Cervical Disc Arthroplasties Fail to Maintain Physiological Kinematics Under Lateral Eccentric Loads.

IF 3 3区医学 Q2 CLINICAL NEUROLOGY Global Spine Journal Pub Date : 2025-03-01 Epub Date: 2023-08-17 DOI:10.1177/21925682231193642

Paul Jonathan Roch, Constantin Hemprich, Friederike Klockner, Marc-Pascal Meier, Katharina Jäckle, Wolfgang Lehmann, Martin Michael Wachowski, Lukas Weiser

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Abstract

Study design: In vitro human cadaveric biomechanical analysis.

Objectives: Optimization of prostheses for cervical disc arthroplasties (CDA) reduces the risk of complications. The instantaneous helical axis (IHA) is a superior parameter for examining the kinematics of functional spinal units. There is no comprehensive study about the IHA after CDA considering all 3 motion dimensions.

Methods: Ten human functional spinal units C4-5 (83.2 ± 7.9 yrs.) were examined with an established measuring apparatus in intact conditions (IC), and after CDA, with 2 different types of prostheses during axial rotation, lateral bending, and flexion/extension. Eccentric preloads simulated strains. The IHA orientation and its position at the point of rest (IHA₀-position) were analyzed.

Results: The results confirmed the existing data for IHA in IC. Lateral preloads showed structural alterations of kinematics after CDA: During axial rotation and lateral bending, the shift of the IHA₀-position was corresponding with the lateral preloads' applied site in IC, while after CDAs, it was vice versa. During lateral bending, the lateral IHA orientation was inclined, corresponding with the lateral preloads' applied site in the IC and oppositely after the CDAs. During flexion/extension, the lateral IHA orientation was nearly vertical in the IC, while after CDA, it inclined, corresponding with the lateral preloads' applied site. The axial IHA orientation rotated to the lateral preloads' corresponding site in the IC; after CDA, it was vice versa.

Conclusion: Both CDAs failed to maintain physiological IHA characteristics under lateral preloads, revealing a new aspect for improving prostheses' design and optimizing their kinematics.

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颈椎椎间盘关节置换术在侧向偏心负荷下无法保持生理运动学特性。

研究设计体外人体尸体生物力学分析：优化颈椎间盘关节置换术（CDA）的假体可降低并发症风险。瞬时螺旋轴（IHA）是检查脊柱功能单元运动学的一个优越参数。目前还没有关于CDA后考虑所有3个运动维度的IHA的全面研究：方法：使用已建立的测量仪器对 10 个人体功能脊柱单元 C4-5（83.2 ± 7.9 岁）进行了检查，包括完整状态下（IC）和 CDA 后使用 2 种不同类型的假体进行轴向旋转、侧弯和屈伸时的情况。偏心预负荷模拟了应变。分析了 IHA 的方向及其在静止点的位置（IHA0 位置）：结果：研究结果证实了 IC 中 IHA 的现有数据。侧向预负荷显示了 CDA 后运动学结构的改变：在轴向旋转和侧向弯曲过程中，IHA0位置的移动与IC中侧向预负荷的作用部位相对应，而在CDA后则相反。在侧弯过程中，侧向 IHA 方向倾斜，与 IC 中施加侧向预紧力的部位相对应，而在 CDA 之后则相反。在弯曲/伸展过程中，侧向 IHA 方向在 IC 中接近垂直，而在 CDA 后则倾斜，与侧向预紧力的作用部位相对应。在 IC 中，轴向 IHA 方向旋转至外侧预负荷的相应部位；在 CDA 后，则相反：结论：两种 CDA 都无法在侧向预紧力作用下保持 IHA 的生理特性，这为改进假体设计和优化假体运动学提供了新的思路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Global Spine Journal Medicine-Surgery

CiteScore

6.20

自引率

8.30%

发文量

278

审稿时长

8 weeks

期刊介绍： Global Spine Journal (GSJ) is the official scientific publication of AOSpine. A peer-reviewed, open access journal, devoted to the study and treatment of spinal disorders, including diagnosis, operative and non-operative treatment options, surgical techniques, and emerging research and clinical developments.GSJ is indexed in PubMedCentral, SCOPUS, and Emerging Sources Citation Index (ESCI).