />
Ludolph, Albert - 699 MT, 972 MT<br />
Lueken, Ulrike - 241 MT, 286 MT<br />
Luetzkendorf, Ralf - 557 MT, 588 mT<br />
Luh, Wen-Ming - 490 MT, 683 WTh, 696 WTh,<br />
630 mT<br />
Luh, Wenming - 776 MT<br />
Lührs, Michael - 353 WTh, 902 WTh<br />
Lui, Fausta - 923 WTh<br />
Lui, Su - 242 mT, 273 MT<br />
Luigjes, Judy - 341 MT<br />
Luijten, Maartje - 9 WTh<br />
Luijten, Peter - 477 MT, 1041 MT<br />
Luk, Gigi - 372 mT<br />
Lukas, Scott - 1054 MT<br />
Lukasova, Katerina - 531 mT<br />
Lukic, Ana - 37 MT<br />
Lull, Juan J - 317 MT, 642 mT<br />
Lull, Nuria - 317 mT, 642 MT<br />
Luna, Beatriz - 128 MT, 129 MT, 170 MT, 343<br />
WTh, 387 MT, 872 WTh<br />
Luna, Guillermo - 1015 MT<br />
Lund, Torben - 835 MT<br />
Lundberg, Peter - 1046 WTh<br />
Lundervold, Arvid - 886 MT<br />
Lundervold, Astri - 886 MT<br />
Lundstrom, Johan - 1014 MT<br />
Luo, Yue-Jia - 950 WTh, 1094 MT<br />
Luo, Yuejia - 518 MT<br />
Lupien, Sonia - 852 MT<br />
Lussanet, Marc - 454 WTh<br />
Lutti, Antoine - 949 MT<br />
Lutz, Jürgen - 375 MT<br />
Lux, Silke - 893 MT<br />
Luxen, Andre - 289 MT<br />
Lv, Bin - 884 WTh<br />
Lv, Xueyu - 981 MT<br />
Lv, Yating - 170 WTh<br />
Ly, Martina - 378 WTh<br />
Ly, Ryan - 416 WTh<br />
Lyons, Ian - 233 mT<br />
Lyons, Michael - 325 WTh<br />
Lytaev, Sergey - 900 WTh<br />
Lyttelton, Oliver - 361 WTh, 596 WTh<br />
m<br />
Ma, Liangsuo - 733 WTh, 830 WTh<br />
Ma, Qingfeng - 712 MT<br />
Ma, Yan - 995 MT<br />
Ma, Yilong - 655 mT, 958 WTh<br />
Ma, Yina - 1064 MT<br />
Ma, Yuanye - 888 WTh<br />
Maarouf, Mohammad - 5 MT<br />
Maayan, Larry - 343 WTh<br />
Maby, Emmanuel - 402 MT, 1074 WTh<br />
MacAskill, Michael - 51 WTh<br />
Macciardi, Fabio - 324 WTh<br />
MacDonald, Angus - 232 WTh, 737 MT<br />
Macdonald, Matt - 826 WTh<br />
Macdonald, Rainer - 501 WTh<br />
MacDonald III, Angus - 100 WTh<br />
MacEwan, G. - 28 WTh<br />
Machado, Alexis - 506 WTh<br />
Macher, Katja - 10 MT<br />
MacIntosh, Bradley - 183 WTh<br />
MacKenzie, Joyce - 197 WTh, 843 WTh<br />
MacLeod, Marianne - 313 MT<br />
MacNeil, Lindsey - 463 WTh, 144 MT<br />
Macoveanu, Julian - 336 mT<br />
MacQueen, Glenda - 283 MT<br />
Madden, David - 343 WTh<br />
Maderwald, Stefan - 740 MT<br />
Madhyastha, Tara - 877 MT<br />
Madjar, Cecile - 680 WTh, 826 MT<br />
Madjar, Cécile - 898 MT<br />
Madsen, Kathrine - 562 mT<br />
Madsen, Kristoffer - 95 WTh<br />
Madsen, Sarah - 271 MT, 277 mT, 996 WTh,<br />
243 MT, 251 MT, 264 MT<br />
Maechler, Paul - 951 MT<br />
Maeda, Yumi - 871 MT, 1075 WTh, 1080 WTh<br />
Maeder, Philippe - 10 WTh, 38 MT<br />
Maehara, Taketoshi - 432 WTh, 437 WTh,<br />
443 WTh<br />
Maessen, Heather - 965 MT<br />
Maestu, Ceferino - 498 WTh<br />
Magnotta, Vincent - 140 MT<br />
Magnuson, Matthew - 712 WTh<br />
Maguire, Albert - 866 MT<br />
Mah, Linda - 257 mT<br />
Mahabir, Megan - 891 WTh<br />
Mahmoudzadeh, Mahdi - 508 WTh<br />
Mahone, E. Mark - 163 MT<br />
Maia, Tiago - 374 MT<br />
Maier, Wolfgang - 84 MT<br />
Maieron, Marta - 710 mT<br />
Mailey, Emily - 370 MT<br />
Mainero, Caterina - 985 WTh<br />
Majdandzic, Jasminka - 1089 mT<br />
Majoie, Marjan - 184 MT, 199 MT<br />
Major, Philippe - 469 MT
Majumdar, Shantanu - 55 MT<br />
Mak-Fan, Kathleen - 123 MT, 412 MT<br />
Makris, Nikos - 894 WTh<br />
Malaia, Evguenia - 975 WTh<br />
Malandain, Grégoire - 346 WTh<br />
Malatesta, Cristina - 871 MT, 1075 WTh<br />
Maldjian, Joseph - 564 WTh<br />
Maleki, Nasim - 209 WTh, 222 WTh<br />
Malherbe, Caroline - 492 WTh, 702 WTh<br />
Malik, Saima - 349 mT<br />
Malinowska, Urszula - 205 mT<br />
Malizia, Andrea - 709 WTh<br />
Mall, Jean-Frédéric - 10 WTh<br />
Malla, Ashok - 146 WTh<br />
Malouin, Francine - 427 MT<br />
Mamo, David - 145 WTh<br />
Mamoliti, Roberto - 915 MT<br />
Mancini-Marie, Adham - 164 MT, 114 WTh<br />
Mandell, Darcy - 265 mT<br />
Mandl, René - 111 WTh, 918 WTh<br />
Mane, Anna - 139 WTh<br />
Manes, Jordan - 747 WTh, 816 WTh<br />
Maneshi, Mona - 181 mT<br />
Mang, Sarah - 995 WTh<br />
Mangin, Jean-François - 335 WTh, 886 WTh,<br />
145 MT, 215 MT, 677 MT, 691 MT<br />
Mangin, Patrice - 10 WTh<br />
Mangina, Constantine - 421 WTh<br />
Manjon, Jose - 317 MT, 642 MT, 644 mT<br />
Mann, Karl - 6 WTh, 252 WTh, 321 MT, 337 MT,<br />
352 MT, 957 WTh<br />
Mannuzza, Salvatore - 173 MT<br />
Mano, Yoko - 425 MT, 1091 MT<br />
Manoach, Dara - 722 WTh, 880 WTh<br />
Manoliu, Andrei - 141 WTh<br />
Manor, Brad - 73 WTh, 532 mT<br />
Mansour, Ali - 708 mT<br />
Mansvelder, Huibert - 384 MT, 636 WTh<br />
Mantegna, John - 454 MT, 537 MT, 599 MT<br />
Maquet, Pierre - 289 MT, 398 MT, 570 WTh,<br />
600 WTh, 627 WTh, 836 WTh<br />
Marais, Lea - 69 WTh<br />
Maravilla, Kenneth - 554 MT<br />
Marchal-Crespo, Laura - 837 WTh<br />
Marchewka, Artur - 446 mT<br />
Marchina, Sarah - 870 MT, 176 WTh, 177 WTh<br />
Marco, Elysa - 828 WTh<br />
Marco-Pallarés, Josep - 451 MT<br />
Marcotte, Karine - 378 MT<br />
Marcoux, Louis-Alexandre - 1060 WTh<br />
Marcus, Daniel - 349 WTh<br />
Marecek, Radek - 795 MT, 1116 MT<br />
Mareckova, Klara - 877 WTh, 1081 mT, 1084 MT<br />
Marenco, Stefano - 331 WTh<br />
Mares, Jan - 201 WTh<br />
Margolis, Russell - 140 MT<br />
Margulies, Daniel - 170 WTh, 359 WTh,<br />
694 WTh, 703 MT, 703 WTh, 720 MT, 758<br />
WTh, 990 WTh, 343 WTh, 695 WTh, 788 MT,<br />
896 MT, 935 MT<br />
Marin, Dario - 821 MT<br />
Marion, SIMONETTA-MOREAU - 2 MT<br />
Mark, Clarisse - 503 mT<br />
Markl, Alexandra - 299 MT, 838 MT<br />
Markov, Valentin - 52 mT, 287 WTh<br />
Markus, Andrey - 816 MT<br />
Markus, Hugh - 617 WTh<br />
Marmi, Stefano - 571 WTh<br />
Marne, Naomi - 248 MT<br />
Maron, Adi - 249 WTh<br />
Marquand, Andre - 551 WTh, 537 WTh, 583 WTh<br />
Marques, José - 533 MT, 669 WTh, 924 MT<br />
Marrakchi-Kacem, Linda - 45 WTh<br />
Marreiros, Andre - 58 WTh<br />
Marrelec, Guillaume - 829 WTh<br />
Marriott, Mark - 190 WTh<br />
Marsh, Rachel - 374 MT<br />
Marshall, Kathleen - 866 MT<br />
Marsolais, Yannick - 378 MT<br />
Martens, Marilee - 215 WTh<br />
Martí-Bonmatí, Luis - 642 MT, 343 WTh<br />
Martin, Alex - 100 MT, 106 MT, 334 MT, 709 MT<br />
Martin, Ernst - 494 WTh, 772 WTh<br />
Martin, Maria da Graça - 76 MT<br />
Martin, Nathalie - 120 MT<br />
Martin, Nicholas - 49 MT, 294 WTh, 297 WTh,<br />
314 WTh, 315 WTh, 318 WTh, 322 WTh,<br />
550 WTh, 578 MT, 947 MT<br />
MARTIN, Olivier - 872 mT<br />
Martin, Randi - 401 MT<br />
Martínez, Kenia - 752 mT<br />
Martinez, Maria de Lourdes - 53 WTh, 576 MT,<br />
965 WTh<br />
Martinez, Michael - 352 WTh<br />
Martinez-de-las-Heras, Eloy - 689 mT<br />
Martínez-Montes, Eduardo - 59 MT, 559 WTh,<br />
652 WTh<br />
Martinez-Ramon, Manel - 574 WTh, 661 MT<br />
Martinot, Jean-Luc - 6 WTh, 252 WTh, 321 MT,<br />
333 MT, 337 MT, 352 MT, 877 WTh, 957 WTh,<br />
1084 MT<br />
Martucci, Katherine - 391 MT<br />
Martuzzi, Roberto - 533 MT<br />
Marutani, Toshiyuki - 526 MT<br />
Maruyama, Masaki - 810 mT<br />
Marvel, Cherie - 862 WTh<br />
Marxen, Michael - 405 MT<br />
MARY, Alison - 137 MT<br />
Marzetti, Laura - 447 WTh<br />
Masdeu, Joseph - 47 WTh, 534 WTh, 942 MT,<br />
230 WTh, 492 MT<br />
Mashhadi, Mahya - 165 MT<br />
Maslowski, Nina - 241 mT<br />
Mason, Kelsey - 271 MT<br />
Mason, Liam - 275 mT<br />
MASSAT, Isabelle - 137 MT<br />
Massicotte, Pierluc - 916 MT<br />
Massimini, Marcelo - 1016 MT, 1017 MT, 1032 MT<br />
Masterton, Richard - 364 WTh<br />
Masuda, Yoshinori - 529 WTh<br />
Masunga, Abigail - 542 MT<br />
Mataix-Cols, David - 234 MT<br />
Matarazzo, Luca - 600 WTh<br />
Mathalon, Daniel - 324 WTh<br />
Mathew, Blessy - 978 MT<br />
Mathews, Vincent - 607 WTh, 970 WTh<br />
Mathiak, Klaus - 52 MT, 252 MT, 811 MT,<br />
1031 WTh<br />
MATHIEU, Nicolas - 284 WTh<br />
Mathis, Jed - 995 MT<br />
Mathys, Christoph - 538 WTh, 546 WTh, 397 WTh<br />
Matros, Markus - 88 MT<br />
Matsson, Hans - 304 WTh<br />
Matsubara, Toshio - 238 MT, 259 MT,<br />
513 WTh, 295 mT<br />
Matsuda, Ayasa - 432 WTh, 437 WTh,<br />
443 WTh, 664 WTh<br />
Matsuda, Ryoichi - 850 WTh<br />
Matsuda, Tetsuya - 526 MT<br />
Matsuda, Yoshi-Taka - 271 WTh<br />
Matsuhashi, Masao - 1100 WTh<br />
Matsumoto, Atsushi - 532 WTh<br />
Matsumoto, Kaori - 127 MT<br />
Matsumoto, Riki - 945 mT, 1100 WTh<br />
Matsuo, Kayako - 110 WTh, 574 mT, 590 MT,<br />
781 MT, 786 WTh, 909 MT<br />
Matsuo, Koji - 238 mT, 259 MT, 295 MT, 513 WTh<br />
Matsushige, Takeshi - 513 WTh<br />
Matsushima, Eisuke - 432 WTh, 437 WTh,<br />
443 WTh, 664 WTh<br />
Bolded Poster numbers indicate first author.<br />
Matsuura, Masato - 277 WTh, 432 WTh, 437 WTh,<br />
443 WTh, 664 WTh<br />
Mattay, Raghav - 230 WTh, 265 WTh<br />
Mattay, Venkata - 327 WTh, 450 MT, 693 MT,<br />
875 MT, 90 WTh, 483 MT<br />
Matthews, Dawn - 37 MT<br />
Matthews, John - 289 MT<br />
Matthews, Monica - 42 MT<br />
Matthews, Paul - 66 MT, 159 WTh, 223 MT,<br />
225 MT, 335 MT, 450 MT<br />
Matthews, Scott - 310 MT<br />
Mattia, Donatella - 423 MT, 440 WTh, 1102 MT<br />
Mattila, Marja-Leena - 125 MT<br />
Mattingley, Jason - 926 WTh, 939 WTh<br />
Mattout, Jérémie - 402 MT, 1074 WTh<br />
Mattson, Sarah - 146 MT<br />
Matuz, Tamara - 907 WTh<br />
Maudoux, Audrey - 1015 WTh<br />
Mauguière, François - 198 MT<br />
Maurits, Natasha - 57 WTh, 948 WTh<br />
Maus, Bärbel - 796 mT<br />
May, Arne - 573 WTh, 1067 WTh<br />
May, Elisabeth - 1010 MT, 1055 WTh<br />
May, Philip - 146 MT<br />
Mayberg, Helen - 253 MT, 640 MT, 613 WTh<br />
Mayer, Andrew - 93 WTh, 107 WTh, 343 WTh<br />
Mayer, Emeran - 198 WTh, 282 WTh, 1046 WTh<br />
Mayes, Linda - 544 MT<br />
Mayhew, Stephen - 479 WTh, 489 WTh,<br />
920 WTh, 1041 WTh, 475 WTh, 484 WTh,<br />
1049 MT<br />
MAYO, Willy - 67 WTh<br />
Mazaika, Paul - 645 mT<br />
Mazaki, Hiroshi - 1038 WTh<br />
MAZERE, Joachim - 67 WTh<br />
Mazerolle, Erin - 508 mT, 519 MT<br />
Mazuka, Reiko - 1017 WTh<br />
Mazziotta, John - 974 WTh, 199 WTh<br />
Mazzulla, Emily - 385 MT<br />
Mbwana, Juma - 105 MT<br />
McAleer, Phil - 1073 mT<br />
McAndrews, Mary Pat - 182 WTh, 849 MT<br />
McArthur, Genevieve - 133 MT<br />
McAteer, Carole - 168 MT<br />
McAuley, Edward - 370 MT<br />
McCabe, Kevin - 1115 MT<br />
McCallion, Elizabeth - 454 MT<br />
McCandliss, Bruce - 420 WTh<br />
McCarthy, Christopher - 108 WTh<br />
McCloskey, Michael - 212 WTh<br />
McCluskey, Leo - 612 WTh<br />
McCorry, Doug - 194 MT<br />
McCracken, James - 108 MT, 891 WTh<br />
McCreary, Cheryl - 95 MT, 483 WTh<br />
McCullough, Stephen - 778 WTh<br />
McCurry, Katherine - 8 WTh<br />
McDonald, Brenna - 299 WTh, 500 mT, 550 MT<br />
McEntee, Julie - 334 WTh<br />
McEvoy, Andrew - 718 MT<br />
McFarlin, Daniel - 250 WTh<br />
McGeary, John - 848 MT<br />
McGlinchey, Regina - 16 WTh, 891 MT<br />
McGlone, Francis - 462 WTh<br />
McGonigle, David - 462 WTh<br />
McGonigle, John - 709 WTh<br />
McGorry, Patrick - 126 WTh<br />
McGough, James - 247 MT<br />
McGuire, Philip - 79 WTh, 472 WTh<br />
McHaffie, John - 391 MT<br />
McHugo, Maureen - 966 WTh<br />
McIlraith, Autumn - 824 mT<br />
McIlree, Carolyn - 585 MT<br />
McIlroy, William - 183 WTh<br />
McIntosh, Andrew - 313 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 205
McIntosh, Anthony - 628 WTh, 776 WTh,<br />
846 MT, 877 WTh, 880 MT, 907 MT, 631 WTh,<br />
749 WTh, 770 MT, 1084 MT<br />
McIntyre, Cameron - 956 MT<br />
McIver, Theresa - 612 MT, 246 WTh<br />
McKay, Reese - 736 WTh, 659 MT<br />
McKerral, Michelle - 896 WTh<br />
McKinley, Andrew - 712 WTh<br />
McLaren, Donald - 41 MT, 763 mT<br />
McLean, Adam - 413 WTh<br />
McMahon, Allison - 770 WTh<br />
McMahon, Francis - 321 WTh<br />
McMahon, Katie - 49 MT, 294 WTh, 297 WTh,<br />
315 WTh, 318 WTh, 319 WTh, 322 WTh,<br />
550 WTh, 578 MT, 947 MT, 314 WTh<br />
McMillan, Alan - 336 WTh<br />
McMillan, Corey - 650 MT, 497 WTh<br />
McNab, Jennifer - 988 WTh, 985 WTh<br />
McNeil, Thomas - 120 WTh<br />
McNulty, Jonathan - 920 MT<br />
McRae, Kateri - 240 WTh<br />
Mechanic-Hamilton, Dawn - 177 MT<br />
Mechelli, Andrea - 242 MT, 472 WTh<br />
Meda, Shashwath - 131 WTh, 12 WTh<br />
Medaglia, John - 734 WTh, 723 WTh<br />
Medaglia, Maria Teresa - 823 WTh<br />
Medland, Sarah - 294 WTh, 322 WTh<br />
Medvedev, Andrei - 264 WTh, 785 WTh,<br />
819 MT, 525 WTh<br />
Meeker, Timothy - 1057 WTh<br />
Meguid, Nagwa - 164 MT<br />
Mehnert, Jan - 510 WTh, 917 WTh<br />
Mehta, Mitul - 161 MT, 346 MT, 1053 MT<br />
Mehta, Sonya - 961 MT<br />
Mehta, V.S - 205 WTh<br />
Mehta, Veer Singh - 620 WTh<br />
Meindl, Thomas - 84 WTh, 116 MT, 375 MT,<br />
398 WTh, 410 MT, 739 MT, 771 MT, 1066 MT<br />
Meintjes, Ernesta - 145 MT, 157 MT, 188 WTh,<br />
203 WTh<br />
MEISSNER, Wassilios - 67 WTh<br />
Mejia-Constain, Beatriz - 62 WTh<br />
Mekary, Said - 500 WTh, 898 MT, 1045 mT<br />
Melcher, Tobias - 365 MT, 380 mT<br />
Melhem, Elias - 612 WTh<br />
Melie, Lester - 467 MT<br />
Melie-García, Lester - 59 MT, 449 mT, 652 WTh<br />
Mellah, Samira - 922 MT<br />
Melle, Ingrid - 80 WTh, 94 WTh, 129 WTh,<br />
311 WTh<br />
Mellem, Monika - 785 WTh, 819 mT<br />
Mello, Luiz - 406 MT<br />
MELOT, Christian - 1026 MT<br />
Meltzer Asscher, Aya - 813 mT<br />
Melzer, Tracy - 51 WTh<br />
Ménard, Lucie - 798 WTh<br />
Menchón, José - 32 WTh, 33 WTh, 37 WTh,<br />
39 WTh, 213 WTh, 255 MT, 258 MT<br />
Mende-Siedlecki, Peter - 240 WTh<br />
Mendola, Janine - 1101 WTh<br />
Mendrek, Adrianna - 114 WTh, 117 WTh,<br />
138 WTh, 143 WTh, 144 WTh<br />
Menegaz, Gloria - 1109 WTh<br />
Meneghello, Francesca - 70 WTh<br />
Meng, Ling-Fu - 789 WTh<br />
Meng, Xiangxiang - 729 WTh<br />
Menghetti, Sarah - 124 WTh<br />
Menjot de Champfleur, Nicolas - 59 WTh<br />
Menke, Ricarda - 66 MT<br />
Mennes, Maarten - 128 MT, 343 WTh, 705 MT,<br />
110 MT, 129 mT, 158 MT, 326 WTh, 681 WTh,<br />
725 MT, 731 MT, 735 WTh, 779 WTh, 707 WTh<br />
Mennigen, Eva - 333 MT, 386 WTh, 394 mT,<br />
405 MT<br />
Menninghaus, Winfried - 787 WTh<br />
206 HBM 2011 >> <strong>abstracts</strong><br />
Menon, David - 420 MT, 436 WTh, 1022 MT<br />
Menon, Mahesh - 145 WTh<br />
Menon, Vinod - 63 WTh, 98 MT, 115 MT, 406<br />
WTh, 412 WTh, 415 WTh, 728 WTh, 738 WTh,<br />
797 WTh, 864 WTh, 403 WTh<br />
Menz, Mareike - 321 MT, 1026 WTh, 352 MT,<br />
375 WTh, 994 MT<br />
Merboldt, Dietmar - 1039 MT<br />
Mercadillo, Roberto - 1081 WTh, 1079 mT<br />
Merchant, Thomas - 167 MT<br />
Mercier, Catherine - 26 MT, 427 MT<br />
Mergler, Donna - 469 MT<br />
Merhof, Dorit - 679 MT<br />
Merideth, Flannery - 93 WTh<br />
Mérillat -(Koeneke), Susan - 453 MT<br />
Merkle, Hellmut - 444 MT<br />
Merksa, Katharina - 77 WTh, 525 MT, 535 MT,<br />
643 MT<br />
Merla, Arcangelo - 507 WTh<br />
Merle, Julia - 413 MT<br />
Merritt, Michael - 712 WTh<br />
Mervis, Carolyn - 331 WTh<br />
Mesmoudi, Salma - 474 mT, 726 MT<br />
Messé, Arnaud - 492 WTh, 702 WTh<br />
Metcalf, Nicholas - 309 MT<br />
Metcalfe, Arron - 412 WTh<br />
METENS, Thierry - 137 MT, 800 WTh<br />
Météreau, Elise - 379 WTh<br />
Metzak, Paul - 106 WTh, 130 WTh<br />
Metzger, Coraline - 220 MT, 266 MT, 275 WTh,<br />
464 WTh, 514 MT, 1056 mT, 1058 MT<br />
Meuli, Reto - 38 MT<br />
Meunier, Sabine - 27 MT, 69 WTh, 913 WTh,<br />
930 WTh<br />
Meyer, Antje - 823 WTh<br />
Meyer, Jobst - 468 MT<br />
Meyer, Lars - 800 MT<br />
Meyer, Martin - 814 WTh, 1009 WTh<br />
Meyer, Matthias - 477 WTh<br />
Meyer, Patric - 53 MT<br />
Meyer-Lindenberg, Andreas - 104 WTh,<br />
1106 MT, 24 MT, 84 MT, 274 MT, 327 WTh<br />
Meyerhoff, James - 262 MT<br />
Meyniel, Florent - 391 WTh<br />
Mézenge, Florence - 850 MT<br />
Mezer, Aviv - 953 mT<br />
Miao, Qianwen - 884 WTh<br />
Michael, Andrew - 727 MT, 672 mT, 324 WTh<br />
Michaely, Tonia - 1066 MT<br />
Michel, Christoph - 124 WTh, 185 MT, 208 MT,<br />
434 WTh, 442 WTh, 805 WTh<br />
Michel, Franck - 346 WTh<br />
Michel, Vincent - 555 WTh, 667 MT<br />
Michels, Lars - 494 WTh, 772 WTh<br />
Michiels, Karla - 298 MT<br />
Michon, Pierre-Emmanuel - 421 MT, 1060 WTh,<br />
1093 MT<br />
Miedl, Stephan - 321 MT, 376 WTh<br />
Mier, Daniela - 104 WTh, 1074 MT, 1106 MT<br />
Migliaccio, Raffaella - 1004 MT<br />
Miguel, Alonso - 173 WTh<br />
Miguel, Bernardo - 139 WTh<br />
Mihalakos, Perry - 102 WTh, 148 WTh<br />
Mikl, Michal - 795 mT, 1116 MT<br />
Mikulis, David - 182 WTh<br />
Mikuni, Nobuhiro - 945 MT, 1100 WTh<br />
Milanaik, Ruth - 585 MT<br />
Milberg, William - 16 WTh, 891 MT<br />
