Comparison of different internal fixation implants in the treatment of talar neck fractures: A finite element analysis.

IF 1.9 Q2 ORTHOPEDICS Joint diseases and related surgery Pub Date : 2024-01-01 Epub Date: 2023-11-02 DOI:10.52312/jdrs.2023.1280

Xin Fu, Hong-Bin Cao, Nan Li, Gui-Xin Wang, Jin-Quan He

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Abstract

Objectives: This study aimed to analyze the biomechanics of cannulated screws (CS) with or without a lateral locking plate (LLP) in talar neck fractures through a finite element analysis.

Patients and methods: The computed tomography image of the talus from a healthy volunteer (adult male) was used to reconstruct a three-dimensional talar model. The method for fixing talar neck fractures with CS and an LLP was planned using computer-aided design software. Afterward, the three-dimensional models of comminuted talar neck fractures were used to simulate fixation with anteroposterior parallel dual CS, single CS+LLP, and dual CS+LLP. Finally, finite element analysis was carried out to compare the outcomes of dual CS+LLP to those of single CS+LLP and to those of using dual CS alone. The displacement and von Mises stress values of the three groups with different internal fixation were analyzed.

Results: For a simple talar neck fracture, the lowest amount of displacement was obtained with CS+LLP (0.407 mm), while dual CS (0.459 mm) showed the highest amount of total displacement; the lowest amount of peak stresses was obtained with CS+LLP (5.38 MPa), while dual CS (8.749 MPa) showed the highest amount of total peak stresses. For a comminuted talar neck fracture, the lowest amount of displacement was obtained with CS+LLP (0.398 mm), while dual CS (0.408 mm) showed the highest amount of total displacement; the lowest amount of peak stresses was obtained with CS+LLP (129.9 MPa), while dual CS (205.9 MPa) showed the highest amount of peak stresses.

Conclusion: Compared to the other two groups, the dual CS+LLP group had better biomechanics properties in the displacement and stress peak of the talus and implant. Thus, the use of dual CS+LLP fixation is recommended for the surgical treatment of comminuted talar neck fractures.

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比较不同的内固定植入物治疗距骨颈骨折：有限元分析

研究目的本研究旨在通过有限元分析，分析带或不带外侧锁定钢板（LLP）的套管螺钉（CS）在距骨颈骨折中的生物力学：使用健康志愿者（成年男性）的距骨计算机断层扫描图像重建三维距骨模型。使用计算机辅助设计软件规划了用 CS 和 LLP 固定距骨颈骨折的方法。随后，利用粉碎性距骨颈骨折的三维模型模拟了前后平行双 CS、单 CS+LLP 和双 CS+LLP 固定。最后，进行了有限元分析，以比较双 CS+LLP 与单 CS+LLP 和单独使用双 CS 的结果。结果：对于单纯性距骨颈骨折，CS+LLP 的位移量最小（0.407 mm），而双 CS 的总位移量最大（0.459 mm）；CS+LLP 的峰值应力最小（5.38 MPa），而双 CS 的总峰值应力最大（8.749 MPa）。对于粉碎性距骨颈骨折，CS+LLP 的位移量最小（0.398 毫米），而双 CS 的总位移量最大（0.408 毫米）；CS+LLP 的峰值应力最小（129.9 兆帕），而双 CS 的峰值应力最大（205.9 兆帕）：结论：与其他两组相比，双 CS+LLP 组在距骨和植入物的位移和应力峰值方面具有更好的生物力学特性。因此，在手术治疗粉碎性距骨颈骨折时，推荐使用 CS+LLP 双固定。

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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Joint diseases and related surgery

CiteScore

2.50

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0.00%

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