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Larry I Benowitz

Showing results (41-50 of 54) with videos related to

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BMC Urology|May 15, 2013
The impact of discrete modes of spinal cord injury on bladder muscle contractilityAbhishek Seth, Yeun Goo Chung, Daniel Kim, et al.
Nature Neuroscience|October 27, 2015
GDF10 is a signal for axonal sprouting and functional recovery after strokeSonglin Li, Esther H Nie, Yuqin Yin, et al.
Eneuro|March 28, 2024
Ca<sup>2+</sup>/Calmodulin-Dependent Protein Kinase II Enhances Retinal Ganglion Cell Survival But Suppresses Axon Regeneration after Optic Nerve InjuryXin Xia, Caleb Shi, Christina Tsien, et al.
Plos One|November 4, 2015
Inosine Improves Neurogenic Detrusor Overactivity following Spinal Cord InjuryYeun Goo Chung, Abhishek Seth, Claire Doyle, et al.
Proceedings of the National Academy of Sciences of the United States of America|April 8, 2022
Monocyte-derived SDF1 supports optic nerve regeneration and alters retinal ganglion cells' response to Pten deletionLili Xie, Ling-Ping Cen, Yiqing Li, et al.
Cell Reports|March 16, 2024
Neutrophil-inflicted vasculature damage suppresses immune-mediated optic nerve regenerationRyan Passino, Matthew C Finneran, Hannah Hafner, et al.
Science Translational Medicine|August 9, 2023
The oncomodulin receptor ArmC10 enables axon regeneration in mice after nerve injury and neurite outgrowth in human iPSC-derived sensory neuronsLili Xie, Yuqin Yin, Selwyn Jayakar, et al.
Annals of Neurology|December 14, 2011
Recovery from chronic spinal cord contusion after Nogo receptor interventionXingxing Wang, Philip Duffy, Aaron W McGee, et al.
Nature Neuroscience|March 13, 2012
NgR1 and NgR3 are receptors for chondroitin sulfate proteoglycansTravis L Dickendesher, Katherine T Baldwin, Yevgeniya A Mironova, et al.
Proceedings of the National Academy of Sciences of the United States of America|February 27, 2025
Disruption of G3BP1 granules promotes mammalian CNS and PNS axon regenerationPabitra K Sahoo, Manasi Agrawal, Nicholas Hanovice, et al.
Pageof 6

Showing results (41-50 of 54) with videos related to

Sort By:
Pageof 6
BMC Urology|May 15, 2013
The impact of discrete modes of spinal cord injury on bladder muscle contractilityAbhishek Seth, Yeun Goo Chung, Daniel Kim, et al.
Nature Neuroscience|October 27, 2015
GDF10 is a signal for axonal sprouting and functional recovery after strokeSonglin Li, Esther H Nie, Yuqin Yin, et al.
Eneuro|March 28, 2024
Ca<sup>2+</sup>/Calmodulin-Dependent Protein Kinase II Enhances Retinal Ganglion Cell Survival But Suppresses Axon Regeneration after Optic Nerve InjuryXin Xia, Caleb Shi, Christina Tsien, et al.
Plos One|November 4, 2015
Inosine Improves Neurogenic Detrusor Overactivity following Spinal Cord InjuryYeun Goo Chung, Abhishek Seth, Claire Doyle, et al.
Proceedings of the National Academy of Sciences of the United States of America|April 8, 2022
Monocyte-derived SDF1 supports optic nerve regeneration and alters retinal ganglion cells' response to Pten deletionLili Xie, Ling-Ping Cen, Yiqing Li, et al.
Cell Reports|March 16, 2024
Neutrophil-inflicted vasculature damage suppresses immune-mediated optic nerve regenerationRyan Passino, Matthew C Finneran, Hannah Hafner, et al.
Science Translational Medicine|August 9, 2023
The oncomodulin receptor ArmC10 enables axon regeneration in mice after nerve injury and neurite outgrowth in human iPSC-derived sensory neuronsLili Xie, Yuqin Yin, Selwyn Jayakar, et al.
Annals of Neurology|December 14, 2011
Recovery from chronic spinal cord contusion after Nogo receptor interventionXingxing Wang, Philip Duffy, Aaron W McGee, et al.
Nature Neuroscience|March 13, 2012
NgR1 and NgR3 are receptors for chondroitin sulfate proteoglycansTravis L Dickendesher, Katherine T Baldwin, Yevgeniya A Mironova, et al.
Proceedings of the National Academy of Sciences of the United States of America|February 27, 2025
Disruption of G3BP1 granules promotes mammalian CNS and PNS axon regenerationPabitra K Sahoo, Manasi Agrawal, Nicholas Hanovice, et al.
Pageof 6