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前路和后路固定方法(侧块和椎弓根螺钉)之间使用同种异体骨间隔器行颈椎间盘切除/融合模型的生物力学比较。

Biomechanical comparison of cervical discectomy/fusion model using allograft spacers between anterior and posterior fixation methods (lateral mass and pedicle screw).

机构信息

Department of Orthopedic Surgery, National Health Insurance Service Ilsan Hospital, 100 Ilsan-ro, Goyang 10444, Republic of Korea.

School of Biomedical Engineering, Inje University, 197 Inje-ro, Gimhae-si, Gyeongsangnam-do 50834, Republic of Korea.

出版信息

Clin Biomech (Bristol). 2020 Mar;73:226-233. doi: 10.1016/j.clinbiomech.2020.01.018. Epub 2020 Jan 30.

DOI:10.1016/j.clinbiomech.2020.01.018
PMID:32062472
Abstract

BACKGROUND

The purpose of this study is to investigate effects of different fixation methods on the physical stress on allospacers, endplate-vertebral body, and implants using finite element model analyses.

METHODS

Stress distribution and subsidence risk according to the fixation methods under the condition of hybrid motion control were analyzed. The detailed finite element model of a previously validated, three-dimensional, intact cervical spinal segment model, with C5-C6 segmental fusion using allospacer, was used to evaluate the biomechanical characteristics of different fixation combinations, such as anterior plate/screws, lateral mass screw, and posterior pedicle screw.

FINDINGS

The load sharing on allospacers increased in extension in order of posterior pedicle screws (21.4%), lateral mass screws (31.5%), and anterior plate/screws (56.6%). lateral mass screw demonstrated the highest load sharing (68.1%) on the allospacer in flexion. The Peak von Mises stress of the allospacer was the lowest in flexion and axial rotation but the highest in extension with anterior plate/screws. Allospacer subsidence risk was the lowest in extension, lateral bending, and axial rotation with posterior pedicle screws but the lowest in flexion with anterior plate/screws. The bone-screw loosening risk was the lowest in all modes with posterior pedicle screws but the highest with anterior plate/screws.

INTERPRETATION

Posterior pedicle screws demonstrated the best mechanical stability of allospacer failure-subsidence and the lowest risk of screw loosening. Different motion restrictions depending on the fixation method should be considered for implant and allospacer safety.

摘要

背景

本研究旨在通过有限元模型分析,研究不同固定方式对异体 spacer、终板-椎体和植入物的物理应力的影响。

方法

在混合运动控制条件下,根据固定方式分析应力分布和下沉风险。使用先前验证的三维完整颈椎节段模型的详细有限元模型,在 C5-C6 节段融合中使用异体 spacer,评估不同固定组合的生物力学特性,如前路钢板/螺钉、侧块螺钉和后路椎弓根螺钉。

结果

在伸展时,异体 spacer 的载荷分担顺序为后路椎弓根螺钉(21.4%)、侧块螺钉(31.5%)和前路钢板/螺钉(56.6%)。在侧屈时,侧块螺钉对异体 spacer 的载荷分担最高(68.1%)。在屈曲和轴向旋转时,异体 spacer 的峰值 von Mises 应力最低,但在前路钢板/螺钉时在伸展时最高。在伸展、侧屈和轴向旋转时,后路椎弓根螺钉的异体 spacer 下沉风险最低,但在前路钢板/螺钉时在屈曲时最低。在所有模式下,后路椎弓根螺钉的骨螺钉松动风险最低,前路钢板/螺钉的风险最高。

解释

后路椎弓根螺钉在异体 spacer 失效-下沉和螺钉松动风险方面表现出最好的机械稳定性。应根据固定方式考虑不同的运动限制,以确保植入物和异体 spacer 的安全。

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