MISA-Net: A Multi-Scale Feature Interaction Network for Brain Tumor Segmentation - 09/05/25
, Junfeng Xia a , Wenjuan Gu a , Tingqiang Yao a , Jihong Shen b , Dan Tang c Abstract |
Background and Objective |
Accurate segmentation of brain tumor images is crucial in medical auxiliary diagnosis. However, the complex morphology and ambiguous boundary contours of brain tumors pose significant challenges to precise segmentation.
Methods |
To address these issues, we developed MISA-Net, which is based on enhanced multi-scale feature interactions and selective feature fusion attention. Initially, a Multi-Scale Feature Interaction (MSFI) module was implemented to enhance the interaction between features at different scales, resolving issues of misclassification in regions with complex tumor morphologies. Subsequently, a Selective Feature Fusion Attention (SFFA) mechanism was introduced to reduce the interference of redundant information in skip connections on crucial features.
Results |
Experiments on the BraTS 2019 dataset show that MISA-Net achieved Dice coefficients of 80.02%, 88.86%, and 86.02% in the enhancing, core, and whole tumor areas, respectively. Additionally, the Dice coefficient for the whole tumor area impressively reached 90.33% on the Kaggle LGG dataset; the Dice coefficient for the whole tumor area impressively reached 84.97% on the Figshare dataset.
Conclusions |
Compared to existing mainstream models, MISA-Net demonstrates superior performance in brain tumor segmentation tasks, highlighting its potential and advantages in clinical diagnosis and treatment.
Le texte complet de cet article est disponible en PDF.Graphical abstract |
Highlights |
• | A network for precise segmentation of brain tumor called MISA-Net is proposed. |
• | A MSFI module is proposed to cope with irregular shape and size of brain tumor. |
• | A SFFA module is proposed to solve the issue of feature information interference. |
• | The MISA-Net achieves good results on three public datasets. |
Keywords : Brain tumor segmentation, Deep learning, Multi-scale feature interaction, Feature selection
Plan
Vol 46 - N° 3
Article 100891- juin 2025 Retour au numéro
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