Each rat in PEG treatment group were immediately given PEG after spinal cord transection.
PEG治疗组大鼠在脊髓横断后,蛛网膜下腔立即注射PEG。
Objective to explore the changes of autoimmunity and its significance after spinal cord transection (SCT).
目的探讨脊髓横断(SCT)后自体免疫反应的变化及其意义。
To study the effects of neural stem cells transplantation (NSCT) for treating spinal cord transection injury.
目的研究神经干细胞移植治疗对脊髓横断损伤的修复作用。
Objective To observe the recovery process of hind limb function following complete spinal cord transection injury and discuss corresponding mechanism.
目的研究大鼠脊髓完全性损伤后后肢运动功能恢复的规律并探讨其机制。
Objective:To study apoptosis of glial cells and expression of proteins of apoptotic regulated genes in white matter after spinal cord transection in rats.
目的:研究大鼠脊髓横断后白质内胶质细胞凋亡改变以及凋亡相关基因产物表达情况。
At the 6th week after injury, also experiment was done on histology, immunohistochemistry, motor evoked potential (MEP) of spinal cord and repeated transection.
并于伤后6周行组织学、免疫组化、脊髓运动诱发电位(MEP)检测及再次横断实验。
Spinal cord complete transection models have many advantages, such as simple and easy surgery, correct anatomical position, reproducibility, stable injury, and functional deficits.
脊髓完全横断模型的主要优点是操作相对简单,解剖定位准确,重复性好,损伤程度较恒定,功能障碍确定。
All rats first line of subarachnoid catheter, then the equivalent of T8 vertebral level and marked with micro scissors cut the spinal cord dorsal 2/3 rat corticospinal tract transection injury model.
所有大鼠首先行蛛网膜下腔置管,然后在相当于T8椎板水平用做好标记的显微剪刀剪断脊髓的背侧2/3,建立大鼠皮质脊髓束横断损伤模型。
All rats first line of subarachnoid catheter, then the equivalent of T8 vertebral level and marked with micro scissors cut the spinal cord dorsal 2/3 rat corticospinal tract transection injury model.
所有大鼠首先行蛛网膜下腔置管,然后在相当于T8椎板水平用做好标记的显微剪刀剪断脊髓的背侧2/3,建立大鼠皮质脊髓束横断损伤模型。
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