Biomechanical characterization of cadaveric brachial plexus microstructure

IF 0.9 4区医学 Q4 ORTHOPEDICS Hand Surgery & Rehabilitation Pub Date : 2024-09-01 DOI:10.1016/j.hansur.2024.101745

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Abstract

Introduction

Peripheral nerves consist of axons and connective tissue. The amount of connective tissue in peripheral nerves such as the brachial plexus varies proximally to distally. The proximal regions of the brachial plexus are more susceptible to stretch injuries than the distal regions. A description of the mechanical behavior of the peripheral nerve components is necessary to better understand the deformation mechanisms during stretch injuries.

The purpose of this study was to model the biomechanical behavior of each component of the peripheral nerves (fascicles, connective tissue) in a cadaveric model and report differences in elastic modulus, maximum stress and maximum strain.

Methods

Forty-six specimens of fascicles and epi-perineurium were subjected to cyclical uniaxial tensile tests to obtain the stress and strain histories of each specimen, using a BOSE® Electroforce® 3330 and INSTRON® 5969 materials testing machines.

Maximum stress, maximum strain and elastic modulus were extracted from the load–displacement and stress–strain curves, and analyzed using Mann-Whitney tests.

Results

Mean elastic modulus was 6.34 MPa for fascicles, and 32.1 MPa for connective tissue. The differences in elastic modulus and maximum stress between fascicles and connective tissue were statistically significant (p < 0.001).

Conclusions

Peripheral nerve connective tissue showed significantly higher elastic modulus and maximum stress than fascicles. These data confirm the greater fragility of axons compared to connective tissue, suggesting that the greater susceptibility to stretch injury in proximal regions of the brachial plexus might be related to the smaller amount of connective tissue.

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尸体臂丛神经微结构的生物力学特征。

简介周围神经由轴突和结缔组织组成。周围神经（如臂丛神经）中结缔组织的数量在近端和远端有所不同。臂丛神经的近端区域比远端区域更容易受到拉伸损伤。为了更好地了解拉伸损伤时的变形机制，有必要对周围神经组件的机械行为进行描述。本研究的目的是在尸体模型中模拟周围神经各组成部分（筋膜、结缔组织）的生物力学行为，并报告弹性模量、最大应力和最大应变的差异：方法：使用 BOSE® Electroforce® 3330 和 INSTRON® 5969 材料试验机对 46 个神经束和会厌进行周期性单轴拉伸试验，以获得每个试样的应力和应变历史。从载荷-位移和应力-应变曲线中提取最大应力、最大应变和弹性模量，并使用曼-惠特尼检验进行分析：结果：筋膜的平均弹性模量为 6.34 兆帕，结缔组织的平均弹性模量为 32.1 兆帕。筋膜和结缔组织的弹性模量和最大应力差异具有统计学意义（P 结论：筋膜和结缔组织的弹性模量和最大应力差异具有统计学意义：周围神经结缔组织的弹性模量和最大应力明显高于筋膜。这些数据证实轴突比结缔组织更脆弱，表明臂丛近端区域更容易受到拉伸损伤可能与结缔组织数量较少有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Hand Surgery & Rehabilitation Medicine-Surgery

CiteScore

1.70

自引率

27.30%

发文量

审稿时长

49 days

期刊介绍： As the official publication of the French, Belgian and Swiss Societies for Surgery of the Hand, as well as of the French Society of Rehabilitation of the Hand & Upper Limb, ''Hand Surgery and Rehabilitation'' - formerly named "Chirurgie de la Main" - publishes original articles, literature reviews, technical notes, and clinical cases. It is indexed in the main international databases (including Medline). Initially a platform for French-speaking hand surgeons, the journal will now publish its articles in English to disseminate its author''s scientific findings more widely. The journal also includes a biannual supplement in French, the monograph of the French Society for Surgery of the Hand, where comprehensive reviews in the fields of hand, peripheral nerve and upper limb surgery are presented. Organe officiel de la Société française de chirurgie de la main, de la Société française de Rééducation de la main (SFRM-GEMMSOR), de la Société suisse de chirurgie de la main et du Belgian Hand Group, indexée dans les grandes bases de données internationales (Medline, Embase, Pascal, Scopus), Hand Surgery and Rehabilitation - anciennement titrée Chirurgie de la main - publie des articles originaux, des revues de la littérature, des notes techniques, des cas clinique. Initialement plateforme d''expression francophone de la spécialité, la revue s''oriente désormais vers l''anglais pour devenir une référence scientifique et de formation de la spécialité en France et en Europe. Avec 6 publications en anglais par an, la revue comprend également un supplément biannuel, la monographie du GEM, où sont présentées en français, des mises au point complètes dans les domaines de la chirurgie de la main, des nerfs périphériques et du membre supérieur.

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