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Mark H Tuszynski

Showing results (31-40 of 155) with videos related to

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Journal of Neuroscience Research|June 24, 2004
Induction of bone marrow stromal cells to neurons: differentiation, transdifferentiation, or artifact?Paul Lu, Armin Blesch, Mark H Tuszynski
Brain Research Bulletin|May 29, 2002
Neurotrophic factors, gene therapy, and neural stem cells for spinal cord repairArmin Blesch, Paul Lu, Mark H Tuszynski
Current Opinion in Neurobiology|April 9, 2014
Axonal growth and connectivity from neural stem cell grafts in models of spinal cord injuryPaul Lu, Ken Kadoya, Mark H Tuszynski
Handbook of Clinical Neurology|October 27, 2012
Gene therapy, neurotrophic factors and spinal cord regenerationArmin Blesch, Itzhak Fischer, Mark H Tuszynski
Proceedings of the National Academy of Sciences of the United States of America|July 14, 2006
A form of motor cortical plasticity that correlates with recovery of function after brain injuryDhakshin Ramanathan, James M Conner, Mark H Tuszynski
Journal of Neuroscience Research|May 1, 2009
A novel inducible tyrosine kinase receptor to regulate signal transduction and neurite outgrowthRonald W Alfa, Mark H Tuszynski, Armin Blesch
Neurobiology of Aging|September 2, 2008
Age-related cognitive deficits in rhesus monkeys mirror human deficits on an automated test batteryAlan H Nagahara, Tim Bernot, Mark H Tuszynski
Expert Review of Neurotherapeutics|October 9, 2009
Therapeutic potential of nervous system growth factors for neurodegenerative diseaseDavid A Merrill, Armin Blesch, Mark H Tuszynski
Plos One|August 13, 2013
SnoN facilitates axonal regeneration after spinal cord injuryJiun L Do, Azad Bonni, Mark H Tuszynski
Frontiers in Cellular Neuroscience|August 23, 2014
Nerve growth factor is primarily produced by GABAergic neurons of the adult rat cortexJeremy Biane, James M Conner, Mark H Tuszynski
Pageof 16

Showing results (31-40 of 155) with videos related to

Sort By:
Pageof 16
Journal of Neuroscience Research|June 24, 2004
Induction of bone marrow stromal cells to neurons: differentiation, transdifferentiation, or artifact?Paul Lu, Armin Blesch, Mark H Tuszynski
Brain Research Bulletin|May 29, 2002
Neurotrophic factors, gene therapy, and neural stem cells for spinal cord repairArmin Blesch, Paul Lu, Mark H Tuszynski
Current Opinion in Neurobiology|April 9, 2014
Axonal growth and connectivity from neural stem cell grafts in models of spinal cord injuryPaul Lu, Ken Kadoya, Mark H Tuszynski
Handbook of Clinical Neurology|October 27, 2012
Gene therapy, neurotrophic factors and spinal cord regenerationArmin Blesch, Itzhak Fischer, Mark H Tuszynski
Proceedings of the National Academy of Sciences of the United States of America|July 14, 2006
A form of motor cortical plasticity that correlates with recovery of function after brain injuryDhakshin Ramanathan, James M Conner, Mark H Tuszynski
Journal of Neuroscience Research|May 1, 2009
A novel inducible tyrosine kinase receptor to regulate signal transduction and neurite outgrowthRonald W Alfa, Mark H Tuszynski, Armin Blesch
Neurobiology of Aging|September 2, 2008
Age-related cognitive deficits in rhesus monkeys mirror human deficits on an automated test batteryAlan H Nagahara, Tim Bernot, Mark H Tuszynski
Expert Review of Neurotherapeutics|October 9, 2009
Therapeutic potential of nervous system growth factors for neurodegenerative diseaseDavid A Merrill, Armin Blesch, Mark H Tuszynski
Plos One|August 13, 2013
SnoN facilitates axonal regeneration after spinal cord injuryJiun L Do, Azad Bonni, Mark H Tuszynski
Frontiers in Cellular Neuroscience|August 23, 2014
Nerve growth factor is primarily produced by GABAergic neurons of the adult rat cortexJeremy Biane, James M Conner, Mark H Tuszynski
Pageof 16