一种新型基于椎弓根螺钉的后路动态稳定装置（Awesome Rod系统）的生物力学评估——有限元分析

Biomechanical evaluation of a new pedicle screw-based posterior dynamic stabilization device (Awesome Rod System)--a finite element analysis.

作者信息

Chen Chen-Sheng, Huang Chang-Hung, Shih Shih-Liang

机构信息

Department of Physical Therapy and Assistive Technology, National Yang-Ming University, Taipei, Taiwan.

Biomedical Research, Mackay Memorial Hospital, Tamshui District, New Taipei City, Taiwan.

出版信息

BMC Musculoskelet Disord. 2015 Apr 9;16:81. doi: 10.1186/s12891-015-0538-x.

DOI:10.1186/s12891-015-0538-x

PMID:25880231

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4393882/

Abstract

BACKGROUND

Pedicle-screw-based posterior dynamic stabilization devices are designed to alleviate the rate of accelerated degeneration of the vertebral level adjacent to the level of spinal fusion. A new pedicle-screw-based posterior dynamic stabilization device- the Awesome Dynamic Rod System was designed with curve cuts on the rods to provide flexibility. The current study was conducted to evaluate the biomechanical properties of this new device.

METHODS

Finite element models were developed for the intact spine (INT), the Awesome Dynamic Rod Implanted at L4-L5 (AWE), a traditional rigid rod system implanted at L4-L5 along with an interbody cage (FUS), and the Awesome Dynamic Rod System implanted at L4-L5 along with an interbody cage as an adjunct to fusion procedures and extension of dynamic fixation to L3-L4 (AWEFUS). The models were subjected to axial loads and pure moments and evaluated by a hybrid method on range of motion (ROM)s, disc stresses, pedicle screws stresses, and facet joint contact forces.

RESULTS

FUS sustained the lowest L4-L5 ROM decrement in flexion and torsion. AWE demonstrated the lowest adjacent level ROM increment in all moments except for extension at L3-L4, and AWEFUS showed the greatest ROM increment at L2-L3. AWE demonstrated lowest adjacent segment disc stress in flexion, lateral bending and torsion at L3-L4. AWEFUS showed the highest disc stress increment in flexion, extension, and lateral bending, and the lowest disc stress decrement in torsion at L2-L3. AWE sustained greater adjacent facet joint contact forces than did FUS in extension and lateral bending at L3-L4, and AWEFUS demonstrated the greatest contact forces concentrating at L2-L3.

CONCLUSION

The results demonstrate that the Awesome Dynamic Rod System preserved more bridged segment motion than did the traditional rigid rod fixation system except in extension. However, the Awesome Dynamic Rod System bore a greater facet joint contact force in extension. The Awesome Dynamic Rod System did protect the adjacent level of fusion segments, but led to much greater ROM, disc stresses, and facet joint contact forces increasing at the adjacent level of instrumented segments.

摘要

背景

基于椎弓根螺钉的后路动态稳定装置旨在降低脊柱融合节段相邻椎体节段加速退变的发生率。一种新型的基于椎弓根螺钉的后路动态稳定装置——Awesome动态棒系统，其棒上设计有曲线切口以提供灵活性。本研究旨在评估该新型装置的生物力学特性。

方法

建立完整脊柱（INT）、L4-L5植入Awesome动态棒（AWE）、L4-L5植入传统刚性棒系统并联合椎间融合器（FUS）以及L4-L5植入Awesome动态棒系统并联合椎间融合器作为融合手术辅助及将动态固定延伸至L3-L4（AWEFUS）的有限元模型。对模型施加轴向载荷和纯弯矩，并通过混合方法评估其运动范围（ROM）、椎间盘应力、椎弓根螺钉应力和小关节接触力。

结果

FUS在屈伸和扭转时L4-L5的ROM减小量最低。除L3-L4伸展外，AWE在所有弯矩下相邻节段ROM增加量最低，而AWEFUS在L2-L3处ROM增加量最大。AWE在L3-L4的屈伸、侧弯和扭转时相邻节段椎间盘应力最低。AWEFUS在L2-L3的屈伸、伸展和侧弯时椎间盘应力增加量最高，扭转时椎间盘应力减小量最低。在L3-L4伸展和侧弯时，AWE比FUS承受更大的相邻小关节接触力，且AWEFUS在L2-L3处接触力集中程度最高。

结论

结果表明，除伸展外，Awesome动态棒系统比传统刚性棒固定系统保留了更多的桥接节段运动。然而，Awesome动态棒系统在伸展时承受更大的小关节接触力。Awesome动态棒系统确实保护了融合节段的相邻节段，但导致器械节段相邻节段的ROM、椎间盘应力和小关节接触力大幅增加。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3b88/4393882/a6dd0ff04a63/12891_2015_538_Fig1_HTML.jpg

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一种新型基于椎弓根螺钉的后路动态稳定装置（Awesome Rod系统）的生物力学评估——有限元分析

Biomechanical evaluation of a new pedicle screw-based posterior dynamic stabilization device (Awesome Rod System)--a finite element analysis.

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