Incorporating patient-specific hip orientation from weightbearing computed tomography affects discrete element analysis-computed regional joint contact mechanics in individuals treated with periacetabular osteotomy for hip dysplasia.

IF 1.7 4区 医学 Q3 ENGINEERING, BIOMEDICAL
Dominic Jl Rivas, Holly D Aitken, Kevin N Dibbern, Michael C Willey, Robert W Westermann, Jessica E Goetz
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引用次数: 0

Abstract

Computational models of the hip often omit patient-specific functional orientation when placing imaging-derived bony geometry into anatomic landmark-based coordinate systems for application of joint loading schemes. The purpose of this study was to determine if this omission meaningfully alters computed contact mechanics. Discrete element analysis models were created from non-weightbearing (NWB) clinical CT scans of 10 hip dysplasia patients (11 hips) and oriented in the International Society of Biomechanics (ISB) coordinate system (NWB-ISB). Three additional models were generated for each hip by adding patient-specific stance information obtained via weightbearing CT (WBCT) to each ISB-oriented model: (1) patient-specific sagittal tilt added (WBCT-sagittal), (2) coronal and axial rotation from optical motion capture added to (1; WBCT-combo), and (3) WBCT-derived axial, sagittal, and coronal rotation added to (1; WBCT-original). Identical gait cycle loading was applied to all models for a given hip, and computed contact stress and contact area were compared between model initialization techniques. Addition of sagittal tilt did not significantly change whole-joint peak (p = 0.922) or mean (p = 0.871) contact stress or contact area (p = 0.638). Inclusion of motion-captured coronal and axial rotation (WBCT-combo) decreased peak contact stress (p = 0.014) and slightly increased average contact area (p = 0.071) from WBCT-sagittal models. Including all WBCT-derived rotations (WBCT-original) further reduced computed peak contact stress (p = 0.001) and significantly increased contact area (p = 0.001). Variably significant differences (p = 0.001-1.0) in patient-specific acetabular subregion mechanics indicate the importance of functional orientation incorporation for modeling applications in which local contact mechanics are of interest.

从负重计算机断层扫描中纳入患者特异性髋关节方向会影响离散元分析计算的髋关节周围截骨术治疗髋关节发育不良患者的区域关节接触力学。
髋关节的计算模型在应用关节加载方案时,将成像得出的骨骼几何形状放入基于解剖地标的坐标系中时,往往会忽略患者特定的功能定位。本研究的目的是确定这种忽略是否会有意义地改变计算接触力学。离散元素分析模型是根据 10 名髋关节发育不良患者(11 个髋关节)的非负重(NWB)临床 CT 扫描图像创建的,并以国际生物力学学会(ISB)坐标系(NWB-ISB)为导向。通过在每个面向 ISB 的模型中添加通过负重 CT(WBCT)获得的患者特异性站姿信息,为每个髋关节生成了三个附加模型:(1) 添加患者特异性矢状面倾斜(WBCT-矢状面),(2) 添加来自光学运动捕捉的冠状面和轴向旋转(1;WBCT-combo),(3) 添加来自 WBCT 的轴向、矢状面和冠状面旋转(1;WBCT-original)。对给定髋关节的所有模型施加相同的步态周期负荷,并比较不同模型初始化技术计算出的接触应力和接触面积。增加矢状倾斜并没有显著改变全关节峰值(p = 0.922)或平均值(p = 0.871)接触应力或接触面积(p = 0.638)。与 WBCT-矢状面模型相比,纳入运动捕获的冠状旋转和轴向旋转(WBCT-combo)降低了接触应力峰值(p = 0.014),并略微增加了平均接触面积(p = 0.071)。包括所有 WBCT 派生旋转(WBCT-original)进一步降低了计算的接触应力峰值(p = 0.001),并显著增加了接触面积(p = 0.001)。患者特异性髋臼亚区力学存在不同程度的显着差异(p = 0.001-1.0),这表明将功能取向纳入建模应用的重要性,其中局部接触力学值得关注。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.60
自引率
5.60%
发文量
122
审稿时长
6 months
期刊介绍: The Journal of Engineering in Medicine is an interdisciplinary journal encompassing all aspects of engineering in medicine. The Journal is a vital tool for maintaining an understanding of the newest techniques and research in medical engineering.
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