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Brachial Plexus Avulsion: A Model for Axonal Regeneration Study Book
2015
Authors:  Su H.;  Yuan Q.;  Zhou L.;  Wu W.
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Brachial plexus  Cell therapy  Degeneration  Motoneurons  Muscle atrophy  Root avulsion  Spinal cord  Stem cells  Ventral root reimplantation  
Induction of phosphorylated c-Jun in neonatal spinal motoneurons after axonal injury is coincident with both motoneuron death and regeneration Journal article
Journal of Anatomy, 2014,Volume: 224,Issue: 5,Page: 575-582
Authors:  Yuan Q.;  Su H.;  Guo J.;  Wu W.;  Lin Z.-X.
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Axonal injury  Motoneuron  Phosphorylated c-Jun  Regeneration  Spinal cord  
Lithium enhances axonal regeneration in peripheral nerve by inhibiting glycogen synthase kinase 3 β activation Journal article
BioMed Research International, 2014,Volume: 2014
Authors:  Su H.;  Yuan Q.;  Qin D.;  Yang X.;  Wong W.-M.;  So K.-F.;  Wu W.
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Ventral root re-implantation is better than peripheral nerve transplantation for motoneuron survival and regeneration after spinal root avulsion injury Journal article
BMC Surgery, 2013,Volume: 13,Issue: 1
Authors:  Su H.;  Yuan Q.;  Qin D.;  Yang X.;  Wong W.-M.;  So K.-F.;  Wu W.
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Avulsion  Motoneuron survival and regeneration  Peripheral nerve graft transplantation  Ventral root re-implantation  
Nanofiber scaffolds facilitate functional regeneration of peripheral nerve injury Journal article
Nanomedicine: Nanotechnology, Biology, and Medicine, 2013,Volume: 9,Issue: 3,Page: 305-315
Authors:  Zhan X.;  Gao M.;  Jiang Y.;  Zhang W.;  Wong W.M.;  Yuan Q.;  Su H.;  Kang X.;  Dai X.;  Zhang W.;  Guo J.;  Wu W.
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Axonal regeneration  Nanofiber scaffold  Peripheral nerve injury  Remyelination  Self-assembling peptide  
Motoneuron Differentiation of Induced Pluripotent Stem Cells from SOD1G93A Mice Journal article
PLoS ONE, 2013,Volume: 8,Issue: 5
Authors:  Yao X.-L.;  Ye C.-H.;  Liu Q.;  Wan J.-B.;  Zhen J.;  Xiang A.P.;  Li W.-Q.;  Wang Y.;  Su H.;  Lu X.-L.
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Transplanted motoneurons derived from human induced pluripotent stem cells form functional connections with target muscle Journal article
Stem Cell Research, 2013,Volume: 11,Issue: 1,Page: 529
Authors:  Su H.;  Wang L.;  Cai J.;  Yuan Q.;  Yang X.;  Yao X.;  Wong W.-M.;  Huang W.;  Li Z.;  Wan J.-B.;  Wang Y.;  Pei D.;  So K.-F.;  Qin D.;  Wu W.
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Neural progenitor cells generate motoneuron-like cells to form functional connections with target muscles after transplantation into the musculocutaneous nerve. Journal article
Cell transplantation, 2012,Volume: 21,Issue: 12,Page: 2651-2663
Authors:  Su H.;  Zhang W.;  Yang X.;  Qin D.;  Sang Y.;  Wu C.;  Wong W.M.;  Yuan Q.;  So K.F.;  Wu W.
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Suppression of c-jun influences nNOS expression in differentiated PC12 cells Journal article
Molecular Medicine Reports, 2012,Volume: 6,Issue: 4,Page: 750-754
Authors:  Cheng X.;  Liu S.;  Wang Y.-Q.;  Li Y.-Q.;  Fu R.;  Tang Y.;  Zheng W.-H.;  Zhou L.-H.
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c-jun  Differentiated PC12 cells  Neuronal nitric oxide synthase  siRNA  
P75 and phosphorylated c-Jun are differentially regulated in spinal motoneurons following axotomy in rats Journal article
Neural Regeneration Research, 2012,Volume: 7,Issue: 26,Page: 2005-2011
Authors:  Yuan Q.;  Su H.;  Wu W.;  Lin Z.-X.
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Adult  Apoptosis  Axonal regeneration  Axotomy  C-Jun N-terminal kinase  Motoneuron  Neonatal  Nerve growth factor receptor  Spinal cord  Transcription factor