Mathematical Standard-Parameters Dual Optimization for Metal Hip Arthroplasty Wear Modelling with Medical Physics Applications

Standards Pub Date : 2021-09-07 DOI:10.3390/standards1010006
F. Casesnoves
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引用次数: 3

Abstract

Total hip metal arthroplasty (THA) constitutes an important proportion of the standard clinical hip implant usage in Medical Physics and Biomedical Engineering. A computational nonlinear optimization is performed with two commonly metal materials in Metal-on-Metal (MoM) THA. Namely, Cast Co-Cr Alloy and Titanium. The principal result is the numerical determination of the K adimensional-constant parameter of the model. Results from a new more powerful algorithm than previous contributions, show significant improvements. Numerical standard figures for dual optimization give acceptable model-parameter values with low residuals. These results are demonstrated with 2D and 3D Graphical/Interior Optimization also. According to the findings/calculations, the standard optimized metal-model parameters are mathematically proven and verified. Mathematical consequences are obtained for model improvements and in vitro simulation methodology. The wear magnitude for in vitro determinations with these model parameter data constitute the innovation of the method. In consequence, the erosion prediction for laboratory experimental testing in THA adds valuable information to the literature. Applications lead to medical physics improvements for material/metal-THA designs.
金属髋关节置换术磨损建模的数学标准-参数双优化与医学物理应用
全髋关节金属置换术(THA)是医学物理和生物医学工程中标准临床髋关节植入物使用的重要组成部分。在金属对金属(MoM)结构中,对两种常见的金属材料进行了非线性优化计算。即铸造钴铬合金和钛。主要结果是模型K维常数参数的数值确定。从一个新的更强大的算法比以前的贡献,显示出显着的改进。双优化的数值标准图给出了可接受的模型参数值,残差低。这些结果也在2D和3D图形/内部优化中得到了验证。根据研究结果/计算,对标准优化金属模型参数进行了数学证明和验证。得到了模型改进和体外模拟方法的数学结果。利用这些模型参数数据体外测定磨损量是该方法的创新之处。因此,对THA实验室试验测试的侵蚀预测为文献增加了有价值的信息。应用导致材料/金属tha设计的医学物理改进。
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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