不同人工椎间盘高度对全颈椎间盘置换的影响:一项体外生物力学研究。
The impact of different artificial disc heights during total cervical disc replacement: an in vitro biomechanical study.
机构信息
Department of Orthopaedic Surgery, West China Hospital, Sichuan University, No. 37 Guo Xue Xiang, Chengdu, 610041, Sichuan, China.
Department of Anesthesia and Operation Room/West China School of Nursing, West China Hospital, Sichuan University, No. 37 Guo Xue Xiang, Chengdu, 610041, Sichuan, China.
出版信息
J Orthop Surg Res. 2021 Jan 6;16(1):12. doi: 10.1186/s13018-020-02157-9.
BACKGROUND
The principles of choosing an appropriate implant height remain controversial in total cervical disc replacement (TDR). By performing an in vitro biomechanical study and exploring the biomechanical impact of implant height on facet joint and motion function, the study aimed to offer valid proposals regarding implant height selection during TDR.
METHODS
A total of 6 fresh-frozen male cadaveric cervical spines (C2-C7) with 5 mm intervertebral disc height at C5/6 level were enrolled in the study. Specimens with the intact condition and with different height artificial discs were tested. Facet joint pressures and range of motion under each condition were recorded using a specialized machine.
RESULTS
The artificial disc heights that were involved in this study were 5 mm, 6 mm, and 7 mm. The range of motion decreased along with the increment of implant height, while facet joint pressure showed an opposite trend. Specimens with a 5 mm implant height could provide a similar range of motion (11.8° vs. 12.2° in flexion-extension, 8.7° vs. 9.0° in rotation, 7.9° vs. 8.2° in lateral bending) and facet joint pressure (27.8 psi vs. 25.2 psi in flexion, 59.7 psi vs. 58.9 psi in extension, 24.0 psi vs. 22.7 psi in rotation, 32.0 psi vs. 28.8 psi in lateral bending) compared with intact specimens. Facet joint pressure of specimens with 6 mm implant height (≥ 1 mm in height) increased during flexion at the C5-6 segment (30.4 psi vs. 25.2 psi, P = 0.076). However, specimens with 7 mm implant height (≥ 2 mm in height) showed a significant reduction in motion (9.5° vs. 12.2° in flexion-extension, P < 0.001) and increment of facet joint pressure at C5-6 segment (44.6 psi vs. 25.2 psi in flexion, 90.3 psi vs. 58.9 psi in extension, P < 0.0001) and adjacent segments.
CONCLUSIONS
This study suggested that an appropriate artificial disc height can achieve near-normal biomechanical properties and is recommended. We should be very cautious when using artificial discs ≥ 1 mm in height compared to normal. However, implants ≥ 2 mm in height compared to normal significantly increased the facet joint pressure and decreased the range of motion; therefore, it should not be used in clinical practice.
背景
在全颈椎间盘置换术(TDR)中,选择合适的假体高度的原则仍存在争议。本研究通过体外生物力学研究,探讨假体高度对关节突关节和运动功能的生物力学影响,旨在为 TDR 中假体高度选择提供有效建议。
方法
本研究纳入了 6 具新鲜冷冻的男性颈椎尸体标本(C2-C7),C5/6 水平的椎间盘高度为 5mm。测试了完整标本和不同高度人工椎间盘的标本。使用专用机器记录了每个条件下关节突关节压力和运动范围。
结果
本研究涉及的人工椎间盘高度分别为 5mm、6mm 和 7mm。随着假体高度的增加,运动范围减小,而关节突关节压力呈相反趋势。假体高度为 5mm 的标本可提供相似的运动范围(屈伸运动 11.8°对 12.2°,旋转运动 8.7°对 9.0°,侧屈运动 7.9°对 8.2°)和关节突关节压力(前屈时 27.8psi 对 25.2psi,伸展时 59.7psi 对 58.9psi,旋转时 24.0psi 对 22.7psi,侧屈时 32.0psi 对 28.8psi)与完整标本相比。C5-6 节段屈伸运动时,假体高度为 6mm(高度增加≥1mm)的标本关节突关节压力增加(30.4psi 对 25.2psi,P=0.076)。然而,假体高度为 7mm(高度增加≥2mm)的标本运动明显减少(屈伸运动 9.5°对 12.2°,P<0.001),C5-6 节段关节突关节压力增加(前屈时 44.6psi 对 25.2psi,伸展时 90.3psi 对 58.9psi,P<0.0001)和相邻节段。
结论
本研究表明,合适的人工椎间盘高度可以达到接近正常的生物力学特性,推荐使用。与正常相比,使用高度增加≥1mm 的人工椎间盘时应非常谨慎。然而,与正常相比,高度增加≥2mm 的植入物显著增加了关节突关节压力并减少了运动范围;因此,不建议在临床实践中使用。
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