A FEM MODEL ANALYSIS OF HUMAN LUMBAR SPINE WITH BI-LEVEL ARTIFICIAL DISC REPLACEMENT

机译：双水平人工椎间盘置换术对人腰椎的有限元分析

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A finite element model of human lumbar spine (L3-S1 segment) was used to analyze biomechanical effects of the bi-level CHARITE artificial disc replacement (2LCHD) at L4-L5 and L5-S1 levels. The mechanical behavior and range of motion in implanted and intact models were compared using the finite element analyses and a hybrid loading protocol. In 2LCHD model the changes at L3-L4 level decreased by 25% also the model showed smooth changes in motion at implanted levels.rnIn flexion there was an increase in facet loads at lower levels of 2LCHD however the bending moment in this model was less than intact model because of hybrid loading; in contrast, the facet loads in implanted model decreased in extension. It was observed that the bi-level disc replacement won't affect much the kinematics of the spine and can be proposed as a good alternative for treatment in cases that disc degeneration occurs at more than one level of spine.

机译：使用人腰椎（L3-S1节段）的有限元模型分析了在L4-L5和L5-S1级别上的双层CHARITE人工椎间盘置换术（2LCHD）的生物力学效果。使用有限元分析和混合加载方案比较了植入模型和完整模型中的机械行为和运动范围。在2LCHD模型中，L3-L4水平的变化减少了25％，并且模型在植入水平上显示出平滑的运动变化.rn在屈曲状态下，在2LCHD较低的水平上，刻面载荷增加了，但是此模型中的弯矩小于由于混合加载而完整的模型；相比之下，植入模型中的小平面载荷在延伸时减小。据观察，双级椎间盘置换术不会严重影响脊柱的运动学，可以建议当椎间盘退变发生在一个以上水平的脊柱上时，该方法可作为治疗的好选择。

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来源
《8th Biennial Conference on Engineering Systems Design and Analysis 2006 vol.2》|2006年|555-560|共6页
会议地点 Torino(IT)
作者
Faizan A.; Kiapour A.; Goel V.K.; Ivanoy A.; Biyani A.; Ebraheim N.; Serhan H.;
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The Spine Research Center, University of Toledo, Department of Bioengineering, Toledo, OH;

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原文格式 PDF
正文语种 eng
中图分类工程设计;
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4. A FEM MODEL ANALYSIS OF HUMAN LUMBAR SPINE WITH BI-LEVEL ARTIFICIAL DISC REPLACEMENT [C] . Faizan A., Kiapour A., Goel V.K., 8th Biennial Conference on Engineering Systems Design and Analysis 2006 vol.2 . 2006

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A FEM MODEL ANALYSIS OF HUMAN LUMBAR SPINE WITH BI-LEVEL ARTIFICIAL DISC REPLACEMENT

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