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椎间盘高度的变化会影响椎间盘的力学功能吗?

Can variations in intervertebral disc height affect the mechanical function of the disc?

作者信息

Lu Y M, Hutton W C, Gharpuray V M

机构信息

Department of Bioengineering, Clemson University, South Carolina, USA.

出版信息

Spine (Phila Pa 1976). 1996 Oct 1;21(19):2208-16; discussion 2217. doi: 10.1097/00007632-199610010-00006.

DOI:10.1097/00007632-199610010-00006
PMID:8902964
Abstract

STUDY DESIGN

The finite element method was used to investigate the effect of variations in disc height on the mechanical behavior of the intervertebral disc.

OBJECTIVES

The effect of disc height on the mechanical behavior of a human lumbar spine segment in terms of axial displacement, intradiscal pressure, posterolateral disc bulge, tensile stress in the peripheral anulus fibers, and longitudinal stress distribution at the end plate-vertebra interface was evaluated.

SUMMARY OF BACKGROUND DATA

Disc height varies with individuals, disc level, abnormal conditions, and clinical management.

METHODS

A three-dimensional finite element model of L2-L3 disc body unit was developed. Parametric studies were undertaken by studying discs of three different heights: 8 mm, 10 mm, and 12 mm, whereas disc cross sectional area, finite element mesh density, and all other parameters were kept constant. The model accounted for geometric nonlinearity but assumed that the material properties were linear.

RESULTS

Variations in disc height had a significant influence on the axial displacement, the posterolateral disc bulge, and the tensile stress in the peripheral anulus fibers, but the effect on the intradiscal pressure and the longitudinal stress distribution at the endplate vertebra interface was minimal.

CONCLUSIONS

Variations in disc height may compromise the general conclusions reached from experimental work and analytic studies in which geometric parameters (especially disc height and disc cross-sectional area) are not taken into consideration.

摘要

研究设计

采用有限元方法研究椎间盘高度变化对椎间盘力学行为的影响。

目的

评估椎间盘高度对人腰椎节段力学行为的影响,包括轴向位移、椎间盘内压力、椎间盘后外侧膨出、外周纤维环的拉应力以及终板 - 椎体界面处的纵向应力分布。

背景资料总结

椎间盘高度因个体、椎间盘节段、异常情况及临床处理而异。

方法

建立了L2 - L3椎间盘体单元的三维有限元模型。通过研究三种不同高度(8mm、10mm和12mm)的椎间盘进行参数研究,而椎间盘横截面积、有限元网格密度及所有其他参数保持不变。该模型考虑了几何非线性,但假设材料特性为线性。

结果

椎间盘高度变化对轴向位移、椎间盘后外侧膨出及外周纤维环的拉应力有显著影响,但对椎间盘内压力及终板 - 椎体界面处的纵向应力分布影响极小。

结论

椎间盘高度变化可能会影响那些未考虑几何参数(尤其是椎间盘高度和横截面积)的实验研究和分析研究所得出的一般性结论。

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