儿童多孔柄人工髋关节的有限元分析

D. P. Malau, M. S. Utomo, D. Annur, T. Asmaria, Yogi Prabowo, A. Rahyussalim, S. Supriadi, M. I. Amal
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引用次数: 7

摘要

股骨应力屏蔽是髋关节置换术无菌性松动或失败的重要因素。为了减少应力屏蔽的影响,并在假体的其他区域保持可接受的低水平应力,本文考虑了儿童患者多孔茎髋关节假体的发展。采用有限元模拟方法,计算并分析了股骨近端多孔杆内的应力。就机械强度而言,开发的模型被认为是安全的。多孔区对应力分布没有显著影响,但会产生相当大的压应变。股骨应力屏蔽是髋关节置换术无菌性松动或失败的重要因素。为了减少应力屏蔽的影响,并在假体的其他区域保持可接受的低水平应力,本文考虑了儿童患者多孔茎髋关节假体的发展。采用有限元模拟方法,计算并分析了股骨近端多孔杆内的应力。就机械强度而言,开发的模型被认为是安全的。多孔区对应力分布没有显著影响,但会产生相当大的压应变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Finite element analysis of porous stemmed hip prosthesis for children
Femur bone stress shielding is known to be a significant factor in aseptic loosening or failure of hip replacements. This paper considers the development of a porous stemmed hip implant for children patient in order to reduce the effects of stress shielding and also maintaining acceptably low levels of stress in other areas of prosthesis. By using finite element modeling, the stresses in the proximal femur using porous stem were calculated and analyzed. The developed model is considered safe in terms of mechanical strength. The porous region does not bring significant effect on stress distribution but produces a considerable amount of compressive strain.Femur bone stress shielding is known to be a significant factor in aseptic loosening or failure of hip replacements. This paper considers the development of a porous stemmed hip implant for children patient in order to reduce the effects of stress shielding and also maintaining acceptably low levels of stress in other areas of prosthesis. By using finite element modeling, the stresses in the proximal femur using porous stem were calculated and analyzed. The developed model is considered safe in terms of mechanical strength. The porous region does not bring significant effect on stress distribution but produces a considerable amount of compressive strain.
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