Prediction of trabecular bone architectural features by deep learning models using simulated DXA images

Prediction of trabecular bone architectural features by deep learning models using simulated DXA images

Dual-energy X-ray absorptiometry (DXA) is widely used for clinical assessment of bone mineral density (BMD). Recent evidence shows that DXA images may also contain microstructural information of trabecular bones. However, no current image processing techniques could aptly extract the information. In...

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Main Authors: Pengwei Xiao, Tinghe Zhang, Xuanliang Neil Dong, Yan Han, Yufei Huang, Xiaodu Wang
Format: Article
Language:English
Published: Elsevier 2020-12-01
Series:Bone Reports
Subjects:
Trabecular bone microarchitecture
Deep learning
DXA
Histomorphometric parameters
Online Access:http://www.sciencedirect.com/science/article/pii/S2352187220300553
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spelling doaj-ba61e8aae4d6416aa75a36ef5c1928e52020-12-23T05:00:16ZengElsevierBone Reports2352-18722020-12-0113100295Prediction of trabecular bone architectural features by deep learning models using simulated DXA imagesPengwei Xiao0Tinghe Zhang1Xuanliang Neil Dong2Yan Han3Yufei Huang4Xiaodu Wang5Mechanical Engineering, University of Texas at San Antonio, United States of AmericaElectrical and Computer Engineering, University of Texas at San Antonio, United States of AmericaHealth and Kinesiology, University of Texas at Tyler, United States of AmericaMechanical Engineering, University of Texas at San Antonio, United States of AmericaElectrical and Computer Engineering, University of Texas at San Antonio, United States of America; Correspondence to: Y. Huang, Electrical and Computer Engineering, University of Texas at San Antonio, TX 78249, United States of America.Mechanical Engineering, University of Texas at San Antonio, United States of America; Correspondence to: X. Wang, Mechanical Engineering, University of Texas at San Antonio, TX 78249, United States of America.Dual-energy X-ray absorptiometry (DXA) is widely used for clinical assessment of bone mineral density (BMD). Recent evidence shows that DXA images may also contain microstructural information of trabecular bones. However, no current image processing techniques could aptly extract the information. Inspired by the success of deep learning techniques in medical image analyses, we hypothesized in this study that DXA image-based deep learning models could predict the major microstructural features of trabecular bone with a reasonable accuracy. To test the hypothesis, 1249 trabecular cubes (6 mm × 6 mm × 6 mm) were digitally dissected out from the reconstruction of seven human cadaveric proximal femurs using microCT scans. From each cube, simulated DXA images in designated projections were generated, and the histomorphometric parameters (i.e., BV/TV, BS, Tb.Th, DA, Conn. D, and SMI) of the cube were determined using Image J. Convolutional neural network (CNN) models were trained using the simulated DXA images to predict the histomorphometric parameters of trabecular bone cubes. The results exhibited that the CNN models achieved high fidelity in predicting these histomorphometric parameters (from R = 0.80 to R = 0.985), showing that the DL models exhibited the capability of predicting the microstructural features using DXA images. This study also showed that the number and resolution of input simulated DXA images had considerable impacts on the prediction accuracy of the DL models. These findings support the hypothesis of this study and indicate a high potential of using DXA images in prediction of osteoporotic bone fracture risk.http://www.sciencedirect.com/science/article/pii/S2352187220300553Trabecular bone microarchitectureDeep learningDXAHistomorphometric parameters
collection DOAJ
language English
format Article
sources DOAJ
author Pengwei Xiao
Tinghe Zhang
Xuanliang Neil Dong
Yan Han
Yufei Huang
Xiaodu Wang
spellingShingle Pengwei Xiao
Tinghe Zhang
Xuanliang Neil Dong
Yan Han
Yufei Huang
Xiaodu Wang
Prediction of trabecular bone architectural features by deep learning models using simulated DXA images
Bone Reports
Trabecular bone microarchitecture
Deep learning
DXA
Histomorphometric parameters
author_facet Pengwei Xiao
Tinghe Zhang
Xuanliang Neil Dong
Yan Han
Yufei Huang
Xiaodu Wang
author_sort Pengwei Xiao
title Prediction of trabecular bone architectural features by deep learning models using simulated DXA images
title_short Prediction of trabecular bone architectural features by deep learning models using simulated DXA images
title_full Prediction of trabecular bone architectural features by deep learning models using simulated DXA images
title_fullStr Prediction of trabecular bone architectural features by deep learning models using simulated DXA images
title_full_unstemmed Prediction of trabecular bone architectural features by deep learning models using simulated DXA images
title_sort prediction of trabecular bone architectural features by deep learning models using simulated dxa images
publisher Elsevier
series Bone Reports
issn 2352-1872
publishDate 2020-12-01
description Dual-energy X-ray absorptiometry (DXA) is widely used for clinical assessment of bone mineral density (BMD). Recent evidence shows that DXA images may also contain microstructural information of trabecular bones. However, no current image processing techniques could aptly extract the information. Inspired by the success of deep learning techniques in medical image analyses, we hypothesized in this study that DXA image-based deep learning models could predict the major microstructural features of trabecular bone with a reasonable accuracy. To test the hypothesis, 1249 trabecular cubes (6 mm × 6 mm × 6 mm) were digitally dissected out from the reconstruction of seven human cadaveric proximal femurs using microCT scans. From each cube, simulated DXA images in designated projections were generated, and the histomorphometric parameters (i.e., BV/TV, BS, Tb.Th, DA, Conn. D, and SMI) of the cube were determined using Image J. Convolutional neural network (CNN) models were trained using the simulated DXA images to predict the histomorphometric parameters of trabecular bone cubes. The results exhibited that the CNN models achieved high fidelity in predicting these histomorphometric parameters (from R = 0.80 to R = 0.985), showing that the DL models exhibited the capability of predicting the microstructural features using DXA images. This study also showed that the number and resolution of input simulated DXA images had considerable impacts on the prediction accuracy of the DL models. These findings support the hypothesis of this study and indicate a high potential of using DXA images in prediction of osteoporotic bone fracture risk.
topic Trabecular bone microarchitecture
Deep learning
DXA
Histomorphometric parameters
url http://www.sciencedirect.com/science/article/pii/S2352187220300553
work_keys_str_mv AT pengweixiao predictionoftrabecularbonearchitecturalfeaturesbydeeplearningmodelsusingsimulateddxaimages
AT tinghezhang predictionoftrabecularbonearchitecturalfeaturesbydeeplearningmodelsusingsimulateddxaimages
AT xuanliangneildong predictionoftrabecularbonearchitecturalfeaturesbydeeplearningmodelsusingsimulateddxaimages
AT yanhan predictionoftrabecularbonearchitecturalfeaturesbydeeplearningmodelsusingsimulateddxaimages
AT yufeihuang predictionoftrabecularbonearchitecturalfeaturesbydeeplearningmodelsusingsimulateddxaimages
AT xiaoduwang predictionoftrabecularbonearchitecturalfeaturesbydeeplearningmodelsusingsimulateddxaimages
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