Finite element analysis of the Fibula's contribution to lower extremity torsional stiffness

IF 1.5 Q3 ORTHOPEDICS Journal of orthopaedics Pub Date : 2024-10-09 DOI:10.1016/j.jor.2024.10.007
Angelo Alito , Andrea Vitali , Antongiulio Bruschetta , Elvira Maria Mantineo , Vincenzo Filardi
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Abstract

Aims

The purpose of this article is to investigate the effects of the fibula on the torsional stiffness of the lower limb. A comprehensive model of the lower limb was constructed, including the resected femur, patella, tibia, fibula, and foot, with tendons and ligaments. Two configurations were developed, with and without the presence of the fibula, to evaluate the resulting stress state and consequently determine the contribution of the fibula to the torsional stiffness of the lower limb.

Methods

The finite element method was used to analyse how the fibula affects the stress distribution in the lower extremity under body weight loading and torsional forces. A detailed three-dimensional solid model of the lower extremity with and without the fibula was constructed. Loading conditions were imposed simulating an axial compressive load of 700 N applied to the upper extremity of the resected femur and a torsional load of 6000 Nmm applied to the proximal femur, and a fixed constraint was imposed on the foot.

Results

Removing the fibula results in an increase in stress on all the tendons and ligaments tested. The increases ranged from 4 % (patellar tendon) to 21 % (lateral retinaculum). This suggests that the fibula plays a significant role in the distribution of mechanical stress in the lower extremity. The most affected structures are the lateral retinaculum and the posterior cruciate ligament, both with a 21 % increase in stress, suggesting that these structures may compensate more for the absence of the fibula.

Conclusion

The fibula plays a critical role in maintaining the structural integrity and biomechanical function of the lower extremity. It acts as a lateral strut, contributing to the stability of the ankle and knee by providing an attachment point for several muscles and ligaments that are essential for coordinating complex movements and providing stability during dynamic activities.
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腓骨对下肢扭转刚度贡献的有限元分析
本文旨在研究腓骨对下肢扭转刚度的影响。我们构建了一个下肢综合模型,包括切除的股骨、髌骨、胫骨、腓骨和足,以及肌腱和韧带。采用有限元法分析了腓骨在体重负荷和扭转力作用下如何影响下肢的应力分布。构建了一个详细的带腓骨和不带腓骨的下肢三维实体模型。加载条件是模拟对切除股骨上端施加 700 牛顿的轴向压缩载荷,对股骨近端施加 6000 牛顿的扭转载荷,并对足部施加固定约束。增加幅度从 4%(髌腱)到 21%(外侧腱网)不等。这表明,腓骨在下肢机械应力分布中起着重要作用。受影响最大的结构是外侧韧带和后交叉韧带,两者的应力均增加了 21%,这表明这些结构可能会对腓骨的缺失起到更大的补偿作用。腓骨起着外侧支柱的作用,为协调复杂运动和在动态活动中提供稳定性所必需的几块肌肉和韧带提供附着点,从而为踝关节和膝关节的稳定性做出贡献。
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来源期刊
CiteScore
3.50
自引率
6.70%
发文量
202
审稿时长
56 days
期刊介绍: Journal of Orthopaedics aims to be a leading journal in orthopaedics and contribute towards the improvement of quality of orthopedic health care. The journal publishes original research work and review articles related to different aspects of orthopaedics including Arthroplasty, Arthroscopy, Sports Medicine, Trauma, Spine and Spinal deformities, Pediatric orthopaedics, limb reconstruction procedures, hand surgery, and orthopaedic oncology. It also publishes articles on continuing education, health-related information, case reports and letters to the editor. It is requested to note that the journal has an international readership and all submissions should be aimed at specifying something about the setting in which the work was conducted. Authors must also provide any specific reasons for the research and also provide an elaborate description of the results.
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