寰枢关节后路动态固定的生物力学研究
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郴州市科学技术局科技发展计划项目(ZDYF2020015),郴州市第一人民医院院级科研项目(N2019-008),郴州市第一人民医院院内技术项目(2020A34)


Biomechanical Study of Posterior Dynamic Fixation at Atlantoaxial Joints
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    摘要:

    目的 探讨动态固定(转动钉、滑动钉)对寰枢关节稳定性的影响。方法 用6具新鲜成人枕骨(Oc)~颈椎(C4)节段进行测试,分别模拟完整状态、损伤状态、坚强固定、转动钉固定、滑动钉固定。采用重复测量的实验设计,在完整、损伤和不同固定状态下,通过脊柱试验机对标本分别施加1.5 N·m前屈/后伸、左/右侧弯和左/右轴向旋转纯力偶矩。三维运动系统测量寰枢椎运动,分析比较固定节段角度的运动范围(range of motion, ROM)和中性区(neutral zone, NZ)。结果 损伤状态下,寰枢关节ROM在前屈、后伸、侧弯和旋转方向上均显著增加,产生了寰枢关节不稳。在前屈、后伸、侧弯和旋转方向上,坚强固定和动态固定后ROM均显著减小。与坚强固定比较,动态固定仅在侧弯方向上ROM较大。动态固定显著减小了在屈伸、侧弯和旋转方向上的NZ,且与坚强固定之间的差异无显著性。结论 寰枢关节动态固定后,在前屈、后伸和旋转方向上的稳定性与坚强固定相当,但在侧弯方向上较弱。动态固定能够维持寰枢关节的相对稳定。

    Abstract:

    Objective To evaluate the influence of dynamic fixation (rotating and sliding pedicle screws) on stability of the atlantoaxial joint. Methods A series of in vitro biomechanical tests were performed using six fresh adult cervical spines (occipital bone-C4 segment) to simulate different conditions in surgery, including the intact state, the injury state, rigid fixation, rotating pedicle screw fixation, sliding pedicle screw fixation. The repeated measurement design was employed, and under intact, injury and different fixation states, the pure moment of 1.5 N·m in flexion-extension, left-right lateral bending, left-right axial rotation directions were applied using the spinal testing machine. The movement of atlantoaxial spine was measured consecutively by three-dimensional (3D) measurement system in order to analyze the range of motion (ROM) and neutral zone (NZ) of atlantoaxial joints. Results Under injury state, ROM of atlantoaxial joints was significantly larger than that under intact state during flexion, extension, lateral bending and rotation, leading to the instability of atlantoaxial joints. ROM of fixation segments was significantly reduced during flexion, extension, lateral bending and rotation after rigid and dynamic fixation. Compared with rigid fixation, dynamic fixation showed a significant ROM increase during lateral bending. NZs of fixation segments after dynamic fixation were significantly reduced. There were no significant ROM differences between rigid fixation and dynamic fixation. Conclusions The stability of atlantoaxial joints by dynamic fixation during flexion, extension and rotation was comparable to that by rigid fixation, but weaker during lateral bending. Dynamic screw fixation can maintain the relative stability of atlantoaxial joints.

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童杰,季伟,黄志平,周若舟,房佐忠,朱青安.寰枢关节后路动态固定的生物力学研究[J].医用生物力学,2021,36(2):189-194

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  • 收稿日期:2020-06-02
  • 最后修改日期:2020-07-15
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  • 在线发布日期: 2021-04-25
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