Numerical Size Optimization of Cervical Spine Disc Prosthesis Mobi-C Using Design of Experiment Technics

IF 0.5 Q4 ENGINEERING, BIOMEDICAL Journal of Biomimetics, Biomaterials and Biomedical Engineering Pub Date : 2022-05-20 DOI:10.4028/p-jo58gu

K. Chenaifi, Cherif Ali Messellek, Y. Benabid

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Abstract

The cervical spine is a structure subject to various vertebral injuries, namely, herniation of intervertebral discs and osteoporosis. Nowadays, several segments of society are vulnerable to these diseases that affect spine motion especially elderly people and women. Hence, various designs of cervical artificial discs are in use or under investigation claiming to restore the normal kinematics of the cervical spine. In this work, it is proposed to minimize the stress level by numerical size optimization in the Mobi-C cervical spine prosthesis to improve their biomechanical performances. For this aim, design of experiment (DoE) is employed as an optimization technique to investigate three geometrical parameters of the prosthesis design. Accordingly, DoE optimization allowed to minimize the equivalent stress value on Mobi-C from 20.3 MPa to 17.856 MPa corresponding to a percentage decrease of 12% from the original geometry. This provides an advantage for the durability of the prosthesis and also for the bone by reducing stress concentration.

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基于实验技术设计的颈椎间盘假体Mobi-C的数值尺寸优化

颈椎是一种容易受到各种脊椎损伤的结构，即椎间盘突出症和骨质疏松症。如今，社会的一些阶层很容易受到这些影响脊椎运动的疾病的影响，尤其是老年人和妇女。因此，各种设计的颈椎人工椎间盘正在使用或正在研究中，声称可以恢复颈椎的正常运动学。在这项工作中，建议通过数值尺寸优化来最小化Mobi-C颈椎假体的应力水平，以提高其生物力学性能。为此，采用实验设计（DoE）作为一种优化技术来研究假体设计的三个几何参数。因此，DoE优化允许将Mobi-C上的等效应力值从20.3 MPa降至17.856 MPa，对应于比原始几何形状减少12%的百分比。这通过减少应力集中为假体的耐久性以及骨骼提供了优点。

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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来源期刊

Journal of Biomimetics, Biomaterials and Biomedical Engineering ENGINEERING, BIOMEDICAL-

CiteScore

1.40

自引率

14.30%

发文量