Neues aus der Epileptologie - Ãsterreichische Gesellschaft für ...
Neues aus der Epileptologie - Ãsterreichische Gesellschaft für ...
Neues aus der Epileptologie - Ãsterreichische Gesellschaft für ...
Erfolgreiche ePaper selbst erstellen
Machen Sie aus Ihren PDF Publikationen ein blätterbares Flipbook mit unserer einzigartigen Google optimierten e-Paper Software.
GESELLSCHAFTS-<br />
NACHRICHTEN<br />
SCHWERPUNKT<br />
NEUROLOGIE IN<br />
ÖSTERREICH<br />
KONGRESS-<br />
HIGHLIGHTS<br />
FÜR DIE PRAXIS<br />
31 Widdess-Walsh P et al., Electro-clinical and imaging<br />
characteristics of focal cortical dysplasia: correlation<br />
with pathological subtypes. Epilepsy Res 2005;<br />
67:25–33<br />
32 F<strong>aus</strong>er S & Schulze-Bonhage A, Epileptogenicity of<br />
cortical dysplasia in temporal lobe dual pathology: an<br />
electrophysiological study with invasive recordings.<br />
Brain 2006; 129:82–95<br />
33 Francione S et al., Surgery for drug resistant partial<br />
epilepsy in children with focal cortical dysplasia:<br />
anatomical-clinical correlations and neurophysiological<br />
data in 10 patients. J Neurol Neurosurg Psychiatry<br />
2003; 74:1493–1501<br />
34 Chassoux F et al., Stereoelectroencephalography in<br />
focal cortical dysplasia: a 3D approach to delineating<br />
the dysplastic cortex. Brain 2000;<br />
123(Pt 8):1733–1751<br />
35 F<strong>aus</strong>er S et al., Focal cortical dysplasias: surgical outcome<br />
in 67 patients in relation to histological subtypes<br />
and dual pathology. Brain 2004; 127:2406–2418<br />
36 Kloss S et al., Epilepsy surgery in children with focal<br />
cortical dysplasia (FCD): results of long-term seizure<br />
outcome. Neuropediatrics 2002; 33:21–26<br />
37 Kral T et al., Outcome of epilepsy surgery in focal<br />
cortical dysplasia. J Neurol Neurosurg Psychiatry 2003;<br />
74:183–188<br />
38 Babb TL & Brown WJ, Pathological findings in epilepsy.<br />
In: Engel J (ed.), Surgical treatment of the epilepsies.<br />
1st ed. New York: Raven Press, 1987:511–540<br />
39 Cascino GD, Surgically remediable lesional syndromes.<br />
In: Engel J (ed.), Surgical treatment of the epilepsies.<br />
2nd ed. New York: Raven Press, 1993:77–86<br />
40 Cascino GD, Surgical treatment for epilepsy. Epilepsy<br />
Res 2004; 60:179–186<br />
41 Cendes F et al., Frequency and characteristics of dual<br />
pathology in patients with lesional epilepsy. Neurology<br />
1995; 45:2058–2064<br />
42 Kim HI et al., Bilateral perisylvian ulegyria:<br />
clinicopathological study of patients presenting with<br />
pseudobulbar palsy and epilepsy. Neuropathology<br />
2006; 26:236–242<br />
43 Kuchukhidze G et al., Electroclinical and imaging findings<br />
in ulegyria and epilepsy: a study on 25 patients.<br />
J Neurol Neurosurg Psychiatry 2008; 79:547–552<br />
44 Kuchukhidze G et al., Hippocampal abnormalities in<br />
malformations of cortical development: MRI study.<br />
Neurology 2010; 74:1575–1582<br />
45 Montenegro MA et al., Patterns of hippocampal<br />
abnormalities in malformations of cortical development.<br />
J Neurol Neurosurg Psychiatry 2006;<br />
77:367–371<br />
46 Aghakhani Y et al., The role of periventricular nodular<br />
heterotopia in epileptogenesis. Brain 2005;<br />
128:641–651<br />
47 Sisodiya SM et al., Correlation of widespread preoperative<br />
magnetic resonance imaging changes with<br />
unsuccessful surgery for hippocampal sclerosis. Ann<br />
Neurol 1997; 41:490–496<br />
48 Bastos AC et al., Diagnosis of subtle focal dysplastic<br />
