Shape Opimization of Femoral Components of an Artificial Hip Prosthesis Using the Three-Dimensional P-Version Finite Element Method

Advances in Bioengineering Pub Date : 2001-11-11 DOI:10.1115/imece2001/bed-23012
M. Higa, I. Nishimura, H. Tanino, Y. Mitamura
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Abstract

The three-dimensional shape optimization of cemented total hip arthroplasty (THA) was introduced in this paper. The P-version Finite Element Method (FEM) combined with an optimization procedure was used to minimize the peak stress in the bone cement near the tip of the implant. Six-design variables were used in this study. Each variable represents the dimension of the medial-lateral width and anterior-posterior width of the three levels (proximal, distal and middle) of cross sectional area of the prosthesis. The results of the design optimization showed considerable reduction in stress concentration compared to the initial design that is currently used clinically.
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三维p型有限元法优化人工髋关节假体股骨假体的形状
介绍了骨水泥全髋关节置换术(THA)的三维形状优化。采用p型有限元法(FEM)结合优化程序最小化种植体尖端附近骨水泥的峰值应力。本研究使用了6个设计变量。每个变量代表假体横截面积的三个水平(近端、远端和中端)的内外侧宽度和前后宽度的尺寸。设计优化的结果显示,与目前临床使用的初始设计相比,应力集中程度显著降低。
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Advances in Bioengineering
Advances in Bioengineering
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