下颈椎全脊椎切除术后两种内固定重建方法的有限元分析

doi:10.3969/j.issn.0258-8021. 2016.02.010

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摘要研究下颈椎C5椎体全脊椎切除术(TS)之后，前后路不同联合内固定重建方法对颈椎稳定性的影响。基于CT图像建立下颈椎C3-C7节段完整无损模型，在无损模型基础上,建立C5全脊椎切除术后两种内固定重建模型：一为钛网重建+前路钢板+后路单节段椎弓根螺钉模型(TM+AP+SPS)；二为钛网重建+前路钢板+后路双节段椎弓根螺钉模型(TM+AP+DPS)。对模型分别施加0.5、1.0、1.5、2.0 N·m的扭矩，分析两种模型在前屈、后伸、左右侧弯和左右扭转等工况下的关节活动度（ROM）以及钛网、钢板、椎弓根螺钉的应力分布情况。结果表明，重建节段ROM随着扭矩的增大而增加，呈现出非线性的趋势，TM+AP+SPS模型的增加幅度较大。1.0 N·m工况下，两种模型重建节段ROM均减少83%以上；TM+AP+SPS模型在后伸、侧弯和扭转时，邻近节段的ROM均增加11%以上，C6-C7节段的ROM在扭转时增加41.79%，TM+AP+DPS模型的邻近节段ROM则显著降低。TM+AP+SPS模型和TM+AP+DPS模型中钛网应力分别集中于受压侧和后方。TM+AP+SPS模型的邻近节段有较大的代偿活动，TM+AP+DPS模型各节段ROM均大幅度减小，TM+AP+DPS模型的稳定性更好。

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	王晨曦¹赵改平^1*柏磊磊¹陈楠心¹陈二云²赵庆华³马童⁴凃意辉⁴

关键词 ：下颈椎, 全脊椎切除术, 内固定重建, 有限元分析, 力学特性

Abstract：To investigate effects from different combinations of anterior and posterior internal fixation on stability of the cervical spine after total spondylectomy of C5 vertebral. The intact finite element model of the lower cervical spine C3\|C7 was established based on CT images. Based on the verified finite element model of intact cervical spine, two reconstruction models after total spondylectomy of C5 vertebral were established: one was titanium mesh plus anterior plate plus posterior singlesegmental pedical screw model(TM+AP+SPS), the other one was titanium mesh plus anterior plate plus posterior doublesegmental pedical screw model(TM+AP+DPS). Moment of 0.5, 1.0, 1.5, 2.0 N·m was separately applied on top of the model, ROM of two reconstruction model under flexion, extension, lateral bending and torsion conditions and the stress distribution of internal fixation devices were analyzed. The ROM of reconstruction segments was increased with the increase of the torque, showing nonlinear trend, ROM of TM+AP+SPS model was increased larger. In the case of 1.0 N·m torque, the ROM of reconstruction segments was greatly reduced by over 83% as compare to that of the intact model.ROM of the adjacent segments of the TM+AP+SPS model was increased by over 11% under extension, bending and torsion conditions, the ROM of C6\|C7 segment was increased by over 41.79% under torsion condition, and ROM of adjacent segments of TM+AP+DPS model was significantly reduced. Stress of the titanium mesh of TM+AP+SPS model and TM+AP+DPS model were separately focused on the compression side and the rear. Adjacent segments of TM+AP+SPS model had a great compensatory activity, and ROM of each segment of the TM+AP+DPS model was significantly reduced, the stability of cervical spine was better in TM+AP+DPS model.

Key words： lower cervical spine total spondylectomy internal fixation with reconstruction finite element analysis mechanical properties

基金资助:国家自然科学基金（11502146, 51106099）；上海市自然科学基金（15ZR1429600）

引用本文:

王晨曦¹赵改平^1*柏磊磊¹陈楠心¹陈二云²赵庆华³马童⁴凃意辉⁴. 下颈椎全脊椎切除术后两种内固定重建方法的有限元分析[J]. 中国生物医学工程学报, 2016, 35(2): 194-201.
Wang Chenxi¹Zhao Gaiping^1*Bai Leilei¹Chen Nanxin¹Chen Eryun²Zhao Qinghua³Ma Tong⁴Tu Yihui⁴
. Finite Element Analysis of Two Kinds of Internal Fixation Methods after TotalSpondylectomy of Lower Cervical Spine. journal1, 2016, 35(2): 194-201.

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http://cjbme.csbme.org/CN/10.3969/j.issn.0258-8021. 2016.02.010 或 http://cjbme.csbme.org/CN/Y2016/V35/I2/194

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