含胶神经营养因子修复分裂运动神经后增加肌肉再生。

C Becker, C Gueuning, A Gilbert, G L Graff
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引用次数: 4

摘要

根据LONGO等人(1983b),在硅胶神经再生室中收集大鼠脊髓运动神经元的神经营养因子(NTFs)。单侧将NTFs加入纤维蛋白胶中用于修复分裂的坐骨神经,可改善局部神经再生而不影响控制侧。神经再生通过再神经肌肉的体重增加和神经雪旺细胞和再神经肌肉细胞的酸溶性磷酸盐部分的放射性标记来评估。运动神经经添加NTFs修复后的快速腓肠肌和慢比目鱼肌明显比对照组重(21%和28%),而分裂后神经修复所伴随的代谢去分化不那么明显。提示本实验神经再生模型适合在接近临床常用环境的条件下,在体内测试潜在的神经活性物质,以提高人体周围神经显微外科修复的最终效果为最终目标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Increased muscle regeneration after repair of divided motor nerve with neuronotrophic factors containing glue.

Neuronotrophic factors (NTFs) directed to spinal cord motor neurons were collected in rats within silicone nerve regeneration chambers according to LONGO et al. (1983b). Unilateral addition of NTFs to the fibrin glue used for the repair of divided sciatic nerves improved locally nerve regeneration without affecting the controlateral side. Nerve regeneration was assessed by weight gain of the reinnervated muscles and by radioactive labelling of the acid-soluble phosphate fractions of both nerve Schwann cells and reinnervated muscle cells. Fast gastrocnemius and slow soleus muscles, the motor nerve of which had been repaired with added NTFs, were significantly heavier (21 and 28%) than their controlateral controls, and the metabolic dedifferentiation attendant on post-division nerve repair was less marked. It is suggested that this experimental nerve regeneration model is suitable to test potential nerve-active agents in vivo, under conditions close to the usual clinical setting, with, as ultimate goal, the improvement of the end-results of microsurgical repair of peripheral nerve in man.

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