Milenkova, Maria - 44 WTh<br />
Milham, Michael - 110 MT, 214 WTh, 681 WTh,<br />
735 WTh, 788 MT, 695 WTh, 705 MT, 779<br />
WTh, 989 WTh, 990 WTh, 128 MT, 158 MT,<br />
173 MT, 326 WTh, 343 WTh, 550 WTh, 566<br />
MT, 731 MT, 748 MT, 1075 MT, 129 MT, 707<br />
WTh, 725 MT<br />
Milian, Monika - 855 WTh<br />
Milivojevic, Branka - 1089 WTh<br />
Miller, Bruce - 62 MT, 83 MT<br />
Miller, Destiny - 370 mT<br />
Miller, Kai - 1051 MT<br />
Miller, Karla - 704 MT, 988 WTh<br />
Miller, Karol - 633 MT<br />
Miller, Michael - 140 MT, 244 MT, 250 MT<br />
Miller, Steven - 897 WTh<br />
Millington, Gregory - 337 WTh<br />
Mills, Kathryn - 128 MT, 162 MT<br />
Milot, Marie-Helene - 21 mT, 837 WTh<br />
Miltner, Wolfgang - 142 WTh<br />
Mimura, Masaru - 119 MT<br />
Minagawa-Kawai, Yasuyo - 793 WTh, 881 WTh<br />
Mincic, Adina - 411 mT<br />
Mingoia, Gianluca - 135 WTh, 747 mT<br />
Miniussi, Carlo - 18 MT<br />
Minotti, Lorella - 419 WTh, 656 WTh<br />
Minshew, Nancy - 98 MT<br />
Minton, Brian - 308 WTh<br />
Mintzer, Miriam - 862 WTh<br />
Minuk, Jeffery - 167 WTh<br />
Miotto, Eliane - 76 MT<br />
Mirelman, Anat - 60 WTh<br />
Mirmehdi, Majid - 709 WTh<br />
Miró Lladó, Júlia - 451 MT<br />
Mirzazade, Shahram - 52 WTh, 65 WTh<br />
Misaki, Masaya - 100 mT<br />
Mishra, Arabinda - 960 WTh<br />
Misic, Bratislav - 628 WTh, 631 WTh, 770 mT<br />
Mitchell, Peter - 190 WTh<br />
Mitchell, Suzanne - 3 WTh, 162 MT<br />
Mitchell, Tom - 806 MT<br />
Mitsis, Georgios - 635 WTh<br />
Mitsudo, Takako - 989 mT<br />
Mitterhauser, Markus - 535 WTh<br />
Miura, Naoki - 841 WTh<br />
Miyagawa, Atsushi - 425 mT<br />
Miyajima, Miho - 432 WTh, 437 WTh, 664 WTh,<br />
443 WTh<br />
Miyakoshi, Makoto - 590 MT, 909 MT,<br />
904 mT, 781 MT<br />
Miyamoto, Susumu - 945 MT, 1100 WTh<br />
Miyauchi, Carlos Makoto - 191 WTh, 865 MT,<br />
1086 MT, 1090 MT<br />
Miyauchi, Makoto - 425 MT<br />
Miyauchi, Satoru - 904 MT<br />
Miyazaki, Takahiro - 1007 WTh<br />
Miyazawa, Shiho - 1090 MT<br />
Mizuno, Yoshiko - 923 MT<br />
Mizuochi-Endo, Tomomi - 1017 WTh<br />
Mletzko, Tanja - 253 MT, 377 MT<br />
Mo, Lei - 553 MT<br />
Moayedi, Massieh - 974 MT, 1053 WTh,<br />
1062 WTh, 1052 WTh<br />
Mochizuki, George - 183 WTh<br />
Modat, Marc - 51 MT<br />
Möddel, Gabriel - 188 MT, 219 MT<br />
Modi, Pooja - 217 WTh<br />
Mody, Maria - 811 WTh<br />
Moehring, Jan - 175 mT<br />
Moeller, F. Gerard - 733 WTh<br />
Moeller, Friederike - 181 MT, 202 MT, 175 MT<br />
Moeller, Steen - 499 MT, 595 WTh<br />
Moerel, Michelle - 1004 WTh, 1005 WTh<br />
Moessnang, Carolin - 1029 WTh<br />
Mohades, Sara - 43 MT, 68 MT, 71 mT,<br />
72 MT, 90 MT<br />
Mohamed, Feroze - 549 MT, 786 MT<br />
Mohamed, Ismail - 206 MT, 653 WTh<br />
Mohammadi, Bahram - 19 WTh, 44 WTh<br />
Mohammadi, Siawoosh - 187 MT, 188 MT,<br />
219 MT, 575 MT, 602 WTh, 616 WTh<br />
Mohr, Holger - 620 mT
Moilanen, Irma - 125 MT<br />
Moir, Liz - 3 MT<br />
Moiseev, Alexander - 440 MT, 756 MT<br />
Moiseeva, Nadya - 440 MT<br />
Mok, Eva - 776 WTh<br />
Mokhtari, Fatemeh - 561 WTh<br />
Molenaar, Peter - 723 WTh, 734 WTh, 763 WTh<br />
Molfese, Dennis - 788 WTh, 1035 MT<br />
Molfese, Victoria - 1035 MT<br />
Molina, Brooke - 170 MT<br />
Molina, Elena - 1015 mT<br />
Möller, Friederike - 200 MT<br />
Möller, Harald - 977 MT<br />
Moller, Hayley - 264 MT<br />
Molteno, Christopher - 145 MT, 157 MT,<br />
188 WTh, 203 WTh<br />
Momenan, Reza - 340 MT, 394 WTh, 991 WTh<br />
Monchi, Oury - 58 MT, 62 WTh, 404 MT,<br />
826 MT, 906 MT<br />
Monetta, Laura - 62 WTh<br />
Mongkolwat, Pattanasak - 787 MT<br />
Monsch, Andreas - 66 MT, 568 WTh<br />
Montag, Christian - 1074 MT<br />
Montagnat, Johan - 346 WTh<br />
Montague, P. - 370 WTh<br />
Monteleone, George - 212 WTh<br />
Monterosso, John - 371 MT<br />
Montez, David - 872 WTh<br />
Montgomery, Allen - 817 WTh<br />
Montgomery, Grant - 294 WTh, 322 WTh<br />
Monzalvo, Karla - 148 MT, 879 WTh<br />
Moody, Teena - 243 MT, 256 MT, 264 MT, 271 mT,<br />
591 MT, 277 MT<br />
Mooshagian, Eric - 943 WTh<br />
Moran, Lauren - 303 WTh<br />
Moran, Rosalyn - 58 WTh, 1028 MT<br />
Morandi, Xavier - 474 WTh<br />
Morawetz, Carmen - 270 WTh, 276 WTh<br />
Morawski, Markus - 447 MT<br />
Moreau, Jean-Luc - 552 WTh<br />
Moreau, Patricia - 439 MT<br />
Morel, Anne - 927 MT<br />
Moreno, Antonio - 316 WTh<br />
Moreno, Beatriz - 895 WTh<br />
Moreno-Dominguez, David - 601 WTh<br />
Moreno-Lopez, Laura - 207 WTh, 223 WTh<br />
Morgan, Gemma - 605 WTh<br />
Morgan, Paul - 470 MT<br />
Morgen, Katrin E - 84 mT<br />
Mori, Norio - 127 MT<br />
Mori, Susumu - 15 WTh, 974 WTh<br />
Morigaki, Katie - 307 MT<br />
Morita, Diego - 196 MT<br />
Morita, Kiichiro - 153 WTh<br />
Morizot-Koutlidis, Régine - 184 WTh<br />
Moro, Marco - 513 MT<br />
Morocz, Istvan - 521 MT<br />
Morosan, Patricia - 805 mT<br />
Morris, Colleen - 331 WTh<br />
Morris, Derek - 302 WTh<br />
Morse, Leslie - 871 MT, 1075 WTh<br />
Morton, J Bruce - 392 MT<br />
Moschner, Barbara - 1063 MT<br />
Moscoso, Marco Antonio - 296 MT<br />
Moscovitch, Morris - 849 MT, 889 MT<br />
Moseley, G. Lorimer - 1047 WTh<br />
Moser, Ewald - 235 MT, 260 MT, 274 MT, 290 MT,<br />
434 MT, 511 MT, 641 MT, 754 WTh, 769 WTh,<br />
785 MT, 928 WTh, 1089 MT<br />
Moser-Mercer, Barbara - 805 WTh<br />
Mosher, John - 644 WTh<br />
Mosier, Kristine - 550 MT<br />
Mosier, Kristine - 500 MT<br />
Moss, Anja - 332 WTh<br />
Mostofsky, Stewart - 128 MT, 129 MT, 144 MT,<br />
152 MT, 163 MT, 343 WTh, 463 WTh, 711 MT,<br />
878 WTh, 889 WTh<br />
Mottron, Laurent - 97 MT, 113 MT<br />
Mouiha, Abderazzak - 931 mT<br />
Mourao-Miranda, Janaina - 551 WTh, 583 WTh<br />
MOUTET, François - 872 MT<br />
Moxon, Karen - 786 MT<br />
Mraz, Richard - 654 MT<br />
Muehlhaus, Juliane - 516 mT<br />
Mueller, Charles - 353 WTh, 793 MT, 901 WTh,<br />
902 WTh<br />
Mueller, Friedemann - 299 MT, 838 MT<br />
Mueller, Karsten - 64 MT, 359 WTh, 847 WTh,<br />
977 mT, 1061 MT, 47 MT<br />
Mueller, Sophia - 84 WTh, 116 mT<br />
Mueller, Veronika - 285 mT<br />
Mueller, Wade - 209 MT<br />
Muelly, Emilie - 859 WTh<br />
Muglia, Pierandrea - 223 MT, 225 MT<br />
Mühlau, Mark - 141 WTh<br />
Muhtz, Christoph - 1067 WTh<br />
Mujica-Parodi, Lilianne - 254 WTh, 588 WTh<br />
Mukherjee, Pratik - 154 MT, 963 MT<br />
Mukherjee, Tirthankar - 119 WTh<br />
Mukundan, Srinivasan - 543 MT<br />
Mulder, Martijn - 387 WTh<br />
Mulders, Joost - 774 mT<br />
Mulert, Christoph - 103 WTh, 375 MT, 410 MT<br />
Müller, Bernhard - 140 WTh<br />
Müller, Hans-Peter - 699 MT, 972 MT<br />
Müller, Karsten - 49 WTh<br />
Müller, Kathrin - 333 mT, 386 WTh, 394 MT<br />
Müller, Wolfram - 851 WTh<br />
Müller-Forell, Wibke - 602 MT<br />
Müller-Vahl, Kirsten - 34 WTh<br />
Mullinger, Karen Julia - 489 WTh, 667 WTh,<br />
1049 mT<br />
Mullins, Paul - 466 WTh<br />
Mum<strong>for</strong>d, Jeanette - 384 WTh, 554 WTh, 943 MT<br />
Munesue, Toshio - 1101 MT<br />
Munoz, Douglas - 383 MT<br />
Munro, Nancy - 45 mT<br />
Münte, Thomas - 19 WTh, 44 WTh<br />
Munter, Fletcher - 308 MT, 297 MT<br />
Muralidharan, Anjana - 232 MT<br />
Muraskin, Jordan - 692 mT<br />
Murata, Tsutom - 610 MT<br />
Muratori, Filippo - 109 MT<br />
Murawski, Carsten - 372 WTh<br />
Murdaugh, Donna - 99 mT<br />
Murphy, Declan - 127 MT, 761 MT<br />
Murphy, Kevin - 234 MT<br />
Murphy, Michael - 1028 MT<br />
Murphy, Shawn - 349 WTh<br />
Murray, Alison - 688 MT, 911 MT, 913 MT<br />
Murta, Teresa - 684 WTh<br />
Muschelli, John - 144 MT, 163 mT, 711 MT<br />
Muse, John - 483 mT, 875 MT<br />
Musel, Benoit - 1111 WTh<br />
Mussa-Ivaldi, Ferdinando - 577 MT<br />
Musser, Erica - 162 MT<br />
Musso, Mariacristina - 1035 WTh<br />
Mustafa, Nazahah - 688 mT, 913 mT<br />
Mustapha, Muzaimi - 444 WTh<br />
Muthukumaraswamy, Suresh - 1048 MT<br />
Muthuraman, Muthuraman - 200 MT<br />
Mutihac, Radu - 480 MT, 767 mT<br />
Mutreja, Rachna - 404 WTh<br />
Mutschler, Isabella - 285 WTh<br />
Myers, Nicholas - 141 WTh<br />
Mylonas, George - 523 WTh, 530 WTh, 1109 WTh<br />
Møller, Cecilie - 1027 MT<br />
Bolded Poster numbers indicate first author.<br />
n<br />
Na, Duk - 755 MT, 92 MT, 482 WTh, 563 MT,<br />
622 WTh, 680 MT, 687 MT<br />
Nachbauer, Werner - 601 MT<br />
Nackaerts, Evelien - 751 MT<br />
Nadar, Sreenivasan - 723 MT<br />
Nagai, Kenji - 841 WTh<br />
Nagano-Saito, Atsuko - 62 WTh<br />
Nagarajan, Srikantan - 180 WTh, 632 WTh,<br />
768 WTh, 828 WTh, 115 WTh<br />
Nagase, Tomomi - 869 mT<br />
Nagasunder, Arabhi - 966 MT<br />
Nagata, Noriko - 532 WTh, 1037 WTh, 1038 WTh<br />
Nagy, Zoltan - 602 WTh, 949 MT<br />
Nair, Dileep - 945 MT<br />
Najafizadeh, Laleh - 525 WTh<br />
Najib, Umer - 31 MT<br />
Najm, Imad - 945 MT<br />
Nakagawa, Masanori - 73 MT<br />
Nakagawa, Seishu - 191 WTh, 865 MT<br />
Nakai, Noriyoshi - 56 WTh<br />
Nakai, Toshiharu - 781 mT, 904 MT, 909 MT,<br />
590 MT<br />
Nakamura, Itta - 134 WTh<br />
Nakamura, Kimihiro - 792 WTh<br />
Nakano, Masayuki - 238 MT, 259 mT, 295 MT,<br />
513 WTh<br />
Nakano, Tamami - 799 MT<br />
Nakano, Yukari - 277 WTh<br />
Nakao, Takashi - 373 WTh<br />
Nakao, Tomoko - 923 MT<br />
Nakashima, Mami - 238 MT, 259 MT, 295 MT,<br />
513 WTh<br />
Nakatani, Chie - 1009 MT<br />
Nakatogawa, Hirokazu - 8 MT<br />
Nakazawa, Hitoshi - 905 WTh<br />
Naliboff, Bruce - 282 WTh, 1046 WTh<br />
Nam, Haewon - 604 mT<br />
Namba, Hiroki - 8 MT<br />
Namburi, Praneeth - 154 WTh, 990 MT<br />
Nandiraju, Deepika - 549 MT<br />
Nandy, Rajesh - 46 MT, 96 MT, 664 MT, 778 MT<br />
Napadow, Vitaly - 1043 WTh, 1049 WTh,<br />
1054 WTh, 1075 WTh, 1080 WTh, 871 MT,<br />
1042 WTh, 1045 WTh, 1063 WTh, 1070 WTh<br />
Napoliello, Eileen - 149 MT<br />
Naraine, Melissa - 585 MT<br />
Narayana, Ponnada - 678 MT, 733 WTh<br />
Narayana, Shalini - 29 mT, 248 mT, 487 MT,<br />
830 WTh, 933 WTh, 15 MT, 825 WTh,<br />
947 WTh<br />
Narayanan, Sandhya - 289 WTh<br />
Narinesingh, Cindy - 143 MT<br />
Narr, Katherine - 982 MT, 85 WTh, 108 MT,<br />
134 MT, 146 MT, 199 WTh, 974 WTh,<br />
86 WTh, 247 MT<br />
Narsude, Mayur - 669 WTh<br />
Nash, Tiffany - 345 mT, 230 WTh, 265 WTh,<br />
492 MT<br />
Nathan, Pradeep - 335 MT<br />
Nathoo, Farouk - 756 MT<br />
Nauman, Eric - 307 MT<br />
Naundorf, Karina - 25 WTh<br />
NAVARRA, RICCARDO - 132 MT<br />
Navarta, Silvana - 118 MT<br />
Navia, Brad<strong>for</strong>d - 193 WTh<br />
Nawaz Khan, Irum - 1081 MT<br />
Naylor, Magdalena - 274 WTh, 454 mT, 537 MT,<br />
599 MT, 912 MT<br />
Nazarian, Bruno - 417 WTh<br />
Nazeri, Arash - 94 MT, 36 MT<br />
Neale, Michael - 325 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 207
Nebel, Mary Beth - 152 MT, 711 mT,<br />
878 WTh, 889 WTh<br />
Nederveen, Aart - 15 WTh, 530 MT<br />
Neelakantan, Asha - 688 MT<br />
Nees, Frauke - 337 mT<br />
Neggers, Sebastiaan - 118 WTh, 918 WTh,<br />
997 MT<br />
Negishi, Michiro - 986 MT<br />
Negoias, Simona - 1014 MT<br />
Nejad, Ayna - 95 WTh<br />
Nelson, Barnaby - 126 WTh<br />
Nelson, Marvin - 948 MT, 966 MT, 997 WTh<br />
Nemeth, Evan - 388 WTh<br />
Nenadic, Igor - 135 WTh, 747 MT<br />
Nenning, Karl-Heinz - 717 WTh<br />
Nerenberg, Lesly - 371 WTh<br />
Nesvåg, Ragnar - 94 WTh, 120 WTh, 129 WTh<br />
Neto, Pedro - 68 MT<br />
Netto, Tânia - 378 MT, 403 MT<br />
Neufang, Susanne - 141 WTh, 220 WTh, 1030 MT<br />
Neufeld, R - 350 MT<br />
Neumann, Heiko - 699 MT<br />
Neumann, Jane - 61 MT, 287 MT, 377 WTh,<br />
926 MT<br />
Neumann, Katrin - 46 WTh<br />
Neuner, Irene - 138 mT, 1029 WTh<br />
Neupane, Sujaya - 20 MT<br />
Neuper, Christa - 408 WTh, 851 WTh<br />
Newcorn, Jeffrey - 585 MT<br />
Newhouse, Paul - 274 WTh, 385 MT, 454 MT,<br />
854 WTh, 912 MT<br />
Newman, Aaron - 965 MT<br />
Newman, Sharlene - 27 WTh<br />
Newsome, Mary - 316 mT<br />
Newton, Thomas - 8 WTh<br />
Ng, Bernard - 769 mT<br />
Ng, Charisa - 372 MT, 757 mT<br />
Ng, Lydia - 336 WTh<br />
Ng, Tommy - 932 WTh<br />
Ngomo, Suzy - 26 mT<br />
Nguyen, Christopher - 963 MT, 598 WTh<br />
Nguyen, Dang Khoa - 186 MT, 614 WTh<br />
Nguyen, Le Hoa - 516 WTh<br />
Nguyen, Tuong-Vi - 891 WTh<br />
Nguyen, Vinh - 486 WTh<br />
Nguyen, Vo An - 835 WTh, 836 WTh<br />
Nguyen Quang Chieu, Van-Hung - 1068 MT<br />
Nho, Kwangsik - 299 WTh, 305 WTh, 560 WTh<br />
Niaura, Raymond - 279 MT<br />
Nichelli, Paolo - 1065 WTh<br />
Nichols, Sharon - 301 MT<br />
Nichols, Thomas - 223 MT, 225 MT, 342 WTh,<br />
450 MT, 540 WTh, 565 WTh, 668 mT<br />
Nicholson, Timothy - 196 WTh<br />
Nickel, Janpeter - 534 MT, 1078 WTh<br />
Nickerson, Lisa - 1054 mT<br />
Nickl-Jockschat, Thomas - 92 WTh<br />
Niedeggen, Michael - 917 WTh<br />
Niedtfeld, Inga - 189 WTh<br />
Nielsen, Andreas - 835 MT<br />
Nielsen, Jared - 102 mT<br />
Nielson, Kristy - 42 MT<br />
Nierhaus, Till - 758 WTh, 1072 WTh, 402 WTh<br />
Niessen, Wiro - 604 WTh<br />
Niessing, Michael - 501 WTh<br />
Nieto, Juan - 559 WTh<br />
Nieusma, Holly - 55 MT<br />
Nigg, Joel - 128 MT, 129 MT, 162 MT, 343 WTh<br />
Nijhuis, Emil - 967 WTh<br />
Nikkinen, Juha - 125 MT, 231 MT, 733 MT<br />
Nikolaev, Andrei - 1009 mT, 1099 WTh<br />
Nikolaev, Andrey - 1031 WTh<br />
Nikolaidis, Aki - 580 mT, 584 mT<br />
Nili, Hamed - 663 mT<br />
Nili, Hamed - 1103 WTh<br />
208 HBM 2011 >> <strong>abstracts</strong><br />
Nimmo-Smith, Ian - 598 WTh<br />
Nishimoto, Mayuka - 1038 WTh<br />
Nishino, Tomoyuki - 244 MT, 250 MT<br />
Nissila, Juuso - 231 MT<br />
Nitrini, Ricardo - 76 MT<br />
Nitsch, Alexander - 142 WTh<br />
Nitschke, Jack - 250 WTh<br />
Niu, Yixuan - 80 MT<br />
Niwa, Fumitoshi - 73 mT<br />
Nobili, Flavio - 65 MT<br />
Nocetti, Luca - 24 WTh<br />
Noé, Enrique - 317 MT<br />
Nofzinger, Eric - 493 WTh<br />
Noirhomme, Quentin - 773 mT, 1019 MT,<br />
1025 MT, 1028 MT, 1032 MT<br />
Nolan, Tracy - 1038 MT<br />
Nolan-Poupart, Sarah - 347 mT<br />
Nolen, Willem - 1109 MT<br />
Noll, Douglas - 7 WTh<br />
Nollo, Giandomenico - 938 WTh<br />
Nombela Otero, Cristina - 64 WTh<br />
Nomura, Emi - 381 MT, 711 WTh, 773 WTh<br />
Noonan, Sarah - 545 mT<br />
Nooner, Kate - 158 MT, 343 WTh, 214 WTh<br />
Nopoulos, Peg - 140 MT<br />
Noppeney, Uta - 1028 WTh, 665 WTh<br />
Noreau, Anne - 276 MT<br />
Norris, David - 502 MT, 697 MT, 700 WTh,<br />
986 WTh, 967 WTh<br />
Northoff, Georg - 339 MT, 373 WTh, 548 MT,<br />
596 WTh, 1069 MT<br />
Norton, Andrea - 177 WTh, 870 MT, 176 WTh<br />
Norton, Isaiah - 543 MT<br />
Nouchi, Rui - 865 MT, 887 WTh<br />
Nouri, Sarvenaz - 789 MT<br />
Novak, Vera - 73 WTh, 532 MT<br />
Nowak, Rafal - 1010 WTh<br />
Nucci da Silva, Mariana - 531 MT<br />
Nudo, Randolph - 164 WTh<br />
Nuechterlein, Keith - 85 WTh, 86 WTh<br />
Nugent, Allison - 321 WTh<br />
Null, Miranda - 824 WTh<br />
Nummenmaa, Lauri - 238 WTh, 414 MT,<br />
261 WTh, 338 MT<br />
Nunes, Rafael - 203 MT<br />
Nutile, Lauren - 209 WTh, 222 WTh<br />
Nyberg, Lars - 843 MT, 890 MT<br />
Nys, Jo - 921 WTh, 925 WTh<br />
o<br />
O’Boyle, Michael - 770 WTh<br />
O’Brien, John O’Brien - 64 WTh, 457 WTh<br />
O’Connor, Mary - 146 MT<br />
O’Daly, Owen - 1053 MT<br />
O’Donnell, Brian - 27 WTh<br />
O’Hanlon, Erik - 23 WTh<br />
o’Leary, Daniel - 912 WTh<br />
O’Muircheartaigh, Jonathan - 180 mT<br />
O’Neill, Darren - 550 MT, 500 MT<br />
O’Neill, Joseph - 108 MT<br />
O’Shea, Jacinta - 159 WTh<br />
Oakes, Terrence - 297 MT<br />
Oakes, Terry - 308 MT, 411 WTh<br />
Oathes, Desmond - 250 WTh<br />
Oberschmidt, Carola - 5 MT<br />
Obleser, Jonas - 799 WTh<br />
Oboshi, Yumi - 56 WTh<br />
Obrig, Hellmuth - 799 WTh<br />
Ochs, Elisabeth - 24 MT<br />
Ochs, Renee - 754 MT<br />
Ochsner, Kevin - 240 WTh, 289 WTh<br />
Oda, Yuko - 134 WTh<br />
Oder, Anita - 638 MT, 757 MT<br />
Oechslin, Mathias - 435 MT, 438 mT<br />
Oedekoven, Christiane - 93 mT<br />
Ofen, Noa - 857 MT<br />
Ogawa, Seiji - 1108 WTh<br />
Ogg, Robert - 167 MT<br />
Oghabian, Mohammad Ali - 29 WTh, 36 MT<br />
Oguri, Takuya - 1000 WTh<br />
Oh, Jihoon - 422 mT<br />
Oh, Jonghyun - 225 WTh<br />
Oh, Jungsu S. - 125 WTh<br />
OH, MAENG-KEUN - 597 MT<br />
Oh, MaengKeun - 74 WTh, 75 WTh<br />
Oh, MiAe - 458 WTh<br />
Oh, Seung-Ha - 1020 WTh, 1022 WTh<br />
Oh, Sung Hwa - 409 MT<br />
Ohgami, Yoshimi - 1006 mT, 1011 MT<br />
Ohira, Hideki - 373 WTh<br />
Ohta, Haruhisa - 119 MT<br />
Ohta, Katsuya - 432 WTh, 437 WTh,<br />
443 WTh, 664 WTh<br />
Ohtomo, Kuni - 905 MT<br />
Oike, Yumiko - 923 MT<br />
Oishi, Hiroaki - 1017 WTh<br />
