Design of Composite Hip Prostheses Considering the Long-Term Behavior of the Femur
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概要
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A design method for the hip prosthesis is proposed which can alleviate problems associated with stress shielding, proximal loosening and the high stress of bone-implant interfaces after total hip replacement. The stress shielding which may lead to bone resorption, can cause a loosening of the stem and a fracture of femoral bone. Generally the composites were more suitable for hip prosthesis material in the long-term stability than metallic alloy because design cases of composite materials produced less stress shielding than titanium alloy. A bone remodeling algorithm was implemented in a nonlinear finite element program to predict the long-term performance of the hip prosthesis. The three neck shapes and three cross sections of composite hip were examined. It was found that the stress concentration in the distal region of the titanium stem which may cause the patient's thigh pains was reduced using composite material. The head neck shape was closely related with the cortical bone resorption and the cancellous bone apposition at proximal region whereas the cross-section was closely related with the relative micromotion between interfaces. The convex head neck type with the quadrangle cross-section produced less subsidence at proximal region on the medial side than the others. For all composite material cases, the cancellous bone apposition occurred at partial interfaces, which may result in a stable bio-fixation. The design performances of the convex neck head type with the hexagonal cross-section designed to insure the long-term stability were found to be more suitable than the others.
- 一般社団法人日本機械学会の論文
- 2003-09-15
著者
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LIM Jong
Department of Materials Science & Engineering, Sungkyunkwan University
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HA Sung
Department of Therapeutic Radiology, Seoul National University College of Medicine
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Ha S
Department Of Mechanical Engineering Hanyang University
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Ha Sung
Department Of Mechanical Engineering Hanyang University
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Jeong Jae
Bk 21 Division For Research And Education Hanyang University
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Lim Jong
Department Of Mechanical Design And Production Hanyang University
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Lim Jong
Department Of Advanced Materials Science And Engineering Sungkyunkwan University
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Lim Jong
Department of Advanced Materials Engineering, Sungkyunkwan University, Suwon, Gyunggi-do 440-746, Korea
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