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Brachial Plexus Avulsion: A Model for Axonal Regeneration Study Book chapter
出自: Neural Regeneration:Elsevier Inc., 2015, 页码:101-115
Authors:  Su H.;  Yuan Q.;  Zhou L.;  Wu W.
Favorite | TC[WOS]:2 TC[Scopus]:2 | Submit date:2018/12/28
Brachial Plexus  Cell Therapy  Degeneration  Motoneurons  Muscle Atrophy  Root Avulsion  Spinal Cord  Stem Cells  Ventral Root Reimplantation  
Brachial Plexus Avulsion: A Model for Axonal Regeneration Study Book chapter
出自: Neural Regeneration:Elsevier Inc., 2015, 页码:101-115
Authors:  Su,Huanxing;  Yuan,Qiuju;  Zhou,Lihua;  Wu,Wutian
Favorite | TC[WOS]:2 TC[Scopus]:2 | Submit date:2021/03/01
Brachial Plexus  Cell Therapy  Degeneration  Motoneurons  Muscle Atrophy  Root Avulsion  Spinal Cord  Stem Cells  Ventral Root Reimplantation  
Ventral root re-implantation is better than peripheral nerve transplantation for motoneuron survival and regeneration after spinal root avulsion injury Journal article
Su H., Yuan Q., Qin D., Yang X., Wong W.-M., So K.-F., Wu W.. Ventral root re-implantation is better than peripheral nerve transplantation for motoneuron survival and regeneration after spinal root avulsion injury[J]. BMC Surgery, 2013, 13(1).
Authors:  Su H.;  Yuan Q.;  Qin D.;  Yang X.;  Wong W.-M.; et al.
Favorite | TC[WOS]:15 TC[Scopus]:17 | Submit date:2018/12/28
Avulsion  Motoneuron Survival And Regeneration  Peripheral Nerve Graft Transplantation  Ventral Root Re-implantation  
Activation of phospholipase-Cγ and protein kinase C signal pathways helps the survival of spinal motoneurons injured by root avulsion Journal article
Zhao X.-C., Wang L.-L., Wang Y.-Q., Song F.-H., Li Y.-Q., Fu R., Zheng W.-H., Wu W., Zhou L.-H.. Activation of phospholipase-Cγ and protein kinase C signal pathways helps the survival of spinal motoneurons injured by root avulsion[J]. Journal of Neurochemistry, 2012, 121(3), 362-372.
Authors:  Zhao X.-C.;  Wang L.-L.;  Wang Y.-Q.;  Song F.-H.;  Li Y.-Q.; et al.
Favorite | TC[WOS]:11 TC[Scopus]:11 | Submit date:2018/12/21
Neuronal Nitric Oxide Synthase  Pkc  Plcγ  Root Avulsion  Spinal Motoneuron  
Lithium enhances the neuronal differentiation of neural progenitor cells in vitro and after transplantation into the avulsed ventral horn of adult rats through the secretion of brain-derived neurotrophic factor Journal article
Su H., Zhang W., Guo J., Guo A., Yuan Q., Wu W.. Lithium enhances the neuronal differentiation of neural progenitor cells in vitro and after transplantation into the avulsed ventral horn of adult rats through the secretion of brain-derived neurotrophic factor[J]. Journal of Neurochemistry, 2009, 108(6), 1385-1398.
Authors:  Su H.;  Zhang W.;  Guo J.;  Guo A.;  Yuan Q.; et al.
Favorite | TC[WOS]:47 TC[Scopus]:50 | Submit date:2018/12/28
Brain-derived Neurotrophic Factor  Differentiation  Lithium  Motoneurons  Neural Progenitor Cells  Spinal Root Avulsion