Finite element model with realistic bone geometries for the optimal design of internal fixation during the fibula healing process.

IF 1.7 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Yafeng Li, Peng Yi, Zichun Zou, Fengyuan Lu, Xi Zhang, Jing Zhang
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引用次数: 0

Abstract

A finite element model with realistic bone geometries is developed to design optimal internal fixation during the fibula healing process in this study. The effect of bone plate parameters on fibula fracture healing is studied. The relationship between differences in plate length, thickness and working length, and bone healing performance is focused. The optimal combination form of the bone plate parameters was selected by the orthogonal experimental design and fracture block strain to achieve bone healing maximize the performance. The model results show that the maximum equivalent force of the bone plate was below the material yield limit; the higher mean contact stresses in the bone fragments indicate that the bone plate is prone to higher contact stresses when they are long. The working length of the bone plate has a greater effect on callus healing than the thickness and length of the bone plate. The optimal internal fixation option for distal fibula fractures is achieved when it provides the stability required for internal fixation during bone healing. It ensures lower contact stresses in the fibula as well as maximum Young's modulus during callus healing process.

在腓骨愈合过程中优化内固定设计的具有真实骨骼几何形状的有限元模型。
本研究建立了一个具有真实骨骼几何形状的有限元模型,用于设计腓骨愈合过程中的最佳内固定。研究了骨板参数对腓骨骨折愈合的影响。重点研究了骨板长度、厚度和工作长度的差异与骨愈合性能之间的关系。通过正交实验设计和骨折块应变筛选出骨板参数的最佳组合形式,实现骨愈合性能最大化。模型结果表明,骨板的最大等效应力低于材料屈服极限;骨碎片的平均接触应力较高,说明骨板较长时容易产生较大的接触应力。与骨板的厚度和长度相比,骨板的工作长度对胼胝愈合的影响更大。腓骨远端骨折的最佳内固定方案是在骨愈合过程中提供内固定所需的稳定性。它能确保在胼胝愈合过程中降低腓骨的接触应力并获得最大的杨氏模量。
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
CiteScore
3.60
自引率
5.60%
发文量
122
审稿时长
6 months
期刊介绍: The Journal of Engineering in Medicine is an interdisciplinary journal encompassing all aspects of engineering in medicine. The Journal is a vital tool for maintaining an understanding of the newest techniques and research in medical engineering.
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