TY - EJOU AU - Jin, Seyong AU - Fayaz, Muhammad AU - Dang, L. Minh AU - Song, Hyoung-Kyu AU - Moon, Hyeonjoon TI - SwinHCAD: A Robust Multi-Modality Segmentation Model for Brain Tumors Using Transformer and Channel-Wise Attention T2 - Computers, Materials \& Continua PY - 2026 VL - 86 IS - 1 SN - 1546-2226 AB - Brain tumors require precise segmentation for diagnosis and treatment plans due to their complex morphology and heterogeneous characteristics. While MRI-based automatic brain tumor segmentation technology reduces the burden on medical staff and provides quantitative information, existing methodologies and recent models still struggle to accurately capture and classify the fine boundaries and diverse morphologies of tumors. In order to address these challenges and maximize the performance of brain tumor segmentation, this research introduces a novel SwinUNETR-based model by integrating a new decoder block, the Hierarchical Channel-wise Attention Decoder (HCAD), into a powerful SwinUNETR encoder. The HCAD decoder block utilizes hierarchical features and channel-specific attention mechanisms to further fuse information at different scales transmitted from the encoder and preserve spatial details throughout the reconstruction phase. Rigorous evaluations on the recent BraTS GLI datasets demonstrate that the proposed SwinHCAD model achieved superior and improved segmentation accuracy on both the Dice score and HD95 metrics across all tumor subregions (WT, TC, and ET) compared to baseline models. In particular, the rationale and contribution of the model design were clarified through ablation studies to verify the effectiveness of the proposed HCAD decoder block. The results of this study are expected to greatly contribute to enhancing the efficiency of clinical diagnosis and treatment planning by increasing the precision of automated brain tumor segmentation. KW - Attention mechanism; brain tumor segmentation; channel-wise attention; decoder; deep learning; medical imaging; MRI; transformer; U-Net DO - 10.32604/cmc.2025.070667