微钩神经连接器辅助聚乙二醇融合用于在啮齿动物模型中立即恢复轴突连续性
Microhook Nerve Connector-Assisted Polyethylene Glycol Fusion for Immediate Restoration of Axon Continuity in a Rodent Model.
作者信息
Bendale Geetanjali S, Azdell Andrew, Miller Jonathan, Isaacs Jonathan E
机构信息
Division of Hand Surgery, Department of Orthopaedic Surgery, Virginia Commonwealth University, Richmond, VA.
Division of Hand Surgery, Department of Orthopaedic Surgery, Virginia Commonwealth University, Richmond, VA.
出版信息
J Hand Surg Am. 2025 Jun;50(6):677-684. doi: 10.1016/j.jhsa.2025.03.001. Epub 2025 Apr 21.
PURPOSE
The purpose of the study was to test the efficacy of polyethylene glycol (PEG) fusion in restoring axon continuity when repaired with a microhook nerve connector (MNC) coaptation aid versus conventional microsutures. Our hypothesis was that the MNC would provide precise nerve alignment and stable coaptation and would support a higher percentage of axon fusion.
METHODS
In a rodent sciatic nerve model, transected nerves were either repaired with microsutures only (n = 12), microsutures with PEG (n = 12), or a MNC with PEG (n = 12). At initial surgery, PEG fusion was confirmed using electrophysiology. For 3 weeks, gait videos were used to calculate the sciatic function index. At the end of 3 weeks, compound muscle action potentials and muscle strength data were obtained. In a subset of animals, retrograde labeling was performed distal to the repair site and used to confirm successful axon fusion.
RESULTS
Polyethylene glycol fusion was confirmed in all animals from the two PEG groups. At 3 weeks, the sciatic function index values were similar between the three groups. The microsuture-only group did not show any detectable muscle contractions or the presence of intact motor axons. Retrograde labeling demonstrated that partial motor axon continuity had been re-established via PEG fusion in all 8/8 PEG fused animals, muscle contractions were preserved in 13/16, and measurable compound muscle action potentials were recorded in 21/24. However, there were no statistically significant differences between the microsuture + PEG and the MNC + PEG groups.
CONCLUSIONS
In a small-diameter, direct-repair rodent model, at least some axons achieved PEG fusion. In this model, a MNC did not seem to improve PEG efficacy over suture-assisted PEG fusion.
CLINICAL RELEVANCE
Polyethylene glycol fusion either performed in conjunction with sutures or a MNC can, to a limited extent, restore axon continuity in cleanly transected, small-diameter nerves.
目的
本研究旨在测试聚乙二醇(PEG)融合在使用微钩神经连接器(MNC)辅助对接与传统显微缝合修复时恢复轴突连续性的疗效。我们的假设是,MNC将提供精确的神经对齐和稳定的对接,并支持更高比例的轴突融合。
方法
在啮齿动物坐骨神经模型中,横断的神经分别仅用显微缝合修复(n = 12)、用PEG的显微缝合修复(n = 12)或用PEG的MNC修复(n = 12)。在初次手术时,使用电生理学确认PEG融合。在3周内,使用步态视频计算坐骨神经功能指数。在3周结束时,获取复合肌肉动作电位和肌肉力量数据。在一部分动物中,在修复部位远端进行逆行标记,用于确认轴突融合成功。
结果
在两个PEG组的所有动物中均确认了聚乙二醇融合。在3周时,三组之间的坐骨神经功能指数值相似。仅显微缝合组未显示任何可检测到的肌肉收缩或完整运动轴突的存在。逆行标记表明,在所有8/8只PEG融合的动物中,部分运动轴突连续性已通过PEG融合重新建立,13/16只动物保留了肌肉收缩,21/24只动物记录到可测量的复合肌肉动作电位。然而,显微缝合+ PEG组和MNC + PEG组之间没有统计学上的显著差异。
结论
在小直径、直接修复的啮齿动物模型中,至少一些轴突实现了PEG融合。在该模型中,MNC似乎并未比缝合辅助的PEG融合提高PEG疗效。
临床意义
与缝合或MNC联合进行的聚乙二醇融合在一定程度上可以恢复清洁横断的小直径神经中的轴突连续性。
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