聚乙二醇（PEG）和其他生物活性溶液通过 PEG 融合进行神经吻合术，快速而显著地修复周围神经损伤。

Polyethylene glycol (PEG) and other bioactive solutions with neurorrhaphy for rapid and dramatic repair of peripheral nerve lesions by PEG-fusion.

机构信息

Department of Molecular Biosciences, University of Texas at Austin, Austin, TX, 78712, USA.

Department of Neuroscience, University of Texas at Austin, Austin, TX, 78712, USA.

出版信息

J Neurosci Methods. 2019 Feb 15;314:1-12. doi: 10.1016/j.jneumeth.2018.12.015. Epub 2018 Dec 23.

DOI:10.1016/j.jneumeth.2018.12.015

PMID:30586569

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6475191/

Abstract

BACKGROUND

Nervous system injuries in mammals often involve transection or segmental loss of peripheral nerves. Such injuries result in functional (behavioral) deficits poorly restored by naturally occurring 1-2 mm/d axonal outgrowths aided by primary repair or reconstruction. "Neurorrhaphy" or nerve repair joins severed connective tissues, but not severed cytoplasmic/plasmalemmal extensions (axons) within the tissue.

NEW METHOD

PEG-fusion consists of neurorrhaphy combined with a well-defined sequence of four pharmaceutical agents in solution, one containing polyethylene glycol (PEG), applied directly to closely apposed viable ends of severed axons.

RESULTS

PEG-fusion of rat sciatic nerves: (1) restores axonal continuity across coaptation site(s) within minutes, (2) prevents Wallerian degeneration of many distal severed axons, (3) preserves neuromuscular junctions, (4) prevents target muscle atrophy, (5) produces rapid and improved recovery of voluntary behaviors compared with neurorrhaphy alone, and (6) PEG-fused allografts are not rejected, despite no tissue-matching nor immunosuppression.

COMPARISON WITH EXISTING METHODS

If PEG-fusion protocols are not correctly executed, the results are similar to that of neurorrhaphy alone: (1) axonal continuity across coaptation site(s) is not re-established, (2) Wallerian degeneration of all distal severed axons rapidly occurs, (3) neuromuscular junctions are non-functional, (4) target muscle atrophy begins within weeks, (5) recovery of voluntary behavior occurs, if ever, after months to levels well-below that observed in unoperated animals, and (6) allografts are either rejected or not well-accepted.

CONCLUSION

PEG-fusion produces rapid and dramatic recovery of function following rat peripheral nerve injuries.

摘要

背景

哺乳动物的神经系统损伤通常涉及周围神经的横断或节段性缺失。这些损伤导致功能（行为）缺陷，通过自然发生的 1-2 毫米/天的轴突生长，辅以初步修复或重建，恢复效果很差。“神经吻合术”或神经修复术连接的是已切断的结缔组织，但不能连接组织内已切断的细胞质/质膜延伸（轴突）。

新方法

PEG 融合包括神经吻合术，以及在溶液中应用的四种明确药物的特定顺序，其中一种含有聚乙二醇（PEG），直接应用于紧密贴合的已切断轴突的存活端。

结果

大鼠坐骨神经的 PEG 融合：（1）在几分钟内恢复吻合部位的轴突连续性，（2）防止许多远端已切断轴突的沃勒变性，（3）保留运动终板，（4）防止目标肌肉萎缩，（5）与单纯神经吻合术相比，迅速改善并恢复自主行为，（6）PEG 融合的同种异体移植物不会被排斥，尽管没有组织匹配，也没有免疫抑制。

与现有方法的比较

如果 PEG 融合方案执行不正确，则结果与单纯神经吻合术相似：（1）吻合部位的轴突连续性未重新建立，（2）所有远端已切断轴突的沃勒变性迅速发生，（3）运动终板无功能，（4）目标肌肉萎缩在数周内开始，（5）如果有恢复，自主行为的恢复在数月至数年期间发生，且低于未手术动物的水平，（6）同种异体移植物被排斥或不能很好地被接受。

结论

PEG 融合可使大鼠周围神经损伤后的功能迅速而显著地恢复。

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