Mechanical Loading Effects On Isthmic Spondylolytic Lumbar Segment: Finite Element Modelling Using A Personalised Geometry

M. El-Rich; I. Villemure; H. Labelle; C.E. Aubin

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Mechanical Loading Effects On Isthmic Spondylolytic Lumbar Segment: Finite Element Modelling Using A Personalised Geometry

机译：机械负载对等腰椎节段性腰椎节段的影响：使用个性化几何的有限元建模。

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Biomechanics of the isthmic spondylolysis was investigatcd by using a nonlinear 3D-finite element model (HEM). A personalised in vivo pediatric geometry of L5-S1 low-grade spondylolisthesis patient was used to develop a L5-pelvis motion segment model that took into consideration vertebrae, disc and ligaments. The stress distribution in the affected motion segment under axial force only, and for a combination of flexion and extension was evaluated. Predicted results showed that, under all loading conditions, stresses were much higher on the pedicle and in the dorsal wall of the pars interarticularis due to the abnormal geometry which is consistent with clinical observations.

机译：通过使用非线性3D有限元模型（HEM）研究了峡部椎骨峡部裂的生物力学。 L5-S1低度腰椎滑脱患者的个性化体内小儿几何学用于建立考虑椎骨，椎间盘和韧带的L5-骨盆运动节段模型。仅在轴向力的作用下，对弯曲和伸展的组合，评估了受影响的运动段中的应力分布。预测结果表明，在所有载荷条件下，由于几何形状的异常，椎间动脉的椎弓根和背壁上的应力都高得多，这与临床观察一致。

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来源
《Computer methods in biomechanics and biomedical engineering》 |2009年第1期|p.13-23|共11页
作者
M. El-Rich; I. Villemure; H. Labelle; C.E. Aubin;
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作者单位

Department of Mechanical Engineering, Ecole Polytechnique, Montreal, Quebec, Canada;

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原文格式 PDF
正文语种 eng
中图分类生物科学;
关键词
isthmic spondylolysis; finite clement model; biomechanics; personalised geometry; stress concentration;

机译：峡部脊椎溶解;有限元模型;生物力学;个性化几何;应力集中;

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2. Influence of loading cycle profile and frequency on a biomechanical parameter of a model of a balloon kyphoplasty-augmented lumbar spine segment: a finite element analysis study. [J] . Li Y, Lewis G Bio-medical materials and engineering . 2010,第6期

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3. Effects of slip severity and loading directions on the stability of isthmic spondylolisthesis: a finite element model study. [J] . Natarajan RN, Garretson-RB 3rd, Biyani A, Spine . 2003,第11期

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4. Decisive factor in increase of loading at adjacent segments after lumbar fusion: operative technique, pedicle screws, or fusion itself. - biomechanical analysis using finite element [C] . Joon-Hee Park, Ho-Joong Kim, Kyoung-Tak Kang, International conference on experimental mechanics . 2010

机译：腰椎融合术后相邻节段负荷增加的决定性因素：手术技术，椎弓根螺钉或融合本身。 -使用有限元的生物力学分析
5. A finite element study of the failure mechanism in the healthy and degenerated lumbar motion segments. [D] . Ke, Jyuhn-Hurng. 1994

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6. Internal Biomechanical Study of a 70-Year-Old Female Human Lumbar Bi-Segment Finite Element Model and Comparison with a Middle-Aged Male Model [O] . Hequan Wu, Jinping Peng, Xin Jin 2006

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Mechanical Loading Effects On Isthmic Spondylolytic Lumbar Segment: Finite Element Modelling Using A Personalised Geometry

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