期刊
DIAGNOSTIC AND INTERVENTIONAL IMAGING
卷 101, 期 12, 页码 789-794出版社
ELSEVIER MASSON, CORP OFF
DOI: 10.1016/j.diii.2020.04.011
关键词
Tomography; X-ray computed; Deep learning; Muscular body bass; Sarcopenia; Convolutional neural networks (CNN)
资金
- Commission Nationale del'Informatique et des Libertes (CNIL)
Purpose: The purpose of this study was to build and train a deep convolutional neural networks (CNN) algorithm to segment muscular body mass (MBM) to predict muscular surface from a two-dimensional axial computed tomography (CT) slice through L3 vertebra. Materials and methods: An ensemble of 15 deep learning models with a two-dimensional U-net architecture with a 4-level depth and 18 initial filters were trained to segment MBM. The muscular surface values were computed from the predicted masks and corrected with the algorithm's estimated bias. Resulting mask prediction and surface prediction were assessed using Dice similarity coefficient (DSC) and root mean squared error (RMSE) scores respectively using ground truth masks as standards of reference. Results: A total of 1025 individual CT slices were used for training and validation and 500 additional axial CT slices were used for testing. The obtained mean DSC and RMSE on the test set were 0.97 and 3.7 cm(2) respectively. Conclusion: Deep learning methods using convolutional neural networks algorithm enable a robust and automated extraction of CT derived MBM for sarcopenia assessment, which could be implemented in a clinical workflow. (C) 2020 Societe francaise de radiologie. Published by Elsevier Masson SAS. All rights reserved.
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