lesions: curvilinear reformatting from three-dimensional<br />
magnetic resonance imaging. Ann Neurol 1999;<br />
46:88–94<br />
49 Huppertz HJ et al., Enhanced visualization of blurred<br />
gray-white matter junctions in focal cortical dysplasia<br />
by voxel-based 3D MRI analysis. Epilepsy Res 2005;<br />
67:35–50<br />
50 Sisodiya SM et al., Novel magnetic resonance imaging<br />
methods for quantifying changes in the cortical ribbon<br />
in patients with epilepsy. Adv Neurol 1999;<br />
81:81–87<br />
51 Villani F et al., Epileptic and imaging findings in perinatal<br />
hypoxic-ischemic encephalopathy with ulegyria.<br />
Epilepsy Res 2003; 55:235–243<br />
52 Takashima S, Armstrong DL, Becker LE, Sub-Cortical<br />
Leukomalacia – Relationship to Development of<br />
Cerebral Sulcus and Its Vascular Supply. Archives of<br />
Neurology 1978; 35:470–472<br />
53 Gil-Nagel A et al., Occipital lobe epilepsy secondary to<br />
ulegyria. J Neurol 2005; 252:1178–1185<br />
54 Strandberg M et al., Pre-surgical epilepsy evaluation<br />
using 3T MRI. Do surface coils provide additional<br />
information? Epileptic Disord 2008; 10:83–92<br />
55 Bernasconi A et al., Texture analysis and morphological<br />
processing of magnetic resonance imaging assist<br />
detection of focal cortical dysplasia in extra-temporal<br />
partial epilepsy. Ann Neurol 2001; 49:770–775<br />
56 Bernasconi A, Advanced MRI analysis methods for<br />
detection of focal cortical dysplasia. Epileptic Disord<br />
2003; 5(Suppl 2):S81–S84<br />
57 Bernasconi A, Quantitative MR imaging of the neocortex.<br />
Neuroimaging Clin N Am 2004; 14:425–36, viii<br />
58 Bernasconi A et al., Advances in MRI for „cryptogenic“<br />
epilepsies. Nat Rev Neurol 2011; 7:99–108<br />
59 Bernasconi N et al., Mesial temporal damage in temporal<br />
lobe epilepsy: a volumetric MRI study of the<br />
hippocampus, amygdala and parahippocampal region.<br />
Brain 2003; 126:462–469<br />
60 Cavus I et al., Decreased hippocampal volume on MRI<br />
is associated with increased extracellular glutamate in<br />
epilepsy patients. Epilepsia 2008; 49:1358–1366<br />
61 Cendes F et al., MRI volumetric measurement of<br />
amygdala and hippocampus in temporal lobe epilepsy.<br />
Neurology 1993; 43:719–725<br />
62 Bernasconi N et al., Entorhinal cortex in temporal lobe<br />
epilepsy: a quantitative MRI study. Neurology 1999;<br />
52:1870–1876<br />
63 Jackson GD et al., Detection of hippocampal pathology<br />
in intractable partial epilepsy: increased sensitivity<br />
with quantitative magnetic resonance T2 relaxometry.<br />
Neurology 1993; 43:1793–1799<br />
64 Bartlett PA et al., T2 relaxometry of the hippocampus<br />
at 3T. AJNR Am J Neuroradiol 2007; 28:1095–1098<br />
65 Coan AC et al., T2-weighted and T2 relaxometry images<br />
in patients with medial temporal lobe epilepsy.<br />
J Neuroimaging 2006; 16:260–265<br />
66 Pell GS et al., Composite voxel-based analysis of<br />
volume and T2 relaxometry in temporal lobe epilepsy.<br />
Neuroimage 2008; 39:1151–1161<br />
67 Huppertz HJ et al., Automated quantitative FLAIR analysis<br />
in hippocampal sclerosis. Epilepsy Res 2011;<br />
97:146–156<br />
68 Colliot O et al., Individual voxel-based analysis of gray<br />
matter in focal cortical dysplasia. Neuroimage 2006;<br />
29:162–171<br />
69 Wagner J et al., Morphometric MRI analysis improves<br />
detection of focal cortical dysplasia type II. Brain<br />
2011; 134:2844–2854<br />
70 Kwong KK et al., Dynamic Magnetic-Resonance-Imaging<br />
