采用体外生物力学研究与有限元分析相结合的方法对新型棘突间植入物进行评估。

New interspinous implant evaluation using an in vitro biomechanical study combined with a finite-element analysis.

作者信息

Lafage Virginie, Gangnet Nicolas, Sénégas Jacques, Lavaste François, Skalli Wafa

机构信息

Laboratoire de Biomécanique, Paris, France.

出版信息

Spine (Phila Pa 1976). 2007 Jul 15;32(16):1706-13. doi: 10.1097/BRS.0b013e3180b9f429.

DOI:10.1097/BRS.0b013e3180b9f429

PMID:17632390

Abstract

STUDY DESIGN

A combined in vitro and finite-element analysis was completed to assess the biomechanical effect of a new interspinous implant on the lumbar spine.

OBJECTIVE

The aim was to investigate the effect of an interspinous implant on the biomechanical behavior of a vertebral segment.

METHODS

An in vitro study on L3-L5 segments from fresh human cadavers was conducted combined with a 3-dimensional finite-element analysis. Intact, injured, and instrumented states of L4-L5 were compared loaded in flexion-extension, lateral-bending, and torsion. The evaluated implant is an interspinous spacer fixed to the spine by 2 polyester braids looped around the proximal and distal spinous.

RESULTS

The effect of the implant appeared mainly in flexion-extension: experimental results showed reduced range of motion of the instrumented spine regarding the injured and intact one; and finite-element analysis indicated a decrease of disc stresses and increase of loads transmitted to the spinous processes.

CONCLUSION

In this in vitro and finite-element analysis, the role of the new interspinous implant appeared to reduce motion without suppressing it and to lower stress in the disc fibers and anulus matrix. Further in vivo investigations are necessary to draw definitive conclusions.

摘要

研究设计

完成了一项体外和有限元分析相结合的研究，以评估一种新型棘突间植入物对腰椎的生物力学影响。

目的

旨在研究棘突间植入物对椎体节段生物力学行为的影响。

方法

对新鲜人类尸体的L3-L5节段进行体外研究，并结合三维有限元分析。比较L4-L5在屈伸、侧弯和扭转加载下的完整、损伤和植入状态。评估的植入物是一种棘突间间隔器，通过环绕近端和远端棘突的两条聚酯编织带固定在脊柱上。

结果

植入物的效果主要出现在屈伸方面：实验结果显示，与损伤和完整的脊柱相比，植入器械的脊柱运动范围减小；有限元分析表明椎间盘应力降低，传递到棘突的负荷增加。

结论

在这项体外和有限元分析中，新型棘突间植入物的作用似乎是减少运动而不抑制运动，并降低椎间盘纤维和纤维环基质中的应力。需要进一步的体内研究来得出明确结论。

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采用体外生物力学研究与有限元分析相结合的方法对新型棘突间植入物进行评估。

New interspinous implant evaluation using an in vitro biomechanical study combined with a finite-element analysis.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

METHODS

RESULTS

CONCLUSION

研究设计

目的

方法

结果

结论

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