Which tendon graft to choose for anatomical ligament reconstruction in chronic lateral ankle instability? A biomechanical study.

IF 2.3 3区医学 Q2 ORTHOPEDICS

Orthopaedics & Traumatology-Surgery & Research Pub Date : 2024-10-03 DOI:10.1016/j.otsr.2024.104017

Corentin Philippe, Sophie Palierne, Didier Mathon, François Lintz, David Ancelin

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引用次数: 0

Abstract

Background: The need for anatomic lateral ligament reconstruction of the ankle continues to grow. This procedure usually requires a gracilis autograft or in some cases an allograft. Siegler et al. reported the mechanical characteristics of the collateral lateral ligaments of the human ankle: 231 ± 129 N for the ATFL and 307 ± 142 N for the CFL. The objective of this study was to evaluate the mechanical properties of different tendon grafts available for ATFL and CFL reconstruction. We hypothesized that the properties of the tested grafts are not inferior to the published values of those of the original ligaments on the lateral side of the ankle.

Methods: This was a comparative biomechanical study using 6 cadaver specimens (108 grafts): The biomechanical properties of nine types of grafts were determined using validated tensile testing methods: Gracilis, SemiT, EHL, FHL, Plantaris, Peroneus longus and brevis, TA and TP. The main outcome measure was the comparison of the mechanical properties of each single-stranded tendon with each other and with the known values for the ATFL and CFL, during a uniaxial static rupture test.

Results: The mean load to failure for the gracilis was 257.5 ± 52.9 N. The groups had similar mean values in terms of the maximum load that they could withstand before failing except for the plantaris (137.9 ± 33.7 N) which was statistically lower than all other tested tendons (p < 0,01). The mean load to failure values of the grafts tested were equal or higher than that of the ATFL and CFL reported by Siegler et al. [14]: 231 ± 129 N for the ATFL and 307 ± 142 N for the CFL, while the grafts tested here had mean failure load between 258 ± 53 N and 464 ± 136 N.

Conclusion: The gracilis, peroneus longus/brevis, EHL, FHL, TA, TP and semiT are legitimate grafts for combined ATFL and CFL reconstruction in the ankle. These tendons have mechanical properties (load to failure, maximum strain at failure and stiffness) that are equal to or higher than the native ligaments on the lateral side of the ankle, except the plantaris.

Clinical relevance: This study validates the current use of the gracilis autograft for the anatomical reconstruction of the ATFL and CFL, and even provides proof that other tendons would be suitable for this anatomical reconstruction of the lateral ankle ligament by auto or even allograft under certain conditions.

Level of evidence: Descriptive laboratory study.

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慢性外踝不稳的解剖韧带重建应选择哪种肌腱移植？一项生物力学研究。

背景：解剖性踝关节外侧韧带重建的需求不断增长。这种手术通常需要腓肠肌自体移植，有时也需要异体移植。Siegler 等人报告了人类踝关节侧副韧带的机械特性：ATFL 为 231 ± 129 N，CFL 为 307 ± 142 N。本研究的目的是评估可用于 ATFL 和 CFL 重建的不同肌腱移植物的机械特性。我们假设所测试的移植物特性不低于已公布的踝关节外侧原始韧带的特性值：这是一项使用 6 个尸体标本（108 块移植物）进行的生物力学比较研究：采用有效的拉伸测试方法测定了九种移植物的生物力学特性：这些移植物包括：腓肠肌、半腓肠肌、EHL、FHL、跖肌、腓肠肌、TA 和 TP。主要结果指标是在单轴静态断裂测试中比较每种单股肌腱的机械性能，以及 ATFL 和 CFL 的已知值：腓肠肌的平均破坏载荷为 257.5 ± 52.9 N。除了跖腱（137.9 ± 33.7 N）在统计学上低于所有其他受测肌腱外，其他各组肌腱在失效前可承受的最大载荷的平均值相似（p 结论：在单轴静态断裂测试中，腓肠肌和腓肠肌肌腱在失效前可承受的最大载荷的平均值相似：腓肠肌、腓骨长肌/腓骨肌、EHL、FHL、TA、TP 和 semiT 是踝关节 ATFL 和 CFL 联合重建的合法移植物。这些肌腱的机械性能（失效载荷、失效时最大应变和刚度）等于或高于踝关节外侧的原生韧带，但跖肌除外：临床相关性：这项研究验证了目前使用腓肠肌自体移植物进行 ATFL 和 CFL 解剖重建的有效性，甚至证明了在特定条件下，其他肌腱也适合通过自体移植物甚至异体移植物进行外侧踝关节韧带的解剖重建：描述性实验室研究。

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

Orthopaedics & Traumatology-Surgery & Research 医学-外科

CiteScore

5.10

自引率

26.10%

发文量

329

审稿时长

12.5 weeks

期刊介绍： Orthopaedics & Traumatology: Surgery & Research (OTSR) publishes original scientific work in English related to all domains of orthopaedics. Original articles, Reviews, Technical notes and Concise follow-up of a former OTSR study are published in English in electronic form only and indexed in the main international databases.