of Human Brain Activity During Primary Sensory<br />
Stimulation. Proceedings of the National Academy of<br />
Sciences of the United States of America 1992;<br />
89:5675–5679<br />
71 Mandeville JB et al., MRI measurement of the temporal<br />
evolution of relative CMRO(2) during rat forepaw<br />
stimulation. Magnetic Resonance in Medicine 1999;<br />
42:944–951<br />
72 Ogawa S et al., Functional Brain Mapping by Blood<br />
Oxygenation Level-Dependent Contrast Magnetic-<br />
Resonance-Imaging – A Comparison of Signal<br />
Characteristics with A Biophysical Model. Biophysical<br />
Journal 1993; 64:803–812<br />
73 Ogawa S et al., Brain Magnetic-Resonance-Imaging<br />
with Contrast Dependent on Blood Oxygenation.<br />
Proceedings of the National Academy of Sciences of<br />
the United States of America 1990; 87:9868–9872<br />
74 Engstrom M et al., Paradigm design of sensory-motor<br />
and language tests in clinical fMRI. Neurophysiol Clin<br />
2004; 34:267–277<br />
75 Lotze M et al., fMRI evaluation of somatotopic<br />
representation in human primary motor cortex.<br />
Neuroimage 2000; 11:473–481<br />
76 Petrella JR et al., Preoperative functional MR imaging<br />
localization of language and motor areas: Effect on<br />
therapeutic decision making in patients with<br />
potentially resectable brain tumors. Radiology 2006;<br />
240:793–802<br />
77 Hesse MD et al., The left parietal cortex and motor<br />
intention: An event-related functional magnetic<br />
resonance imaging study. Neuroscience 2006;<br />
140:1209–1221<br />
78 Fandino J et al., Intraoperative validation of functional<br />
magnetic resonance imaging and cortical reorganization<br />
patterns in patients with brain tumors involving<br />
the primary motor cortex. Journal of Neurosurgery<br />
1999; 91:238–250<br />
79 Yousry TA et al., Topography of the Cortical Motor<br />
Hand Area – Prospective-Study with Functional<br />
Mr-Imaging and Direct Motor Mapping at Surgery.<br />
Radiology 1995; 195:23–29<br />
80 Hamberger MJ, Cortical language mapping in<br />
epilepsy: A critical review. Neuropsychology Review<br />
2007; 17:477–489<br />
81 Bin<strong>der</strong> JR et al., A comparison of five fMRI protocols<br />
for mapping speech comprehension systems. Epilepsia<br />
2008; 49:1980–1997<br />
82 Humphries C et al., Time course of semantic processes<br />
during sentence comprehension: An fMRI study.<br />
Neuroimage 2007; 36:924–932<br />
83 Swanson SJ et al., Functional magnetic resonance<br />
imaging of language in epilepsy. Neuropsychol Rev<br />
2007; 17:491–504<br />
84 Kuchukhidze G, Functional Integrity of the Malformed<br />
Cortex: an fMRI Study. Mitteilungen <strong>der</strong> Österreichischen<br />
Sektion <strong>der</strong> ILAE. 2006;10<br />
85 Adcock JE et al, Quantitative fMRI assessment of the<br />
differences in lateralization of language-related brain<br />
activation in patients with temporal lobe epilepsy.<br />
Neuroimage 2003; 18:423–438<br />
86 Thivard L et al., Productive and perceptive language<br />
reorganization in temporal lobe epilepsy. Neuroimage<br />
2005; 24:841–851<br />
87 Springer JA et al., Language dominance in neurologically<br />
normal and epilepsy subjects – A functional<br />
MRI study. Brain 1999; 122:2033–2045<br />
88 Wellmer J et al., Strongly lateralized activation in language<br />
fMRI of atypical dominant patients – Implications<br />
for presurgical work-up. Epilepsy Research 2008;<br />
80:67–76<br />
89 Bin<strong>der</strong> JR et al., Use of preoperative functional MRI to<br />
