胫骨近端的力学参数具有精确性，能够区分骨关节炎和正常膝关节：一项有限元研究。

Mechanical Metrics of the Proximal Tibia are Precise and Differentiate Osteoarthritic and Normal Knees: A Finite Element Study.

机构信息

Department of Mechanical Engineering, University of Saskatchewan, Saskatoon, SK, Canada.

College of Kinesiology, University of Saskatchewan, Saskatoon, SK, Canada.

出版信息

Sci Rep. 2018 Jul 31;8(1):11478. doi: 10.1038/s41598-018-29880-y.

DOI:10.1038/s41598-018-29880-y

PMID:30065276

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6068127/

Abstract

Our objective was to identify precise mechanical metrics of the proximal tibia which differentiated OA and normal knees. We developed subject-specific FE models for 14 participants (7 OA, 7 normal) who were imaged three times each for assessing precision (repeatability). We assessed various mechanical metrics (minimum principal and von Mises stress and strain as well as structural stiffness) across the proximal tibia for each subject. In vivo precision of these mechanical metrics was assessed using CV%. We performed parametric and non-parametric statistical analyses and determined Cohen's d effect sizes to explore differences between OA and normal knees. For all FE-based mechanical metrics, average CV% was less than 6%. Minimum principal stress was, on average, 75% higher in OA versus normal knees while minimum principal strain values did not differ. No difference was observed in structural stiffness. FE modeling could precisely quantify and differentiate mechanical metrics variations in normal and OA knees, in vivo. This study suggests that bone stress patterns may be important for understanding OA pathogenesis at the knee.

摘要

我们的目的是确定能够区分 OA 膝关节和正常膝关节的胫骨近端的精确力学指标。我们为 14 名参与者（7 例 OA，7 例正常）分别建立了特定于个体的有限元模型，这些参与者每人接受了三次成像，以评估精度（可重复性）。我们评估了每个参与者胫骨近端的各种力学指标（最小主应力和 von Mises 应力和应变以及结构刚度）。我们使用 CV% 评估了这些力学指标的体内精度。我们进行了参数和非参数统计分析，并确定了 Cohen's d 效应大小，以探索 OA 膝关节和正常膝关节之间的差异。对于所有基于 FE 的力学指标，平均 CV%均小于 6%。OA 膝关节的最小主应力平均比正常膝关节高 75%，而最小主应变值没有差异。结构刚度没有差异。FE 建模可以精确地量化和区分正常和 OA 膝关节的力学指标变化，具有体内可行性。这项研究表明，骨应力模式可能对理解膝关节 OA 的发病机制很重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c2fb/6068127/5bbbd1c73251/41598_2018_29880_Fig1_HTML.jpg

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胫骨近端的力学参数具有精确性，能够区分骨关节炎和正常膝关节：一项有限元研究。

Mechanical Metrics of the Proximal Tibia are Precise and Differentiate Osteoarthritic and Normal Knees: A Finite Element Study.

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