Oishi, Kenichi - 15 WTh<br />
Ojemann, Jeffrey - 741 MT<br />
Oka, Noriyuki - 522 WTh, 528 WTh<br />
Okada, Yoshio - 449 WTh<br />
Okamoto, Naoko - 531 WTh<br />
Okanoya, Kazuo - 271 WTh<br />
Okazawa, Hidehiko - 390 MT, 1101 MT<br />
Okell, Thomas - 704 MT<br />
Oki, Kazuma - 1097 mT<br />
Okonkwo, David - 593 MT<br />
Okoshi, Yumi - 944 mT<br />
Okubo, Yoshiro - 277 WTh<br />
Olaf, Jansen - 175 MT<br />
Olausson, Hakan - 1030 WTh<br />
Olié, Emilie - 246 MT<br />
Olier, Ivan - 427 WTh<br />
Oliveira Jr, Pedro Paulo - 340 WTh<br />
Olivetti, Emanuele - 598 WTh<br />
Olivetti Belardinelli, Marta - 906 WTh<br />
Olivi, Emmanuel - 662 WTh<br />
Olivia, McGarragle - 165 MT<br />
Oliviero, Antonio - 661 MT<br />
Olulade, Olumide - 149 mT, 168 mT<br />
Olvera, Rene - 507 MT<br />
Omar, Hazim - 444 WTh, 461 WTh<br />
OMBAO, HERNANDO - 750 WTh, 760 WTh<br />
Ombao, Hernando - 639 WTh, 765 WTh, 765 MT<br />
Omori, Risako - 1017 WTh<br />
Ong, Cheng Soon - 545 WTh, 546 WTh<br />
Onitsuka, Toshiaki - 134 WTh<br />
Ontivero-Ortega, Marlis - 59 MT, 449 MT<br />
Onton, Julie - 310 mT<br />
Oostenveld, Robert - 1023 WTh, 808 MT<br />
Op de Beeck, Hans - 775 WTh<br />
Op De Beeck, Marc - 798 MT<br />
Operto, Grégory - 886 WTh<br />
Opitz, Alexander - 17 mT<br />
Opmeer, Esther - 310 WTh<br />
Orban, Pierre - 678 WTh, 829 WTh<br />
Oribe, Naoya - 134 WTh<br />
Orihuela-Espina, Felipe - 521 WTh, 523 WTh,<br />
530 WTh, 1008 MT, 1109 WTh<br />
Ormel, J. - 1062 MT<br />
Orr-Urtreger, Avi - 39 MT<br />
Orth, Michael - 55 WTh<br />
Ortiz, Erick - 1028 WTh, 665 WTh<br />
Ortiz, Hector - 32 WTh, 37 WTh, 258 MT<br />
Ortiz, Juan - 1081 WTh, 895 WTh<br />
Ortmann, Joachim - 794 mT<br />
Osnes, Berge - 813 WTh, 1007 MT, 1046 MT
Osoba, Annemarie - 220 MT, 266 mT<br />
Ossandon, Tomas - 993 mT, 1001 mT, 1012 MT<br />
Ossenblok, Pauly - 179 MT, 204 MT, 672 WTh,<br />
675 WTh<br />
Østergaard, Lasse - 673 MT<br />
Ostwald, Dirk - 194 MT, 475 WTh, 479 WTh,<br />
484 WTh, 920 WTh<br />
Osuch, Elizabeth - 350 MT<br />
Otobe, Takayuki - 799 MT<br />
Otruba, Pavel - 201 WTh<br />
Otsubo, Hiroshi - 653 WTh<br />
Otte, Christian - 1067 WTh<br />
OTTET, Marie-Christine - 955 mT<br />
Otto, Tobias - 1067 mT<br />
Ouchi, Yasuomi - 56 WTh<br />
Ourselin, Sebastien - 51 MT, 634 MT<br />
Ousley, Opal - 232 MT<br />
Overly, Caroline - 336 WTh<br />
Overy, Katie - 952 WTh<br />
Owen, Adrian - 64 WTh, 303 MT, 318 MT,<br />
431 WTh, 420 MT, 436 WTh<br />
Owen, Julia - 632 WTh, 768 WTh<br />
Oya, Hiroyuki - 546 MT<br />
Ozelo, Helka - 216 MT<br />
Özker, Müge - 478 WTh<br />
Özkurt, Tolga - 1 MT, 455 WTh, 659 WTh<br />
Öztürk, Cengizhan - 478 WTh, 544 WTh<br />
Ozyurt, Burak - 348 WTh<br />
Özyurt, Jale - 1063 mT<br />
O’Brien, Hope - 460 WTh<br />
p<br />
Pacheco, Jennifer - 848 mT<br />
Packer, Roger - 326 WTh<br />
Padmanabhan, Aarthi - 331 WTh<br />
Padovani, Renato - 710 MT<br />
Pagel, Alena - 92 WTh<br />
Paggetti, Giulia - 1109 WTh<br />
Paglioli, Eliseu - 203 MT<br />
Pagnoni, Giuseppe - 400 mT<br />
Pail, Gerald - 274 MT, 769 WTh, 290 MT,<br />
754 WTh, 785 MT<br />
Paine, Mark - 190 WTh<br />
Palacios-Martinez, Eva - 312 mT, 706 WTh<br />
Palatucci, Mark - 806 MT<br />
Paldino, Michael - 976 MT, 618 MT<br />
Palmer, Shawna - 167 MT<br />
Palmini, Andre - 203 mT<br />
Paloyelis, Yannis - 161 mT, 346 mT<br />
Palumbo, Sara - 457 MT<br />
Pammi, Chandrasekhar - 383 WTh<br />
Pampel, Andre - 982 WTh<br />
Pan, Ay-Woan - 573 MT<br />
Pan, Hai - 411 WTh, 308 MT, 297 MT<br />
Pan, Wenju - 712 WTh<br />
Pan, Yaozhang - 169 WTh<br />
Pancholi, Krishna - 12 WTh<br />
Pang, Elizabeth - 826 WTh<br />
Pangaro, Louis - 411 WTh<br />
Pani, Ariel - 331 WTh<br />
Panigrahy, Ashok - 948 MT, 966 MT, 997 WTh<br />
Panizzon, Matthew - 325 WTh<br />
Pankratz, Nathan - 320 WTh<br />
Pannekoek, Justine - 270 mT<br />
Pantazis, Dimitrios - 627 MT, 962 WTh, 644 WTh<br />
Pantel, Johannes - 84 MT<br />
Pantelis, Christos - 126 WTh, 357 MT<br />
Papadelis, Christos - 938 WTh<br />
Papademetris, Xenophon - 234 WTh,<br />
639 MT, 986 MT<br />
Papadopoulo, Theodore - 662 WTh<br />
Papasogli, Alessandra - 831 WTh<br />
PAPOIU, ALEXANDRU - 614 mT<br />
Paprotny, Sabine - 1024 MT<br />
Paquette, Caroline - 167 WTh<br />
Paquette, Natacha - 896 WTh, 803 MT<br />
Parada, Francisco - 658 WTh<br />
Paradis-Giroux, Andrée-Anne - 861 mT<br />
Parcet, Maria Antonia - 801 MT, 397 MT<br />
Parchmann, Ilka - 1063 MT<br />
Parellada, Eduard - 139 WTh<br />
Park, Bumhee - 74 WTh, 75 WTh<br />
Park, Hae-Jeong - 74 WTh, 75 WTh, 292 WTh,<br />
597 MT, 604 MT, 658 MT, 771 WTh, 1103 MT,<br />
833 MT, 1114 MT<br />
Park, Hame - 949 WTh<br />
Park, Heyeon - 910 mT<br />
Park, Hye Yoon - 42 WTh, 127 WTh, 125 WTh<br />
Park, Hyojin - 641 WTh, 855 MT<br />
Park, Ji Won - 975 MT, 979 MT, 983 MT<br />
Park, Ji- Eun - 395 WTh<br />
Park, Ji-Young - 9 MT, 172 WTh<br />
Park, Jinsick - 32 MT, 422 WTh<br />
Park, Jinsick - 1099 MT<br />
Park, Jong Won - 605 MT<br />
Park, Jun Sung - 482 WTh, 680 MT<br />
Park, Jun-Sung - 622 WTh<br />
Park, Kyungmo - 1049 WTh, 1042 WTh,<br />
1080 WTh<br />
Park, Mi-Sook - 395 WTh<br />
Park, Soon - 997 MT<br />
Park, Soyoung - 282 MT<br />
Park, Sun Mi - 619 WTh<br />
Parker, Geoffrey - 608 WTh, 801 WTh<br />
Parkes, Laura - 967 MT, 801 WTh<br />
Parkin, Beth - 318 MT<br />
Parkinson, Amy - 816 WTh<br />
Parkkonen, Lauri - 638 WTh<br />
Parra, Carlos - 167 MT<br />
Parrish, Todd - 72 WTh, 577 MT, 754 MT, 775 MT<br />
Partonen, Timo - 251 MT<br />
Parvizi, Josef - 953 MT<br />
Pasaye, Erick - 401 WTh, 1081 WTh, 424 MT<br />
Pascual, Belen - 942 mT<br />
Pascual-Leone, Alvaro - 9 MT, 31 MT, 33 MT,<br />
172 WTh, 173 WTh, 963 WTh, 981 WTh<br />
Pasqualotto, Emanuele - 907 WTh<br />
Pasternak, Ofer - 306 mT<br />
Pastrawa, Marcel - 304 MT<br />
Patel, Vishal - 615 WTh<br />
Pathak, Sudhir - 593 MT<br />
Patrick, CHAYNES - 2 MT<br />
Patten, Darren - 521 WTh<br />
Patterson, James - 930 MT<br />
Pattinson, Kyle - 1059 WTh<br />
Paul, Ben - 267 WTh<br />
Paul, Subhadip - 620 WTh<br />
Pauley, Greg - 120 MT<br />
Pauls, David - 125 MT<br />
Paulsen, Jane - 140 MT<br />
Paulson, Olaf B. - 336 MT<br />
Paulus, Frieder - 307 WTh, 506 MT, 1078 mT<br />
Paulus, Martin - 293 MT<br />
Paulus, Walter - 620 MT<br />
Pauly, Katharina - 103 MT, 1065 mT<br />
Paus, Tomas - 6 WTh, 252 WTh, 321 MT,<br />
333 MT, 337 MT, 352 MT, 628 WTh, 877 WTh,<br />
957 WTh, 1081 MT, 1084 MT, 295 WTh,<br />
306 WTh, 631 WTh, 1112 WTh<br />
Pausova, Zdenka - 295 WTh, 306 WTh, 877 WTh<br />
Pavlidou, Anastasia - 454 WTh<br />
Pawliczek, Christina - 1105 mT<br />
Pawlizki, Annedore - 155 WTh<br />
Pearlson, Godfrey - 12 WTh, 81 WTh, 131 WTh,<br />
359 MT, 368 MT, 969 MT<br />
Pearson Fuhrhop, Kristin - 308 WTh<br />
Bolded Poster numbers indicate first author.<br />
Peca, Stefano - 95 mT, 483 WTh<br />
Pedregosa, Fabian - 667 MT<br />
Pedro, Tatiane - 216 MT<br />
Pedroni, Andreas - 848 WTh<br />
Pedroso, Ivonne - 729 MT<br />
Peelle, Jonathan - 809 WTh, 815 WTh<br />
Peeters, Ronald - 812 MT<br />
Pegado, Felipe - 792 WTh<br />
Pegna, Alan - 279 WTh<br />
Pehrs, Corinna - 266 WTh<br />
PEIGNEUX, Philippe - 137 mT, 157 WTh, 798 MT,<br />
800 WTh, 1026 mT, 850 MT, 1033 MT<br />
Pekar, James - 144 MT, 152 MT, 343 WTh,<br />
711 MT, 722 MT, 878 WTh, 889 WTh<br />
Pelak, Victoria - 46 MT, 85 MT, 96 MT<br />
Pelavin, Paula - 306 MT<br />
Peleg, Orna - 816 MT<br />
Pélégrini-Issac, Mélanie - 346 WTh, 474 MT,<br />
492 WTh, 512 WTh, 702 WTh, 726 MT<br />
Pell, Gaby - 364 WTh<br />
Pelletier, Amandine - 901 mT<br />
Pelphrey, Kevin - 122 MT, 1113 MT<br />
Peltier, Scott - 519 WTh, 562 WTh, 581 WTh,<br />
7 WTh<br />
Pendse, Gautam - 209 WTh, 222 WTh<br />
Peng, Chung-Kang - 532 MT<br />
Peng, Ming - 283 WTh<br />
Peng, Shichun - 655 MT, 958 WTh<br />
Peng, Xiaoling - 517 mT, 968 WTh, 976 WTh,<br />
978 WTh<br />
Pengfei, Liu - 78 MT<br />
Penhune, Virginia - 436 MT, 834 WTh<br />
Pennartz, Cyriel - 1050 MT<br />
Pennec, Xavier - 346 WTh<br />
Penney, Trevor - 524 WTh<br />
Pennick, Mark - 99 MT<br />
Penninx, Brenda - 18 WTh, 310 WTh<br />
Penny, Will - 542 WTh<br />
Pépin, Michel - 861 MT<br />
Pepplinkhuizen, Lolke - 9 WTh<br />
Pera, Vanesa - 213 WTh<br />
Perani, Daniela - 821 MT<br />
Perchey, Guy - 1094 WTh<br />
Perdue, Katherine - 504 WTh, 1044 MT, 517 WTh<br />
Pereira, Denis - 539 MT<br />
Pereira, Fabricio - 216 mT, 296 MT<br />
Perelman, Hayley - 454 MT, 537 MT<br />
Peres, Isabella - 739 MT, 771 mT, 1066 MT<br />
Pérès, Karine - 884 MT, 901 MT<br />
Peretz, Isabelle - 280 WTh, 432 MT, 439 MT<br />
Perez, Fernando - 589 MT, 711 WTh, 773 WTh<br />
Perez, Jennifer - 31 MT<br />
Perez-Bocourt, Vanessa - 729 MT<br />
Pérez-García, Miguel - 207 WTh, 223 WTh<br />
Perez-Then, Eddy - 76 WTh<br />
Perfetti, Charles - 784 WTh<br />
Periot, Olivier - 884 mT<br />
Periot, Olivier - 901 MT<br />
Perkmann, Thomas - 274 MT<br />
Perlbarg, Vincent - 45 WTh, 361 WTh, 474 MT,<br />
726 mT<br />
Pernet, Cyril - 505 MT, 648 WTh, 779 MT,<br />
1092 WTh<br />
Perrin, Jennifer - 1081 MT<br />
Perrin, Margaux - 402 mT<br />
Perron, Michel - 295 WTh, 306 WTh<br />
Perrone-Bertolotti, Marcela - 218 mT, 830 MT<br />
Perrone-Bizzozero, Nora - 81 WTh, 324 WTh<br />
Perrot, Matthieu - 215 MT, 335 WTh<br />
Perrucci, Mauro - 132 MT, 410 WTh<br />
Perry, Gavin - 1048 MT<br />
Persad, Carol - 217 WTh<br />
Perski, Aleksander - 195 WTh<br />
Pérusse, Daniel - 276 MT<br />
HBM 2011 >> <strong>abstracts</strong> 209
Pessiglione, Mathias - 382 WTh, 391 WTh,<br />
543 WTh<br />
Peters, Jan - 321 MT3, 52 MT, 376 WTh, 375 WTh<br />
Peters, Jeroen - 1066 WTh<br />
Peters, Oliver - 84 MT<br />
Petersen, Steven - 984 WTh<br />
Petersen, Steven - 128 MT<br />
Peterson, Bradley - 151 WTh, 188 WTh, 374 MT,<br />
766 WTh<br />
Petersson, Karl-Magnus - 693 WTh<br />
Petkova, Valeria - 1024 WTh, 1034 WTh<br />
Petrich, Jennifer - 778 WTh<br />
Petrides, Michael - 58 MT, 932 MT, 990 WTh,<br />
992 WTh<br />
Petridou, Natalia - 477 MT, 1041 MT, 719 mT<br />
Peyrard-Janvid, Myriam - 304 WTh<br />
Peyrin, Carole - 911 WTh, 1111 WTh<br />
Peyron, Roland - 1040 WTh<br />
Pezawas, Lukas - 274 MT, 290 MT, 754 WTh,<br />
769 WTh, 785 MT<br />
Pfaff, Ashley - 274 WTh<br />
Pfister, Roland - 365 mT, 380 MT<br />
Pfleiderer, Bettina - 286 MT<br />
Pham, Dzung - 334 WTh, 690 MT, 787 MT,<br />
603 WTh<br />
Phan, Kinh Luan - 7 WTh<br />
Philip, Noah - 279 mT<br />
PHILIPPE, Anne-Charlotte - 558 MT<br />
Philippot, Pierre - 268 MT<br />
Philips, Jennifer - 115 MT<br />
Phillips, Christophe - 289 MT, 570 WTh, 600 WTh,<br />
627 WTh, 773 MT, 1019 MT, 1025 MT<br />
Phillips, John - 336 WTh, 866 WTh<br />
Phillips, Kimberley - 312 WTh, 874 WTh<br />
Phillips, Mary - 246 MT, 281 MT, 283 MT, 591 MT<br />
Phillips, Micheal - 50 WTh, 596 MT, 960 MT,<br />
978 MT, 980 MT<br />
Phillips, Owen - 85 WTh, 86 WTh, 146 MT,<br />
199 WTh<br />
Phillips, Paul - 370 WTh<br />
Phillips, Raquel - 228 WTh, 233 WTh, 512 mT,<br />
515 MT<br />
Phua, Kok Soon - 169 WTh<br />
Piantoni, Giovanni - 1036 mT<br />
Piccione, Francesco - 11 MT<br />
Piccirelli, Marco - 513 mT<br />
Pichat, Cedric - 911 WTh, 218 MT, 1111 WTh<br />
Pichon, Swann - 1098 WTh<br />
Pienaar, Rudolph - 629 mT, 349 WTh, 363 WTh,<br />
503 WTh, 618 MT<br />
Pieper, Steven - 349 WTh<br />
Pierpaoli, Carlo - 832 WTh, 331 WTh<br />
Pierson, Ronald - 140 MT<br />
Pieters, Thomas - 567 MT, 571 MT, 632 mT,<br />
1047 MT<br />
Pietrini, Pietro - 278 WTh, 421 WTh, 571 WTh,<br />
586 WTh, 817 MT, 831 WTh, 991 MT,<br />
1057 MT, 1082 MT<br />
Pietrzyk, Uwe - 950 MT<br />
Pievani, Michela - 57 mT, 81 mT<br />
Pifarré, Josep - 213 WTh<br />
Pignat, Jean-Michel - 161 WTh<br />
Piguet, Camille - 248 WTh<br />
Pijnenborg, Marieke - 1109 MT<br />
Pike, Bruce - 295 WTh, 306 WTh, 503 MT,<br />
610 WTh, 834 WTh, 964 MT<br />
Pilgrim, Lea - 785 WTh<br />
Pilhatsch, Maximilian - 405 MT<br />
Pillai, Ajay - 744 WTh, 629 WTh<br />
Pineau, Arlette - 1094 WTh, 1097 WTh<br />
Pineault, Jessica - 82 mT<br />
Pinel, Philippe - 316 WTh<br />
Pinkham, Amy - 137 WTh<br />
Pinotsis, Dimitris - 649 WTh<br />
Pirker, Walter - 77 WTh<br />
210 HBM 2011 >> <strong>abstracts</strong><br />
Pisoni, David - 810 WTh<br />
Pitcher, Toni - 51 WTh<br />
Pittau, Francesca - 202 mT, 726 WTh<br />
Pittman, Dan - 504 MT<br />
Pitzalis, Sabrina - 510 MT<br />
Pizzagalli, Fabrizio - 872 MT, 924 WTh<br />
Pizzella, Vittorio - 447 WTh<br />
Plaisant, Odile - 957 MT<br />
Plank, Tina - 973 MT<br />
Plante, Elena - 366 MT, 802 MT, 1011 WTh<br />
Plassmann, Hilke - 392 WTh<br />
Platel, Hervé - 430 MT, 850 MT<br />
Platz, Birgit - 468 MT<br />
Plebani, Mauro - 70 WTh<br />
Pleger, Burkhard - 10 MT, 333 WTh, 376 MT,<br />
402 WTh, 720 MT, 784 MT, 977 MT<br />
Plenz, Dietmar - 723 MT, 734 MT<br />
Plessow, Franziska - 130 MT<br />
Plichta, Michael - 2 WTh, 551 WTh<br />
Plis, Sergey - 13 mT<br />
Plomp, Gijs - 1009 MT<br />
Pluta, John - 177 MT<br />
Pocinho, Fernando - 35 WTh<br />
Podlipsky, Ilana - 249 WTh, 325 MT, 1034 MT<br />
Poels, Marielle - 200 WTh<br />
Poeppel, Ernst - 398 WTh, 739 MT, 771 MT<br />
Pogarell, Oliver - 103 WTh, 375 MT, 410 MT<br />
Poil, Simon-Shlomo - 636 WTh<br />
Poirel, Nicolas - 1094 WTh, 1097 WTh<br />
Polak, Thomas - 2 WTh<br />
Poldrack, Russell - 342 WTh, 343 WTh, 371 MT,<br />
384 WTh, 943 MT, 554 WTh<br />
Polimeni, Jonathan - 621 MT, 685 MT, 705 WTh,<br />
985 WTh, 988 WTh<br />
Polimeni, Joseph - 245 MT<br />
Poline, Jean-Baptiste - 6 WTh, 252 WTh,<br />
316 WTh, 317 WTh, 321 MT, 333 MT,<br />
337 MT, 352 MT, 354 WTh, 692 WTh, 769 MT,<br />
877 WTh, 957 WTh, 1084 MT<br />
Politte, David - 1038 mT<br />
Pollack, Mark - 240 MT<br />
Pollak, Seth - 954 MT, 1003 WTh<br />
Polli, Frida - 240 MT<br />
Pollock, Bruce - 145 WTh, 257 MT<br />
Polzehl, Joerg - 365 WTh, 611 WTh, 616 WTh,<br />
651 MT<br />
Pomares, Florence - 1040 WTh<br />
Pomerleau, Dean - 806 MT<br />
Pomjanski, Witali - 367 MT, 689 WTh, 987 MT<br />
Popa, Traian - 27 mT, 913 WTh, 69 WTh,<br />
930 WTh<br />
Popescu, Elena - 164 WTh<br />
Popovici, Romana - 836 WTh<br />
Porcaro, Camillo - 194 MT, 475 WTh, 479 WTh,<br />
484 WTh, 823 WTh, 920 WTh, 1041 WTh,<br />
651 WTh<br />
Porro, Carlo - 923 WTh, 609 MT<br />
Porter, David - 555 MT<br />
Porto, Claudia - 76 MT<br />
Poser, Benedikt - 476 mT, 502 mT, 637 MT<br />
Poskitt, Kenneth - 897 WTh<br />
Posse, Stefan - 480 mT, 567 WTh, 661 MT,<br />
767 MT<br />
Postelnicu, Gheorghe - 936 MT<br />
Poston, Kathleen - 63 WTh<br />
Potenza, Marc - 603 MT, 12 WTh<br />
Potiez, Yann - 82 MT, 829 MT, 852 WTh<br />
Potkin, Steven - 320 WTh, 324 WTh<br />
Potter, Alexandra - 385 mT<br />
Potvin, Stephane - 114 WTh<br />
Pouga, Lydia - 1076 MT<br />
Poulin, Marc - 483 WTh<br />
Pouliot, Philippe - 186 MT<br />
Poulsen, Catherine - 628 WTh<br />
Poustka, Luise - 252 WTh, 337 MT<br />
Powell, David - 56 MT<br />
Powell, Joanne - 361 mT<br />
Powers, Natalie - 131 WTh<br />
Powers, Scott - 457 WTh, 460 WTh<br />
Pradat, Pierre-François - 184 WTh<br />
Pradhan, Cauchy - 434 WTh<br />
Prado, Jérôme - 404 WTh, 996 mT<br />
Prager, Miriam - 919 MT<br />
Prakash, Ruchika - 370 MT<br />
Prasad, Gautam - 568 mT<br />
Praško, Ján - 294 MT<br />
Prats-Galino, Alberto - 689 MT<br />
Prayer, Daniela - 434 MT, 717 WTh<br />
Prehn-Kristensen, Alexander - 522 MT<br />
Preibisch, Christine - 1030 MT<br />
Preissl, Hubert - 235 WTh, 326 MT, 332 WTh,<br />
332 MT, 858 WTh, 1028 WTh, 665 WTh,<br />
452 WTh<br />
Preissler, Sandra - 194 WTh<br />
Prendergast, Garreth - 459 WTh<br />
Prestia, Annapaola - 410 WTh<br />
Preuschhof, Claudia - 301 WTh<br />
Price, Gavin - 413 WTh, 416 WTh<br />
Price, Julie - 493 WTh, 636 MT<br />
Price, Lawrence - 279 MT<br />
Priebe, Carey - 953 WTh<br />
P,ikryl, Radovan - 795 MT<br />
Prince, Jerry - 674 MT, 690 MT, 791 MT, 953 WTh<br />
Prinssen, Eric - 552 WTh<br />
Prior, Fred - 1038 MT<br />
Proal, Erika - 173 MT, 343 WTh<br />
Proeger, Thomas - 359 WTh<br />
Promjunyakul, Nuttaon - 181 WTh<br />
Provenzano, Frank - 692 MT<br />
Provost, Jean-Sebastien - 404 mT<br />
Pruessmann, Klaas - 485 MT<br />
Pruessner, Jens - 852 MT<br />
Pruitt, Patrick - 78 WTh, 165 MT<br />
Prvulovic, David - 54 mT<br />
Ptak, Radek - 161 WTh<br />
Ptito, Alain - 61 WTh, 62 WTh, 941 WTh<br />
Puce, Aina - 27 WTh, 658 WTh, 1080 MT<br />
Puckett, Alexander - 995 mT<br />
Pujol, Jesus - 39 WTh, 213 WTh, 32 WTh,<br />
