反向端侧(增压)神经化在大鼠模型中长程脱细胞神经同种异体移植中的作用
Effect of Reverse End-to-Side (Supercharging) Neurotization in Long Processed Acellular Nerve Allograft in a Rat Model.
作者信息
Isaacs Jonathan, Patel Gaurangkumar, Mallu Satya, Ugwu-Oju Obinna, Desai Anish, Borschel Gregory, David Dylan, Protzuk Omar, Shah Shalin, Semus Rachel
机构信息
Division of Hand Surgery, Department of Orthopaedic Surgery, Virginia Commonwealth University Medical Center, Richmond, VA.
Division of Hand Surgery, Department of Orthopaedic Surgery, Virginia Commonwealth University Medical Center, Richmond, VA.
出版信息
J Hand Surg Am. 2019 May;44(5):419.e1-419.e10. doi: 10.1016/j.jhsa.2018.07.008. Epub 2018 Aug 29.
PURPOSE
Processed acellular nerve allograft (PNA) has been suggested as a convenient tool for overcoming short and medium nerve defects. Although the clinical implications are unclear, animal data suggest that PNA becomes less effective at longer lengths. Although reverse or supercharging end-to-side nerve transfer may improve the neurotrophic potential in chronically denervated nerve tissue, the application of this strategy to long acellular nerve allograft has not been previously investigated. We hypothesized that supercharging acellular nerve allograft would increase its effective length.
METHODS
Sprague-Dawley and Thy1-green fluorescent protein Sprague-Dawley rats underwent transection of the tibial nerve, followed by immediate repair with 20-, 40-, or 60-mm acellular nerve allografts processed identically to commercially available human acellular nerve allograft (AxoGen, Inc., Alachua, FL) or isograft. Half of the allograft group was supercharged with a reverse end-to-side transfer from the ipsilateral peroneal nerve. At 10 weeks, the reconstructed nerve in the Thy1-green fluorescent rat groups were exposed and examined under a fluorescence-enabled microscope. At 20 weeks, the remaining rats underwent motor testing and tissue harvest for morphological examination.
RESULTS
In comparison with a nonenhanced allograft, supercharging had a statistically significant positive impact on the reinnervated muscle normalized force generation and distal axon counts for all graft sizes. Muscles in the supercharged group were heavier than those in the allograft group for the 40-mm-length grafts and G-ratio measurements were higher in the supercharged allograft group for 60-mm-length grafts only.
CONCLUSIONS
This study supports that hypothesis that supercharging nerve transfer improves axon regeneration within PNA.
CLINICAL RELEVANCE
When an appropriate donor nerve is available, supercharging nerve transfer may improve nerve regeneration in PNA across long nerve defects.
目的
脱细胞神经同种异体移植物(PNA)被认为是克服中短神经缺损的便捷工具。尽管其临床意义尚不清楚,但动物数据表明,较长长度的PNA效果会变差。虽然逆行或增压端侧神经转移可能会改善慢性失神经支配神经组织的神经营养潜能,但此前尚未研究过将该策略应用于长脱细胞神经同种异体移植物的情况。我们假设,对脱细胞神经同种异体移植物进行增压会增加其有效长度。
方法
对Sprague-Dawley大鼠和Thy1-绿色荧光蛋白Sprague-Dawley大鼠进行胫神经横断,然后立即用20毫米、40毫米或60毫米的脱细胞神经同种异体移植物进行修复,这些移植物的处理方式与市售人脱细胞神经同种异体移植物(AxoGen公司,佛罗里达州阿拉丘亚)或同基因移植物相同。同种异体移植物组的一半通过同侧腓总神经逆行端侧转移进行增压。在10周时,暴露Thy1-绿色荧光大鼠组中重建的神经,并在荧光显微镜下进行检查。在20周时,其余大鼠接受运动测试并取组织进行形态学检查。
结果
与未增强的同种异体移植物相比,增压对所有移植物大小的再支配肌肉标准化力量产生和远端轴突计数均有统计学上显著的积极影响。对于40毫米长的移植物,增压组中的肌肉比同种异体移植物组中的肌肉更重,仅对于60毫米长的移植物,增压同种异体移植物组中的G比值测量值更高。
结论
本研究支持增压神经转移可改善PNA内轴突再生的假设。
临床意义
当有合适的供体神经时,增压神经转移可能会改善PNA跨越长神经缺损时的神经再生。
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