Cardiac Magnetic Resonance 2D+T Short- and Long-axis Segmentation via Spatio-temporal SAM Adaptation

Accurate 2D+T myocardium segmentation in cine cardiac magnetic resonance (CMR) scans is essential to analyze LV motion throughout the cardiac cycle comprehensively. The Segment Anything Model (SAM), known for its accurate segmentation and zero-shot generalization, has not yet been tailored for CMR 2D+T segmentation. We therefore introduce CMR2D+T-SAM, a novel approach to adapt SAM for CMR 2D+T segmentation using spatio-temporal adaption. This approach also incorporates a U-Net framework for multi-scale feature extraction, as well as text prompts for accurate segmentation on both short-axis (SAX) and long-axis (LAX) views using a single model. CMR2D+T-SAM outperforms existing deep learning methods on the STACOM2011 dataset, achieving a myocardium Dice score of 0.885 and a Hausdorff distance (HD) of 2.900 pixels. It also demonstrates superior zero-shot generalization on the ACDC dataset with a Dice score of 0.840 and a HD of 4.076 pixels.