半月板角纵向撕裂对膝关节负荷分布的生物力学变化：有限元分析。

The biomechanical changes of load distribution with longitudinal tears of meniscal horns on knee joint: a finite element analysis.

机构信息

State Key Laboratory of Pharmaceutical Biotechnology, Department of Sports Medicine and Adult Reconstructive Surgery, Drum Tower Hospital affiliated to Medical School of Nanjing University, Nanjing, China.

School of Mechanical Engineering, Southeast University, Nanjing, China.

出版信息

J Orthop Surg Res. 2019 Jul 25;14(1):237. doi: 10.1186/s13018-019-1255-1.

DOI:10.1186/s13018-019-1255-1

PMID:31345248

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6659249/

Abstract

BACKGROUND

Meniscal horns are important structures of meniscus, and longitudinal tears of these places could significantly change the load distribution among the knee joint. Few studies concerned the stress concentrated on bones, which may induce the osteonecrosis of subchondral bone. The goal of this study was to construct a finite element (FE) model with high fidelity of the knee joint and evaluate the biomechanical changes of load distribution of components after longitudinal tears of the horns of meniscus.

METHODS

Computed tomography and magnetic resonance images were used to develop the FE model, and two different kinds of simulations, the vertical and the anterior load, mimicking the static stance and slight flexion simulations, were applied after longitudinal tears of the horns of meniscus.

RESULTS

Significantly elevated peak compressive and shear stress was observed on the menisci, cartilages, and subchondral bones, and enlarged meniscus extrusion was noticed. Between all the four types of longitudinal tears investigated in this study, longitudinal tears at the posterior horn of the medial meniscus were found to be the most significant.

CONCLUSIONS

These findings showed that longitudinal tears of the meniscal horns lead to increased magnitude and changed distribution of stress and indicated the important role of posterior horn of medial meniscus. This may contribute to the mechanism between meniscal tears and spontaneous subchondral bone osteonecrosis.

摘要

背景

半月板的半月板角是重要的结构，这些部位的纵向撕裂会显著改变膝关节的载荷分布。很少有研究关注可能导致软骨下骨骨坏死的骨上的应力集中。本研究的目的是构建具有高保真度的膝关节有限元（FE）模型，并评估半月板角纵向撕裂后各部件载荷分布的生物力学变化。

方法

使用计算机断层扫描和磁共振成像来开发 FE 模型，并在半月板角的纵向撕裂后应用两种不同的模拟，垂直和前负荷，模拟静态站立和轻度弯曲模拟。

结果

在半月板、软骨和软骨下骨上观察到明显升高的峰值压缩和剪切应力，并注意到半月板挤压增大。在所研究的四种类型的半月板角纵向撕裂中，内侧半月板后角的纵向撕裂最为显著。

结论

这些发现表明，半月板角的纵向撕裂会导致应力的大小和分布发生变化，并表明内侧半月板后角的重要作用。这可能有助于解释半月板撕裂与自发性软骨下骨骨坏死之间的机制。

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半月板角纵向撕裂对膝关节负荷分布的生物力学变化：有限元分析。

The biomechanical changes of load distribution with longitudinal tears of meniscal horns on knee joint: a finite element analysis.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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