肌肉功能障碍对腰椎力学的影响。基于双运动节段模型的有限元研究。

Effects of muscle dysfunction on lumbar spine mechanics. A finite element study based on a two motion segments model.

作者信息

Kong W Z, Goel V K, Gilbertson L G, Weinstein J N

机构信息

Iowa Spine Research Center, Department of Biomedical Engineering, University of Iowa, Iowa City, USA.

出版信息

Spine (Phila Pa 1976). 1996 Oct 1;21(19):2197-206; discussion 2206-7. doi: 10.1097/00007632-199610010-00004.

DOI:10.1097/00007632-199610010-00004

PMID:8902963

Abstract

STUDY DESIGN

A combined finite element and optimization approach was developed to investigate the clinically relevant biomechanical parameters of the muscular lumbar spine under five quasistatic back-lifting conditions.

OBJECTIVES

To quantify the effects of muscle "dysfunction" on the mechanical behavior of the lumbar spine.

SUMMARY OF BACKGROUND DATA

Trunk muscles have been proven to play an important role in the normal functioning of the spine. Although passive structures of the spine are believed to be subjected increasingly to mechanical stresses when muscular support is inadequate, supportive quantitative data have been lacking.

METHODS

External loads at L3-L4 for various lifting tasks were estimated experimentally and partitioned to the disc and muscles across the L3-L4 segment using an optimization scheme. These forces were incorporated into a finite element model of the ligamentous L3-L5 lumbar spine. Muscle "dysfunction" was simulated by decreasing the computed muscle forces.

RESULTS

The range of motion intradiscal pressure forces in ligaments, and load across facets increased nonlinearly with the increases in trunk flexion and the load held in hands. At higher loads or at larger flexed postures, muscles were found to play a more crucial role in stabilizing the spine compared with the passive structures. Muscle "dysfunction" destabilized the spine, reduced the role of facet joints in transmitting load, and shifted loads to the discs and ligaments.

CONCLUSIONS

Muscle dysfunction disturbs the normal functioning of other spinal components and may cause spinal disorders.

摘要

研究设计

开发了一种有限元与优化相结合的方法，以研究在五种准静态背部抬举条件下，腰椎肌肉的临床相关生物力学参数。

目的

量化肌肉“功能障碍”对腰椎力学行为的影响。

背景数据总结

躯干肌肉已被证明在脊柱的正常功能中起重要作用。尽管当肌肉支撑不足时，脊柱的被动结构被认为会承受越来越大的机械应力，但一直缺乏支持性的定量数据。

方法

通过实验估计各种抬举任务中L3-L4处的外部载荷，并使用优化方案将其分配到L3-L4节段的椎间盘和肌肉上。将这些力纳入L3-L5节段韧带腰椎的有限元模型中。通过降低计算出的肌肉力来模拟肌肉“功能障碍”。

结果

随着躯干前屈和手持负荷的增加，椎间盘内压力、韧带中的力以及小关节上的负荷的运动范围呈非线性增加。在较高负荷或较大屈曲姿势下，与被动结构相比，发现肌肉在稳定脊柱方面起更关键的作用。肌肉“功能障碍”使脊柱不稳定，减少了小关节在传递负荷中的作用，并将负荷转移到椎间盘和韧带上。

结论

肌肉功能障碍会干扰脊柱其他部件的正常功能，并可能导致脊柱疾病。

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肌肉功能障碍对腰椎力学的影响。基于双运动节段模型的有限元研究。

Effects of muscle dysfunction on lumbar spine mechanics. A finite element study based on a two motion segments model.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVES

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSIONS

研究设计

目的

背景数据总结

方法

结果

结论

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