固定核与活动核人工椎间盘置换后颈椎生物力学比较：有限元分析。

Comparison of cervical spine biomechanics after fixed- and mobile-core artificial disc replacement: a finite element analysis.

机构信息

Department of Orthopaedic Surgery, Spine Center, Kyung Hee University Hospital at Gangdong, School of Medicine, Suwon, Korea.

出版信息

Spine (Phila Pa 1976). 2011 Apr 20;36(9):700-8. doi: 10.1097/BRS.0b013e3181f5cb87.

DOI:10.1097/BRS.0b013e3181f5cb87

PMID:21245792

Abstract

STUDY DESIGN

A biomechanical comparison between the intact C2-C7 segments and the C5-C6 segments implanted with two different constrained types (fixed and mobile core) of artificial disc replacement (ADR) using a three-dimensional nonlinear finite element (FE) model.

OBJECTIVE

To analyze the biomechanical changes in subaxial cervical spine after ADR and the differences between fixed- and mobile-core prostheses.

SUMMARY OF BACKGROUND DATA

Few studies have investigated the changes in kinematics after cervical ADR, particularly in relation to the influence of constrain types.

METHODS

A FE model of intact C2-C7 segments was developed and validated. Fixed-core (Prodisc-C, Synthes) and mobile-core (Mobi-C, LDR Spine) artificial disc prostheses were integrated at the C5-C6 segment into the validated FE model. All models were subjected to a follower load of 50 N and a moment of 1 Nm in flexion-extension, lateral bending, and axial torsion. The range of segmental motion (ROM), facet joint force, tension on major ligaments, and stress on the polyethylene (PE) cores were analyzed. RESULTS.: The ROM in the intact segments after ADR was not significantly different from those of the normal cervical spine model. The ROM in the implanted segment (C5-C6) increased during flexion (19% for fixed and 33% for mobile core), extension (48% for fixed and 56% for mobile core), lateral bending (28% for fixed and 35% for mobile core) and axial torsion (45% for fixed and 105% for mobile core). The facet joint force increased by 210% in both fixed and mobile core models during extension and the tension increased (range, 66%-166%) in all ligaments during flexion. The peak stress on a PE core was greater than the yield stress (51 MPa for fixed and 36 MPa for mobile core).

CONCLUSION

The results of our study presented an increase in ROM, facet joint force, and ligament tension at the ADR segments. The mobile-core model showed a higher increase in segmental motion, facet force, and ligament tension, but lower stress on the PE core than the fixed-core model.

摘要

研究设计

使用三维非线性有限元（FE）模型，对完整的 C2-C7 节段与植入两种不同约束类型（固定核和活动核）人工椎间盘置换（ADR）的 C5-C6 节段进行生物力学比较。

目的

分析 ADR 后下颈椎的生物力学变化以及固定核和活动核假体之间的差异。

背景资料概要

很少有研究调查颈椎 ADR 后运动学的变化，特别是与约束类型的影响有关。

方法

建立并验证了完整的 C2-C7 节段的 FE 模型。将固定核（Prodisc-C，Synthes）和活动核（Mobi-C，LDR Spine）人工椎间盘假体整合到经过验证的 FE 模型中的 C5-C6 节段。所有模型均在屈伸、侧屈和轴向扭转方向上受到 50N 的跟从载荷和 1Nm 的力矩作用。分析了节段运动范围（ROM）、小关节力、主要韧带张力和聚乙烯（PE）核的应力。

结果

ADR 后完整节段的 ROM 与正常颈椎模型无显著差异。植入节段（C5-C6）的 ROM 在屈伸时增加（固定核增加 19%，活动核增加 33%），伸展时增加（固定核增加 48%，活动核增加 56%），侧屈时增加（固定核增加 28%，活动核增加 35%），轴向扭转时增加（固定核增加 45%，活动核增加 105%）。在固定核和活动核模型中，伸展时小关节力增加 210%，所有韧带在屈曲时张力增加（范围 66%-166%）。PE 核的峰值应力大于屈服应力（固定核为 51MPa，活动核为 36MPa）。

结论

我们的研究结果显示 ADR 节段 ROM、小关节力和韧带张力增加。活动核模型显示出更高的节段运动、小关节力和韧带张力增加，但 PE 核的应力低于固定核模型。

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固定核与活动核人工椎间盘置换后颈椎生物力学比较：有限元分析。

Comparison of cervical spine biomechanics after fixed- and mobile-core artificial disc replacement: a finite element analysis.

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

SUMMARY OF BACKGROUND DATA

METHODS

CONCLUSION

研究设计

目的

背景资料概要

方法

结果

结论

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