33 WTh, 37 WTh, 258 MT, 234 MT, 255 MT<br />
Pujol, Sonja - 304 MT<br />
Pulido, Carmen - 763 WTh<br />
Pung, Chris - 94 WTh<br />
Purcell, Jeremy - 782 WTh<br />
Puts, Nicolaas - 462 WTh<br />
Pyka, Martin - 140 WTh, 523 mT, 1108 MT<br />
q<br />
Qi, Yuan - 560 WTh<br />
Qin, Pengmin - 596 WTh, 1069 mT<br />
Qin, Shaozheng - 728 WTh<br />
Qiu, Anqi - 616 MT, 956 WTh<br />
Qiu, Lihua - 242 MT, 273 mT, 89 MT<br />
Qiu, Maolin - 234 WTh, 639 MT<br />
QUAINE, Franck - 872 MT<br />
Quan, Hong - 467 WTh<br />
Quaresma, Ramon - 539 MT<br />
Quentin, Romain - 1004 mT<br />
Quinn, Brian - 631 MT<br />
Quiñones, Ileana - 559 WTh<br />
Quiroga, María Ángeles - 752 MT<br />
Quraan, Maher - 143 mT, 660 WTh
Rábago, Christopher - 947 WTh<br />
Rabiner, Eugenii - 335 MT, 536 WTh<br />
Rabl, Ulrich - 274 MT<br />
Rack-Gomer, Anna Leigh - 713 mT<br />
Radakrishnan, Harsha - 1043 MT<br />
Radlinska, Basia - 167 WTh, 175 WTh<br />
Radoeva, Petya - 108 WTh<br />
Radvany, Joao - 406 MT<br />
Radwan, Jacqueline - 165 MT<br />
Rae, Charlotte - 594 mT<br />
Raemaekers, Mathijs - 1087 WTh, 1089 WTh<br />
Raethjen, Jan - 200 MT<br />
Raffone, Antonino - 906 WTh<br />
Ragert, Patrick - 839 WTh, 990 WTh<br />
Raghavan, Manoj - 209 MT<br />
Ragin, Ann - 754 MT<br />
Rahko, Jukka - 125 mT<br />
Raij, Tommi - 715 WTh, 985 MT<br />
Raila, Hannah - 265 WTh, 492 MT<br />
Rainveille, Pierre - 114 WTh<br />
Raj, Jeslina - 248 MT<br />
Raja Beharelle, Anjali - 776 WTh<br />
Rajagopal, Akila - 570 mT, 802 MT<br />
Rajagopalan, Priya - 48 mT, 49 mT, 193 WTh,<br />
994 WTh, 996 WTh<br />
Rajagopalan, Vidya - 865 WTh, 863 WTh,<br />
867 WTh<br />
Rajan, Sunder - 496 MT<br />
Rajji, Tarek - 145 WTh<br />
Raksit, Megna - 204 WTh<br />
Ralaivola, Liva - 569 WTh<br />
Ralescu, Anca - 557 WTh<br />
Ramautar, Jennifer - 1037 mT<br />
Ramirez, Rey - 209 MT, 701 mT<br />
Ramirez Mayorga, Arturo - 1081 WTh<br />
Ramnani, Narender - 1083 MT<br />
Ramsay, Ian - 232 WTh<br />
Ramsey, Nick - 113 WTh, 342 MT, 477 MT,<br />
772 MT, 1041 MT, 4 WTh, 1051 MT, 1089 WTh<br />
Ramus, Franck - 148 MT, 879 WTh<br />
Rana, Kunjan - 626 WTh, 1033 WTh<br />
Rana, Mohit - 929 WTh, 524 WTh, 903 WTh,<br />
299 MT, 906 WTh<br />
Rana, Nitesh - 264 WTh<br />
Ranaweera, Ruwan - 975 WTh<br />
Ranieri, Shawn - 501 MT<br />
Ranjeva, Jean-Philippe - 862 MT<br />
Rao, Anil - 66 MT, 223 MT, 225 MT, 568 WTh<br />
Rao, Chaitra - 791 WTh<br />
Rao, Hengyi - 553 MT<br />
Rao, Lilin - 396 WTh<br />
Rao, Ravishankar - 666 MT<br />
Rao, Stephen - 42 MT, 978 MT, 980 MT<br />
Rao, Vikram - 237 WTh<br />
Rapcencu, Anca - 122 WTh<br />
Rapin, Lucile - 130 WTh<br />
Rapoport, Judith - 132 WTh, 150 MT, 868 WTh<br />
Rapp, Alexander - 140 WTh<br />
Rapp, Brenda - 782 WTh<br />
Rapp, Michael - 867 MT<br />
Rapuano, Kristina - 334 MT<br />
Rasetti, Roberta - 875 MT<br />
Rasmussen, Carmen - 141 MT<br />
Rasmussen, Hans - 95 WTh<br />
Rasmusson, Douglas - 508 MT<br />
Rath, Jakob - 77 WTh, 525 MT, 534 MT, 535 MT,<br />
643 MT, 1078 WTh<br />
Rati Lane, Susan - 351 WTh<br />
Ratnanather, J. - 244 MT, 250 MT<br />
Ratnanather, Tilak - 140 MT<br />
RAUCHS, Géraldine - 850 MT<br />
Rausch, Franziska - 104 WTh<br />
Rauschecker, Josef - 1012 WTh<br />
Ravaja, Niklas - 338 MT<br />
Ravindran, Murugan - 204 WTh<br />
Rawlings, Robert - 665 MT<br />
Ray, Kimberly - 659 mT, 736 WTh, 966 WTh<br />
Raz, Gal - 249 WTh<br />
Raznahan, Armin - 132 WTh<br />
Rea, Massimiliano - 903 WTh, 929 WTh<br />
Read, Aimee - 763 WTh<br />
Reagor, Mary Kathryn - 657 WTh<br />
Real, Eva - 32 WTh, 33 WTh, 37 WTh, 39 WTh,<br />
213 WTh<br />
Rebola, Jose - 1102 WTh, 1104 WTh<br />
Recasens, Marc - 1010 WTh<br />
Reck<strong>for</strong>t, Julia - 950 MT<br />
Reckling, Philipp - 634 WTh<br />
Redheuil, Alban - 898 MT<br />
Rediers, Joline - 775 WTh<br />
Reetz, Kathrin - 52 WTh, 65 WTh, 68 WTh,<br />
842 WTh<br />
Regan, Stephanie - 1111 MT<br />
Regenbogen, Christina - 1029 WTh<br />
Régis, Jean - 215 MT, 615 MT<br />
Rehan, Muhammad - 6 mT<br />
Rehme, Anne - 162 WTh, 171 WTh<br />
Rei, Luca - 65 MT<br />
Reich, Daniel - 603 WTh<br />
Reichenbach, Alexandra - 940 WTh<br />
Reid, Melanie - 133 MT, 142 MT, 822 WTh,<br />
885 WTh<br />
Reid, Meredith - 105 WTh, 112 WTh, 121 WTh,<br />
136 WTh, 109 WTh<br />
Reid, Vincent - 647 WTh<br />
Reif, Andreas - 551 WTh<br />
Reijmer, Yael - 583 mT<br />
Reimann, Katja - 447 MT, 934 MT, 982 WTh<br />
Reimer, Enrico - 359 WTh, 928 MT<br />
Reimold, Matthias - 537 WTh<br />
Reinders, A.A.T. Simone - 284 MT<br />
Reinhardt, Isabelle - 286 MT<br />
Reinkensmeyer, David - 21 MT, 837 WTh<br />
Reino, Michele - 440 WTh<br />
Reis, Aldina - 207 MT<br />
Reiser, Maximilian - 84 WTh, 116 MT, 398 WTh,<br />
739 MT, 771 MT<br />
Reishofer, Gernot - 408 WTh, 851 WTh<br />
Reiss, Allan - 645 MT, 160 MT, 268 WTh<br />
Reiss, Jeffrey - 227 MT, 245 MT, 261 MT<br />
Reiss, Philip - 681 WTh<br />
Reiterer, Susanne - 995 WTh<br />
Reith, Wolfgang - 468 MT<br />
Relvas, João - 35 WTh<br />
Remes, Jukka - 733 MT, 125 MT, 231 MT<br />
Ren, Juejing - 730 MT<br />
Ren, Wenting - 467 WTh<br />
Renée, Beland - 803 MT<br />
Reneman, Liesbeth - 15 WTh, 469 WTh, 530 MT<br />
Renken, R.J. - 1062 MT<br />
Renton, Rachael - 262 MT<br />
Repovš, Grega - 222 MT<br />
Resnick, Susan - 764 MT, 895 MT, 953 WTh<br />
Retico, Alessandra - 109 mT<br />
Reutens, David - 215 WTh<br />
Reuter, Martin - 621 MT, 622 mT, 1074 MT<br />
Reynolds, Gretchen - 240 MT<br />
Reynolds, Richard - 649 MT<br />
Reza, Faruque - 444 WTh, 461 WTh<br />
Rhee, Hak Young - 681 MT<br />
Ribeiro, Maria - 330 WTh, 893 WTh<br />
Ribeiz, Salma Rose - 296 MT<br />
Ricciardi, Emiliano - 278 WTh, 421 WTh,<br />
571 WTh, 586 WTh, 817 MT, 831 WTh,<br />
991 mT, 1057 MT, 1082 MT<br />
Richards, Carol - 427 MT<br />
Richards, Jessica - 263 WTh, 273 WTh<br />
Bolded Poster numbers indicate first author.<br />
Richards, Lorie - 700 MT<br />
Richards, Todd - 120 MT, 554 mT<br />
Richardson, Mark - 180 MT<br />
Richer, Louis - 295 WTh, 306 WTh<br />
Richlan, Fabio - 136 mT, 139 MT<br />
Richter, Peter - 1096 MT<br />
Rick, Jochen - 480 MT<br />
Rick, Tobias - 958 MT<br />
Ricolfi, Frederic - 911 WTh<br />
Ridderinkhof, K. - 20 WTh, 388 MT<br />
Ridgway, Gerard - 762 mT<br />
Ridler, Khanum - 223 MT, 225 MT<br />
Rieck, Bettina - 1035 WTh<br />
Riedl, Valentin - 141 WTh, 220 WTh<br />
Riedner, Brady - 1032 MT, 1036 MT<br />
Riedy, Gerard - 411 WTh, 308 MT, 297 MT<br />
Riese, H. - 1062 MT<br />
Riesenhuber, Maximilian - 1012 WTh<br />
Rieskamp, Jörg - 322 MT<br />
Rietschel, Marcella - 6 WTh, 24 MT, 149 WTh,<br />
252 WTh, 307 WTh, 321 MT, 333 MT, 337 MT,<br />
352 MT, 506 MT, 877 WTh, 957 WTh, 1084 MT<br />
Riggins, Tracy - 26 WTh<br />
Rigolo, Laura - 543 mT<br />
Rihs, Tonia - 124 WTh<br />
Riley, Edward - 146 MT<br />
Riley, Jason - 525 WTh<br />
Riley, Jeff - 214 mT<br />
Riley, Zackery - 336 WTh<br />
Rimol, Lars M. - 94 WTh, 129 WTh<br />
Rimol, Lars Rimol - 311 WTh<br />
Rimrodt, Sheryl - 202 WTh<br />
Ring, Howard - 111 MT, 117 MT<br />
Ringelstein, E - 188 MT, 219 MT, 392 WTh<br />
Ringman, John - 297 WTh<br />
Rio, Daniel - 665 mT<br />
Rioux, James - 508 MT<br />
Ripke, Stephan - 333 MT, 386 WTh, 394 MT<br />
Ripollés Vidal, Pablo - 451 mT<br />
Risacher, Shannon - 299 WTh, 305 WTh, 560 WTh<br />
Rish, Irina - 582 WTh<br />
Risterucci, Céline - 552 WTh<br />
Ristow, Michael - 879 MT<br />
Ritter, Petra - 625 WTh<br />
Rittman, Timothy - 44 mT<br />
Rivière, Denis - 215 mT, 335 WTh, 360 WTh,<br />
677 MT, 686 MT, 886 WTh, 993 WTh<br />
Roa-Sanchez, Pedro - 76 WTh<br />
Robb, Ashley - 301 MT<br />
Robbins, Trevor - 6 WTh, 252 WTh, 321 MT,<br />
337 MT, 352 MT, 957 WTh<br />
Roberston, Ian - 302 WTh<br />
Robert McLay, Robert - 301 MT<br />
Roberts, Gloria - 23 WTh<br />
Roberts, James - 625 WTh<br />
Roberts, Neil - 952 WTh<br />
Roberts, S. - 123 MT<br />
Roberts, Timothy - 934 WTh<br />
Robertson, Edwin - 835 WTh<br />
Robertson, Sara - 1020 MT<br />
Robin, Arthur - 165 MT<br />
Robin, Donald - 747 WTh, 816 WTh, 824 WTh,<br />
825 WTh, 830 WTh<br />
Robinson, Meghan - 307 mT<br />
Robinson, Peter - 625 WTh, 757 WTh<br />
Robinson, Simon - 525 MT, 535 MT, 643 MT<br />
Robinson, Stephen - 738 MT, 849 WTh<br />
Robitaille, Nicolas - 439 mT<br />
Robles, Montse - 317 MT, 642 MT, 644 MT<br />
Robson, Sian - 1110 WTh<br />
Robustelli, Briana - 106 MT<br />
Roca, Pauline - 677 mT<br />
Roch, Vincent - 349 WTh<br />
Rochas, Vincent - 124 WTh<br />
Roche, Richard - 920 MT<br />
HBM 2011 >> <strong>abstracts</strong> 211
Roche-Labarbe, Nadege - 503 WTh, 1043 mT<br />
Rode, Gilles - 426 MT<br />
Rodehacke, Sarah - 333 MT, 386 WTh, 394 MT<br />
Röder, Brigitte - 1026 WTh<br />
Rodionov, Roman - 718 MT<br />
Rodrigues, João - 741 WTh<br />
Rodríguez, Aina - 397 MT<br />
Rodriguez, Eugenio - 1104 WTh<br />
Rodriguez, Valia - 729 MT<br />
Rodríguez Pujadas, Aina - 801 MT, 840 mT<br />
Rodríguez-Fornells, Antoni - 451 MT<br />
Rodriguez-Puentes, Yanays - 652 WTh<br />
Rodriguez-Raecke, Rea - 1067 WTh, 76 WTh<br />
Roe, Katherine - 386 mT, 331 WTh<br />
Roebroeck, Alard - 556 MT<br />
Roell, Judith - 1033 MT<br />
Roelofs, Karin - 343 MT<br />
Roelstraete, Bjorn - 740 WTh<br />
Roenneberg, Till - 739 MT, 771 MT<br />
Roepke, Stefan - 194 WTh<br />
Roepstorff, Andreas - 438 WTh, 835 MT, 1085 MT<br />
Roffe-Vidal, Sébastien - 756 WTh<br />
Rogers, Baxter - 960 WTh<br />
Rogers, Peter - 1106 WTh<br />
Rogers, William - 29 MT, 691 MT, 816 WTh<br />
Rogier, Ophelie - 121 mT<br />
Rogowska, Jadwiga - 156 mT<br />
Rohde, Luis - 580 WTh<br />
Rohm, Martin - 524 WTh<br />
Rohr, Christiane - 170 WTh<br />
Roig, Teresa - 312 MT<br />
Roiser, Jon - 79 WTh<br />
Rojas, Don - 101 mT<br />
Rojas, Donald - 221 WTh<br />
Rojas, Gonzalo - 788 mT<br />
Rojas Balderrama, Javier - 346 WTh<br />
Rolfs, Arndt - 76 WTh<br />
Rollings, David - 194 mT, 1029 mT<br />
Romagno, Domenica - 817 mT<br />
Román, Patricia - 397 MT, 840 MT<br />
Romani, Gian Luca - 22 MT, 132 MT, 410 WTh,<br />
447 WTh, 507 WTh, 356 MT<br />
Romanowski, Alexander - 452 MT, 459 mT<br />
Romanski, Lizabeth - 389 MT<br />
Rombouts, Serge - 256 WTh, 267 MT, 270 MT,<br />
343 MT, 697 WTh, 717 MT<br />
Romei, Vincenzo - 18 MT<br />
Romeijn, Nico - 1036 MT, 1037 MT<br />
Romero, Eduardo - 1019 MT<br />
Rona, Sabine - 855 WTh<br />
Rondina, Jane - 583 WTh, 216 MT<br />
Ronen, Itamar - 556 MT<br />
Rong, Dongdong - 712 MT<br />
Roopchansingh, Vinai - 484 MT<br />
Roostaei, Tina - 94 mT, 36 MT<br />
Rosa, Maria Joao - 542 WTh<br />
Rosa, Paulo - 760 mT<br />
Rosa, Pedro - 43 mT<br />
Rosa-Neto, Pedro - 72 MT, 90 MT, 619 MT,<br />
881 MT, 50 MT, 71 MT<br />
Rosanova, Mario - 1016 mT<br />
Rosas, H. Diana - 559 MT, 622 MT, 878 MT<br />
Rose, Emma - 302 WTh<br />
Rosell-Negre, Patricia - 330 MT<br />
Rosen, Bruce - 985 WTh, 1042 WTh<br />
Rosenberg, David - 165 MT<br />
Rosenberg, Dominique - 192 MT, 506 WTh<br />
Rosenberg, Monica - 545 MT<br />
Rosenberg-Lee, Miriam - 115 MT, 415 WTh,<br />
406 WTh<br />
Rosene, Douglas - 587 MT<br />
Rosenkranz, Karin - 718 MT<br />
Rosenstiel, Wolfgang - 907 WTh<br />
Roski, Christian - 244 WTh, 367 MT, 689 WTh,<br />
842 WTh, 893 mT, 919 WTh<br />
212 HBM 2011 >> <strong>abstracts</strong><br />
Ross, Bernhard - 446 WTh, 399 MT, 437 MT,<br />
640 WTh, 1007 WTh<br />
Ross, Chris - 140 MT<br />
Ross, Thomas - 5 WTh, 263 WTh, 273 WTh,<br />
303 WTh, 939 MT<br />
Rosseel, Yves - 740 WTh, 782 MT<br />
Rossi, Sandrine - 1094 WTh<br />
Rossi, Sonia - 799 WTh<br />
Rossignol, Mandy - 268 mT<br />
Rossignol, Serge - 184 WTh, 512 WTh<br />
Rosso, Charlotte - 166 WTh<br />
Rota, Giuseppina - 278 WTh, 817 MT<br />
Rotenberg, David - 501 mT<br />
Rotgans, Edwin - 497 MT<br />
Rothermich, Kathrin - 807 WTh<br />
Rothwell, John - 163 WTh<br />
Rottschy, Claudia - 65 WTh, 842 WTh<br />
Rouleau, Guy - 276 MT<br />
Rouleau, Isabelle - 780 WTh, 828 MT<br />
Rousseau, Francois - 863 WTh, 865 WTh<br />
Rousseau, Marc-Étienne - 344 WTh<br />
Rousselet, Guillaume - 648 WTh, 1092 WTh<br />
Roussotte, Florence - 134 mT, 171 MT<br />
Rowe, James - 43 WTh, 44 MT, 64 WTh, 336 MT,<br />
358 MT, 594 MT, 655 WTh<br />
Rowley, Howard - 74 MT<br />
Rowley, Jared - 72 mT, 43 MT, 68 MT, 71 MT,<br />
90 MT<br />
Roy, Eric - 77 MT<br />
Roy, Marc-André - 1093 MT<br />
Roy, Marie-Sylvie - 896 WTh<br />
Roy, Prasun - 168 WTh, 210 WTh, 620 WTh<br />
Roys, Steven - 314 MT, 700 MT<br />
Roze, Emmanuel - 930 WTh<br />
Ruber, Theodor - 160 WTh<br />
Rubin, David - 844 MT<br />
Rubin, Denis - 588 WTh<br />
Rubinov, Mikail - 716 WTh, 742 WTh<br />
Rubinow, David - 239 MT<br />
Rubinstein, Daniel - 738 mT, 849 WTh<br />
Rubio, Fernando - 451 MT<br />
Rudie, Jeffrey - 104 mT, 114 MT, 350 WTh<br />
Rueckert, Daniel - 606 WTh<br />
Rueda Lopes, Fernanda - 539 mT<br />
Rueschemeyer, Shirley-Ann - 818 MT<br />
Ruether, Eckart - 84 MT<br />
Ruf, Carolin - 907 WTh<br />
Ruf, Matthias - 882 MT<br />
Ruff, Christian - 485 MT<br />
Ruge, Hannes - 369 MT, 394 MT<br />
Ruhl, David - 93 WTh<br />
Ruiter, Dirk - 986 WTh<br />
Ruiz, Sergio - 383 WTh, 688 WTh<br />
Rujescu, Dan - 103 WTh, 375 MT<br />
Rulseh, Aaron - 71 WTh<br />
Rundle, Melissa - 820 mT<br />
Runge, Matthias - 5 MT<br />
Ruparel, Kosha - 137 WTh<br />
Rupp, Henrike - 896 MT<br />
Rupp, Rüdiger - 524 WTh<br />
Rusak, Benjamin - 388 WTh<br />
Rushworth, Matthew - 366 WTh, 369 WTh<br />
Rusina, Robert - 71 WTh<br />
Russell, Michael - 7 mT<br />
Russell, Tamara - 406 MT<br />
Rutanen, Kalle - 636 WTh<br />
Ruzich, Emily - 871 MT, 1070 WTh<br />
R,ži,ka, Evžen - 49 WTh<br />
R,ži,ka, Filip - 49 WTh<br />
Ryali, Srikanth - 98 MT, 738 WTh, 797 WTh<br />
Rykhlevskaia, Elena - 777 WTh<br />
Ryles, April - 49 MT<br />
Ryner, Lawrence - 227 MT, 245 MT<br />
Rytsar, Romana - 730 WTh<br />
Ryvlin, Philippe - 198 MT<br />
s<br />
S. Saad, Ziad - 481 MT, 630 MT, 649 MT,<br />
709 MT, 739 WTh<br />
Saad, Mohammed - 549 mT<br />
Saad, Ziad - 694 mT<br />
Saathoff, Claudia - 393 MT<br />
Sabri, Merav - 794 WTh<br />
Sabri, Osama - 64 MT<br />
Sabuncu, Mert - 617 MT, 883 MT<br />
Sacco, Carolyn - 148 WTh<br />
Sacco, Katiuscia - 1050 WTh<br />
Sachdev, Perminder - 323 WTh<br />
Sacher, Julia - 287 mT<br />
Sachs, Olga - 516 MT, 1031 WTh<br />
Sack, Alexander - 1095 WTh<br />
Sack, Darren - 349 WTh<br />
Sadaghiani, Sepideh - 166 WTh<br />
Sadat-Hossieny, Sara - 60 MT<br />
Sadato, Norihiro - 473 WTh, 841 WTh,<br />
1101 MT, 1112 MT<br />
Sadikot, Abbas - 61 WTh<br />
Sadino, Jeff - 21 WTh<br />
Saemann, Phillip - 225 MT<br />
Saenger, Victor - 53 WTh, 965 WTh<br />
Saenz, Melissa - 446 MT, 924 MT<br />
Saez, Ignacio - 370 WTh<br />
Saft, Carsten - 55 WTh<br />
Sager, Mark - 34 MT, 74 MT<br />
Sagi, Yaniv - 833 WTh<br />
Sahani, Maneesh - 239 WTh<br />
Saint-Amour, Dave - 469 MT<br />
Saito, Daisuke - 1101 MT, 390 MT<br />
Saiz, Albert - 689 MT<br />
Sajda, Paul - 1093 WTh<br />
Sakaguchi, Masakuni - 635 MT<br />
Sakai, Tsuneo - 8 MT<br />
Sakaie, Ken - 960 mT, 569 MT, 596 MT,<br />
956 MT, 980 MT<br />
Sakamoto, Masanobu - 56 WTh<br />
Saksa, John - 234 WTh<br />
Sala-Llonch, Roser - 312 MT, 706 WTh<br />
Salami, Alireza - 890 mT<br />
Salamon, Noriko - 615 WTh<br />
Salarirad, Sima - 688 MT, 913 MT<br />
Salat, David - 559 MT, 891 MT, 16 WTh, 878 MT<br />
Sales, Francisco - 207 MT<br />
Saletin, Jared - 237 WTh<br />
Salimi-Khorshidi, Gholamreza - 540 WTh<br />
Salimpoor, Valorie - 319 mT<br />
Salinari, Serenella - 423 MT, 1102 MT<br />
Salinas, Felipe - 15 mT<br />
Sallard, Etienne - 868 MT<br />
Salmelin, Riitta - 451 WTh, 718 WTh<br />
Salmeron, Betty Jo - 5 WTh, 303 WTh, 26 WTh<br />
Salmi, Juha - 414 MT<br />
Salmon, Eric - 289 MT, 398 MT<br />
SALOMONE, RITA - 132 MT<br />
Salomons, Tim - 1052 WTh, 1062 WTh<br />
Salthouse, Timothy - 918 MT<br />
Salustri, Carlo - 651 WTh<br />
Sämann, Philipp - 223 mT, 702 MT<br />
Sambataro, Fabio - 55 WTh<br />
Samii, Amir - 19 WTh, 44 WTh<br />
Sammer, Gebhard - 634 WTh, 919 mT<br />
Sampath, Hemalatha - 303 WTh<br />
Sams, Mikko - 238 WTh, 414 MT, 742 MT,<br />
261 WTh, 985 MT<br />
Samson, Andrea - 116 MT<br />
Samson, Fabienne - 97 MT, 113 MT<br />
Samson, Yves - 166 WTh<br />
Samudra, Preeti - 13 WTh<br />
Samy, Rasha - 164 MT<br />
Sanabria-Diaz, Gretel - 59 mT, 449 MT
Sanches, Liana - 406 MT<br />
Sanchez, Gaetan - 1074 WTh<br />
Sanchez-Bornot, Jose - 729 MT<br />
Sandberg, Chaleece - 837 mT, 179 WTh<br />
