Mark Tuszynski
Mark Tuszynski
Zweryfikowany adres z ucsd.edu - Strona główna
Cytowane przez
Cytowane przez
Neural stem cells constitutively secrete neurotrophic factors and promote extensive host axonal growth after spinal cord injury
P Lu, LL Jones, EY Snyder, MH Tuszynski
Experimental neurology 181 (2), 115-129, 2003
A phase 1 clinical trial of nerve growth factor gene therapy for Alzheimer disease
MH Tuszynski, L Thal, M Pay, DP Salmon, HS U, R Bakay, P Patel, ...
Nature medicine 11 (5), 551-555, 2005
Neuroprotective effects of brain-derived neurotrophic factor in rodent and primate models of Alzheimer's disease
AH Nagahara, DA Merrill, G Coppola, S Tsukada, BE Schroeder, ...
Nature medicine 15 (3), 331-337, 2009
Potential therapeutic uses of BDNF in neurological and psychiatric disorders
AH Nagahara, MH Tuszynski
Nature reviews Drug discovery 10 (3), 209-219, 2011
Long-distance growth and connectivity of neural stem cells after severe spinal cord injury
P Lu, Y Wang, L Graham, K McHale, M Gao, D Wu, J Brock, A Blesch, ...
Cell 150 (6), 1264-1273, 2012
Guidelines for the conduct of clinical trials for spinal cord injury as developed by the ICCP panel: spontaneous recovery after spinal cord injury and statistical power needed …
JW Fawcett, A Curt, JD Steeves, WP Coleman, MH Tuszynski, ...
Spinal cord 45 (3), 190-205, 2007
A shared neural ensemble links distinct contextual memories encoded close in time
DJ Cai, D Aharoni, T Shuman, J Shobe, J Biane, W Song, B Wei, ...
Nature 534 (7605), 115-118, 2016
Cellular delivery of neurotrophin-3 promotes corticospinal axonal growth and partial functional recovery after spinal cord injury
R Grill, K Murai, A Blesch, FH Gage, MH Tuszynski
Journal of Neuroscience 17 (14), 5560-5572, 1997
The chondroitin sulfate proteoglycans neurocan, brevican, phosphacan, and versican are differentially regulated following spinal cord injury
LL Jones, RU Margolis, MH Tuszynski
Experimental neurology 182 (2), 399-411, 2003
Induction of bone marrow stromal cells to neurons: differentiation, transdifferentiation, or artifact?
P Lu, A Blesch, MH Tuszynski
Journal of neuroscience research 77 (2), 174-191, 2004
Spontaneous corticospinal axonal plasticity and functional recovery after adult central nervous system injury
N Weidner, A Ner, N Salimi, MH Tuszynski
Proceedings of the National Academy of Sciences 98 (6), 3513-3518, 2001
NG2 is a major chondroitin sulfate proteoglycan produced after spinal cord injury and is expressed by macrophages and oligodendrocyte progenitors
LL Jones, Y Yamaguchi, WB Stallcup, MH Tuszynski
Journal of Neuroscience 22 (7), 2792-2803, 2002
Grafting genetically modified cells to the damaged brain: restorative effects of NGF expression
MB Rosenberg, T Friedmann, RC Robertson, M Tuszynski, JA Wolff, ...
Science 242 (4885), 1575-1578, 1988
Biomimetic 3D-printed scaffolds for spinal cord injury repair
J Koffler, W Zhu, X Qu, O Platoshyn, JN Dulin, J Brock, L Graham, P Lu, ...
Nature medicine 25 (2), 263-269, 2019
BDNF-expressing marrow stromal cells support extensive axonal growth at sites of spinal cord injury
P Lu, LL Jones, MH Tuszynski
Experimental neurology 191 (2), 344-360, 2005
Guidelines for the conduct of clinical trials for spinal cord injury (SCI) as developed by the ICCP panel: clinical trial outcome measures
JD Steeves, D Lammertse, A Curt, JW Fawcett, MH Tuszynski, JF Ditunno, ...
Spinal cord 45 (3), 206-221, 2007
Combinatorial therapy with neurotrophins and cAMP promotes axonal regeneration beyond sites of spinal cord injury
P Lu, H Yang, LL Jones, MT Filbin, MH Tuszynski
Journal of Neuroscience 24 (28), 6402-6409, 2004
Extensive spontaneous plasticity of corticospinal projections after primate spinal cord injury
ES Rosenzweig, G Courtine, DL Jindrich, JH Brock, AR Ferguson, ...
Nature neuroscience 13 (12), 1505-1510, 2010
Lesions of the basal forebrain cholinergic system impair task acquisition and abolish cortical plasticity associated with motor skill learning
JM Conner, A Culberson, C Packowski, AA Chiba, MH Tuszynski
Neuron 38 (5), 819-829, 2003
Freeze-dried agarose scaffolds with uniaxial channels stimulate and guide linear axonal growth following spinal cord injury
S Stokols, MH Tuszynski
Biomaterials 27 (3), 443-451, 2006
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