基于第二代高分辨率外周定量 CT 图像的均匀化和微观有限元分析对桡骨远端失效载荷预测的验证。

Validation of distal radius failure load predictions by homogenized- and micro-finite element analyses based on second-generation high-resolution peripheral quantitative CT images.

机构信息

Orthopaedic Biomechanics, Department of Biomedical Engineering, Eindhoven University of Technology, De Zaale, Groene Loper 15, 5612AP, Eindhoven, The Netherlands.

Department of Mechanics and Production, Autonomous University of Manizales, Antigua Estación del Ferrocarril, Manizales, Caldas, Colombia.

出版信息

Osteoporos Int. 2019 Jul;30(7):1433-1443. doi: 10.1007/s00198-019-04935-6. Epub 2019 Apr 17.

DOI:10.1007/s00198-019-04935-6

PMID:30997546

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6614386/

Abstract

UNLABELLED

This study developed a well-standardized and reproducible approach for micro-finite element (mFE) and homogenized-FE (hFE) analyses that can accurately predict the distal radius failure load using either mFE or hFE models when using the approaches and parameters developed in this study.

INTRODUCTION

Micro-FE analyses based on high-resolution peripheral quantitative CT (HR-pQCT) images are frequently used to predict distal radius failure load. With the introduction of a second-generation HR-pQCT device, however, the default modelling approach no longer provides accurate results. The aim of this study was to develop a well-standardized and reproducible approach for mFE and hFE analyses that can provide precise and accurate results for distal radius failure load predictions based on second-generation HR-pQCT images.

METHODS

Second-generation HR-pQCT was used to scan the distal 20-mm section of 22 cadaver radii. The sections were excised and mechanically tested afterwards. For these sections, mFE and hFE models were made that were used to identify required material parameters by comparing predicted and measured results. Using these parameters, the models were cropped to represent the 10-mm region recommended for clinical studies to test their performance for failure load prediction.

RESULTS

After identification of material parameters, the measured failure load of the 20-mm segments was in good agreement with the results of mFE models (R = 0.969, slope = 1.035) and hFE models (R = 0.966, slope = 0.890). When the models were restricted to the clinical region, mFE still accurately predicted the measured failure load (R = 0.955, slope = 1.021), while hFE predictions were precise but tended to overpredict the failure load (R = 0.952, slope = 0.780).

CONCLUSIONS

It was concluded that it is possible to accurately predict the distal radius failure load using either mFE or hFE models when using the approaches and parameters developed in this study.

摘要

目的

本研究开发了一种标准化且可重复的微有限元（mFE）和均匀化有限元（hFE）分析方法，该方法可以使用本研究中开发的方法和参数，通过 mFE 或 hFE 模型准确预测桡骨远端失效载荷。

简介

基于高分辨率外周定量 CT（HR-pQCT）图像的微有限元分析常用于预测桡骨远端失效载荷。然而，随着第二代 HR-pQCT 设备的引入，默认的建模方法不再提供准确的结果。本研究的目的是开发一种标准化且可重复的 mFE 和 hFE 分析方法，该方法可以为基于第二代 HR-pQCT 图像的桡骨远端失效载荷预测提供精确和准确的结果。

方法

使用第二代 HR-pQCT 扫描 22 具尸体桡骨远端 20mm 节段。对这些节段进行切割，然后进行机械测试。针对这些节段，建立了 mFE 和 hFE 模型，通过比较预测结果和测量结果来确定所需的材料参数。使用这些参数，将模型裁剪为代表推荐用于临床研究的 10mm 区域，以测试其在失效载荷预测方面的性能。

结果

在确定材料参数后，20mm 节段的测量失效载荷与 mFE 模型（R=0.969，斜率=1.035）和 hFE 模型（R=0.966，斜率=0.890）的结果非常吻合。当模型限制在临床区域时，mFE 仍然可以准确预测测量的失效载荷（R=0.955，斜率=1.021），而 hFE 预测虽然精确，但倾向于过高预测失效载荷（R=0.952，斜率=0.780）。

结论

当使用本研究中开发的方法和参数时，可以通过 mFE 或 hFE 模型准确预测桡骨远端失效载荷。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/23fa/6614386/90303dd9ae4a/198_2019_4935_Fig1_HTML.jpg

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基于第二代高分辨率外周定量 CT 图像的均匀化和微观有限元分析对桡骨远端失效载荷预测的验证。

Validation of distal radius failure load predictions by homogenized- and micro-finite element analyses based on second-generation high-resolution peripheral quantitative CT images.

机构信息

出版信息

UNLABELLED

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

目的

简介

方法

结果

结论

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