Sandberg, Stefan - 370 WTh<br />
Sanders, Nicole - 187 WTh<br />
Sandoval, Hugo - 426 WTh<br />
Sandoval, Robinson - 689 MT<br />
Sands, Andrew - 426 WTh<br />
Sands, Stephen - 426 WTh<br />
Sanes, Jerome - 765 WTh, 945 WTh<br />
Sangani, Masoud - 192 MT<br />
Sani, Lorenzo - 831 WTh<br />
Sanjuán, Ana - 801 mT, 397 mT, 840 MT<br />
Sanjuan, Julio - 642 MT<br />
Sano, Masahiro - 522 WTh<br />
Sano, Sayaka - 522 WTh<br />
Santana, Isabel - 67 MT<br />
Santhanam, Priya - 174 WTh<br />
Santoro, Gino - 831 WTh<br />
Santoro, Roberta - 1005 WTh<br />
Santos, André - 893 WTh<br />
Sapiro, Guillermo - 568 MT, 572 MT, 597 WTh,<br />
609 WTh<br />
Sara, Cilles - 899 MT<br />
Sarael, Alcauter - 292 MT<br />
Sareen, Jitender - 227 MT, 245 MT, 261 MT<br />
Sarfeld, Anna-Sophia - 162 WTh, 165 WTh,<br />
922 WTh<br />
Sarkar, Somwrita - 757 WTh<br />
Sarkheil, Pegah - 252 mT, 748 WTh<br />
Sasai, Shuntaro - 473 WTh<br />
Sasaki, Akihiro - 473 WTh<br />
Sasaki, Hiroki - 635 MT<br />
Sass, Christian - 52 WTh, 65 WTh<br />
Sass, Katharina - 516 MT, 811 mT<br />
Sassa, Yuko - 865 MT, 887 WTh, 869 MT,<br />
1013 MT<br />
Sato, Hiroki - 850 WTh<br />
Sato, Joao - 406 MT, 531 MT, 580 WTh, 488 WTh<br />
Sato, Kazunori - 977 WTh<br />
Sato, Marc - 798 WTh, 803 WTh, 804 WTh,<br />
819 WTh, 936 WTh<br />
Sato, Masa-aki - 633 WTh<br />
Satpute, Ajay - 289 WTh<br />
Satterthwaite, Theodore - 137 WTh<br />
Sauer, Carina - 24 MT, 1074 mT<br />
Sauer, Heinrich - 135 WTh, 747 MT<br />
Sauerbruch, Sophie - 178 WTh<br />
Saunders, John - 633 MT<br />
Sautter, Rebecca - 1035 WTh<br />
Savage, Cary - 76 MT<br />
Savenkov, Alex - 749 MT, 758 MT<br />
Savic, Ivanka - 151 MT, 195 WTh, 961 WTh<br />
Savitz, Jonathon - 321 WTh, 512 MT<br />
Savoy, Robert - 284 MT<br />
Sawai, Misa - 532 WTh<br />
Sawamoto, Nobukatsu - 1000 WTh, 1100 WTh<br />
Saykin, Andrew - 299 WTh, 320 WTh, 550 MT,<br />
607 WTh, 970 WTh, 49 MT, 305 WTh, 314<br />
WTh, 500 MT, 560 WTh<br />
Sboto-Frankenstein, Uta - 246 WTh, 471 WTh,<br />
612 MT<br />
Scarano, Gaetano - 440 WTh<br />
Scavone, Geneviève - 756 WTh<br />
Schabus, Manuel - 155 WTh, 1033 MT<br />
Schachtzabel, Claudia - 142 WTh<br />
Schacter, Daniel - 707 MT, 841 MT, 854 MT<br />
Schaefer, Andreas - 926 MT, 999 WTh<br />
Schaefer, Katharina - 1069 WTh<br />
Schaer, Marie - 120 WTh, 955 MT<br />
Schäfer, Alexander - 703 mT<br />
Schäfer, Andreas - 377 WTh, 415 MT, 928 MT<br />
Schagen, Sanne - 200 WTh, 469 WTh<br />
Schaie, Warner - 877 MT<br />
Schaller, Karl - 208 MT<br />
Schapiro, Mark - 802 MT<br />
Schardt, Dina - 1070 mT<br />
Scharinger, Christian - 274 mT, 290 mT,<br />
769 WTh, 754 WTh<br />
Scharnowski, Frank - 494 MT<br />
Schecklmann, Martin - 551 WTh<br />
Scheef, Lukas - 227 WTh<br />
Scheepers, Christoph - 827 MT<br />
Scheeringa, Rene - 693 WTh<br />
Scheibel, Randall - 316 MT<br />
Scheidegger, Milan - 1058 MT<br />
Scheinost, Dustin - 234 WTh, 639 mT<br />
Schellekens, Wouter - 1087 WTh<br />
Schelter, Bjoern - 794 MT<br />
Schenker, Natalie - 951 MT<br />
Scherer, Lilian - 378 MT<br />
Scherg, Michael - 632 WTh<br />
Scherk, Harald - 468 MT<br />
Scherling, Carole - 197 WTh, 843 WTh<br />
Scherpiet, Sigrid - 135 WTh<br />
Scherrer, Benoit - 594 WTh<br />
Schiefer, Johannes - 52 WTh<br />
Schilbach, Leonhard - 1077 mT<br />
Schiller, Niels - 806 WTh<br />
Schilling, Christina - 452 mT, 459 MT, 536 MT<br />
Schiltz, Kolja - 220 MT, 266 MT<br />
Schindler, Kaspar - 630 WTh<br />
Schindler-Ivens, Sheila - 181 WTh<br />
Schlagenhauf, Florian - 25 WTh, 282 MT, 286 MT<br />
Schlaggar, Bradley - 128 MT, 984 WTh<br />
Schlaug, Gottfried - 12 MT, 177 WTh, 528 MT,<br />
870 MT, 160 WTh, 176 WTh, 431 MT<br />
Schlochtermeier, Lorna - 255 WTh<br />
Schloegl, Haiko - 333 WTh, 478 MT, 720 MT<br />
Schloesser, Ralf - 135 WTh<br />
Schlögl, Haiko - 376 MT<br />
Schlösser, Ralf - 142 WTh<br />
Schlumm, Torsten - 784 MT<br />
Schmaal, Lianne - 374 WTh<br />
Schmahl, Christian - 189 WTh<br />
Schmalohr, Antonia - 522 MT<br />
Schmidt, Christina - 289 MT<br />
Schmidt, Dirk - 333 MT, 386 WTh, 394 MT<br />
Schmidt, Jacqueline - 207 WTh, 223 WTh<br />
Schmidt, Marcus - 405 WTh, 880 WTh<br />
Schmidt, Peter - 239 MT, 462 MT<br />
Schmidt-Samoa, Carsten - 16 mT<br />
Schmit, Brian - 181 WTh<br />
Schmithorst, Vincent - 196 MT, 802 MT, 823 MT,<br />
1011 WTh<br />
Schmitt, Andrea - 468 MT<br />
Schmitter, Sebastian - 448 MT<br />
Schmitz, Christoph - 511 WTh<br />
Schmitz, Rémy - 798 MT<br />
Schmude, Paul - 928 MT<br />
Schmuel, Amir - 71 MT<br />
Schmüser, Lena - 135 MT<br />
Schnakers, Caroline - 1017 MT, 1032 MT<br />
Schneider, Else - 61 MT<br />
Schneider, Frank - 92 WTh, 103 MT, 252 MT,<br />
285 MT, 1029 WTh, 1065 MT, 1110 MT,<br />
138 MT<br />
Schneider, Gerhard - 1024 MT, 1030 MT<br />
Schneider, Karla - 103 MT<br />
Schneider, Maude - 124 WTh<br />
Schneider, Sophia - 321 mT, 352 MT<br />
Schneider, Walter - 267 WTh, 565 MT, 593 mT,<br />
992 MT<br />
Schnider, Armin - 161 WTh, 654 WTh<br />
Schnitzler, Alfons - 1 MT, 454 WTh, 455 WTh,<br />
659 WTh, 1010 MT, 1055 WTh, 1068 WTh<br />
Schnitzler, Tim - 799 WTh<br />
Schnyer, David - 848 MT<br />
Schocke, Michael - 601 MT<br />
Bolded Poster numbers indicate first author.<br />
Schoemaker, Dorothee - 68 MT, 90 mT,<br />
43 MT, 71 MT, 72 MT<br />
Schoepf, Veronika - 717 WTh<br />
Schofield, Thomas - 545 WTh<br />
Scholte, H. Steven - 229 WTh, 1071 MT<br />
Schöne-Bake, Jan-Christoph - 187 MT<br />
Schoots, Vincent - 236 WTh<br />
Schöpf, Veronika - 434 MT, 769 WTh<br />
Schorer, Anna - 1030 MT<br />
Schormann, Thorsten - 178 WTh, 466 MT<br />
Schott, Björn - 101 WTh<br />
Schouw, Marieke - 15 WTh<br />
Schrader, Christoph - 44 WTh<br />
Schreiber, Jan - 645 WTh<br />
Schröder, Johannes - 147 WTh<br />
Schroeder, Johannes - 84 MT<br />
Schroeder, Matthew - 721 mT<br />
Schroeter, Matthias - 47 MT, 61 mT, 64 MT,<br />
219 WTh, 287 MT, 794 MT, 977 MT<br />
Schröter, Manuel - 1030 MT<br />
Schrouff, Jessica - 570 WTh, 627 WTh<br />
Schubert, Florian - 452 MT<br />
Schuchard, Julia - 813 MT<br />
Schuetz-Bosbach, Simone - 1061 MT<br />
Schuff, Norbert - 496 WTh<br />
Schuierer, Gerhard - 178 WTh<br />
Schultes, Bernd - 235 WTh<br />
Schultz, Aaron - 41 MT, 763 MT<br />
Schultz, Robert - 1084 WTh, 1086 WTh<br />
Schultz, Wolfram - 378 WTh<br />
Schulz, Jörg - 52 WTh, 65 WTh, 842 WTh<br />
Schulz, Kurt - 1005 MT<br />
Schulz-Schaeffer, Walter - 88 MT, 458 MT<br />
Schulze, Thomas - 24 MT<br />
Schumacher, Eric - 712 WTh<br />
Schumann, Gunter - 6 WTh, 252 WTh, 306 WTh,<br />
321 MT, 333 MT, 337 MT, 352 MT, 877 WTh,<br />
957 WTh, 1084 MT<br />
Schurade, Ralph - 601 WTh<br />
Schürholz, Markus - 524 WTh<br />
Schurz, Matthias - 139 mT<br />
Schvarcz, Ariel - 110 MT<br />
Schwarb, Hillary - 712 WTh<br />
Schwartz, Daniel - 3 WTh<br />
Schwartz, Sophie - 248 WTh, 289 MT<br />
Schwartz, Yannick - 317 WTh, 354 WTh<br />
Schwarz, Adam - 1053 MT<br />
Schwarzbach, Jens - 495 WTh<br />
Schweder, Patrick - 3 mT, 4 mT, 36 WTh,<br />
468 WTh, 480 WTh, 940 mT<br />
Schweisfurth, Meike Annika - 1073 WTh,<br />
1076 WTh<br />
Schweitzer, Julie - 26 WTh, 128 MT, 129 MT,<br />
343 WTh<br />
Schweitzer, Kerstin - 851 WTh<br />
Schweizer, Renate - 1076 WTh, 1073 WTh<br />
Schwindt, Wolfram - 392 WTh<br />
Schyns, Philippe - 18 MT, 1096 WTh<br />
Scoggin, Matthew - 167 MT<br />
Scott, Adam - 351 WTh<br />
Scott, Julia - 897 WTh, 863 WTh, 865 WTh,<br />
867 WTh<br />
Seal, Marc - 41 WTh<br />
Searle, Graham - 536 WTh<br />
Sebastian, Alexandra - 135 mT<br />
Seeck, Margitta - 208 MT, 442 WTh<br />
Seehaus, Arne - 556 mT<br />
Seeley, William - 62 MT, 83 MT<br />
Seeringer, Angela - 329 MT, 514 MT, 1056 MT<br />
SEGALÀS, CINTO - 33 WTh, 39 WTh<br />
Segall, Judith - 964 WTh<br />
Segawa, Jennifer - 820 WTh<br />
Sehm, Bernhard - 799 WTh, 839 WTh<br />
Seidel, Eva-Maria - 1110 MT<br />
Seidel, Stefan - 717 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 213
Seidenbecher, Constanze - 464 WTh<br />
Seidenberg, Mark - 781 WTh<br />
Seidenberg, Michael - 42 MT<br />
Seidman, Larry - 325 WTh, 894 WTh<br />
Seifritz, Erich - 285 WTh, 1058 MT<br />
Seitz, Rudiger - 534 MT, 1078 WTh<br />
Sejdic, Ervin - 73 WTh<br />
Sekiguchi, Atsushi - 353 MT, 865 MT, 1091 MT<br />
Sekihara, Kensuke - 768 WTh<br />
Selb, Juliette - 503 WTh, 1044 MT<br />
Semba, Kazue - 508 MT<br />
Seminowicz, David - 454 MT, 1030 WTh<br />
Seo, Dongju - 249 mT<br />
Seo, Jeong Pyo - 606 mT, 624 WTh<br />
Seo, Sang Won - 92 MT, 482 WTh, 563 MT,<br />
680 MT, 687 MT<br />
Seo, Seongho - 648 mT<br />
Seol, Jaeho - 453 WTh, 458 WTh<br />
Sepe, Rosa - 510 mT<br />
Sepede, Gianna - 356 MT<br />
Sepulcre, Jorge - 30 WTh, 707 MT<br />
Sercheli, Mauricio - 216 MT<br />
Serres, Barthélémy - 946 MT<br />
Servaas, M.N. - 1062 mT<br />
Sescousse, Guillaume - 379 WTh<br />
Sestieri, Carlo - 132 MT<br />
Seubert, Janina - 137 WTh<br />
Seurinck, Ruth - 821 WTh<br />
Sevgi, Meltem - 544 WTh<br />
Seynaeve, Caroline - 200 WTh<br />
Shah, N - 52 WTh, 138 MT, 307 WTh, 506 MT<br />
Shah, Nadim - 52 MT, 65 WTh, 958 MT<br />
Shah, Yash - 7 WTh<br />
Shaikh, Javeed - 549 WTh<br />
Shandera-Ochsner, Anne - 305 MT<br />
Shane, Matthew - 480 MT<br />
Shanmuganathan, Kathirkamanthan - 314 MT<br />
Shannon, Steven - 713 WTh<br />
Shapiro Connolly, Lynn - 198 WTh<br />
Sharda, Megha - 1019 WTh<br />
Sharma, Animesh - 590 WTh<br />
Sharma, Gagan - 364 WTh<br />
Sharma, Harish A. - 969 WTh<br />
Sharma, Nikhil - 419 mT, 832 WTh<br />
Sharman, Mike - 45 WTh, 930 WTh<br />
Sharp, David - 970 MT<br />
Sharp, Stephen - 334 WTh<br />
Sharp, Wendy - 150 MT<br />
Shaw, Dennis - 120 MT<br />
Shaw, Philip - 150 mT<br />
Shawe-Taylor, John - 583 WTh<br />
Shedden, Judith - 846 MT<br />
Sheehan, James - 1042 WTh, 1063 WTh<br />
Shehzad, Zarrar - 681 WTh<br />
Sheinkopf, Stephen - 169 MT<br />
Shen, Elaine - 336 WTh<br />
Shen, Li - 299 WTh, 305 WTh, 320 WTh, 560 WTh<br />
Shen, Pei-Hong - 303 WTh<br />
Shen, Xingping - 686 WTh<br />
Sheng, Jinhua - 970 WTh<br />
Shenton, Martha - 306 MT, 601 MT<br />
Sherman, Elisabeth - 206 MT<br />
Sherr, Elliot - 154 MT, 828 WTh<br />
Sherwin, Robert - 349 MT<br />
Sheth, Sameer - 4 MT, 36 WTh<br />
Shetty, Charvi - 154 MT<br />
Shi, Jie - 997 WTh<br />
Shibasaki, Hiroshi - 945 MT<br />
Shibata, Midori - 836 mT<br />
Shidler, Marcelle - 60 MT<br />
Shiee, Navid - 603 WTh, 690 mT<br />
Shiell, Martha - 964 mT<br />
Shigemune, Yayoi - 846 WTh<br />
Shih, Yao Chia - 580 MT, 584 MT, 590 mT<br />
Shikhare, Sailee - 839 mT<br />
214 HBM 2011 >> <strong>abstracts</strong><br />
Shim, Geumsook - 125 WTh, 127 WTh,<br />
38 WTh, 42 WTh<br />
Shim, Hackjoon - 687 MT<br />
Shimada, Koji - 1112 MT<br />
Shimada, Sotaro - 428 MT, 1097 MT<br />
Shimada, Taisuke - 390 MT<br />
Shimojo, Shinsuke - 526 MT<br />
Shimono, Masanori – 1115 WTh<br />
Shimotake, Akihiro - 1100 WTh<br />
Shimotomai, Takayuki - 1037 WTh, 1038 WTh<br />
Shin, David - 348 WTh<br />
Shin, Eun-Hye - 1091 WTh<br />
Shin, Hyoung Ik - 1064 WTh<br />
Shin, In young - 1114 MT<br />
Shin, Jaemin - 640 MT<br />
Shin, Kyungsoon - 127 WTh<br />
Shin, Na Young - 42 WTh<br />
Shin, Wanyong - 569 mT, 470 WTh<br />
Shin, Woo Ho - 975 MT, 979 MT, 983 MT<br />
Shin, YoungSeok - 272 MT, 1099 mT<br />
Shindler, Kenneth - 866 MT<br />
Shirazi, Amir - 94 MT<br />
Shirer, William - 63 WTh<br />
Shirinyan, David - 551 mT<br />
Shizukuishi, Takashi - 635 mT<br />
Shmuel, Amir - 90 MT, 20 MT, 72 MT, 1085 WTh,<br />
1101 WTh, 68 MT, 549 WTh<br />
Shmueli, Karin - 457 MT, 192 WTh<br />
Shoemaker, J K - 611 MT<br />
Shoemaker, J. Kevin - 969 WTh<br />
Shotbolt, Paul - 536 WTh<br />
Shprintzen, Robert - 108 WTh<br />
Shriki, Oren - 723 mT<br />
Shu, I-Wei - 310 MT<br />
Shu, Ni - 972 WTh<br />
Shucard, David - 224 WTh<br />
Shucard, Janet - 224 WTh<br />
Shuey, Neil - 190 WTh<br />
Shukla, Karan - 678 MT<br />
Shulman, Gordon - 309 MT<br />
Shumila, Lindsey - 245 MT, 261 MT<br />
SIBON, Igor - 67 WTh<br />
Sidel, Michael - 167 WTh<br />
Sidransky, Ellen - 47 WTh<br />
Siebner, Hartwig - 68 WTh, 45 WTh, 95 WTh,<br />
336 MT, 562 MT, 1026 WTh<br />
Siedentopf, Christian - 534 MT, 1078 WTh<br />
Siegel, Eric - 452 WTh<br />
Siegel, Miriam - 825 MT<br />
Sieger, Tomáš - 49 WTh<br />
Siegle, Greg - 265 MT, 267 WTh, 493 WTh<br />
Siero, Jeroen - 477 mT, 1041 mT<br />
Sigman, Mariano - 118 MT, 558 MT<br />
Sikma, Kees-Jan - 986 WTh<br />
Silk, Kenneth - 226 WTh<br />
Silk, Tim - 41 WTh<br />
Silva, Afonso - 444 MT, 457 MT<br />
Silva, Eduardo - 893 WTh<br />
Silva, Elvis - 743 WTh<br />
Silva, Rogers - 652 mT<br />
Silva Cunha, João Paulo - 35 WTh, 529 MT,<br />
587 WTh<br />
Silvestre, Carlos - 760 MT<br />
Simard, France - 404 MT, 826 mT<br />
Simine, Eugene - 390 WTh<br />
Simanova, Irina - 808 MT<br />
Simmonds, Daniel - 872 WTh<br />
Simmons, Alan - 293 MT<br />
Simmons, W. Kyle - 228 WTh, 233 WTh,<br />
334 MT, 512 MT<br />
Simon, Grégory - 1094 WTh, 1097 WTh<br />
Simon, Tony - 328 WTh<br />
Simonyan, Kristina - 818 WTh<br />
Simpson, Michael - 459 WTh<br />
Simuni, Tanya - 72 WTh<br />
Sin, Samuel - 593 MT<br />
Sindi, Shireen - 852 mT<br />
Singh, Krish - 128 WTh, 1048 mT, 1110 WTh<br />
Singh, Nandini - 205 WTh, 1019 WTh, 791 WTh<br />
Singh, Vivek - 248 MT<br />
Sinha, Rajita - 249 MT<br />
Siniatchkin, Michael - 175 MT, 185 MT, 200 MT,<br />
208 MT, 522 MT<br />
Sisti, Helene - 592 MT<br />
Sitaram, Ranganatha - 169 WTh, 299 mT,<br />
383 WTh, 688 WTh, 838 MT, 903 WTh,<br />
906 WTh, 929 WTh, 1068 MT, 524 WTh<br />
Sitte, Harald - 274 MT<br />
Sjoerds, Zsuzsika - 18 WTh<br />
Skeide, Michael - 800 MT<br />
Skidmore, Frank - 749 mT, 758 mT<br />
Skosnik, Patrick - 27 WTh<br />
Skrap, Miran - 710 MT<br />
Skudlarski, Pawel - 969 mT<br />
Slabu, Lavinia - 1010 WTh<br />
Sladkova, Vladimira - 201 WTh<br />
Sladky, Ronald - 235 mT, 260 MT, 434 MT,<br />
641 mT, 928 WTh<br />
SLAMA, Hichem - 137 MT<br />
Sliva, Danielle - 449 WTh, 503 WTh<br />
Slone, Ted - 518 WTh<br />
Sluming, Vanessa - 967 MT<br />
Slump, Cornelis - 986 WTh<br />
Small, Dana - 347 MT<br />
Small, Steven - 174 WTh, 795 WTh, 776 WTh,<br />
935 WTh<br />
Smalt, Christopher - 810 WTh<br />
Smeets, Paul - 187 WTh, 380 WTh<br />
Smid, Jerusa - 76 MT<br />
Smith, Andra - 197 WTh, 843 WTh<br />
Smith, Ashely - 340 MT, 351 MT<br />
Smith, Charles - 45 MT<br />
Smith, David - 154 WTh<br />
Smith, Eric - 95 MT, 483 WTh<br />
Smith, J - 42 MT<br />
Smith, Jason - 629 WTh, 744 WTh<br />
Smith, Jessica - 1106 WTh<br />
Smith, Kimberly - 336 WTh<br />
Smith, Marie - 241 WTh<br />
Smith, Mark - 542 MT<br />
Smith, Matthew - 97 WTh<br />
Smith, Nicholas - 443 MT<br />
Smith, Patrick - 248 MT<br />
Smith, Paul - 525 WTh<br />
Smith, Stephen - 246 WTh, 612 MT, 66 MT,<br />
499 MT, 540 WTh, 579 WTh, 604 WTh,<br />
659 MT, 666 WTh, 670 WTh, 671 MT,<br />
704 MT, 736 WTh, 1059 WTh<br />
Smits, Marion - 9 WTh<br />
Smolka, Michael - 6 WTh, 130 MT, 252 WTh,<br />
321 MT, 323 MT, 324 MT, 333 MT, 337 MT,<br />
352 MT, 386 WTh, 394 MT, 405 mT, 537 WTh,<br />
877 WTh, 957 WTh, 1084 MT<br />
Snyder, Abraham - 447 WTh, 984 WTh<br />
Soddu, Andrea - 773 MT, 1015 WTh, 1019 MT,<br />
1025 MT<br />
Soder, Ricardo - 50 mT, 68 MT<br />
Soderberg, Lindsay - 134 MT, 593 WTh, 621 WTh<br />
Sodhi, Aparna - 74 mT<br />
Sohn, Jin-Hun - 395 WTh<br />
Sohn, William - 755 mT<br />
Sojkova, Jitka - 895 MT<br />
Sojoudi, Alireza - 561 WTh<br />
Sokunbi, Moses - 911 mT<br />
Solana, Ana Beatriz - 498 WTh, 1015 MT, 752 MT<br />
Solano-Castiella, Eugenia - 928 mT, 968 MT<br />
Soliman, Alexandra - 287 MT<br />
Sollberger, Marc - 66 MT<br />
Soltysik, David - 496 mT<br />
Someya, Yoshiaki - 951 WTh
Sommer, Iris - 118 WTh<br />
Sommer, Jens - 595 MT, 618 WTh, 1078 MT<br />
Sommer, Werner - 14 MT<br />
Sommerlade, Linda - 794 MT<br />
Son, Jungwoo - 225 WTh, 293 WTh, 1098 MT<br />
Son, Su Min - 600 MT, 607 mT, 547 MT, 606 MT<br />
Son, Yohan - 32 MT, 1099 MT<br />
Song, Aram - 38 WTh, 125 WTh<br />
Song, Jae-Jin - 1022 WTh<br />
Song, Jin-Kyu - 1114 WTh<br />
Song, Ming - 298 WTh<br />
Song, Tao - 301 MT<br />
Song, Yang - 994 WTh<br />
Song, Zheng - 968 WTh, 978 WTh<br />
Soon, Chun Siong - 990 mT, 1003 MT<br />
Soorya, Latha - 124 MT, 735 MT<br />
Sophie, Blanchet - 861 MT<br />
Sorg, Christian - 220 WTh, 141 WTh<br />
Sorger, Bettina - 748 WTh<br />
Soria, Virginia - 255 MT<br />
Soriano-Mas, Carles - 258 MT, 32 WTh,<br />
