Biomechanical Comparison of 5 Different Fixation Constructs in a Trapeziometacarpal Joint Arthrodesis Model.

IF 2.1 2区医学 Q2 ORTHOPEDICS Journal of Hand Surgery-American Volume Pub Date : 2024-10-01 Epub Date: 2023-02-09 DOI:10.1016/j.jhsa.2022.12.010

Ranjit Sehjal, Wan Rusli, Angela E Kedgley, Markus Ludwig Sagmeister, Mark Williamson, Andrew Smith

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Abstract

Purpose: Trapeziometacarpal joint (TMC) arthrodesis has a high rate of nonunion. This biomechanical analysis sought to determine the stiffness of 5 fixation methods in a TMC joint arthrodesis model.

Methods: Five fixation constructs were tested in a validated porcine model: crossed 1.1-mm K-wires, crossed 1.6-mm K-wires, crossed headless compression screws (HCSs), compression plating (CP), and locked compression plating (LCP). The cantilever bending stiffness was measured in abduction, adduction, flexion, and extension. Samples were loaded to failure in extension, and the mode of failure was examined.

Results: The crossed HCSs performed consistently well in all tests. Loading to failure resulted in screw pullout. In abduction and adduction, HCS and 1.6-mm K-wires were significantly stiffer than the other constructs. The mean load to failure in extension was similar in the HCS, CP, and LCP groups (304 N/mm, 311 N/mm, and 293 N/mm, respectively). There were no differences between CP and LCP in any biomechanical tests, and the mode of failure was through plate bending. The crossed 1.1-mm K-wires performed poorly in all tests.

Conclusions: Crossed HCS displayed the greatest overall stability. Standard plating in compression mode and LCP had a similar biomechanical performance.

Clinical relevance: The ideal construct stiffness required for the successful union after TMC joint arthrodesis is unknown, but HCS has the best overall biomechanical performance and, therefore, might be considered the best choice for this clinical setting.

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5 种不同固定结构在梯形掌关节模型中的生物力学比较

目的：梯形掌关节（TMC）的关节固定术有很高的不愈合率。这项生物力学分析旨在确定 5 种固定方法在 TMC 关节置换模型中的硬度：在经过验证的猪模型中测试了五种固定结构：1.1 毫米交叉 K 线、1.6 毫米交叉 K 线、交叉无头加压螺钉（HCS）、加压钢板（CP）和锁定加压钢板（LCP）。在外展、内收、屈曲和伸展时测量悬臂弯曲刚度。样品在伸展状态下加载至失效，并检查失效模式：结果：交叉 HCS 在所有测试中均表现良好。加载至失效会导致螺钉拉出。在内收和外展时，HCS和1.6毫米K线的硬度明显高于其他结构。在伸展时，HCS、CP 和 LCP 组的平均失效载荷相似（分别为 304 牛/毫米、311 牛/毫米和 293 牛/毫米）。CP 和 LCP 在任何生物力学测试中均无差异，其破坏模式为钢板弯曲。交叉的 1.1 毫米 K 线在所有测试中的表现都很差：结论：交叉 HCS 显示出最大的整体稳定性。结论：交叉 HCS 显示出最大的整体稳定性，压缩模式下的标准钢板和 LCP 具有相似的生物力学性能：临床意义：TMC 关节置换术后成功结合所需的理想结构刚度尚不清楚，但 HCS 具有最佳的整体生物力学性能，因此可被视为该临床环境下的最佳选择。

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

Journal of Hand Surgery-American Volume 医学-外科

CiteScore

3.20

自引率

10.50%

发文量

402

审稿时长

12 weeks

期刊介绍： The Journal of Hand Surgery publishes original, peer-reviewed articles related to the pathophysiology, diagnosis, and treatment of diseases and conditions of the upper extremity; these include both clinical and basic science studies, along with case reports. Special features include Review Articles (including Current Concepts and The Hand Surgery Landscape), Reviews of Books and Media, and Letters to the Editor.