Volume 17 Issue 3
Sep.  2004
Turn off MathJax
Article Contents
Article Navigation >  Biomedical and Environmental Sciences  > 2004  >  17(3): 281-290

GUI-LIN LI, MOHAMMAD FAROOQUE, JONAS ISAKSSON, YNGVE OLSSON. Changes in Synapses and Axons Demonstrated by Synaptophysin Immunohistochemistry Following Spinal Cord Compression Trauma in the Rat and Mouse[J]. Biomedical and Environmental Sciences, 2004, 17(3): 281-290.
Citation: GUI-LIN LI, MOHAMMAD FAROOQUE, JONAS ISAKSSON, YNGVE OLSSON. Changes in Synapses and Axons Demonstrated by Synaptophysin Immunohistochemistry Following Spinal Cord Compression Trauma in the Rat and Mouse[J]. Biomedical and Environmental Sciences, 2004, 17(3): 281-290.
shu

Changes in Synapses and Axons Demonstrated by Synaptophysin Immunohistochemistry Following Spinal Cord Compression Trauma in the Rat and Mouse

  • Beijing Neurosurgical Institute, Beijing 100050, China;Research Group of Neuropathology, Department of Genetics and Pathology, University Hospital, Uppsala, Sweden, S-75185

  • Research Group of Neuropathology, Department of Genetics and Pathology, University Hospital, Uppsala, Sweden, S-75185

Funds:  grants from the Swedish Association of Neurologically Disabled, the Swedish Society for Medical Research(project 950006)%the National Natural Scienc Foundation of China(project 30370543)
  • and methods To evaluate synaptic changes using synaptophysin immunohistochemstry in rat and mouse, which spinal cords were subjected to graded compression trauma at the level of Th8-9. Results Normal animals showed numerous fine dots of synaptophysin immunoreactivity in the gray matter. An increase in synaptophysin immunoreactivity was observed in the neuropil and synapses at the surface of motor neurons of the anterior horns in the Th8-9 segments lost immunoreactivity at 4-hour point after trauma. The immunoreactive synapses reappeared around motor neurons at 9-day point. Unexpected accumulation of synaptophysin immunoreactivity occurred in injured axons of the white matter of the compressed spinal cord. Conclusion Synaptic changes were important components of secondary injuries in spinal cord trauma. Loss of synapses on motor neurons may be one of the factors causing motor dysfunction of hind limbs and formation of new synapses may play an important role in recovery of motor function. Synaptophysin immunohistochemistry is also a good tool for studies of axonal swellings in spinal cord injuries.
  • 加载中
  • 加载中
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索
Get Citation
PDF
XML

Article Metrics

Article views(1214) PDF downloads(21) Cited by()

Proportional views
Related

Changes in Synapses and Axons Demonstrated by Synaptophysin Immunohistochemistry Following Spinal Cord Compression Trauma in the Rat and Mouse

  • Beijing Neurosurgical Institute, Beijing 100050, China;Research Group of Neuropathology, Department of Genetics and Pathology, University Hospital, Uppsala, Sweden, S-75185
  • Research Group of Neuropathology, Department of Genetics and Pathology, University Hospital, Uppsala, Sweden, S-75185
Funds:  grants from the Swedish Association of Neurologically Disabled, the Swedish Society for Medical Research(project 950006)%the National Natural Scienc Foundation of China(project 30370543)

Abstract: and methods To evaluate synaptic changes using synaptophysin immunohistochemstry in rat and mouse, which spinal cords were subjected to graded compression trauma at the level of Th8-9. Results Normal animals showed numerous fine dots of synaptophysin immunoreactivity in the gray matter. An increase in synaptophysin immunoreactivity was observed in the neuropil and synapses at the surface of motor neurons of the anterior horns in the Th8-9 segments lost immunoreactivity at 4-hour point after trauma. The immunoreactive synapses reappeared around motor neurons at 9-day point. Unexpected accumulation of synaptophysin immunoreactivity occurred in injured axons of the white matter of the compressed spinal cord. Conclusion Synaptic changes were important components of secondary injuries in spinal cord trauma. Loss of synapses on motor neurons may be one of the factors causing motor dysfunction of hind limbs and formation of new synapses may play an important role in recovery of motor function. Synaptophysin immunohistochemistry is also a good tool for studies of axonal swellings in spinal cord injuries.

GUI-LIN LI, MOHAMMAD FAROOQUE, JONAS ISAKSSON, YNGVE OLSSON. Changes in Synapses and Axons Demonstrated by Synaptophysin Immunohistochemistry Following Spinal Cord Compression Trauma in the Rat and Mouse[J]. Biomedical and Environmental Sciences, 2004, 17(3): 281-290.
Citation: GUI-LIN LI, MOHAMMAD FAROOQUE, JONAS ISAKSSON, YNGVE OLSSON. Changes in Synapses and Axons Demonstrated by Synaptophysin Immunohistochemistry Following Spinal Cord Compression Trauma in the Rat and Mouse[J]. Biomedical and Environmental Sciences, 2004, 17(3): 281-290.
shu

    HTML

Catalog

    Biomedical and Environmental Sciences ISSN 0895-3988 CN 11-2816/Q

    Publish Under the Auspices of Chinese Center for Disease Control and Prevention

    Distributed by Chinese Center for Disease Control and Prevention

    All Rights Reserved by Chinese Center for Disease Control and Prevention

    京ICP备11024750号-4     京公网京备11011402013006号

    Quick Links

    Supported by Beijing Renhe Information Technology Co. Ltd E-mail: info@rhhz.net 百度统计

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return