Contact Pressure, sliding distance and wear rate analysis at trunnion of hip implant for daily Activities: A finite element approach

IF 5.3 2区医学 Q1 ENGINEERING, BIOMEDICAL

Biocybernetics and Biomedical Engineering Pub Date : 2025-02-24 DOI:10.1016/j.bbe.2025.02.001

Md Mohiuddin Soliman , Mohammad Tariqul Islam , Phumin Kirawanich , Muhammad E.H. Chowdhury , Touhidul Alam , Ayed M. Alrashdi , Norbahiah Misran , Mohamed S. Soliman

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引用次数: 0

Abstract

This research analyses contact pressure, sliding distance, and wear rate at the trunnion interface of hip implants during various activities to understand post-hip replacement outcomes. The study uses a numerical model and ISO-7206–6:2013 constraints with an AML hip implant. Greater F_x, F_y, and F_z forces broaden contact pressure distribution. The highest pressure occurs on the proximal superolateral surface, with the lowest on the anterior and posterior surfaces. The HIGH100 (individuals weighing above 100 kg) weight category demonstrates 2 times higher maximum and average contact pressure compared to AVG75 (individuals weighing 75 kg) for sit-down and knee bend activities. Force components and the duration of a full gait cycle influence sliding distance. Stance activities show the highest sliding distance due to rapid changes in force load during the gait cycle. For sit-down and knee bend activities, the total sliding distance is 2.5 times higher in the HIGH100 weight category compared to AVG75. Sliding distance primarily occurs at the proximal superolateral-inferomedial-anterior-posterior contact surface, decreasing distally. Based on contact pressure, sliding distance, and wear volume rate, jogging and stance activities pose the highest risk for hip replacement patients, while cycling is the safest. The HIGH100 weight group exhibits 5- and 4-times greater wear volume rates than AVG75 in sit-down and knee bend activities, respectively. The research findings align with wear degradation observed in retrieved hip implants, validating the study. These insights can assist patients in making informed decisions about performing activities after surgery while enabling physicians to provide accurate guidelines.

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髋关节耳轴日常活动接触压力、滑动距离及磨损率分析：有限元方法

本研究分析了各种活动中髋关节植入体耳轴界面的接触压力、滑动距离和磨损率，以了解髋关节置换术后的结果。该研究使用数值模型和ISO-7206-6:2013对AML髋关节植入物的约束。较大的Fx， Fy和Fz力扩大接触压力分布。最大的压力发生在近外侧表面，最小的压力发生在前、后表面。与AVG75（体重75公斤）相比，HIGH100（体重超过100公斤的人）的最大接触压力和平均接触压力高出2倍。力的组成和一个完整的步态周期的持续时间影响滑动距离。由于在步态周期中力负荷的快速变化，站立活动显示出最高的滑动距离。对于坐下和屈膝活动，HIGH100重量类别的总滑动距离是AVG75的2.5倍。滑动距离主要发生在近侧上外侧-内侧内侧-前后接触面，远端逐渐减少。基于接触压力、滑动距离和磨损量率，慢跑和站立活动对髋关节置换术患者的风险最高，而骑自行车最安全。HIGH100重量组在坐下和膝盖弯曲活动中分别表现出比AVG75高5倍和4倍的磨损体积率。研究结果与回收髋关节植入物观察到的磨损退化一致，验证了研究结果。这些见解可以帮助患者在手术后进行活动时做出明智的决定，同时使医生能够提供准确的指导。

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

Biocybernetics and Biomedical Engineering ENGINEERING, BIOMEDICAL-

CiteScore

16.50

自引率

6.20%

发文量

审稿时长

38 days

期刊介绍： Biocybernetics and Biomedical Engineering is a quarterly journal, founded in 1981, devoted to publishing the results of original, innovative and creative research investigations in the field of Biocybernetics and biomedical engineering, which bridges mathematical, physical, chemical and engineering methods and technology to analyse physiological processes in living organisms as well as to develop methods, devices and systems used in biology and medicine, mainly in medical diagnosis, monitoring systems and therapy. The Journal''s mission is to advance scientific discovery into new or improved standards of care, and promotion a wide-ranging exchange between science and its application to humans.