33 WTh, 37 WTh, 39 WTh, 207 WTh,<br />
213 WTh, 223 WTh, 255 MT<br />
Soryal, Imad - 194 MT<br />
Sotaro, Shimada - 520 WTh<br />
Sotiropoulos, Stamatios - 595 WTh, 609 WTh<br />
Soucy, Jean-Paul - 43 MT, 50 MT<br />
Souedet, Nicolas - 360 WTh<br />
Soulier, Elisabeth - 862 MT<br />
Sours, Chandler - 314 mT<br />
Sowell, Elizabeth - 146 MT, 134 MT, 171 MT,<br />
593 WTh, 621 WTh<br />
Sowman, Paul - 822 WTh, 932 WTh<br />
Spachmann, André - 1074 MT<br />
Spanagel, Rainer - 321 MT, 337 MT, 352 MT,<br />
957 WTh<br />
Sparing, Roland - 165 WTh<br />
Specht, Karsten - 373 MT, 590 WTh, 813 WTh,<br />
971 MT, 1007 MT, 1046 MT<br />
Speck, Oliver - 480 MT, 588 MT<br />
Speckter, Herwin - 76 WTh<br />
Speer, Andrew - 1055 MT<br />
Spencer, Steven - 21 MT<br />
Sperling, Justin - 629 WTh<br />
Sperling, Reisa - 41 MT, 763 MT<br />
Spetsieris, Phoebe - 958 WTh<br />
Spezio, Michael - 1092 MT<br />
Spierer, Lucas - 28 MT<br />
Spinelli, Laurent - 208 MT, 442 WTh<br />
Spinhoven, Philip - 343 MT<br />
Spitzer, Bernhard - 1071 WTh<br />
Sponheim, Scott - 100 WTh, 123 WTh, 302 MT,<br />
315 MT<br />
Spoormaker, Victor - 702 MT, 1030 MT<br />
Sporns, Olaf - 27 WTh, 705 MT, 716 WTh,<br />
742 WTh, 970 WTh<br />
Spottiswoode, Bruce - 188 WTh, 263 MT, 22 WTh<br />
Spreng, R. Nathan - 707 mT, 841 MT<br />
Spring, Robyn - 638 MT<br />
Spunt, Robert - 509 MT<br />
Squarcina, Letizia - 970 mT<br />
Squires, Nancy - 439 WTh<br />
St Lawrence, K - 611 MT<br />
St-Laurent, Marie - 849 mT<br />
St.Jacques, Peggy - 844 mT<br />
Stacey, David - 252 WTh<br />
Stadler, Joerg - 588 MT<br />
Staff, Roger - 911 MT<br />
Staffen, Wolfgang - 534 MT, 1078 WTh<br />
Stafstrom, Carl - 214 MT<br />
Stagg, Charlotte - 159 WTh<br />
Stains, Jean - 198 WTh, 282 WTh<br />
Stam, Kees - 179 MT, 204 MT<br />
Stamatakis, Emmanuel - 1022 mT<br />
Stamenova, Vessela - 77 mT<br />
Stan, Ana - 102 WTh<br />
Stancak, Andrej - 967 MT<br />
Standish, Leanna - 554 MT<br />
Stanley, Jeffrey - 165 MT<br />
Stanton, Mark - 188 WTh<br />
Starck, Tuomo - 733 MT, 125 MT, 231 MT<br />
Stare, Janez - 694 MT<br />
Starkel, Cambrie - 736 MT<br />
Staub, Christian - 10 WTh<br />
Steele, Christopher - 436 MT, 834 WTh<br />
Steen, Matthew - 774 WTh<br />
Stefanatos, Gerry - 549 MT<br />
Steffener, Jason - 674 WTh, 753 WTh, 908 mT,<br />
918 mT, 759 WTh<br />
Stehling, Christoph - 876 MT<br />
Stein, Dan - 22 WTh<br />
Stein, Elliot - 939 MT, 5 WTh, 263 WTh, 273 WTh,<br />
303 WTh, 493 MT<br />
Stein, Jason - 300 WTh<br />
Stein, Jason - 297 WTh, 314 WTh, 320 WTh,<br />
49 MT, 318 WTh, 322 WTh<br />
Stein, Nadja - 919 MT<br />
Stein, Patrycja - 535 WTh<br />
Stein, Thor - 936 MT<br />
Steinberg, Joel - 316 MT, 733 WTh<br />
Steinbrink, Jens - 510 WTh, 917 WTh, 1072 WTh<br />
Steiner, Johann - 220 MT, 275 WTh, 464 WTh<br />
Steiner, Sabina - 337 MT<br />
Steinmann, Elisabeth - 522 mT<br />
Stell, Becky - 72 WTh<br />
Stelzel, Christine - 867 MT<br />
Stelzer, Johannes - 660 MT<br />
Stengel, Benjamin - 781 WTh<br />
Stenger, Andrew - 476 MT<br />
Stephan, Klaas Enno - 485 MT, 513 MT, 538 WTh,<br />
539 WTh, 545 WTh, 546 WTh, 646 MT,<br />
1039 WTh, 397 WTh, 543 WTh, 649 WTh,<br />
752 WTh<br />
Stephani, Ulrich - 175 MT, 185 MT, 522 MT,<br />
200 MT<br />
Stephens, Dai - 321 MT, 337 MT, 352 MT,<br />
957 WTh<br />
Stephenson, Stephanie - 1053 MT<br />
Stern, Yaakov - 674 WTh, 753 WTh, 759 WTh,<br />
908 MT, 918 MT<br />
Sterpenich, Virginie - 248 WTh, 289 MT<br />
Sterzer, Philipp - 282 MT<br />
Stets, Manuela - 647 WTh<br />
Stevens, Allison - 987 WTh, 988 WTh<br />
Stevens, Corinne - 162 MT<br />
Stevens, Michael - 368 MT, 969 MT, 208 WTh,<br />
359 MT, 12 WTh<br />
Stevens, W. Dale - 841 mT<br />
Stevenson, Claire - 718 WTh<br />
Stevenson, Jeff - 554 MT<br />
Stice, Eric - 212 WTh<br />
Stidd, Reva - 679 WTh, 868 WTh<br />
Stiers, Peter - 698 MT<br />
Stikov, Nikola - 610 WTh, 953 MT<br />
Stingl, Julia - 329 MT, 1056 MT<br />
Stingl, Krunoslav - 858 WTh<br />
Stip, Emmanuel - 144 WTh, 114 WTh<br />
Stippich, Christoph - 155 mT<br />
Stöcker, Tony - 138 MT, 52 MT<br />
Stockman, Michael - 465 MT<br />
Stoeckel, Luke - 112 WTh, 136 WTh<br />
Stoeter, Peter - 76 WTh<br />
Stoffers, Diederick - 384 mT<br />
Stoica, Teodora - 234 WTh<br />
Stollstorff, Melanie - 710 WTh<br />
Stone, Adam - 360 MT<br />
Stone, Lael - 960 MT, 978 MT<br />
Storey, Elsdon - 48 WTh<br />
Storkey, Amos - 505 MT, 779 MT<br />
Storms, Gerrit - 812 MT<br />
Bolded Poster numbers indicate first author.<br />
Storrs, Judd - 557 WTh, 903 MT, 60 MT<br />
Stout, Julie - 54 WTh, 66 WTh<br />
Stoy, Meline - 282 MT, 286 MT<br />
Strafella, Antonio - 1 WTh, 61 WTh, 62 WTh<br />
Strain, Eric - 862 WTh<br />
Straube, Benjamin - 1087 MT, 1108 MT<br />
Straube, Thomas - 142 WTh<br />
Strecher, Victor - 11 WTh<br />
Streicher, Markus - 792 MT<br />
Strickland, Casey - 29 MT, 248 MT, 487 mT,<br />
825 WTh, 947 WTh<br />
Strijdom, Hans - 263 MT<br />
Strober, Michael - 243 MT, 277 MT<br />
Ströhle, Andreas - 6 WTh, 282 MT, 286 MT,<br />
321 MT, 337 MT, 877 WTh, 1084 MT<br />
Strohmeier, Daniel - 445 WTh<br />
Strong, Christian - 36 WTh<br />
Strother, Stephen - 37 mT, 638 MT, 654 MT,<br />
757 MT<br />
Strotmann, Barbara - 968 mT, 999 WTh<br />
Strunk, Ricarda - 165 WTh<br />
Struve, Maren - 6 WTh, 321 MT, 333 MT, 337 MT,<br />
352 MT, 957 WTh<br />
Studholme, Colin - 863 WTh, 865 WTh, 867 WTh,<br />
897 WTh<br />
Stueber, Carsten - 447 mT<br />
Stufflebeam, Steven - 211 WTh<br />
Stumvoll, Michael - 333 WTh, 376 MT, 720 MT<br />
Sturm, Walter - 385 WTh, 1031 MT<br />
Sturzbecher, Marcio - 488 WTh<br />
Stødkilde-Jørgensen, Hans - 1027 MT<br />
Su, Li - 663 MT<br />
Su, Tung-Ping - 553 WTh<br />
Suarez, Ralph - 976 mT<br />
Suckling, John - 761 mT<br />
Sudre, Gustavo - 806 mT<br />
Suetsugi, Masatomo - 259 MT, 295 MT<br />
Sugar, Catherine - 247 MT<br />
Sugden, Colin - 1008 mT<br />
Sugihara, Genichi - 127 MT<br />
Sugiura, Lisa - 832 MT<br />
Sugiura, Motoaki - 191 WTh, 353 MT, 425 MT,<br />
1086 MT, 1090 MT, 1091 mT<br />
Sui, Jin - 81 WTh<br />
Sui, Xiuchao - 86 mT<br />
Sukhanov, Aleksandr - 900 WTh<br />
Sulik, Kathleen - 146 MT<br />
Sullivan, Caroline - 41 MT<br />
Sully, Kate - 1073 MT<br />
Summers, Paul E. - 609 MT<br />
Sumner, Petroc - 128 WTh<br />
Sun, Binjian - 186 WTh, 876 WTh<br />
Sun, Daqiang - 91 WTh<br />
Sun, Loi-Wah - 523 WTh<br />
Sun, Pei - 1082 WTh<br />
Sun, Wenqi - 756 mT<br />
Sun, Xiaojun - 678 MT<br />
Sunaert, Stefan - 298 MT<br />
Sundet, Kjetil - 80 WTh, 129 WTh<br />
Sundgren, Pia - 1045 WTh<br />
Sung, Yulwan - 1108 WTh<br />
Sunkin, Susan - 336 WTh<br />
Supekar, Kaustubh - 738 WTh, 864 WTh<br />
Suput, Dusan - 694 MT<br />
Sure, Ulrich - 740 MT<br />
Surova, Andrea - 1043 MT<br />
Susanne, Erk - 227 WTh<br />
Suskin, N - 611 MT<br />
Sussex, Rebecca - 30 MT<br />
Sussman, Elyse - 998 WTh<br />
Sutani, Kouichi - 1113 WTh<br />
Suthana, Nanthia - 472 mT<br />
Sutherland, Matthew - 5 WTh<br />
Suttorp, Meinolf - 130 MT<br />
Suyenobu, Brandall - 198 WTh, 282 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 215
Suzuki, Atsunobu - 909 MT<br />
Suzuki, Hidenori - 277 WTh, 526 MT<br />
Suzuki, Hideo - 250 mT<br />
Suzuki, Kazushi - 923 mT<br />
Suzuki, Nao - 211 WTh<br />
Suzuki, Shuhei - 790 WTh<br />
Suzuki, Toru - 923 MT<br />
Sveinsson, Bragi - 610 WTh<br />
Svirsky, Mario - 810 WTh<br />
Swain, James - 544 mT<br />
Swaminathan, Shanker - 305 WTh<br />
Swart, Marte - 88 WTh, 96 WTh, 133 WTh<br />
Sweet, Lawrence - 279 MT<br />
Swinnen, Stephan - 298 MT, 300 MT, 592 MT,<br />
751 MT, 954 WTh<br />
Symms, Mark - 178 MT, 180 MT<br />
Szabo, Amanda - 370 MT<br />
Szaflarski, Jerzy - 195 MT, 196 MT, 802 mT,<br />
825 MT, 903 MT, 441 MT<br />
Szameitat, Diana - 288 WTh<br />
Szczepanik, Joanna - 991 MT<br />
Sziklas, Viviane - 68 MT, 71 MT, 90 MT<br />
Szmalec, Arnaud - 408 MT<br />
Sztrokay, Aniko - 398 WTh<br />
Szycik, Gregor - 19 WTh<br />
t<br />
Tabelow, Karsten - 365 WTh, 611 WTh, 616 WTh,<br />
651 mT<br />
Tabibnia, Golnaz - 371 MT<br />
Tabu, Hayato - 1000 WTh<br />
Tachtsidis, Ilias - 501 WTh<br />
Taeglich, Ramona - 903 WTh, 929 WTh<br />
Tafula, Sérgio - 529 MT<br />
Tafula, Sérgio - 35 WTh<br />
Taga, Gentaro - 473 WTh, 799 MT<br />
Taghon, Thomas - 542 MT<br />
Taherbhoy, Samina - 167 MT<br />
Tahmasebi, Amir - 877 WTh, 1084 MT, 1112 WTh<br />
Tak, Sungho - 668 WTh<br />
Tak, Sungho - 482 MT, 502 WTh<br />
Takahashi, Haruka - 1112 MT<br />
Takahashi, Hidehiko - 277 WTh<br />
Takahashi, Kanji - 259 MT<br />
Takahashi, Kei - 846 WTh<br />
Takahashi, Riuma - 1037 WTh<br />
Takahashi, Ryosuke - 945 MT, 1100 WTh<br />
Takai, Yuichiro - 905 WTh<br />
Takala, Timo - 231 MT<br />
Takao, Hidemasa - 635 MT, 905 MT<br />
Takashima, Ichiro - 781 MT<br />
Takei, Nori - 127 MT<br />
Takeichi, Hiroshige - 989 MT<br />
Takerkart, Sylvain - 569 WTh<br />
Takeuchi, Hikaru - 865 mT, 887 WTh, 191 WTh,<br />
869 MT, 1013 MT<br />
Taki, Yasuyuki - 865 MT, 869 MT, 887 WTh,<br />
977 WTh, 1013 MT<br />
Takigawa, Yoshimasa - 520 WTh<br />
Talavage, Thomas - 168 MT, 810 WTh, 975 WTh<br />
Talavage, Thomas - 307 MT<br />
Talelli, Penelope - 163 WTh<br />
Taljan, Kyle - 956 mT<br />
Tallet, Jessica - 783 WTh<br />
Talukdar, Tanveer - 30 WTh, 505 WTh<br />
Tam, Fred - 501 MT<br />
Tamburo, Robert - 636 MT<br />
Tamhane, Ashish - 579 mT<br />
Tamminga, Carol - 102 WTh, 148 WTh<br />
Tan, Hao Yang - 90 WTh, 578 WTh<br />
Tan, Heng-Ru May - 1107 mT<br />
216 HBM 2011 >> <strong>abstracts</strong><br />
Tan, Yingying - 401 MT<br />
Tanabe, Hiroki - 473 WTh, 841 WTh,<br />
1101 mT, 1112 MT<br />
Tanabe, Jody - 221 WTh<br />
Tanaka, Ayuko - 781 MT<br />
Tanaka, Keiji - 1082 WTh<br />
Tanaka, Naoaki - 211 WTh<br />
Tanaka, Natsumi - 428 mT<br />
Tanaka, Tokutaro - 8 MT<br />
Tancredi, Raffaella - 109 MT<br />
Tandon, Nitin - 567 MT, 571 MT, 632 MT, 1047 MT<br />
Tandon, Rajiv - 758 MT<br />
Tang, Honghong - 950 WTh, 1094 MT<br />
Tang, I-Ning - 979 WTh<br />
Tang, Yuchun - 973 WTh<br />
Tapert, Susan - 293 MT, 763 WTh<br />
Tardif, Christine - 610 WTh<br />
Tartaro, Armando - 356 MT<br />
Task Force, Standards <strong>for</strong> Neuroimaging<br />
Datasharing - 341 WTh<br />
Taskin, Birol - 758 WTh<br />
Taskin, Kemal - 526 WTh<br />
Tate, David - 193 WTh<br />
Tateno, Amane - 277 WTh<br />
Tauber, Clovis - 946 MT<br />
Taubert, Marco - 839 WTh, 990 WTh<br />
Taulu, Samu - 638 WTh<br />
Tavor, Ido - 833 WTh<br />
Tayim, Fadi - 63 WTh<br />
Taylor, James - 1086 WTh<br />
Taylor, Jonathan - 496 WTh, 656 MT, 662 MT<br />
Taylor, Margot - 412 MT, 845 WTh, 123 MT,<br />
124 MT, 735 MT<br />
Taylor, Peter - 663 WTh<br />
Taylor, Stephan - 291 WTh<br />
Taylor, Veronique - 756 WTh<br />
Tecchio, Franca - 484 WTh, 651 WTh, 920 WTh<br />
Teipel, Stefan - 84 MT<br />
Teles<strong>for</strong>d, Qawi - 724 WTh<br />
Tellier, William - 349 WTh<br />
Tempelmann, Claus - 548 MT<br />
Templeton, Lauren - 327 MT<br />
Tenenbaum, Howard - 1052 WTh, 1062 WTh<br />
Tenenhaus, Arthur - 316 WTh<br />
Teng, Chieh Schen - 154 WTh<br />
Tenison, Caitlin - 415 WTh<br />
Tennekoon, Michael - 331 MT<br />
Terasawa, Yuri - 836 MT<br />
Terekhin, Pavel - 903 WTh, 929 WTh<br />
Tereshchenko, Sasha - 943 WTh<br />
Tervonen, Osmo - 733 MT, 125 MT, 231 MT<br />
Tesan, Graciela - 815 mT, 885 WTh<br />
Tesche, Claudia - 556 WTh<br />
Tettamanti, Marco - 821 MT<br />
Teverovsky, Leonid - 636 mT<br />
Tewildt, Bert - 19 WTh<br />
Thaker, Gunvank - 303 WTh<br />
Thaler, Avner - 60 WTh<br />
Thalmeier, Tobias - 410 MT<br />
Tham, Wendy - 885 WTh<br />
Thambisetty, Madhav - 895 MT<br />
Théberge, Jean - 350 MT<br />
Theilmann, Rebecca - 301 MT, 959 MT<br />
Théoret, Hugo - 311 MT<br />
Théoret, Hugo - 33 MT<br />
Thermenos, Heidi - 894 WTh<br />
Thiel, Alexander - 167 WTh, 175 WTh<br />
Thiel, Christiane - 699 WTh, 708 WTh, 1063 MT<br />
Thiel, Friederike - 219 WTh<br />
Thiel, Sabrina - 402 WTh<br />
Thiele, Elizabeth - 211 WTh<br />
Thielscher, Axel - 17 MT, 940 WTh<br />
Thimm, Markus - 385 WTh<br />
Thiran, Jean-Philippe - 955 MT<br />
Thirion, Bertrand - 316 WTh, 354 WTh, 555 WTh,<br />
569 WTh, 667 MT, 692 WTh, 769 MT, 938 MT<br />
Thivierge, Jean-Philippe - 742 WTh<br />
Thomann, Philipp - 55 WTh, 147 WTh<br />
Thomas, Adam - 725 WTh<br />
Thomas, Aurélien - 10 WTh<br />
Thomas, Sébastien - 20 mT<br />
Thomason, Moriah - 971 WTh<br />
Thomasson, David - 496 MT<br />
Thompson, Cynthia - 813 MT, 834 MT<br />
Thompson, Garth - 558 WTh, 712 WTh<br />
Thompson, Jessica - 1007 WTh<br />
Thompson, Pam - 178 MT, 180 MT<br />
Thompson, Paul - 48 MT, 57 MT, 70 MT, 91 WTh,<br />
193 WTh, 294 WTh, 315 WTh, 320 WTh,<br />
572 MT, 578 MT, 593 WTh, 628 MT, 673 WTh,<br />
996 WTh, 49 MT, 269 MT, 297 WTh, 314 WTh,<br />
319 WTh, 322 WTh, 328 WTh, 550 WTh,<br />
568 MT, 615 WTh, 868 WTh, 228 MT, 251 MT,<br />
318 WTh, 947 MT, 997 WTh, 994 WTh<br />
Thompson, Peter - 248 MT<br />
Thompson, Rachel - 262 MT<br />
Thompson, Russell - 407 MT<br />
Thompson-Schill, Sharon - 732 WTh<br />
Thoms, Andrea - 901 WTh, 902 WTh<br />
Thornton, Rachel - 208 MT<br />
Thota, Anil - 50 WTh<br />
Thurlow, Bria - 162 MT<br />
Thut, Gregor - 18 mT, 1096 WTh<br />
Thyreau, Benhamin - 252 WTh, 354 WTh,<br />
623 WTh, 317 WTh, 957 WTh<br />
Tian, Fenglei - 151 WTh<br />
Tian, Lixia - 730 mT<br />
Tibboel, Dick - 880 WTh, 1066 WTh<br />
Tiemeier, Henning - 405 WTh, 464 MT, 898 WTh<br />
Tillisch, Kirsten - 198 WTh, 282 WTh, 1046 WTh<br />
Tilo, Kircher - 52 MT, 140 WTh, 506 MT, 523 MT,<br />
1108 MT<br />
Timbol, Christian - 204 WTh<br />
Timkina, Olga - 900 WTh<br />
Timm, Lydia - 442 mT<br />
Timm, Lydia - 286 WTh<br />
Timmer, Jens - 794 MT<br />
Timmermann, Lars - 5 MT<br />
Timonen, Markku - 231 MT<br />
Tinnermann, Alexandra - 929 MT<br />
Tisdall, Matthew - 987 WTh<br />
TISON, françois - 67 WTh<br />
Tittgemeyer, Marc - 682 WTh<br />
Todorov, Alex - 1073 MT<br />
Toelle, Thomas - 220 WTh<br />
Toga, Arthur - 108 MT, 199 WTh, 294 WTh,<br />
315 WTh, 328 WTh, 623 MT, 625 MT,<br />
868 WTh, 947 MT, 971 WTh, 982 MT,<br />
994 WTh, 49 MT, 48 MT, 85 WTh, 86 WTh,<br />
91 WTh, 193 WTh, 297 WTh, 304 MT, 314<br />
WTh, 318 WTh, 320 WTh, 322 WTh, 572 MT,<br />
577 WTh, 578 MT, 598 MT, 615 WTh, 974 WTh<br />
Tohka, Jussi - 361 WTh, 695 MT, 742 MT<br />
Tokoglu, Fuyuze - 520 mT<br />
Tomaiuolo, Francesco - 58 MT<br />
Tomanek, Boguslaw - 246 WTh, 471 WTh, 612 MT<br />
Tomasevic, Leo - 484 WTh, 651 WTh<br />
Tomasino, Barbara - 710 MT<br />
Tomita, Takashi - 437 WTh, 664 WTh, 443 WTh<br />
Tommerdahl, Mark - 1075 WTh<br />
Tong, Haibing - 981 MT<br />
Tong, Yunjie - 476 WTh, 490 WTh<br />
Tononi, Giulio - 1016 MT, 1028 MT, 1032 MT,<br />
1036 MT<br />
Toomey, John - 251 WTh<br />
Toppi, Jlenia - 423 mT, 440 WTh, 1102 MT<br />
Toraci, Cristian - 24 WTh<br />
Tormos, Jose - 312 MT<br />
Toro, Roberto - 474 MT, 989 WTh
Torres, Carlos - 401 WTh<br />
Torres, Marina - 292 MT<br />
Torrisi, Salvatore - 256 mT, 237 MT<br />
Torrubia, Rafael - 234 MT<br />
Torta, Diana - 1050 WTh<br />
Tosetti, Michela - 109 MT<br />
Tost, Heike - 24 MT, 84 MT, 149 WTh, 450 MT<br />
Tosun, Duygu - 496 WTh<br />
Totsune, Tomoko - 353 mT<br />
Tourville, Jason - 337 WTh, 820 WTh<br />
Toussaint, Paule - 957 MT<br />
Townsend, Jeanne - 959 MT<br />
Townsend, Jennifer - 237 mT, 256 MT<br />
Toxopeus, Carolien - 948 WTh, 57 WTh<br />
Toygar, Timur - 269 WTh<br />
Toyomura, Akira - 147 mT<br />
Tozakidou, Magdalini - 155 MT<br />
Tracey, Irene - 1039 WTh<br />
Trainor, Laurel - 399 MT, 437 MT, 443 MT,<br />
1016 WTh<br />
Trampel, Robert - 415 mT, 472 MT, 792 MT,<br />
928 MT, 999 WTh, 1061 MT<br />
Trapp, Bruce - 980 MT<br />
Trapp, Sabrina - 847 WTh<br />
Trattnig, Siegfried - 77 WTh, 525 MT, 535 MT,<br />
643 MT<br />
Trauner, Doris - 301 MT<br />
Tregellas, Jason - 221 WTh<br />
Treit, Sarah - 141 mT<br />
Tremblay, Julie - 186 mT, 515 WTh, 803 MT<br />
Tremblay, Pascale - 795 WTh, 803 WTh<br />
Tremblay, Sara - 311 mT<br />
Triantafyllou, Christina - 495 mT, 713 WTh<br />
Triet, Master Thich Thong - 1068 MT<br />
Triggs, Tyler - 878 mT<br />
Trinchera, Laura - 316 WTh<br />
Tripathi, Shanti - 253 MT<br />
Trksak, George - 1054 MT<br />
Troiani, Vanessa - 809 WTh, 1084 WTh<br />
Troiano, André - 45 WTh<br />
Trollor, Julian - 323 WTh<br />
Trost, Sarah - 149 WTh, 468 mT, 620 MT<br />
Tröstl, Jasmin - 235 MT, 260 mT<br />
