Curriculum Vitae - Mark Schnitzer - Stanford University
Curriculum Vitae - Mark Schnitzer - Stanford University
Curriculum Vitae - Mark Schnitzer - Stanford University
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Juergen C. Jung<br />
Phone 650.725.4097<br />
Fax 650.724.0931<br />
juergen.jung@stanford.edu<br />
Department of Biology<br />
Clark Center Laboratories<br />
318 Campus Drive, Room W080<br />
<strong>Stanford</strong>, CA 94305<br />
EDUCATION<br />
2005 D.Phil., Pharmacology, Oxford <strong>University</strong>, Oxford, UK<br />
2005 Visiting Student, Biology & Applied Physics, <strong>Stanford</strong> <strong>University</strong>, <strong>Stanford</strong>, CA<br />
2002 Dipl. Ing., Electrical Engineering, Physical Electronics, <strong>University</strong> of Stuttgart, Germany<br />
1990 PhyTA, Gewerbliche Schule Tuebingen, Germany<br />
RESEARCH AND PROFESSIONAL EXPERIENCE<br />
2006-Present Research Assistant, Laboratory of <strong>Mark</strong> <strong>Schnitzer</strong>, Department of Biology,<br />
<strong>Stanford</strong> <strong>University</strong>, <strong>Stanford</strong>, CA<br />
2003-2005 Visiting Student, Laboratory of <strong>Mark</strong> <strong>Schnitzer</strong>, Department of Biology,<br />
<strong>Stanford</strong> <strong>University</strong>, <strong>Stanford</strong>, CA<br />
2002-2005 Graduate Student, Lincoln College, Oxford <strong>University</strong>, Oxford, UK<br />
2002 Consulting Scientist, Bell Laboratories, Lucent Technologies, Murray Hill,<br />
New Jersey<br />
2001 Scientific Internship, with <strong>Mark</strong> <strong>Schnitzer</strong>, Bell Laboratories, Lucent<br />
Technologies, Murray Hill, New Jersey<br />
1993-2002 Founder, Juergen Jung Production of Silicone Matrices<br />
1990-2002 Physical Technical Assistant, Laboratory of Friedrich Bonhoeffer, Department of<br />
Physical Biology, Max-Planck Institute for Developmental Biology, Tuebingen<br />
INTELLECTUAL PROPERTY<br />
Jung, JC and <strong>Schnitzer</strong>, MJ (2006). “Capillary-based optical analysis system and approach”,<br />
submitted to the USPTO.<br />
Anderson, EP, Crocker, ED, Flusberg, BA, Jung, JC, and <strong>Schnitzer</strong>, MJ (2006). “Optical analysis<br />
system and approaches”, submitted to the USPTO.<br />
Anderson, EP, Crocker, ED, Flusberg, BA, Jung, JC, and <strong>Schnitzer</strong>, MJ (2006). “Live being<br />
optical analysis system and approach”, submitted to the USPTO.<br />
Blevins, N, Cheung, ELM, Jung, JC, Monfared, A, <strong>Schnitzer</strong>, MJ (2006). “Cochlear optical<br />
analysis system and approach therefor”, submitted to the USPTO.<br />
PUBLICATIONS<br />
1. Loeschiner J, Bandtlow CE, Jung J, Klostermann S, Schwab ME, Bonhoeffer F, Kater<br />
SB. "Retinal axons growth cone response to different environmental cues are mediated by<br />
different second-messenger systems". J Neurobiol, (1997). 33(6): p. 825-34.<br />
Juergen C. Jung
2. Rosentreter SM, Loeschinger J, Huf J, Jung J, Bonhoeffer F. "Response of retinal<br />
ganglion cell axons to stripes linear gradients of repellent guidance molecules". J Neurobiolol,<br />
(1998). 37(4): p. 541-62.<br />
3. Jung JC, <strong>Schnitzer</strong> MJ. “Multiphoton endoscopy”, Optics Letters, (2003) 28(11): p. 902-<br />
904.<br />
4 Jung JC, Mehta A., <strong>Schnitzer</strong> MJ. “In vivo imaging of mammalian neurons in deep brain<br />
tissue.” (2003) Bell Laboratories Technical Memoranda.<br />
5. Jung JC, Metha AD, Aksay E, Stepnoski R, <strong>Schnitzer</strong> MJ. In vivo mammalian brain<br />
imaging using one- and two-photon fluorescence microendoscopy", (2004) J. Neurophysiology<br />
92: p. 3121-3133<br />
6. Metha AD, Jung JC, Flusberg BA, <strong>Schnitzer</strong> MJ. "Fiber optic in vivo imaging in the<br />
mammalian nervous sysytem" (2004) Current Opinion in Neurobiology 14: p. 617-628.<br />
7. Flusberg BA, Jung JC, Cocker ED, Anderson EP, and <strong>Schnitzer</strong> MJ "In vivo brain<br />
imaging using a portable 3.9 gram two-photon microendoscope" (2005) Optics Letters, 30(17):<br />
p. 2272-2274<br />
8. Monfared A, Blevins NH, Cheung ELM, Jung JC, Popelka G, <strong>Schnitzer</strong> MJ. "In vivo<br />
imaging of mammalian cochlear blood flow using fluorescence microendoscopy" (2005)<br />
Otology & Neurotology, 27, 144-152.<br />
9. Flusberg BA, Piyawattanametha W, Cocker ED, Jung JC, Cheung ELM and <strong>Schnitzer</strong><br />
MJ " Fiber optic fluorescence imaging" (2005) Nature Methods, 2, 941-950.<br />
10. Flusberg BA, Nimmerjahn A, Cocker ED, Mukamel EA, Barretto RP, Ko TH, Burns LD,<br />
Jung JC, <strong>Schnitzer</strong> MJ. (2008) High-speed, miniaturized fluorescence microscopy in freely<br />
moving mice. Nat Methods. 5(11):935-8.<br />
11. Piyawattanametha W, Cocker ED, Burns LD, Barretto RP, Jung JC, Ra H, Solgaard O,<br />
<strong>Schnitzer</strong> MJ. (2009) In vivo brain imaging using a portable 2.9 g two-photon microscope based<br />
on a microelectromechanical systems scanning mirror. Opt Lett. 34(15):2309-11.<br />
12. Barretto RP, Ko TH, Jung JC, Wang TJ, Capps G, Waters AC, Ziv Y, Attardo A, Recht<br />
L, <strong>Schnitzer</strong> MJ. (2011) Time-lapse imaging of disease progression in deep brain areas using<br />
fluorescence microendoscopy. Nat Med. 17(2):223-8.<br />
PROFESSIONAL AFFILIATIONS<br />
Society for Neuroscience<br />
Photonix West<br />
Middle-Ear Mechanics in Research and Otology (MEMRO) Conference 2009<br />
Biophysical Society 2002-2007<br />
CLEO 2003-2005<br />
Juergen C. Jung