全髋关节置换术中骨水泥用量的优化及影响因素

IF 0.5 Q4 ENGINEERING, BIOMEDICAL Journal of Biomimetics, Biomaterials and Biomedical Engineering Pub Date : 2023-05-31 DOI:10.4028/p-us013z
Ali Djenaoui, B. Boutabout, M. Bouziane, A. Miloudi, Djebbar Noureddine
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引用次数: 0

摘要

本研究的目的是确定几个参数的理想值,如聚乙烯衬垫外径,杯的杨氏模量,以及聚乙烯衬垫接触面积与髋臼壳和双活动杯假体头部之间的摩擦系数。由于骨水泥(PMMA)是全髋关节置换术(THA)中最薄弱的组成部分,骨/水泥界面应力的降低对于确保髋臼双活动杯(DMC)的良好固定至关重要。采用三维有限元法(FEM)和实验设计方法(EDA)对PE衬垫尺寸、杯杯刚度和摩擦系数等4个因素进行了优化。数值结果表明,半球形衬套尺寸、杯的力学特性、股骨头的表面状态、衬套PE和壳构件都会影响骨水泥的机械强度。防止骨水泥破裂,使全髋关节置换术无效。使用该方法确定骨水泥中最大von Mises应力的最佳值。数值结果表明,当骨杯的杨氏模量增大时,骨水泥中的最大应力减小,直至达到最小值。然而,骨水泥中的最大应力随着PE衬垫外径的增加而增加。由于最大应力仍低于骨水泥屈服应力,因此尽管应力值增加,人工髋关节仍被认为是安全的。
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Optimization and the Impact of Various Factors on the Orthopedic Cement Used in the Total Hip Arthroplasty
The aim of the present investigation is to determine the ideal values for several parameters, such as the external diameter of the polyethylene liner, the Young's modulus of the cup, and the friction coefficients between the polyethylene liner's contact area and the acetabular shell and prosthetic head of the dual-mobility cup. Reduced stresses at the bone/cement interface are crucial for ensuring a well-fixed dual-mobility cup (DMC) with the acetabulum because orthopedic cement (PMMA) is the weakest component of total hip arthroplasty (THA). Four factors, such as the PE liner size, the rigidity of the cup, and the friction coefficients, are optimized using the three-dimensional finite element method (FEM) and experimental design approach (EDA). The numerical results show that the hemispherical-liner size, mechanical characteristics of the cup, surface state of the femoral head, liner PE, and shell components all influence the mechanical strength of the bone cement. To prevent fracturing the bone cement, which would render the total hip arthroplasty ineffective. The optimal values of the maximum von Mises stress in bone cement will be determined using this methodology. The numerical outcome shows that when the Young's modulus of the cup rises, the maximum stress in bone cement falls until it reaches a minimal value. The maximum stress in bone cement, however, increases as the PE liner's exterior diameter increases. Because the maximum stress is still below the yield stress of bone cement, the artificial hip joint is still considered safe despite the increased stress value.
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CiteScore
1.40
自引率
14.30%
发文量
73
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