Troyanskaya, Maya - 316 MT<br />
Trujillo-Barreto, Nelson - 427 WTh, 652 WTh<br />
Tsai, Kevin - 479 mT<br />
Tsai, Kevin Wen-Kai - 475 MT, 715 WTh<br />
Tsai, Ying-Huang - 158 WTh<br />
Tsai, Yuan-Hsiung - 158 WTh<br />
Tsao, Jack - 334 WTh<br />
Tse, Chun Yu - 524 WTh<br />
Tseng, Chieh-En - 574 MT<br />
Tseng, Kevin C. - 425 WTh<br />
Tseng, W-Y Isaac - 909 MT, 786 WTh<br />
Tseng, W-Y. - 586 MT<br />
Tseng, Wen-Yih - 82 WTh, 185 WTh, 580 MT,<br />
587 MT, 573 MT<br />
Tseng, Wen-Yih Isaac - 110 WTh, 561 MT,<br />
574 MT, 584 MT, 590 MT, 750 MT<br />
Tseng, WY I - 197 MT<br />
Tsotsos, John - 390 WTh<br />
Tsou, Kristen - 249 MT<br />
Tsuang, Ming - 325 WTh, 894 WTh<br />
Tsubokawa, Hiroshi - 1108 WTh<br />
Tsuchimoto, Rikako - 134 WTh<br />
Tsui, En-Chi - 682 MT<br />
Tsuji, Sho - 1017 WTh<br />
Tsuji, Shoji - 923 MT<br />
Tsujii, Masatsugu - 127 MT<br />
Tsukamoto, Tetsuji - 1006 MT, 1011 MT<br />
Tsukiura, Takashi - 846 WTh<br />
Tucholka, Alan - 469 MT, 614 WTh, 677 MT<br />
Tüdös, Zbyn,k - 294 MT<br />
Tuerke, Eric - 359 WTh<br />
Tuit, Keri - 249 MT<br />
Tung, KC - 864 MT<br />
Tungaraza, Rosalia - 961 mT<br />
Tupak, Sara - 2 WTh, 25 mT<br />
Turecki, Gustavo - 218 WTh<br />
Turetsky, Bruce - 244 WTh, 285 MT<br />
Türke, Erik - 928 MT<br />
Turkeltaub, Peter - 782 WTh<br />
Turken, And - 957 MT<br />
Turken, And Umit - 955 WTh<br />
Turner, Benjamin - 554 WTh<br />
Turner, Jessica - 107 WTh, 324 WTh<br />
Turner, Robert - 17 MT, 359 WTh, 377 WTh,<br />
415 MT, 447 MT, 472 MT, 478 MT, 555 MT,<br />
557 MT, 560 MT, 660 MT, 694 WTh, 703 WTh,<br />
720 MT, 792 MT, 926 MT, 928 MT, 934 MT,<br />
968 MT, 982 WTh, 999 WTh, 1002 WTh,<br />
1061 MT<br />
Turnip, Arjon - 441 WTh<br />
Turrisi, Robert - 763 WTh<br />
Tusche, Anita - 367 WTh<br />
Tüscher, Oliver - 135 MT<br />
Tuulio-Henriksson, Annamari - 251 MT<br />
Tyler, Lorraine - 952 MT<br />
Tyrka, Audrey - 279 MT<br />
Tziortzi, Andri - 536 WTh<br />
Tzschoppe, Jelka - 337 MT<br />
u<br />
Uchida, Syusaku - 238 MT, 259 MT<br />
Udagawa, Haruhide - 529 WTh<br />
Uddin, Lucina - 98 mT, 115 MT, 1075 MT<br />
Udo, Kischka - 159 WTh<br />
Udompholkul, Parima - 873 MT<br />
Ueno, Kenichi - 271 WTh, 1082 WTh<br />
Ueno, Takefumi - 153 WTh, 134 WTh<br />
Ugurbil, Kamil - 473 MT, 499 MT, 937 MT,<br />
1085 WTh<br />
Uh, Jinsoo - 148 WTh, 864 MT<br />
Ullman, Natalie - 107 MT<br />
Ulloa Fulgeri, José Luis - 1080 mT<br />
Ullsperger, Markus - 382 MT<br />
Um, Minhee - 597 mT, 771 WTh<br />
Umeda, Satoshi - 836 MT<br />
Umer, Najib - 173 WTh<br />
Ungerleider, Leslie - 829 WTh<br />
Ungersböck, Johanna - 535 WTh<br />
Unkrig, Mareike - 882 MT<br />
Unrath, Alexander - 699 MT, 972 mT<br />
Urayama, Shin-ichi - 608 MT, 613 mT<br />
Urbain, Charline - 798 mT<br />
Urbanek, Tomas - 1116 MT<br />
Urchs, Sebastian - 695 WTh<br />
Urgošík, Dušan - 49 WTh<br />
Urretavizcaya, Mikel - 255 MT<br />
Usichenko, Taras - 1047 WTh<br />
UZELAC, Zeljko - 274 MT<br />
v<br />
Vaessen, Maarten - 193 MT, 599 WTh, 184 mT,<br />
199 mT<br />
Vaidya, Avinash - 30 MT<br />
Vaidya, Chandan - 710 WTh, 714 WTh<br />
Vaillancourt, Olivier - 962 mT<br />
Vaina, Lucia Maria - 626 WTh, 1033 WTh<br />
Vakorin, Vasily - 628 WTh, 631 WTh<br />
Valabregue, Romain - 27 MT, 45 WTh, 59 WTh<br />
Bolded Poster numbers indicate first author.<br />
Valabregues, Romain - 930 WTh<br />
Valdes, Mitchell - 467 MT<br />
Valdes-Sosa, Pedro - 449 MT, 652 WTh, 729 MT<br />
Valdez, Jeffrey - 137 WTh<br />
Valdivia, Fernando - 362 WTh<br />
Valente, Giancarlo - 547 WTh, 1006 WTh<br />
Valera, Eve - 894 WTh<br />
Valero-Cabré, Antoni - 1004 MT<br />
Valet, Michael - 220 WTh<br />
Valkeinen, Heli - 73 WTh<br />
Vallejo, Julio - 258 MT<br />
Valsan, Gopal - 57 WTh, 948 WTh<br />
van ‘t Ent, Dennis - 445 MT, 497 mT<br />
Van Baaren, Rick - 1071 MT<br />
Van Bogaert, Patrick - 798 MT<br />
van Breukelen, Gerard - 796 MT<br />
van Buchem, Mark - 310 WTh<br />
van Buuren, Mariët - 122 WTh, 892 WTh<br />
van Cappellen van Walsum, Anne-Marie -<br />
967 WTh, 986 WTh<br />
van Dam, Frits - 469 WTh<br />
van Dam, Wessel - 818 mT<br />
van de Moortele, Pierre-Francois - 448 MT,<br />
473 MT<br />
Van De Ville, Dimitri - 434 WTh, 435 MT, 438 MT<br />
van den Bosch, Gerbrich - 880 WTh, 1066 WTh<br />
van den Bosch, Iris - 319 MT<br />
Van den Brink, Wim - 18 WTh, 20 WTh, 374 WTh<br />
van den Heuvel, Martijn - 111 WTh<br />
van den Heuvel, Odile - 31 WTh<br />
van den Honert, Rebecca - 106 MT<br />
van der Geest, Jos - 916 WTh, 1066 WTh<br />
Van der Haegen, Lise - 364 MT, 821 WTh<br />
van der Heiden, Linda - 906 WTh<br />
van der Helm, Els - 237 WTh<br />
van der Hoeven, Johannes - 57 WTh, 948 WTh<br />
van der Kouwe, Andre - 621 MT, 936 MT,<br />
987 WTh<br />
van der Kruijs, Sylvie - 193 mT<br />
Van Der Laan, Laura - 380 WTh<br />
van der Leij, andries - 1071 mT<br />
van der Lugt, Aad - 200 WTh<br />
Van Der Meer, Lisette - 96 WTh, 133 WTh,<br />
1109 mT<br />
Van der Reijden, Anneke - 696 MT<br />
van der Veen, Jan Willem - 943 WTh<br />
van der Velde, Jorien - 133 WTh<br />
Van der Walt, Anneke - 190 WTh<br />
van der Walt, Stefan - 589 MT<br />
van der Wee, Nic - 18 WTh, 256 WTh, 267 MT,<br />
270 MT, 310 WTh<br />
Van Der Werf, Ysbrand - 31 WTh, 636 WTh,<br />
1036 MT<br />
van der Zwaag, Wietske - 486 mT, 533 mT,<br />
669 WTh, 924 MT<br />
van Diepen, Rosanne - 918 WTh<br />
van Dijk, Hanneke - 1068 WTh<br />
Van Dijk, Koene - 883 mT<br />
van Dijk, Margriet - 818 MT<br />
Van Dyke, Julie - 401 MT<br />
van Elburg, Annemarie - 187 WTh<br />
van Erp, Theo - 91 WTh, 99 WTh, 251 MT<br />
Van Essen, David - 338 WTh, 342 WTh, 937 mT,<br />
983 WTh, 984 WTh<br />
van Gelderen, Peter - 457 MT, 527 MT, 701 WTh,<br />
444 MT, 481 WTh<br />
Van Gerven, Joop - 697 WTh, 717 MT<br />
van Hell, Hendrika - 4 WTh, 113 WTh, 342 mT<br />
van Gerven, Marcel - 808 MT<br />
van Hemmen, Judy - 1066 WTh<br />
Van Heuven, Vincent - 806 WTh<br />
Van Horn, John - 358 WTh, 623 MT, 304 MT,<br />
577 WTh, 625 MT<br />
van Houdt, Petra - 179 mT, 204 mT, 672 WTh,<br />
675 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 217
van Leeuwen, Cees - 1009 MT, 1099 WTh<br />
van Lieshout, Natascha - 642 WTh<br />
van Lunen, Dan - 750 WTh<br />
van Maanen, Leendert - 377 WTh<br />
Van Meter, John - 105 MT, 326 WTh<br />
van Mulukom, Valerie - 854 mT<br />
van Oort, Erik - 477 WTh, 697 mT, 700 WTh<br />
van Osch, Matthias J. P. - 697 WTh, 717 MT<br />
van Putten, Michel - 643 WTh, 1023 mT<br />
van Schijndel, Ronald - 696 MT<br />
van Someren, Eus - 384 MT, 1037 MT<br />
Van Someren, Eus J.W. - 636 WTh, 1036 MT<br />
Van Tol, Marie-José - 18 WTh, 256 WTh, 267 mT,<br />
270 MT, 310 WTh<br />
Van Veen, Barry - 1036 MT<br />
Van Wegen, Erwin - 915 MT<br />
van Zijl, Peter - 722 MT<br />
Vanacore, Gianluca - 547 WTh<br />
Vance, Aldsdair - 41 WTh<br />
Vandamme, Kimberley - 408 mT<br />
Vandemaele, Pieter - 921 WTh, 925 WTh<br />
Vandenberghe, Rik - 812 MT<br />
Vander Wyk, Brent - 1113 MT<br />
Vandewalle, Gilles - 289 MT, 914 MT, 1025 WTh<br />
Vandierendonck, André - 408 MT<br />
Vangel, Mark - 1049 WTh<br />
Vanhaudenhuyse, Audrey - 773 MT, 1015 WTh,<br />
1019 MT, 1025 MT<br />
VanMeter, John - 107 MT, 204 WTh, 262 MT,<br />
216 WTh, 281 WTh<br />
Vannasing, Phetsamone - 803 MT, 882 WTh,<br />
186 MT, 515 WTh, 896 WTh<br />
Vannest, Jennifer - 195 MT, 196 mT, 823 MT,<br />
825 MT<br />
Vannier, Michael - 579 MT<br />
Vansteensel, Mariska - 1051 MT<br />
VanTieghem, Michelle - 731 MT<br />
Varkuti, Balint - 169 WTh<br />
Varoquaux, Gael - 166 WTh, 335 WTh, 354 WTh,<br />
555 WTh, 667 mT, 692 WTh<br />
Vasic, Nenad - 55 WTh<br />
Vasios, Christos - 985 MT<br />
Vasudeva, Viren - 1115 MT<br />
Vázquez, Pablo - 424 MT<br />
Vecchiato, Giovanni - 440 WTh<br />
Veer, Ilya - 247 WTh, 256 WTh, 267 MT,<br />
270 MT, 343 MT<br />
Vega Potler, Natan - 731 mT<br />
Veillette, Suzanne - 295 WTh, 306 WTh<br />
Veit, Ralf - 235 WTh, 326 mT, 332 MT<br />
Velakoulis, Dennis - 996 WTh<br />
Velanova, Katerina - 128 MT, 129 MT, 170 mT,<br />
343 WTh<br />
Velasco, Pablo - 498 MT<br />
Velayudhan, Balu - 913 WTh<br />
Veldhuijzen, Dieuwke - 1057 WTh<br />
Veldhuizen, Maria - 347 MT<br />
Veltman, Dick - 9 WTh, 18 WTh, 20 WTh, 31 WTh,<br />
256 WTh, 267 MT, 270 MT, 310 WTh,<br />
374 WTh, 469 WTh<br />
Veltman, Eveline - 31 WTh<br />
Vendelin, Inga - 793 WTh, 881 WTh<br />
Vendrell, Pere - 312 MT, 706 WTh<br />
Veniero, Domenica - 18 MT<br />
Venkateswaran, Ajay - 20 MT<br />
Venne, Jonathan - 16 WTh<br />
Venneri, Annalena - 11 MT, 24 WTh, 70 WTh<br />
Ventura-Campos, Noelia - 330 MT, 397 MT,<br />
801 MT, 840 MT<br />
Venturini, Gilles - 946 MT<br />
Venugopal, Sandya - 154 MT, 963 MT<br />
Verber, Matthew - 181 WTh<br />
Verbruggen, Frederick - 388 MT<br />
Vercammen, Ans - 88 WTh<br />
Verchinski, Beth - 450 mT, 693 MT<br />
218 HBM 2011 >> <strong>abstracts</strong><br />
Verdaasdonk, Ruud - 672 WTh, 675 WTh, 915 MT<br />
Verdejo, Juan - 207 WTh, 223 WTh<br />
Verdejo-García, Antonio - 207 WTh, 223 WTh<br />
Verduzco, Guillermo - 35 MT<br />
Verhulst, Frank - 405 WTh, 464 MT, 898 WTh<br />
Verius, Michael - 534 MT, 1078 WTh<br />
Vernet, Marine - 31 mT, 33 MT, 173 WTh<br />
Vernooij, Meike - 604 WTh<br />
Versace, Amelia - 170 MT<br />
Verstynen, Timothy - 565 mT, 593 MT, 992 MT<br />
Vertes, Petra - 679 WTh<br />
Vertinski, Mary - 115 WTh<br />
Vertinsky, A. - 28 WTh<br />
Verweij, Ilse - 636 WTh<br />
Vese, Luminita - 625 MT<br />
Vesia, Michael - 183 WTh<br />
Vespa, Paul - 304 MT<br />
Vesper, Jan - 1 MT, 455 WTh<br />
Vessel, Edward - 498 MT<br />
Vetter, Céline - 739 MT, 771 MT<br />
Via, Esther - 33 WTh, 39 WTh, 255 mT<br />
Viader, Fausto - 430 MT<br />
Vicentini, Carlo - 356 MT<br />
Vidailhet, Marie - 69 WTh, 702 WTh, 930 WTh<br />
Vidal, Franck - 417 WTh<br />
Vidal, Juan - 656 WTh, 993 MT, 1001 MT,<br />
1012 MT<br />
Vien, Catherine - 836 WTh<br />
Viergever, Max - 187 WTh, 380 WTh<br />
Viinikainen, Mikko - 238 WTh, 261 WTh<br />
Vila-Rodriguez, Fidel - 28 WTh<br />
Villalon Reina, Julio - 319 WTh, 328 WTh<br />
Villeneuve, Martin - 549 WTh<br />
Villringer, Arno - 10 MT, 64 MT, 170 WTh,<br />
219 WTh, 287 MT, 333 WTh, 343 WTh,<br />
359 WTh, 376 MT, 402 WTh, 695 WTh,<br />
703 MT, 703 WTh, 720 MT, 758 WTh, 784 MT,<br />
799 WTh, 839 WTh, 935 MT, 968 MT, 977 MT,<br />
990 WTh, 999 WTh, 1072 WTh<br />
Villringer, Kersten - 170 WTh<br />
Vincent, Frouin - 354 WTh<br />
Vinck, Martin - 1050 MT, 999 mT<br />
Vingerhoets, Guy - 921 WTh, 925 WTh<br />
Vink, Matthijs - 122 WTh, 341 MT, 362 mT,<br />
363 MT, 540 MT, 892 WTh<br />
Vinogradov, Sophia - 115 WTh<br />
Violante, Ines - 330 WTh, 893 WTh<br />
Vire, Tapani - 733 MT<br />
Virji-Babul, Naznin - 440 mT, 756 MT<br />
Visser, Eelke - 637 mT<br />
Visser, Renée - 229 WTh<br />
Vissia, Eline - 284 MT<br />
Vivian, Jef - 760 WTh<br />
Vizueta, Nathalie - 256 MT<br />
Vlooswijk, Marielle - 184 MT, 199 MT<br />
Vogel, Dominik - 299 MT, 838 MT<br />
Vogel, Stephan - 416 WTh<br />
Vogeley, Kai - 140 WTh, 1077 MT<br />
Vogelstein, Joshua - 953 WTh<br />
Vogelstein, R. Jacob - 953 WTh<br />
Vohs, Kathleen - 232 WTh<br />
Voisin, Julien - 423 WTh, 427 mT, 1060 WTh,<br />
1093 MT<br />
Völker, Julia - 410 MT<br />
Vollmann, Henning - 839 WTh<br />
Vollmar, Christian - 180 MT<br />
Vollstaedt-Klein, Sabine - 323 MT, 337 MT,<br />
957 WTh<br />
Volpato, Chiara - 11 mT<br />
von Deneen, Karen - 749 MT, 758 MT<br />
von Kapri, Anette - 958 MT<br />
von Kienlin, Markus - 552 WTh<br />
von Plessen, Kerstin - 971 MT<br />
von Schnurbein, Julia - 332 WTh<br />
Voos, Avery - 122 MT<br />
Voruganti, Saroja - 1040 MT<br />
Voss, Henning - 611 WTh, 651 MT<br />
Voss, Martin - 101 WTh<br />
Voss, Michelle - 370 MT<br />
Voss, Patrice - 1021 WTh, 1025 WTh<br />
Vovk, Andrej - 694 MT<br />
Voytek, Bradley - 347 WTh<br />
Voytek, Jessica - 347 WTh<br />
Vrenken, Hugo - 683 mT, 696 MT<br />
Vroomen, Jean - 1006 WTh<br />
Vucurevic, Goran - 602 mT<br />
Vuilleumier, Patrik - 245 WTh, 248 WTh<br />
Vulliemoz, Serge - 718 MT, 208 MT, 442 WTh<br />
Vuontela, Virve - 125 MT<br />
Vuust, Peter - 835 MT<br />
Vymazal, Josef - 49 WTh, 71 WTh<br />
w<br />
Wabitsch, Martin - 332 WTh<br />
Wabnitz, Heidrun - 501 WTh<br />
Wada, Yuji - 1101 MT<br />
Wade, Benjamin - 465 mT<br />
Wadehra, Sunali - 78 WTh<br />
Wadsak, Wolfgang - 535 WTh<br />
Wagemans, Johan - 775 WTh<br />
Wagenmakers, Eric-Jan - 387 WTh<br />
Wager, Tor - 565 WTh, 1048 WTh, 240 WTh,<br />
342 WTh, 731 WTh<br />
Waggoner, R. Allen - 1082 WTh<br />
Wagner, Anthony - 148 WTh<br />
Wagner, Benjamin - 101 WTh<br />
Wagner, Ged - 142 WTh<br />
Wagner, Gerd - 135 WTh<br />
Waiter, Gordon - 272 WTh, 688 MT, 911 MT,<br />
913 MT<br />
Waites, Anthony - 364 WTh<br />
Wakahiro, Mari - 154 MT, 828 WTh<br />
Wald, Lawrence - 476 MT, 705 WTh, 985 WTh,<br />
988 WTh, 495 MT, 621 MT<br />
Waldorp, Lourens - 668 MT<br />
Wali, Bacem - 346 WTh<br />
Walitt, Brian - 216 WTh<br />
Walker, Lindsay - 832 WTh, 331 WTh<br />
Walker, Matthew - 237 WTh, 718 MT<br />
Wallace, Alissa - 101 MT<br />
Wallace, Amanda - 163 WTh<br />
Wallace, Gregory - 100 MT, 106 MT<br />
Wallace, Marc - 245 MT, 261 MT<br />
Wallentin, Mikkel - 438 WTh, 809 MT, 835 mT<br />
Waller, Christiane - 1070 MT<br />
Walling, Christopher - 690 MT<br />
Wallis, Nancy - 843 WTh<br />
Wallois, Fabrice - 508 WTh, 803 MT<br />
Walstra, Alette - 898 WTh<br />
Walter, Anke - 1006 WTh<br />
Walter, Elizabeth - 160 mT<br />
Walter, Henrik - 140 WTh, 227 WTh<br />
Walter, Martin - 220 MT, 266 MT, 275 WTh,<br />
329 MT, 464 WTh, 514 MT, 561 WTh,<br />
884 WTh, 1056 MT, 1058 mT<br />
Walter, Robert - 411 WTh<br />
Walter, Susanna - 1046 WTh<br />
Walterfang, Mark - 996 WTh<br />
Walz, Andrea Daniela - 1047 WTh<br />
Wamain, Yannick - 783 WTh<br />
Wan, Catherine - 177 WTh, 870 mT, 176 WTh<br />
Wan, Jing - 305 WTh, 560 WTh<br />
Wan, Xiaohong - 1082 WTh<br />
Wandell, Brian - 777 WTh, 953 MT<br />
Wang, Bin - 968 WTh, 976 WTh, 517 MT,<br />
978 WTh
Wang, Binquan - 297 MT, 308 MT<br />
Wang, Chenbo - 1064 mT<br />
Wang, Danhong - 712 MT<br />
Wang, Danny - 1040 MT, 489 MT, 509 MT,<br />
1031 MT<br />
Wang, Deyi - 491 mT<br />
Wang, Fei - 313 WTh<br />
Wang, I-Jan - 425 WTh<br />
Wang, J - 611 MT<br />
Wang, Jianli - 737 WTh, 860 WTh<br />
Wang, Jing - 177 WTh<br />
Wang, Jinghui - 978 WTh<br />
Wang, Jinhui - 75 MT, 518 MT, 783 MT, 980 WTh<br />
Wang, Jue - 487 WTh, 746 MT<br />
Wang, Jun - 978 WTh, 968 WTh<br />
Wang, Lei - 305 WTh, 97 WTh, 721 MT<br />
Wang, Ling - 379 mT<br />
Wang, Luning - 80 MT, 87 MT<br />
Wang, Pan - 80 MT, 87 MT<br />
Wang, Pei-Ning - 40 MT<br />
Wang, Peng - 976 WTh, 517 MT<br />
Wang, Pengwei - 374 MT, 766 WTh, 151 WTh,<br />
744 MT<br />
Wang, Pin - 553 MT<br />
Wang, Qian - 976 WTh<br />
Wang, Qwa-Fun - 552 MT<br />
Wang, Ruopeng - 587 MT, 936 MT, 988 WTh<br />
Wang, Sheng H. - 390 WTh<br />
Wang, Sumei - 612 WTh<br />
Wang, Ting - 124 MT, 735 MT<br />
Wang, Wan-Ru - 425 WTh<br />
Wang, Wei-An - 574 MT<br />
Wang, Weidong - 981 MT<br />
Wang, Xiaoling - 981 MT<br />
Wang, Xiaoyi - 712 MT<br />
Wang, Xiaoying - 532 MT<br />
Wang, Xin - 544 MT<br />
Wang, Xue - 577 MT, 775 mT, 754 MT<br />
Wang, Yalin - 994 WTh, 997 WTh<br />
Wang, Yanbing - 349 WTh<br />
Wang, Yang - 550 MT, 607 WTh, 970 WTh,<br />
500 MT<br />
Wang, Yingying - 457 WTh, 460 WTh<br />
Wang, Yu-Feng - 129 MT<br />
Wang, Yuqing - 280 MT<br />
Wang, Ze - 63 mT<br />
Wang, Zhengge - 745 MT<br />
Wang, Zhiqun - 75 MT<br />
Wang, Zhishun - 151 WTh, 374 MT, 744 MT,<br />
766 WTh<br />
Wankerl, Johanna - 285 WTh<br />
Warburton, Samantha - 105 MT<br />
Ward, Andrew - 41 mT<br />
Ward, Nick - 163 WTh<br />
Warfield, Simon - 594 WTh, 633 MT, 976 MT<br />
Warner, Tamara - 134 MT, 171 MT<br />
Warton, Christopher - 157 MT<br />
Wasan, Ajay - 1049 WTh, 1054 WTh<br />
Washington, Stuart - 105 MT<br />
Wassermann, Demian - 118 MT, 558 mT<br />
Wassermann, Eric - 525 WTh, 943 WTh<br />
Watanabe, Hama - 473 WTh, 799 MT<br />
Watanabe, Satsuki - 437 WTh, 432 WTh,<br />
664 WTh, 443 WTh<br />
Watanabe, Yoshifumi - 238 MT, 259 MT,<br />
295 MT, 513 WTh<br />
Watson, Rebecca - 1027 WTh, 1032 WTh<br />
Watt, Kimberley - 440 MT<br />
Watts, Richard - 51 WTh<br />
Weber, Bernd - 187 MT, 219 MT<br />
Weber, Jochen - 240 WTh, 289 WTh, 1060 MT<br />
Weber, Kenneth - 577 mT<br />
Wedeen, Van - 587 mT<br />
