近端腓骨截骨术对膝关节接触压力的生物力学影响的模拟研究

IF 1.7 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Jorge Eduardo Morales-Avalos , Rodolfo Morales-Avalos , Karla V. Martínez-Guajardo , Simone Perelli , Joan Carles Monllau , Antonio J. Sánchez Egea , Gil Serrancolí
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引用次数: 0

摘要

这项工作的目的是研究在膝关节上进行腓骨近端截骨术(PFO)对不同曲度/外翻畸形膝关节的生物力学影响,以及对膝关节骨性关节炎(KOA)进展的影响。设计了一个由股骨、胫骨和腓骨以及连接它们的软骨组成的人体下肢有限元分析(FEA)模型。有限元分析是在静态站立的原始姿势下进行的,以确定接触压力(CP)的分布和压力中心(CoP)的位置。分析研究了这些因素与基线状态下髋膝角变形程度之间的关系。结果表明,对于伴有膝外翻的患者来说,PFO 是一种简单有效的手术治疗方法。该研究还报告称,PFO术后可对内侧屈曲畸形进行CP同质化和CoP矫正。然而,它对胫骨起源外翻错位的疗效降低,对股骨外翻错位的疗效恶化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

In-silico study of the biomechanical effects of proximal-fibular osteotomy on knee joint contact pressure in varus-valgus misalignment

In-silico study of the biomechanical effects of proximal-fibular osteotomy on knee joint contact pressure in varus-valgus misalignment

The aim of this work is to investigate in-silico the biomechanical effects of a proximal fibular osteotomy (PFO) on a knee joint with different varus/valgus deformities on the progression of knee osteoarthritis (KOA). A finite element analysis (FEA) of a human lower extremity consisting of the femoral, tibial and fibular bones and the cartilage connecting them was designed. The FEA was performed in a static standing primitive position to determine the contact pressure (CP) distribution and the location of the center of pressure (CoP). The analysis examined the relationship between these factors and the degree of deformation of the hip-knee angle in the baseline condition. The results suggested that PFO could be a simple and effective surgical treatment for patients with associated genu varum. This work also reported that a possible CP homogenization and a CoP correction can be achieved for medial varus deformities after PFO. However, it reduced its effectiveness for tibial origin valgus misalignment and worsened in cases of femoral valgus misalignment.

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来源期刊
Medical Engineering & Physics
Medical Engineering & Physics 工程技术-工程:生物医学
CiteScore
4.30
自引率
4.50%
发文量
172
审稿时长
3.0 months
期刊介绍: Medical Engineering & Physics provides a forum for the publication of the latest developments in biomedical engineering, and reflects the essential multidisciplinary nature of the subject. The journal publishes in-depth critical reviews, scientific papers and technical notes. Our focus encompasses the application of the basic principles of physics and engineering to the development of medical devices and technology, with the ultimate aim of producing improvements in the quality of health care.Topics covered include biomechanics, biomaterials, mechanobiology, rehabilitation engineering, biomedical signal processing and medical device development. Medical Engineering & Physics aims to keep both engineers and clinicians abreast of the latest applications of technology to health care.
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