股骨形态影响髋部踉跄跌倒时的骨折风险--计算生物力学研究

Life Pub Date : 2024-07-02 DOI:10.3390/life14070841
Jan-Oliver Sass, M. Saemann, M. Kebbach, Ehsan Soodmand, Andreas Wree, Rainer Bader, D. Kluess
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引用次数: 0

摘要

股骨近端骨折风险取决于受试者的特定因素,如骨矿物质密度和形态参数。在此,我们旨在分析股骨强度与 16 个形态参数的关系。因此,我们对髋部在踉跄和侧向跌倒时的 20 个人体股骨进行了有限元分析。计算了皮尔逊相关系数,并通过主成分分析和线性回归分析对具有显著相关性的形态参数进行了研究。与跌跌撞撞相比,髋部横向跌落时骨折强度对形态参数的依赖性更为明显。在股骨颈轴角(r = -0.474)、股骨颈直径(r = 0.507)、股骨头中心与股骨轴轴之间的真实距离(r = 0.459)及其在正面的投影距离(r = 0.511)、大转子高度(r = 0.497)、股骨头中心与包含股骨头中心至股骨颈轴投影的额面平行平面之间的距离(r = 0.669)。在主成分分析中,横向摔倒时的杠杆臂参数和股骨颈受力截面参数的权重很高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Morphology of the Femur Influences the Fracture Risk during Stumbling and Falls on the Hip—A Computational Biomechanical Study
Proximal femur fracture risk depends on subject-specific factors such as bone mineral density and morphological parameters. Here, we aim to analyze the dependency of the femoral strength on sixteen morphological parameters. Therefore, finite-element analyses of 20 human femurs during stumbling and lateral falls on the hip were conducted. Pearson correlation coefficients were calculated and morphological parameters with significant correlations were examined in principal component analysis and linear regression analysis. The dependency of the fracture strength on morphological parameters was more pronounced during lateral falls on the hip compared to stumbling. Significant correlations were observed between the neck shaft angle (r = −0.474), neck diameter (r = 0.507), the true distance between the femoral head center and femoral shaft axis (r = 0.459), and its projected distance on the frontal plane (r = 0.511), greater trochanter height (r = 0.497), and distance between the femoral head center and a plane parallel to the frontal plane containing the projection of the femoral head center to the femoral neck axis (r = 0.669). Principal component analysis was strongly weighted by parameters defining the lever arm during a lateral fall as well as the loaded cross-section in the femoral neck.
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