基于区域感知的脑肿瘤不完全多模态分割融合网络

Yuhang Ding, Xin Yu, Yi Yang
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引用次数: 22

摘要

现有的大多数脑肿瘤分割方法通常利用多模态磁共振成像(MRI)图像来实现高分割性能。然而,在临床实践中经常出现某些模态图像缺失的问题,从而导致分割性能严重下降。在这项工作中,我们提出了一个区域感知融合网络(RFNet),它能够自适应地有效地利用多模态数据的不同组合进行肿瘤分割。考虑到不同的模式对不同的脑肿瘤区域敏感,我们在RFNet中设计了一个区域感知融合模块(RFM),根据不同的区域对可用的图像模式进行模式特征融合。得益于RFM, RFNet可以通过有效地聚合模态特征,自适应地从一组不完整的多模态图像中分割肿瘤区域。此外,我们还开发了一个基于分段的正则化器,以防止RFNet因多模态数据不完整而导致的训练不足和不平衡。具体而言,除了从融合的模态特征中获得分割结果外,我们还从相应的编码特征中单独分割每个图像模态。这样,每个模态编码器被迫学习判别特征,从而提高了融合特征的表示能力。值得注意的是,在BRATS2020、BRATS2018和BRATS2015数据集上进行的大量实验表明,我们的RFNet显著优于最先进的RFNet。
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RFNet: Region-aware Fusion Network for Incomplete Multi-modal Brain Tumor Segmentation
Most existing brain tumor segmentation methods usually exploit multi-modal magnetic resonance imaging (MRI) images to achieve high segmentation performance. However, the problem of missing certain modality images often happens in clinical practice, thus leading to severe segmentation performance degradation. In this work, we propose a Region-aware Fusion Network (RFNet) that is able to exploit different combinations of multi-modal data adaptively and effectively for tumor segmentation. Considering different modalities are sensitive to different brain tumor regions, we design a Region-aware Fusion Module (RFM) in RFNet to conduct modal feature fusion from available image modalities according to disparate regions. Benefiting from RFM, RFNet can adaptively segment tumor regions from an incomplete set of multi-modal images by effectively aggregating modal features. Furthermore, we also develop a segmentation-based regularizer to prevent RFNet from the insufficient and unbalanced training caused by the incomplete multi-modal data. Specifically, apart from obtaining segmentation results from fused modal features, we also segment each image modality individually from the corresponding encoded features. In this manner, each modal encoder is forced to learn discriminative features, thus improving the representation ability of the fused features. Remarkably, extensive experiments on BRATS2020, BRATS2018 and BRATS2015 datasets demonstrate that our RFNet outperforms the state-of-the-art significantly.
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