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腰椎全椎间盘置换对椎间盘高度分离、脊柱矢状位方向、植入物位置和植入物前凸的撞击敏感性。

Lumbar total disc replacement impingement sensitivity to disc height distraction, spinal sagittal orientation, implant position, and implant lordosis.

机构信息

Armstrong Forensic Engineers, Milford, MI 48381, USA.

出版信息

Spine (Phila Pa 1976). 2012 May 1;37(10):E590-8. doi: 10.1097/BRS.0b013e318241e415.

DOI:10.1097/BRS.0b013e318241e415
PMID:22146286
Abstract

STUDY DESIGN

A 3-dimensional finite element model of 2 lumbar motion segments (L4-L5 and L5-S1) was used to evaluate the sensitivity of lumbar total disc replacement (TDR) impingement to disc height distraction, spinal sagittal orientation, implant position, and implant lordosis. The models were implanted with a mobile-bearing TDR and exposed to simulated sagittally balanced erect posture.

OBJECTIVE

The objective of this study was to determine the sensitivity of TDR impingement to disc height distraction, implant lordotic angle, implant anterior-posterior position, and spinal orientation relative to the horizon.

SUMMARY OF BACKGROUND DATA

TDR has the potential to replace fusion as the "gold standard" for treatment of painful degenerative disc disease. However, complications after TDR have been associated with device impingement and accelerated polyethylene wear.

METHODS

A previously developed finite element model of the lumbar spine was altered to include implantation of a mobile-bearing TDR. A series of sensitivity analyses was performed to determine impingement risk. Specifically, spinal orientation, disc height distraction, footplate lordotic angle, and anterior-posterior position were evaluated.

RESULTS

Generally, TDR tended to result in an increase in extension rotation and facet contact force during simulated erect posture when compared with the intact models. Impingement risk was sensitive to all of the tested parameters.

CONCLUSION

The data from this study indicate that lumbar mobile-bearing TDR impingement is sensitive to disc height distraction, anterior-posterior position, implant lordosis, and spinal sagittal orientation. TDR impingement risk can be minimized by choosing an implant with an appropriate amount of lordosis, not overdistracting the disc space, and taking care not to place the implant too far anterior or posterior.

摘要

研究设计

使用两个腰椎运动节段(L4-L5 和 L5-S1)的三维有限元模型来评估腰椎全椎间盘置换(TDR)撞击对椎间盘高度分离、脊柱矢状位取向、植入物位置和植入物前凸的敏感性。模型中植入了活动式椎间盘置换假体,并暴露于模拟矢状位平衡直立姿势下。

目的

本研究的目的是确定 TDR 撞击对椎间盘高度分离、植入物前凸角、植入物前后位置以及脊柱相对于地平线的方向的敏感性。

背景资料总结

TDR 有可能取代融合术成为治疗疼痛性退行性椎间盘疾病的“金标准”。然而,TDR 后的并发症与器械撞击和加速聚乙烯磨损有关。

方法

对先前开发的腰椎有限元模型进行了修改,以包括植入活动式椎间盘置换假体。进行了一系列敏感性分析以确定撞击风险。具体而言,评估了脊柱方向、椎间盘高度分离、底座前凸角和前后位置。

结果

与完整模型相比,模拟直立姿势时,TDR 通常会导致伸展旋转和小关节接触力增加。撞击风险对所有测试参数均敏感。

结论

本研究的数据表明,腰椎活动式椎间盘置换假体撞击对椎间盘高度分离、前后位置、植入物前凸和脊柱矢状位取向敏感。通过选择具有适当前凸度的植入物、不过度牵拉椎间盘间隙以及注意不要将植入物放置得太靠前或靠后,可以最大限度地降低 TDR 撞击风险。

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