Wegener, Hans - 138 MT<br />
Wehbe, Leila - 806 MT<br />
Wehenkel, Louis - 570 WTh<br />
Wei, Jesse - 349 WTh<br />
Wei, Luqing - 89 MT<br />
Wei, Shau-Ming - 239 MT, 462 MT<br />
Wei, Xing-Chang - 206 MT<br />
Wei, Yonghua - 657 MT, 690 WTh<br />
Weidner, Ralph - 385 WTh<br />
Weigelt, Sarah - 890 WTh<br />
Weiland, Barbara - 13 WTh<br />
Weiller, Cornelius - 794 MT, 1035 WTh<br />
Weinberger, Daniel - 89 WTh, 327 WTh,<br />
331 WTh, 344 MT, 345 MT, 348 MT, 378 WTh,<br />
450 MT, 534 WTh, 875 MT, 90 WTh, 483 MT,<br />
578 WTh<br />
Weiner, Michael - 49 MT, 299 WTh, 305 WTh,<br />
314 WTh, 320 WTh, 496 WTh<br />
Weinstein, Andrea - 565 MT<br />
Weisberg, Jill - 778 WTh<br />
Weise, Lutz - 5 MT<br />
Weisenfeld, Neil - 633 MT<br />
Weiskopf, Nikolaus - 494 mT, 511 MT, 602 WTh,<br />
888 MT<br />
Weiss, Marcel - 934 MT, 999 WTh, 1002 WTh<br />
Weissman, Daniel - 519 WTh, 996 MT<br />
Weissman-Fogel, Irit - 974 MT, 1052 WTh,<br />
1062 WTh<br />
Weitekamp, Christopher - 737 WTh, 860 WTh<br />
Welbourne, Stephen - 801 WTh, 424 WTh<br />
Weller, Rosalyn - 112 WTh<br />
Wells, Sandy - 324 WTh<br />
Welsh, Robert - 13 WTh, 217 WTh, 562 WTh<br />
Welvaert, Marijke - 782 mT<br />
Wen, Wei - 323 WTh<br />
Wenderoth, Nicole - 751 MT<br />
Wendt, Sebastian - 275 WTh<br />
Weng, Hsu-Huei - 158 WTh<br />
Weng, Jun-Cheng - 933 mT<br />
Weng, Xuchu - 131 MT, 1069 MT, 409 WTh<br />
Wennberg, Richard - 653 WTh<br />
Werner, Annett - 1096 MT<br />
Werner, Cornelius - 138 MT, 52 WTh, 65 WTh<br />
Wernick, Miles - 37 MT<br />
Wersching, Heike - 876 mT, 575 MT<br />
Wessa, Michèle - 53 MT<br />
Wessel, Jan - 382 MT<br />
West, John - 550 mT, 607 WTh, 500 MT<br />
Westerhausen, Rene - 98 WTh, 373 MT, 971 mT<br />
Westlake, Kelly - 180 WTh, 768 WTh<br />
Westlye, Lars - 666 WTh, 670 WTh<br />
Westwood, Erica - 518 WTh<br />
Wettstein, Joseph - 552 WTh<br />
Wetzel, Martin - 153 MT, 159 MT<br />
Wey, Monica - 1040 MT<br />
Whalen, Paul - 541 MT<br />
Whalen, Sandra - 329 WTh<br />
Whatley, Benjamin - 30 MT<br />
Wheelock, Muriah - 121 WTh, 136 WTh<br />
Whelan, Robert - 6 WTh, 957 WTh<br />
Wheland, David - 627 mT<br />
Whitcher, Brandon - 66 MT, 223 MT, 365 WTh,<br />
605 WTh, 225 MT<br />
White, David - 136 WTh, 109 WTh, 112 WTh,<br />
105 WTh, 121 WTh<br />
White, Jason - 649 MT<br />
White, Keith - 749 MT<br />
White, Matthew - 153 MT, 159 MT<br />
White, Michael - 875 mT, 483 MT<br />
White, Siobhan - 370 MT<br />
White, Tonya - 405 WTh, 464 MT, 880 WTh,<br />
898 WTh, 1066 WTh<br />
Whitfield, John - 322 WTh<br />
Whitfield-Gabrieli, Susan - 713 WTh<br />
Whitfield-Gabrieli, Susan - 240 MT<br />
Whitman, Jennifer - 130 WTh<br />
Whittle, Sarah - 126 WTh<br />
Bolded Poster numbers indicate first author.<br />
Wicker, Bruno - 118 MT, 558 MT<br />
Wicksell, Rikard - 413 MT<br />
Wiebe, Sam - 206 MT<br />
Wiebking, Christine - 548 mT, 596 WTh<br />
Wiech, Katja - 1039 WTh<br />
Wieczorek, Kacper - 1092 WTh<br />
Wiedemann, Georg - 140 WTh<br />
Wielaard, Ilse - 583 MT<br />
Wiers, Reinout - 20 WTh<br />
Wiersma, Durk - 133 WTh<br />
Wiethoff, Sarah - 243 WTh<br />
Wilbur, Ronnie - 975 WTh<br />
Wild, Conor - 815 WTh<br />
Wilde, Elisabeth - 313 MT<br />
Wildgruber, Dirk - 243 WTh, 245 WTh,<br />
260 WTh, 288 WTh<br />
Wiley, David - 7 MT<br />
Wilfling, Domenica - 928 MT<br />
Wilke, Christopher - 1102 MT<br />
Wilkinson, Iain - 716 MT<br />
Willeit, Matthaeus - 274 MT<br />
Willette, Auriel - 34 mT, 74 MT<br />
William, Aubé - 280 WTh<br />
Williams, Donald - 760 WTh<br />
Williams, Justin - 272 WTh<br />
Williams, Lynne - 257 MT<br />
Williams, Patrick - 1092 mT<br />
Williams, Steven - 1053 MT<br />
Williams, Victoria - 16 WTh, 891 MT, 166 MT<br />
Williamson, Peter - 350 MT<br />
Willis, Sherry - 877 MT<br />
Willmes, Klaus - 839 MT<br />
Wilm, Bertram - 485 MT<br />
Wilman, Alan - 396 MT<br />
Wilson, Daryl - 815 WTh<br />
Wilson, Frederick - 579 WTh, 1059 WTh<br />
Wilson, Maximiliano - 780 WTh, 828 MT<br />
Wilson, Sarah - 215 WTh<br />
Wilson, Stephen - 763 WTh<br />
Wilson, Tony - 159 MT, 824 MT<br />
Wilson, Tony W - 153 mT<br />
Wilson, Vanessa - 162 MT<br />
Wilson-Mendenhall, Christine - 1021 MT<br />
Wiltfang, Jens - 84 MT<br />
Wimmer, Heinz - 136 MT, 139 MT<br />
Windhoff, Mirko - 17 MT<br />
Windischberger, Christian - 235 MT, 260 MT,<br />
434 MT, 511 mT, 641 MT, 754 WTh,<br />
769 WTh, 785 MT, 928 WTh, 1089 MT<br />
Winetraub, Yonatan - 249 WTh, 253 WTh<br />
Wingfield, Arthur - 809 WTh<br />
Wingfield, Cai - 663 MT<br />
Wink, Alle Meije - 728 mT<br />
Winkler, Anderson - 309 WTh, 296 WTh,<br />
455 mT, 892 MT<br />
Winter, Benjamin - 170 WTh<br />
Winter, Dorina - 380 MT<br />
Winterer, Georg - 140 WTh<br />
Wipf, David - 632 WTh<br />
Wirth, Miranka - 14 mT<br />
Wisco, Jonathan - 598 MT<br />
Wise, Richard - 281 MT, 1059 WTh, 1106 WTh<br />
Wisner, Krista - 737 mT<br />
Wiswede, Daniel - 142 WTh<br />
Witt, Suzanne - 359 mT, 368 mT<br />
Wittchen, Hans-Ulrich - 286 MT<br />
Witte, Veronica - 896 mT<br />
Wittek, Adam - 633 MT<br />
Witteman, Jurriaan - 806 WTh<br />
Wittenberg, George - 700 mT<br />
Wittfoth, Matthias - 34 WTh, 286 WTh, 442 MT,<br />
1070 MT<br />
Wittmann, Andre - 286 mT<br />
Witton, Caroline - 142 MT<br />
Wittorf, Andreas - 140 WTh<br />
HBM 2011 >> <strong>abstracts</strong> 219
Witzel, Thomas - 475 MT, 479 MT, 715 WTh,<br />
871 MT, 1070 WTh<br />
Wobrock, Thomas - 152 WTh, 468 MT<br />
Wodd, Dylan - 351 WTh<br />
Wohlschläger, Afra - 141 WTh, 220 WTh, 1030 MT<br />
Wohnoutka, Paul - 336 WTh<br />
Wojcicki, Thomas - 370 MT<br />
Wojnar, Anita - 1065 MT<br />
Wojtecki, Lars - 1 MT, 455 WTh<br />
Wolf, Nadine - 55 WTh<br />
Wolf, Robert Christian - 55 WTh<br />
Wolfe, Amanda - 105 MT<br />
Wolfensteller, Uta - 323 MT<br />
Wolff, Stephan - 175 MT, 522 MT<br />
Wolfson, Leslie - 969 MT<br />
Wolk, David - 63 MT<br />
Wolk, Paula - 284 MT<br />
Wolters, Carsten - 449 WTh<br />
Woltz, Lawrence - 665 MT<br />
Womelsdorf, Thilo - 999 MT<br />
Wong, Agnes - 143 MT<br />
Wong, Daniel - 874 mT, 1018 WTh<br />
Woo, John - 612 WTh<br />
Woo-Kyoung, Yoo - 33 MT<br />
Wood, Amanda - 41 WTh<br />
Wood, Stephen - 126 WTh<br />
Woodard, John - 42 MT<br />
Woodruff, Peter - 19 MT, 716 MT<br />
Woods, David - 460 MT<br />
Woods, Roger - 85 WTh, 86 WTh, 108 MT,<br />
199 WTh, 974 WTh<br />
Woods, William - 459 WTh<br />
Woodward, Todd - 106 WTh, 130 WTh, 399 WTh,<br />
722 WTh<br />
Woolley, Daniel - 751 MT<br />
Woolrich, Mark - 450 WTh, 540 WTh, 579 WTh,<br />
666 WTh, 670 WTh, 1059 WTh<br />
Worbe, Yulia - 59 WTh, 492 WTh, 702 WTh<br />
Worhunsky, Patrick - 1060 MT<br />
Wörner, Christiane - 1074 MT<br />
Worren, Marius - 382 MT<br />
Worth, Andrew - 337 WTh<br />
Woudstra, Saskia - 310 WTh<br />
Wozny, Dave - 472 MT<br />
Wrede, Arne - 458 MT<br />
Wrede, Karsten - 740 mT<br />
Wright, Margaret - 49 MT, 294 WTh, 297 WTh,<br />
314 WTh, 315 WTh, 322 WTh, 550 WTh,<br />
578 MT, 947 MT<br />
Wright, Margaret - 318 WTh, 319 WTh<br />
Wu, Allan - 873 MT<br />
Wu, Changwei - 493 mT<br />
Wu, Chen-Hao - 561 mT<br />
Wu, Chi-Hsun - 433 WTh, 650 WTh, 908 WTh,<br />
291 MT, 904 WTh<br />
Wu, Chiao-Yi - 786 WTh, 909 MT<br />
Wu, Haiyan - 950 WTh<br />
Wu, Hung-Yi - 908 WTh<br />
Wu, Jennifer - 789 MT<br />
Wu, Kai - 887 WTh, 977 WTh<br />
Wu, Lei - 646 WTh, 653 mT, 753 mT<br />
Wu, Liyong - 68 mT<br />
Wu, Minjie - 72 WTh<br />
Wu, Qizhu - 89 MT, 230 MT, 242 MT, 273 MT,<br />
278 mT<br />
Wu, Sarah - 403 WTh<br />
Wu, Yan - 400 WTh<br />
Wu, Yi-Huan - 185 WTh, 561 MT<br />
Wu, Ying - 754 MT<br />
Wu, Yu-Chien - 541 mT<br />
Wurnig, Moritz - 77 WTh, 525 MT, 534 mT, 535<br />
MT, 643 MT, 1078 WTh<br />
Wüstenberg, Torsten - 25 WTh, 101 WTh<br />
Wylie, Korey - 221 WTh<br />
Wyss, Michael - 927 MT<br />
220 HBM 2011 >> <strong>abstracts</strong><br />
x<br />
Xia, Mingrui - 783 mT<br />
Xia, Shugao - 998 WTh<br />
Xiang, Jing - 457 WTh, 460 WTh<br />
Xiao, Xin - 822 mT<br />
Xie, Jingyi - 704 mT<br />
Xie, Teng - 518 MT<br />
Xing, Xiu-Xia - 732 mT<br />
Xiong, Jinhu - 546 MT, 830 WTh<br />
Xu, Feng - 864 MT<br />
Xu, Guiping - 553 MT<br />
Xu, Guofan - 34 MT, 74 MT<br />
Xu, Jiansong - 603 mT<br />
Xu, Jungian - 499 MT<br />
Xu, Pengfei - 518 mT, 976 WTh<br />
Xu, Ting - 748 mT<br />
Xu, Xiaokun - 379 MT<br />
Xu, Yong - 511 WTh<br />
y<br />
Yacoub, Essa - 473 MT, 499 MT, 595 WTh,<br />
1085 WTh<br />
Yagi, Shunsuke - 56 WTh<br />
Yamada, Takashi - 119 MT<br />
Yamaguchi, Yoko - 856 WTh<br />
Yamamoto, Hiroki - 1100 WTh<br />
Yamamoto, Jeremy - 81 WTh<br />
Yamamoto, Manami - 526 MT<br />
Yamamoto, Takamichi - 8 MT<br />
Yamamoto, Tetsuya - 613 MT<br />
Yamao, Yukihiro - 1100 WTh<br />
Yamashita, Okito - 633 WTh<br />
Yamasue, Hidenori - 635 MT<br />
Yamazaki, Mika - 841 WTh<br />
Yamazaki, Tsutomu - 923 MT<br />
Yan, Chao-Gan - 687 WTh, 719 WTh<br />
Yan, Chaogan - 75 MT, 491 MT<br />
Yan, Lirong - 489 MT, 509 mT<br />
Yan, Xiaodan - 131 mT, 714 mT<br />
Yanaka, Hisakazu - 390 mT<br />
Yang, Bo-Sung - 422 MT<br />
Yang, Cheng-Ta - 158 WTh<br />
Yang, Chia-Yen - 433 WTh, 1036 WTh<br />
Yang, Chun-Yuh - 158 WTh<br />
Yang, Cungeng - 476 MT<br />
Yang, Fan-Pei - 963 MT, 154 MT<br />
Yang, Guang-Zhong - 521 WTh, 523 WTh,<br />
530 WTh, 1008 MT, 1109 WTh<br />
Yang, Mark - 749 MT, 758 MT<br />
Yang, Quing - 737 WTh, 860 WTh<br />
Yang, Shaojuan - 1064 MT<br />
Yang, Shaolin - 465 WTh<br />
YANG, TONY - 293 mT<br />
Yang, Xue - 764 mT<br />
Yang, Xun - 230 mT, 273 MT, 278 MT<br />
Yang, Yaling - 146 mT<br />
Yang, Yihong - 303 WTh, 465 WTh, 470 WTh,<br />
493 MT<br />
Yang, Yilan - 247 MT<br />
Yang, Zhi - 409 WTh<br />
Yang, Zhiyong - 467 WTh<br />
Yao, Bing - 457 MT, 192 WTh<br />
Yao, Bo - 827 mT<br />
Yao, Justin - 237 WTh<br />
Yao, Zeshan - 549 WTh<br />
Yarimizu, Hidekazu - 832 MT<br />
Yarkoni, Tal - 342 WTh<br />
Yasuda, Akio - 664 WTh<br />
Yau, Wai-Ying Wendy - 13 WTh<br />
Yayama, Ryuzo - 1037 WTh, 1038 WTh<br />
Ye, Jong Chul - 482 MT, 502 WTh, 668 WTh<br />
Ye, Zhuoer - 553 MT<br />
Yeatman, Jason - 777 WTh, 953 MT<br />
Yeh, Chia-Lung - 650 WTh<br />
Yeh, Fang-Cheng - 185 WTh, 561 MT, 573 MT,<br />
580 MT, 584 MT, 586 MT, 598 WTh<br />
Yeh, Ping-Hong - 297 mT, 308 MT<br />
Yeh, Shih-Ching - 988 MT<br />
Yeh, Wei-Hsun - 682 MT<br />
Yeo, Sang Seok - 600 MT, 607 MT, 1079 WTh<br />
Yeom, Hong Gi - 910 WTh<br />
Yger, Pierre - 356 WTh<br />
Yi Chia, Li - 720 WTh<br />
Yiannoutsos, Constantin - 193 WTh<br />
Yılmaz, Ay,egül - 40 WTh<br />
Yim, Yoon-Kyoung - 855 mT<br />
Yin, Donghui - 612 MT<br />
Yin, Hengchan - 968 WTh, 978 WTh<br />
Ying, Han - 78 MT<br />
Ying, Hao - 532 MT<br />
Ying, Sarah - 674 MT<br />
Yogarajah, Mahinda - 178 mT<br />
Yogo, Hideto - 127 MT<br />
Yomogida, Yukihito - 191 WTh, 353 MT, 1090 MT,<br />
1091 MT, 1086 mT<br />
Yoo, Ji Sung - 9 MT<br />
Yoo, Kwangsun - 755 MT<br />
Yoon, Eun Jin - 1064 WTh<br />
Yoon, Kang Jun - 272 MT, 422 WTh, 1099 MT<br />
Yoon, Shin-ae - 1114 mT, 833 MT<br />
Yoon, Uicheul - 92 MT, 563 MT, 114 WTh, 164 MT,<br />
482 WTh, 622 WTh, 680 MT, 681 MT, 687 MT<br />
Yoshida, Yumiko - 841 WTh<br />
Yoshihara, Yujiro - 127 mT<br />
Yoshikawa, Etsuji - 56 WTh<br />
Yoshino, Kayoko - 522 WTh, 528 WTh<br />
Yoshioka, Naoki - 905 MT<br />
Yosipovitch, Gil - 614 MT<br />
Yotter, Rachel - 628 mT, 673 WTh, 675 MT,<br />
941 MT<br />
You, Peng - 735 mT<br />
You, Xiaozhen - 714 WTh<br />
Younes, Laurent - 140 mT<br />
Young, Christina - 98 MT, 403 WTh, 412 WTh,<br />
728 WTh<br />
Young, Kymberly - 859 mT<br />
Youngpeter, Katie - 101 MT<br />
Yu, Chunshui - 86 MT, 298 WTh<br />
Yu, Jing - 921 MT<br />
Yu, Kuei-Lan - 291 MT<br />
Yu, Tao - 299 MT, 838 mT<br />
Yu, Ya-Chih - 979 WTh<br />
Yuan, Han - 1102 MT<br />
Yuan, Lin - 283 WTh<br />
Yuan, Weihong - 570 MT<br />
Yucel, Meryem - 1044 MT<br />
Yucel, Murat - 224 MT, 357 MT<br />
Yue, Qiang - 467 WTh<br />
Yung, Alison - 126 WTh<br />
Yurgelun-Todd, Deborah - 22 WTh, 156 MT,<br />
764 WTh<br />
Yushkevich, Paul - 177 MT, 606 WTh<br />
Yusuf, Afiqah - 30 mT, 815 WTh<br />
Yvert, Gaetan - 218 MT, 830 mT<br />
Yzer, Marco - 232 WTh
z<br />
Zachariou, Valentinos - 1088 WTh<br />
Zafonte, Ross - 306 MT<br />
Zahneisen, Benjamin - 488 MT, 704 WTh<br />
Zaitsev, Maxim - 480 MT<br />
Zak, Paul - 1092 MT<br />
Zald, David H. - 966 WTh<br />
Zandbelt, Bram - 362 MT, 363 mT, 540 MT<br />
Zang, Yu-Feng - 129 MT, 748 MT<br />
Zang, Yufeng - 128 MT, 343 WTh, 470 WTh,<br />
487 WTh, 491 MT, 719 WTh, 730 MT, 746 MT<br />
Zanone, Pier-Giorgio - 783 WTh<br />
Zappia, Brian - 1020 MT<br />
Zarate, Carlos - 1055 MT<br />
Zarate, Jr., Carlos - 321 WTh<br />
Zaros, Cécile - 45 WTh<br />
Zárubová, Kate,ina - 71 WTh<br />
Zatorre, Robert - 23 MT, 1021 WTh, 319 MT,<br />
416 MT, 436 MT, 834 WTh, 946 WTh, 964 MT<br />
Zebrowitz, Leslie - 258 WTh<br />
ZEFFIRO, THOMAS - 212 WTh<br />
Zeidan, Fadel - 391 mT<br />
Zeitouni, Anthony - 946 WTh<br />
Zelaya, Fernando - 1053 MT<br />
Zelinkova, Jana - 1116 mT<br />
Zellner, Margaret - 695 WTh<br />
Zelmann, Rina - 189 MT, 192 MT<br />
Zeltner, Lena - 855 WTh<br />
Zemmoura, Ilyess - 946 mT<br />
Zempel, John - 1038 MT<br />
Zepeda, Rodrigo - 631 MT<br />
Zerbi, Valerio - 986 WTh<br />
Zerouali, Younes - 435 WTh<br />
Zerr, Inga - 88 MT<br />
Zerres, Klaus - 52 MT<br />
Zesewitz, Anna - 2 WTh<br />
Zgud, Sylwia - 535 WTh<br />
Zhan, Chang’an - 549 WTh<br />
Zhan, Liang - 572 mT, 578 mT, 269 MT<br />
Zhan, Wang - 470 WTh<br />
Zhang, Fengyu - 450 MT<br />
Zhang, Hui - 606 WTh, 608 WTh, 612 WTh,<br />
605 WTh<br />
Zhang, James - 230 WTh, 265 WTh, 534 WTh<br />
Zhang, Jiaxiang - 358 mT<br />
Zhang, Jiaxing - 131 MT<br />
Zhang, Jue - 532 MT<br />
Zhang, Lijun - 541 WTh<br />
Zhang, Miao - 712 MT<br />
Zhang, Wei - 15 MT, 29 MT, 248 MT, 487 MT,<br />
825 WTh, 947 WTh<br />
Zhang, Xi - 87 MT, 80 MT<br />
Zhang, Xiaochu - 939 MT<br />
Zhang, Xiaohui - 780 mT<br />
Zhang, Xiaotong - 448 mT<br />
Zhang, Xinqing - 86 MT<br />
Zhang, Yi - 258 WTh<br />
Zhang, Zengqiang - 80 mT, 87 MT<br />
Zhang, Zhiqiang - 745 mT<br />
Zhao, Lu - 619 mT, 695 mT<br />
Zheng, Weili - 567 WTh<br />
Zheng, Xin - 176 WTh<br />
Zheng, Yin - 204 WTh<br />
Zhigalov, Alexander - 750 mT<br />
Zhong, Jidan - 956 WTh<br />
Zhong, Yuan - 745 MT<br />
Zhou, Bo - 80 MT, 87 MT<br />
Zhou, Dongming - 873 WTh<br />
Zhou, Juan - 62 mT, 83 MT<br />
Zhou, Renlai - 283 WTh<br />
Zhou, Xiaolin - 379 MT<br />
Zhou, You-Long - 732 MT<br />
Zhou, Yuan - 396 WTh, 981 MT<br />
Zhu, Chaozhe - 491 MT<br />
Zhu, David - 55 mT<br />
Zhu, Hongmei - 934 WTh<br />
Zhu, Lin - 12 MT, 177 WTh<br />
Zhu, Weixuan - 487 WTh<br />
Zhu, Yunyun - 719 WTh<br />
Ziegler, Erik - 600 WTh<br />
Ziegler, Gabriel - 941 mT<br />
Zierhut, Kathrin - 266 MT<br />
Zijlstra, Fred - 1067 MT<br />
Zilbovicius, Monica - 329 WTh, 623 WTh<br />
Zilles, David - 149 WTh, 468 MT<br />
Zilles, Karl - 244 WTh, 367 MT, 689 WTh,<br />
727 WTh, 805 MT, 842 WTh, 893 MT,<br />
919 WTh, 925 MT, 950 MT, 958 MT, 987 MT,<br />
1009 WTh, 1072 MT<br />
Zilverstand, Anna - 252 MT, 748 WTh<br />
Zimmer, Andreas - 227 WTh<br />
Zimmer, Claus - 141 WTh, 1030 MT<br />
Zimmermann, Christine - 405 MT<br />
Zimmermann, Jan - 473 mT, 748 WTh<br />
Zimmermann, Trelawny - 943 WTh<br />
Zimmermann, Ulrich - 323 MT, 405 MT<br />
Zink, Caroline - 344 MT, 348 MT, 378 WTh<br />
Zink, Mathias - 104 WTh<br />
Zitman, Frans G. - 267 MT, 270 MT<br />
Zivadinov, Robert - 224 WTh<br />
Zlatkina, Veronika - 932 mT<br />
Zollei, Lilla - 684 mT, 349 WTh<br />
Zollo, Maurizio - 393 WTh<br />
Zoltick, Brad - 450 MT<br />
Zonderman, Alan - 895 MT<br />
Zotev, Vadim - 228 WTh, 233 WTh, 512 MT,<br />
515 mT<br />
Zou, Ping - 167 mT<br />
Zou, Qihong - 470 WTh<br />
Zrinzo, Ludvic - 949 MT<br />
Zscheyge, Oliver - 784 MT<br />
Zubieta, Jon-Kar - 7 WTh, 13 WTh, 226 WTh<br />
Zucker, Halle - 853 mT<br />
Zucker, Robert - 13 WTh<br />
Zuk, Jennifer - 177 WTh<br />
Zumer, Johanna - 654 WTh<br />
Zuo, Nianming - 981 mT<br />
Zuo, Xi-Nian - 110 MT, 128 MT, 129 MT, 550 WTh,<br />
705 mT, 725 MT, 732 MT, 745 MT, 748 MT,<br />
343 WTh, 779 WTh<br />
Zurcher, Nicole - 112 mT, 486 MT, 121 MT<br />
Zvonik, Kerstin - 149 WTh<br />
Zvyagintsev, Mikhail - 1031 WTh<br />
Zwiers, Marcel - 637 MT<br />
Bolded Poster numbers indicate first author.<br />
HBM 2011 >> <strong>abstracts</strong> 221
notes<br />
222 HBM 20111 >> <strong>abstracts</strong>
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