三级结构中颈椎前路混合融合术与人工椎间盘置换术的生物力学：一项体外研究

Biomechanics of Hybrid Anterior Cervical Fusion and Artificial Disc Replacement in 3-Level Constructs: An In Vitro Investigation.

作者信息

Liao Zhenhua, Fogel Guy R, Pu Ting, Gu Hongsheng, Liu Weiqiang

机构信息

Department of Mechanical Engineering, Tsinghua University, Beijing, China (mainland).

Spine Pain Begone, San Antonio, TX, USA.

出版信息

Med Sci Monit. 2015 Nov 3;21:3348-55. doi: 10.12659/msm.896085.

DOI:10.12659/msm.896085

PMID:26529430

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4638187/

Abstract

BACKGROUND

The ideal surgical approach for cervical disk disease remains controversial, especially for multilevel cervical disease. The purpose of this study was to investigate the biomechanics of the cervical spine after 3-level hybrid surgery compared with 3-level anterior cervical discectomy and fusion (ACDF).

MATERIAL AND METHODS

Eighteen human cadaveric spines (C2-T1) were evaluated under displacement-input protocol. After intact testing, a simulated hybrid construct or fusion construct was created between C3 to C6 and tested in the following 3 conditions: 3-level disc plate disc (3DPD), 3-level plate disc plate (3PDP), and 3-level plate (3P).

RESULTS

Compared to intact, almost 65~80% of motion was successfully restricted at C3-C6 fusion levels (p<0.05). 3DPD construct resulted in slight increase at the 3 instrumented levels (p>0.05). 3PDP construct resulted in significant decrease of ROM at C3-C6 levels less than 3P (p<0.05). Both 3DPD and 3PDP caused significant reduction of ROM at the arthrodesis level and produced motion increase at the arthroplasty level. For adjacent levels, 3P resulted in markedly increased contribution of both upper and lower adjacent levels (p<0.05). Significant motion increases lower than 3P were only noted at partly adjacent levels in some conditions for 3DPD and 3PDP (p<0.05).

CONCLUSIONS

ACDF eliminated motion within the construct and greatly increased adjacent motion. Artificial cervical disc replacement normalized motion of its segment and adjacent segments. While hybrid conditions failed to restore normal motion within the construct, they significantly normalized motion in adjacent segments compared with the 3-level ACDF condition. The artificial disc in 3-level constructs has biomechanical advantages compared to fusion in normalizing motion.

摘要

背景

颈椎间盘疾病的理想手术方式仍存在争议，尤其是多节段颈椎疾病。本研究的目的是调查三级混合手术与三级前路颈椎间盘切除融合术（ACDF）相比，颈椎的生物力学情况。

材料与方法

在位移输入方案下对18个尸体颈椎（C2-T1）进行评估。在完整测试后，在C3至C6之间创建模拟的混合结构或融合结构，并在以下3种条件下进行测试：三级椎间盘钢板（3DPD）、三级钢板椎间盘钢板（3PDP）和三级钢板（3P）。

结果

与完整状态相比，C3-C6融合节段成功限制了近65%至80%的活动度（p<0.05）。3DPD结构在三个植入节段导致活动度略有增加（p>0.05）。3PDP结构在C3-C6节段导致的活动度显著降低幅度小于3P（p<0.05）。3DPD和3PDP均导致融合节段的活动度显著降低，并在人工椎间盘置换节段导致活动度增加。对于相邻节段，3P导致上下相邻节段的贡献显著增加（p<0.05）。在某些条件下，3DPD和3PDP仅在部分相邻节段观察到低于3P的显著活动度增加（p<0.05）。

结论

ACDF消除了结构内的活动度，并显著增加了相邻节段的活动度。人工颈椎间盘置换使其节段及其相邻节段的活动度正常化。虽然混合手术未能恢复结构内的正常活动度，但与三级ACDF相比，它们显著使相邻节段的活动度正常化。在三级结构中，人工椎间盘在使活动度正常化方面比融合术具有生物力学优势。

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三级结构中颈椎前路混合融合术与人工椎间盘置换术的生物力学：一项体外研究

Biomechanics of Hybrid Anterior Cervical Fusion and Artificial Disc Replacement in 3-Level Constructs: An In Vitro Investigation.

作者信息

机构信息

出版信息

BACKGROUND

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

背景

材料与方法

结果

结论

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