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纤维蛋白胶可提高导管辅助原发性指神经修复的拉伸强度。

Fibrin Glue Increases the Tensile Strength of Conduit-Assisted Primary Digital Nerve Repair.

作者信息

Childe Jessica R, Regal Steven, Schimoler Patrick, Kharlamov Alexander, Miller Mark C, Tang Peter

机构信息

1 Allegheny General Hospital, Pittsburgh, PA, USA.

2 University of Pittsburgh, PA, USA.

出版信息

Hand (N Y). 2018 Jan;13(1):45-49. doi: 10.1177/1558944717691131. Epub 2017 Feb 1.

DOI:10.1177/1558944717691131
PMID:28718327
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5755864/
Abstract

BACKGROUND

An ideal peripheral nerve repair construct does not currently exist. Our primary goal was to determine whether fibrin glue adds to the tensile strength of conduit-assisted primary digital nerve repairs. Our secondary goal was to evaluate the impact of varying suture number and location on the tensile strength.

METHODS

Ninety cadaveric digital nerves were harvested and divided equally into the following repair groups: A (4/4), B (2/2), C (0/2), D (0/1), and E (0/0) with the first number referring to the number of sutures at the coaptation and the second number referring to the number of sutures at each proximal and distal end of the nerve-conduit junction. When fibrin glue was added, the group was labeled prime. The nerve specimens were transected and then repaired with 8-0 nylon suture and conduit. The tensile strength of the repairs was tested, and maximum failure load was determined. The results were analyzed with a 2-way analysis of variance. The Tukey post hoc test compared repair groups if the 2-way analysis of variance showed significance.

RESULTS

Both suture group and glue presence significantly affected the maximum failure load. Increasing the number of sutures increased the maximum failure load, and the presence of fibrin glue also increased the failure load.

CONCLUSIONS

Fibrin glue was found to increase the strength of conduit-assisted primary digital nerve repairs. Furthermore, the number of sutures correlated to the strength of the repair. Fibrin glue may be added to a conduit-assisted primary digital nerve repair to maintain strength and allow fewer sutures at the primary coaptation site.

摘要

背景

目前尚不存在理想的周围神经修复构建物。我们的主要目标是确定纤维蛋白胶是否能增加导管辅助的原发性指神经修复的拉伸强度。我们的次要目标是评估不同缝合线数量和位置对拉伸强度的影响。

方法

采集90条尸体指神经,并将其平均分为以下修复组:A组(4/4)、B组(2/2)、C组(0/2)、D组(0/1)和E组(0/0),第一个数字表示吻合处的缝合线数量,第二个数字表示神经导管连接处每个近端和远端的缝合线数量。添加纤维蛋白胶时,该组标记为prime。将神经标本切断,然后用8-0尼龙缝线和导管进行修复。测试修复的拉伸强度,并确定最大破坏载荷。结果采用双向方差分析进行分析。如果双向方差分析显示有显著性差异,则用Tukey事后检验比较修复组。

结果

缝合线组和胶水的存在均显著影响最大破坏载荷。增加缝合线数量会增加最大破坏载荷,纤维蛋白胶的存在也会增加破坏载荷。

结论

发现纤维蛋白胶可增加导管辅助的原发性指神经修复的强度。此外,缝合线数量与修复强度相关。纤维蛋白胶可添加到导管辅助的原发性指神经修复中,以维持强度并减少在原发性吻合部位的缝合线数量。

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