Numerical Modeling of the Capsular Ligament Failure for the C2-C3 Segment in the Case of a Frontal Impact

IF 0.5 Q4 ENGINEERING, BIOMEDICAL
N. Damba, B. Aour, A. Oudrane, Lamsadfa Sidamar
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Abstract

The cervical spine is a complex anatomical structure that mainly stabilizes the head and protects the spinal cord. Injuries of the cervical spine often occur during falls or road accidents and are particularly serious since they generate strong threats of paralysis and death. It should be noted that the ligaments provide cervical stability but their stabilization in case of injury is not yet well investigated. In this context, the objective of the present work is to study the failure of the ligaments by developing a bio-faithful numerical model while using a more realistic geometry of the spinal components and behavior laws that take into account the effect of strain rate and motion amplitudes. In order to validate the results of the study, we conducted a comparison with previous literature studies. It has been found that damage is often supported by intervertebral discs, anterior longitudinal ligaments (ALL) and capsular ligaments (CL) in the case of frontal impact. Indeed, the highest stresses are concentrated in the annulus fibrosus and the capsular ligaments. In this study, we tested the effect of ligament tears on disc behavior, where it was found that the stress rate increased by approximately 6%. The effect of capsular ligament tear orientation was also examined. The obtained results show that the most dangerous inclination was downward at an angle of 45°.
正面碰撞时C2-C3节段囊韧带损伤的数值模拟
颈椎是一个复杂的解剖结构,主要用于稳定头部和保护脊髓。颈椎损伤经常发生在跌倒或道路事故中,尤其严重,因为它们会产生瘫痪和死亡的强烈威胁。应该注意的是,韧带提供了颈部的稳定性,但在受伤的情况下它们的稳定性还没有得到很好的研究。在这种情况下,本工作的目的是通过开发一个生物忠实的数值模型来研究韧带的失效,同时使用考虑应变率和运动幅度影响的脊椎组件的更真实的几何形状和行为规律。为了验证研究结果,我们与以前的文献研究进行了比较。研究发现,在正面撞击的情况下,损伤通常由椎间盘、前纵向韧带(ALL)和囊膜韧带(CL)支撑。事实上,最高的应力集中在纤维环和包膜韧带。在这项研究中,我们测试了韧带撕裂对椎间盘行为的影响,发现应力率增加了约6%。还检查了囊膜韧带撕裂方向的影响。结果表明,最危险的倾角是向下倾斜45°。
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
CiteScore
1.40
自引率
14.30%
发文量
73
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