Ruining Deng, Can Cui, Lucas W Remedios, Shunxing Bao, R Michael Womick, Sophie Chiron, Jia Li, Joseph T Roland, Ken S Lau, Qi Liu, Keith T Wilson, Yaohong Wang, Lori A Coburn, Bennett A Landman, Yuankai Huo
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引用次数: 0
摘要
多实例学习(MIL)被广泛应用于病理全切片图像(WSI)的计算机辅助解读,以解决缺乏像素或斑块注释的问题。这种方法通常直接应用 "自然图像驱动 "的 MIL 算法,而忽略了 WSI 的多尺度(即金字塔形)性质。现成的 MIL 算法通常部署在单一尺度的 WSI 上(如 20 倍放大率),而人类病理学家通常以多尺度的方式(如在不同放大率之间放大或缩小)汇总全局和局部模式。在本研究中,我们提出了一种新颖的跨尺度关注机制,将克罗恩病(CD)(一种炎症性肠病)的相互作用明确聚合到一个单一的 MIL 网络中。本文有两方面的贡献:(1) 提出了一种跨尺度注意力机制,将来自不同分辨率的特征与多尺度互动聚合在一起;(2) 生成了差异化多尺度注意力可视化,以定位可解释的病变模式。通过在不同尺度上对 20 名 CD 患者和 30 名健康对照样本中约 250,000 个 H&E 染色的升结肠(AC)斑块进行训练,与基线模型相比,我们的方法获得了 0.8924 的优异曲线下面积(AUC)分数。正式实施方案可在 https://github.com/hrlblab/CS-MIL 上公开获取。
Cross-scale Attention Guided Multi-instance Learning for Crohn's Disease Diagnosis with Pathological Images.
Multi-instance learning (MIL) is widely used in the computer-aided interpretation of pathological Whole Slide Images (WSIs) to solve the lack of pixel-wise or patch-wise annotations. Often, this approach directly applies "natural image driven" MIL algorithms which overlook the multi-scale (i.e. pyramidal) nature of WSIs. Off-the-shelf MIL algorithms are typically deployed on a single-scale of WSIs (e.g., 20× magnification), while human pathologists usually aggregate the global and local patterns in a multi-scale manner (e.g., by zooming in and out between different magnifications). In this study, we propose a novel cross-scale attention mechanism to explicitly aggregate inter-scale interactions into a single MIL network for Crohn's Disease (CD), which is a form of inflammatory bowel disease. The contribution of this paper is two-fold: (1) a cross-scale attention mechanism is proposed to aggregate features from different resolutions with multi-scale interaction; and (2) differential multi-scale attention visualizations are generated to localize explainable lesion patterns. By training ~250,000 H&E-stained Ascending Colon (AC) patches from 20 CD patient and 30 healthy control samples at different scales, our approach achieved a superior Area under the Curve (AUC) score of 0.8924 compared with baseline models. The official implementation is publicly available at https://github.com/hrlblab/CS-MIL.
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