predict verbal memory decline after temporal lobe<br />
epilepsy surgery. Epilepsia 2008; 49:1377–1394<br />
90 Haag A et al., The Wada test in Austrian, Dutch,<br />
German, and Swiss epilepsy centers from 2000 to<br />
2005: a review of 1421 procedures. Epilepsy Behav<br />
2008; 13:83–89<br />
91 Rutten et al., fMRI-determined language lateralization<br />
in patients with unilateral or mixed language dominance<br />
according to the Wada test. Neuroimage 2002;<br />
17:447–460<br />
92 Sabbah P et al., Functional MR imaging in assessment<br />
of language dominance in epileptic patients.<br />
Neuroimage 2003; 18:460–467<br />
93 Benke T et al., Language lateralization in temporal<br />
lobe epilepsy: A comparison between fMRI and the<br />
wada test. Epilepsia 2006; 47:1308–1319<br />
94 Rutten GJ et al., FMRI-determined language lateralization<br />
in patients with unilateral or mixed language<br />
dominance according to the Wada test. Neuroimage<br />
2002; 17:447–460<br />
95 Signorelli F et al., Technical refinements for validating<br />
functional MRI-based neuronavigation data by electrical<br />
stimulation during cortical language mapping.<br />
Minimally Invasive Neurosurgery 2003; 46:265–268<br />
96 Roux FE et al., Language functional magnetic<br />
resonance imaging in preoperative assessment of<br />
language areas: Correlation with direct cortical<br />
stimulation. Neurosurgery 2003; 52:1335–1345<br />
97 FitzGerald DB et al., Location of language in the<br />
cortex: A comparison between functional MR imaging<br />
and electrocortical stimulation. American Journal of<br />
Neuroradiology 1997; 18:1529–1539<br />
98 Rutten GJ et al., Development of a functional<br />
magnetic resonance imaging protocol for intraoperative<br />
localization of critical temporoparietal language<br />
areas. Ann Neurol 2002; 51:350–360<br />
99 Sabsevitz DS et al., Use of preoperative functional<br />
neuroimaging to predict language deficits from<br />
epilepsy surgery. Neurology 2003; 60:1788–1792<br />
100 Medina LS et al., Seizure disor<strong>der</strong>s: functional MR<br />
imaging for diagnostic evaluation and surgical treatment<br />
– prospective study. Radiology 2005; 236:247–253<br />
101 Glosser G et al., Hemispheric asymmetries in arousal<br />
affect outcome of the intracarotid amobarbital test.<br />
Neurology 1999; 52:1583–1590<br />
102 Bartha L et al., Hippocampal formation involvement in<br />
a language–activation task in patients with mesial<br />
temporal lobe epilepsy. Epilepsia 2005; 46:1754–1763<br />
103 Cabeza R & Nyberg L, Imaging cognition II: An empirical<br />
review of 275 PET and fMRI studies. Journal of<br />
Cognitive Neuroscience 2000; 12:1–47<br />
104 Bartha L et al., Medial temporal lobe activation during<br />
semantic language processing: fMRI findings in<br />
healthy left- and right-han<strong>der</strong>s. Cognitive Brain<br />
Research 2003; 17:339–346<br />
105 Golby AJ et al., Memory lateralization in medial<br />
temporal lobe epilepsy assessed by functional MRI.<br />
Epilepsia 2002; 43:855–863<br />
106 Rabin ML et al., Functional MRI predicts post-surgical<br />
memory following temporal lobectomy. Brain 2004;<br />
127:2286–2298<br />
107 Killgore WD et al., Functional MRI and the Wada test<br />
provide complementary information for predicting<br />
post-operative seizure control. Seizure 1999;<br />
8:450–455<br />
108 Jokeit H, Okujava M, Woermann FG, Memory fMRI<br />
lateralizes temporal lobe epilepsy. Neurology 2001;<br />
57:1786–1793<br />
26