论文信息 - Multi-Structure Deep Segmentation With Shape Priors And Latent Adversarial Regularization

Multi-Structure Deep Segmentation With Shape Priors And Latent Adversarial Regularization

Automatic segmentation of the musculoskeletal system in pediatric magnetic resonance (MR) images is a challenging but crucial task for morphological evaluation in clinical practice. We propose a deep learning-based regularized segmentation method for multi-structure bone delineation in MR images, designed to overcome the inherent scarcity and heterogeneity of pediatric data. Based on a newly devised shape code discriminator, our adversarial regularization scheme enforces the deep network to follow a learnt shape representation of the anatomy. The novel shape priors based adversarial regularization (SPAR) exploits latent shape codes arising from ground truth and predicted masks to guide the segmentation network towards more consistent and plausible predictions. Our contribution is compared to state-of-the-art regularization methods on two pediatric musculoskeletal imaging datasets from ankle and shoulder joints.

Pierre-Henri Conze | Bhushan Borotikar | Arnaud Boutillon | Christelle Pons | Val'erie Burdin

[1] Pierre-Henri Conze,et al. Healthy versus pathological learning transferability in shoulder muscle MRI segmentation using deep convolutional encoder-decoders , 2020, Comput. Medical Imaging Graph..

[2] Bhushan Borotikar,et al. Multi-structure bone segmentation in pediatric MR images with combined regularization from shape priors and adversarial network , 2020, Artif. Intell. Medicine.

[3] Vivek Kumar Singh,et al. Breast tumor segmentation and shape classification in mammograms using generative adversarial and convolutional neural network , 2018, Expert Syst. Appl..

[4] Thomas Brox,et al. U-Net: Convolutional Networks for Biomedical Image Segmentation , 2015, MICCAI.

[5] Konstantinos Kamnitsas,et al. Anatomically Constrained Neural Networks (ACNNs): Application to Cardiac Image Enhancement and Segmentation , 2017, IEEE Transactions on Medical Imaging.

[6] Navdeep Jaitly,et al. Adversarial Autoencoders , 2015, ArXiv.

[7] C. Balassy,et al. Role of MRI in paediatric musculoskeletal conditions. , 2008, European journal of radiology.

[8] Tobias Kober,et al. Artificial Intelligence in Musculoskeletal Imaging: Review of Current Literature, Challenges, and Trends , 2019, Seminars in Musculoskeletal Radiology.