1. Shoulder Bone Segmentation with DeepLab and U-Net
- Author
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Carl, Michael, Lall, Kaustubh, Pai, Darren, Chang, Eric Y, Statum, Sheronda, Brau, Anja, Chung, Christine B, Fung, Maggie, and Bae, Won C
- Subjects
Engineering ,Biomedical and Clinical Sciences ,Clinical Sciences ,Biomedical Engineering ,Bioengineering ,Machine Learning and Artificial Intelligence ,Clinical Research ,Networking and Information Technology R&D (NITRD) ,Biomedical Imaging ,Musculoskeletal - Abstract
Evaluation of the 3D bone morphology of the glenohumeral joint is necessary for pre-surgical planning. Zero echo time (ZTE) magnetic resonance imaging (MRI) provides excellent bone contrast and can potentially be used in the place of computed tomography. Segmentation of the shoulder anatomy, particularly the humeral head and the acetabulum, is needed for the detailed assessment of each anatomy and for pre-surgical preparation. In this study, we compared the performance of two popular deep learning models based on Google’s DeepLab and U-Net to perform automated segmentation on ZTE MRI of human shoulders. Axial ZTE images of normal shoulders (n = 31) acquired at 3-Tesla were annotated for training with DeepLab and 2D U-Net, and the trained model was validated with testing data (n = 13). While both models showed visually satisfactory results for segmenting the humeral bone, U-Net slightly over-estimated while DeepLab under-estimated the segmented area compared to the ground truth. Testing accuracy quantified by Dice score was significantly higher (p < 0.05) for U-Net (88%) than DeepLab (81%) for the humeral segmentation. We have also implemented the U-Net model onto an MRI console for push-button DL segmentation processing. Although this is an early work with limitations, our approach has the potential to improve shoulder MR evaluation hindered by manual post-processing and may provide clinical benefit for quickly visualizing bones of the glenohumeral joint.
- Published
- 2024