功能性电刺激有助于补充成年大鼠受损脊髓中的祖细胞。

Functional electrical stimulation helps replenish progenitor cells in the injured spinal cord of adult rats.

机构信息

International Center, for Spinal Cord Injury, Hugo Moser Research Institute, Department of Neurology, Johns Hopkins School of Medicine and Kennedy Krieger Institute, Baltimore, MD 21205, USA.

出版信息

Exp Neurol. 2010 Apr;222(2):211-8. doi: 10.1016/j.expneurol.2009.12.029. Epub 2010 Jan 6.

DOI:10.1016/j.expneurol.2009.12.029

PMID:20059998

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2834811/

Abstract

Functional electrical stimulation (FES) can restore control and offset atrophy to muscles after neurological injury. However, FES has not been considered as a method for enhancing CNS regeneration. This paper demonstrates that FES dramatically enhanced progenitor cell birth in the spinal cord of rats with a chronic spinal cord injury (SCI). A complete SCI at thoracic level 8/9 was performed on 12 rats. Three weeks later, a FES device to stimulate hindlimb movement was implanted into these rats. Twelve identically-injured rats received inactive FES implants. An additional control group of uninjured rats were also examined. Ten days after FES implantation, dividing cells were marked with bromodeoxyuridine (BrdU). The "cell birth" subgroup (half the animals in each group) was sacrificed immediately after completion of BrdU administration, and the "cell survival" subgroup was sacrificed 7 days later. In the injured "cell birth" subgroup, FES induced an 82-86% increase in cell birth in the lumbar spinal cord. In the injured "cell survival" subgroup, the increased lumbar newborn cell counts persisted. FES doubled the proportion of the newly-born cells which expressed nestin and other markers suggestive of tripotential progenitors. In uninjured rats, FES had no effect on cell birth/survival. This report suggests that controlled electrical activation of the CNS may enhance spontaneous regeneration after neurological injuries.

摘要

功能性电刺激（FES）可在神经损伤后恢复肌肉控制并抵消萎缩。然而，FES 尚未被认为是增强中枢神经系统再生的一种方法。本文证明，FES 可显著增加慢性脊髓损伤（SCI）大鼠脊髓中的祖细胞生成。在 12 只大鼠的胸 8/9 水平进行完全 SCI。3 周后，将用于刺激后肢运动的 FES 装置植入这些大鼠中。12 只具有相同损伤的大鼠接受了非活性 FES 植入物。还检查了一组额外的未受伤大鼠作为对照组。在 FES 植入 10 天后，用溴脱氧尿苷（BrdU）标记分裂细胞。“细胞生成”亚组（每组中的一半动物）在 BrdU 给药完成后立即处死，而“细胞存活”亚组在 7 天后处死。在受伤的“细胞生成”亚组中，FES 使腰椎脊髓中的细胞生成增加了 82-86%。在受伤的“细胞存活”亚组中，增加的新生腰椎细胞计数仍然存在。FES 使新生成的细胞中表达巢蛋白和其他提示三潜能祖细胞的标志物的比例增加了一倍。在未受伤的大鼠中，FES 对细胞生成/存活没有影响。本报告表明，中枢神经系统的受控电激活可能会增强神经损伤后的自发再生。

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