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Riyi Shi

Showing results (1-10 of 164) with videos related to

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Journal of Neurocytology|August 24, 2004
The dynamics of axolemmal disruption in guinea pig spinal cord following compressionRiyi Shi
Neuroscience Bulletin|July 30, 2013
Polyethylene glycol repairs membrane damage and enhances functional recovery: a tissue engineering approach to spinal cord injuryRiyi Shi
Journal of Neurochemistry|September 29, 2009
Acrolein scavenging: a potential novel mechanism of attenuating oxidative stress following spinal cord injuryKristin Hamann, Riyi Shi
Neurochemistry International|January 27, 2005
Acrolein induces oxidative stress in brain mitochondriaJian Luo, Riyi Shi
Brain Research|May 22, 2007
Polyethylene glycol inhibits apoptotic cell death following traumatic spinal cord injuryJian Luo, Riyi Shi
Toxicology in Vitro : an International Journal Published in Association with BIBRA|January 15, 2005
Prolonged focal application of polyethylene glycol induces conduction block in guinea pig spinal cord white matterAmanda Cole, Riyi Shi
Journal of Neuroscience Methods|July 24, 2007
Fabrication of patterned multi-walled poly-l-lactic acid conduits for nerve regenerationJianming Li, Riyi Shi
Neurochemistry International|June 24, 2004
Acrolein induces axolemmal disruption, oxidative stress, and mitochondrial impairment in spinal cord tissueJian Luo, Riyi Shi
Neuroscience Letters|March 31, 2004
Diffusive oxidative stress following acute spinal cord injury in guinea pigs and its inhibition by polyethylene glycolJian Luo, Riyi Shi
International Journal of Molecular Sciences|October 12, 2013
New insights in the pathogenesis of multiple sclerosis--role of acrolein in neuronal and myelin damageMelissa Tully, Riyi Shi
Pageof 17

Showing results (1-10 of 164) with videos related to

Sort By:
Pageof 17
Journal of Neurocytology|August 24, 2004
The dynamics of axolemmal disruption in guinea pig spinal cord following compressionRiyi Shi
Neuroscience Bulletin|July 30, 2013
Polyethylene glycol repairs membrane damage and enhances functional recovery: a tissue engineering approach to spinal cord injuryRiyi Shi
Journal of Neurochemistry|September 29, 2009
Acrolein scavenging: a potential novel mechanism of attenuating oxidative stress following spinal cord injuryKristin Hamann, Riyi Shi
Neurochemistry International|January 27, 2005
Acrolein induces oxidative stress in brain mitochondriaJian Luo, Riyi Shi
Brain Research|May 22, 2007
Polyethylene glycol inhibits apoptotic cell death following traumatic spinal cord injuryJian Luo, Riyi Shi
Toxicology in Vitro : an International Journal Published in Association with BIBRA|January 15, 2005
Prolonged focal application of polyethylene glycol induces conduction block in guinea pig spinal cord white matterAmanda Cole, Riyi Shi
Journal of Neuroscience Methods|July 24, 2007
Fabrication of patterned multi-walled poly-l-lactic acid conduits for nerve regenerationJianming Li, Riyi Shi
Neurochemistry International|June 24, 2004
Acrolein induces axolemmal disruption, oxidative stress, and mitochondrial impairment in spinal cord tissueJian Luo, Riyi Shi
Neuroscience Letters|March 31, 2004
Diffusive oxidative stress following acute spinal cord injury in guinea pigs and its inhibition by polyethylene glycolJian Luo, Riyi Shi
International Journal of Molecular Sciences|October 12, 2013
New insights in the pathogenesis of multiple sclerosis--role of acrolein in neuronal and myelin damageMelissa Tully, Riyi Shi
Pageof 17