Domain-Generalized Discrete Diffusion Model for Cross-Domain Medical Image Segmentation

Domain shift is a significant challenge in medical image segmentation, primarily due to variations in image acquisition protocols, modalities, etc. Domain shift often causes models trained on a source domain to perform poorly on unseen target domains. In this work, we introduce the Domain-Generalized Discrete Diffusion Model for Segmentation (DG-DDM-Seg), a diffusion-based generative model designed for single-source domain generalization in medical image segmentation. DG-DDM-Seg generates discrete conditional distributions of segmentation masks. To ensure domain independence, we employ two key strategies: 1) We extract robust features from conditional images to enhance the domain independence of diffusion model. 2) We use both conditional images and pseudo-labels as inputs to improve cross-domain segmentation performance. Along this idea, we propose a two-path reverse diffusion process during training, utilizing Robust Feature Extraction Subnet and Mask-Generation Transformer to learn a domain-generalized discrete conditional distribution based on robust image features and pseudo-labels. This learned distribution is then used to generate segmentation masks for unseen target domains. Experimental results demonstrate that DG-DDM-Seg achieves state-of-the-art performance in cross-domain medical image segmentation, with domain shifts in modality, sequence, and site.