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Mechanisms of Disease: what factors limit the success of peripheral nerve regeneration in humans?

再生(生物学) 去神经支配 雪旺细胞 基底层 神经科学 神经损伤 神经导管 周围神经损伤 医学 细胞外基质 生物 解剖 病理 细胞生物学 超微结构
作者
Ahmet Höke
出处
期刊:Nature clinical practice neurology [Nature Portfolio]
卷期号:2 (8): 448-454 被引量:329
标识
DOI:10.1038/ncpneuro0262
摘要

Functional recovery after repair of peripheral nerve injury in humans is often suboptimal. Over the past quarter of a century, there have been significant advances in human nerve repair, but most of the developments have been in the optimization of surgical techniques. Despite extensive research, there are no current therapies directed at the molecular mechanisms of nerve regeneration. Multiple interventions have been shown to improve nerve regeneration in small animal models, but have not yet translated into clinical therapies for human nerve injuries. In many rodent models, regeneration occurs over relatively short distances, so the duration of denervation is short. By contrast, in humans, nerves often have to regrow over long distances, and the distal portion of the nerve progressively loses its ability to support regeneration during this process. This can be largely attributed to atrophy of Schwann cells and loss of a Schwann cell basal lamina tube, which results in an extracellular environment that is inhibitory to nerve regeneration. To develop successful molecular therapies for nerve regeneration, we need to generate animal models that can be used to address the following issues: improving the intrinsic ability of neurons to regenerate to increase the speed of axonal outgrowth; preventing loss of basal lamina and chronic denervation changes in the denervated Schwann cells; and overcoming inhibitory cues in the extracellular matrix.
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