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在有或无椎间盘退变的健康与骨质疏松骨模型中对脊柱运动节段应力模式的评估:有限元分析

Assessment of stress patterns on a spinal motion segment in healthy versus osteoporotic bony models with or without disc degeneration: a finite element analysis.

作者信息

Tsouknidas Alexander, Sarigiannidis Stylianos Orestis, Anagnostidis Kleovoulos, Michailidis Nikolaos, Ahuja Sashin

机构信息

Mechanical Engineering Department, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece.

Mechanical Engineering Department, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece.

出版信息

Spine J. 2015 Mar 2;15(3 Suppl):S17-S22. doi: 10.1016/j.spinee.2014.12.148. Epub 2015 Jan 8.

DOI:10.1016/j.spinee.2014.12.148
PMID:25576902
Abstract

BACKGROUND CONTEXT

With an increasing prevalence of low back pain, physicians strive to optimize the treatment of patients with degenerated motion segments. There exists a consensus in literature that osteoporotic patients exhibit nonphysiologic loading patterns, while degenerated intervertebral discs (IVDs) are also believed to alter spine biomechanics.

PURPOSE

To evaluate alterations occurring in lumbosacral spine biomechanics of an osteoporotic model, with or without IVD degeneration, when compared with a healthy spine segment.

STUDY DESIGN

The investigation was based on finite element (FE) analysis of a patient-specific lumbosacral spine model.

METHODS

A biorealistic model of a lumbosacral spine segment is introduced to determine the morbidity of disc degeneration and osteoporosis. The model was verified and validated for the purpose of the study and subjected to a dynamic FE analysis, considering anisotropic bone properties and solid ligamentous tissue.

RESULTS

The yielded results merit high clinical interest. Osteoporosis resulted in a nonuniform increase of facet joint loading, which was even more pronounced in the scenario simulating a degenerated disc. The results also revealed an enslavement of intradiscal pressure to the disc state (in the degenerated and superior adjacent level).

CONCLUSIONS

The investigation presented refined insight into the dynamic biomechanical response of a degenerated spine segment. The increase in the calculated occurring stresses was considered as critical in the motion segment adjacent and superior to the degenerated one. This suggests that prevalent trauma in a motion segment may be a symptomatic condition of a poorly treated formal pathology in the inferior spine level.

摘要

背景

随着腰痛患病率的不断上升,医生们努力优化对退变运动节段患者的治疗。文献中存在一种共识,即骨质疏松患者表现出非生理性的负荷模式,而退变的椎间盘也被认为会改变脊柱生物力学。

目的

评估与健康脊柱节段相比,存在或不存在椎间盘退变的骨质疏松模型的腰骶部脊柱生物力学变化。

研究设计

该研究基于对特定患者腰骶部脊柱模型的有限元(FE)分析。

方法

引入一个逼真的腰骶部脊柱节段模型来确定椎间盘退变和骨质疏松的发病率。为了本研究的目的,对该模型进行了验证和确认,并考虑了各向异性骨特性和实体韧带组织进行动态有限元分析。

结果

所得结果具有很高的临床意义。骨质疏松导致小关节负荷不均匀增加,在模拟退变椎间盘的情况下更为明显。结果还揭示了椎间盘内压力对椎间盘状态的依赖(在退变和相邻上位节段)。

结论

该研究对退变脊柱节段的动态生物力学反应提供了更深入的见解。计算得出的应力增加在退变节段相邻和上位的运动节段中被认为是关键的。这表明运动节段中普遍存在的创伤可能是下脊柱节段正规病理治疗不佳的一种症状表现。

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