应用IAR的概念建立正常、退变和融合颈椎的数学模型

A. Meghdari, A. Bahrami
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引用次数: 0

摘要

在头颈系统的屈伸过程中,颈椎经历了从上到下的逐步运动,并有一定的滞后时间。每个椎骨的运动由相对于下椎骨的平移和旋转组成,这可以被认为是围绕一个称为瞬时旋转轴(IAR)的轴的绝对旋转。这个轴的位置在正常和退化的脊柱之间是不同的。在本研究中,采用基于IAR概念的头颈系统生物力学模型,评估和比较了正常,退化和融合受试者的节段间力力矩,并给出了结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mathematical Modeling of Normal, Degenerated, and Fused Cervical Spines Using IAR’S Concept
During flexion/extension, of the head-neck system, cervical spine undergoes a stepwise motion from the upper to lower regions with a specific time lag. Motion of each vertebrae is composed of a translation and a rotation with respect to lower vertebrae, which may be considered as an absolute rotation about an axis called Instantaneous Axis of Rotation (IAR). Location of this axis is different between normal, and degenerated spines. In this research intersegmental force-moments are evaluated and compared in normal, degenerated, and fused subjects employing a biomechanical model of head-neck system based on IAR’s concept and the results are presented.
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