Advancing Brain Tumor Segmentation in MRI Scans: Hybrid Attention-Residual UNET with Transformer Blocks

Sobha Xavier P, Sathish P K, Raju G
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Abstract

Accurate segmentation of brain tumors is vital for effective treatment planning, disease diagnosis, and monitoring treatment outcomes. Post-surgical monitoring, particularly for recurring tumors, relies on MRI scans, presenting challenges in segmenting small residual tumors due to surgical artifacts. This emphasizes the need for a robust model with superior feature extraction capabilities for precise segmentation in both pre- and post-operative scenarios. The study introduces the Hybrid Attention-Residual UNET with Transformer Blocks (HART-UNet), enhancing the U-Net architecture with a spatial self-attention module, deep residual connections, and RESNET50 weights. Trained on BRATS’20 and validated on Kaggle LGG and BTC_ postop datasets, HART-UNet outperforms established models (UNET, Attention UNET, UNET++, and RESNET 50), achieving Dice Coefficients of 0.96, 0.97, and 0.88, respectively. These results underscore the model’s superior segmentation performance, marking a significant advancement in brain tumor analysis across pre- and post-operative MRI scans.
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推进磁共振成像扫描中的脑肿瘤分割:带有变压器块的混合注意力-惯性 UNET
脑肿瘤的精确分割对于有效的治疗计划、疾病诊断和治疗效果监测至关重要。手术后的监测,尤其是复发肿瘤的监测,依赖于核磁共振成像扫描,由于手术伪影,在分割小的残余肿瘤时面临挑战。这就强调了需要一个具有卓越特征提取能力的稳健模型,以便在术前和术后场景中进行精确分割。本研究引入了带变压器块的混合注意力-残余 UNET(HART-UNet),通过空间自注意力模块、深度残余连接和 RESNET50 权重增强了 U-Net 架构。HART-UNet 在 BRATS'20 上进行了训练,并在 Kaggle LGG 和 BTC_ 术后数据集上进行了验证,其表现优于现有模型(UNET、Attention UNET、UNET++ 和 RESNET 50),骰子系数分别达到 0.96、0.97 和 0.88。这些结果凸显了该模型卓越的分割性能,标志着脑肿瘤分析在术前和术后核磁共振扫描中取得了重大进展。
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