数字病理学图谱:用于深度学习的广义分层组织类型注释数据库

M. S. Hosseini, Lyndon Chan, Gabriel Tse, M. Tang, J. Deng, Sajad Norouzi, C. Rowsell, K. Plataniotis, S. Damaskinos
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引用次数: 43

摘要

近年来,计算机视觉技术在图像识别方面取得了很大进展,并被应用于辅助放射诊断。计算病理学旨在开发类似的工具来帮助病理学家诊断数字化的组织病理学切片,这将在工作量增加的情况下提高诊断的准确性和生产力。然而,缺乏公开可用的数据库(1)用(2)大范围的组织学组织类型(HTT)注释的局部斑块级图像。因此,计算病理学研究局限于诊断特定疾病或对特定器官的组织进行分类,不能很容易地推广到处理意外的疾病和器官。在本文中,我们提出了一个新的数字病理数据库,“数字病理图谱”(或ADP),它包括从100张幻灯片中提取的17,668张补丁图像,其中注释了多达57个分层html。我们的数据被推广到不同器官的不同组织类型,旨在为数字化整张幻灯片图像中贴片级HTT的监督多标签学习提供训练数据。我们通过病理学家咨询和训练三个最先进的组织类型分类神经网络来展示我们图像标签的质量。定量结果支持我们数据的视觉一致性,我们展示了一个基于组织类型的视觉注意力辅助工具,作为一个样本工具,可以从我们的数据库中开发出来。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Atlas of Digital Pathology: A Generalized Hierarchical Histological Tissue Type-Annotated Database for Deep Learning
In recent years, computer vision techniques have made large advances in image recognition and been applied to aid radiological diagnosis. Computational pathology aims to develop similar tools for aiding pathologists in diagnosing digitized histopathological slides, which would improve diagnostic accuracy and productivity amidst increasing workloads. However, there is a lack of publicly-available databases of (1) localized patch-level images annotated with (2) a large range of Histological Tissue Type (HTT). As a result, computational pathology research is constrained to diagnosing specific diseases or classifying tissues from specific organs, and cannot be readily generalized to handle unexpected diseases and organs. In this paper, we propose a new digital pathology database, the ``Atlas of Digital Pathology'' (or ADP), which comprises of 17,668 patch images extracted from 100 slides annotated with up to 57 hierarchical HTTs. Our data is generalized to different tissue types across different organs and aims to provide training data for supervised multi-label learning of patch-level HTT in a digitized whole slide image. We demonstrate the quality of our image labels through pathologist consultation and by training three state-of-the-art neural networks on tissue type classification. Quantitative results support the visually consistency of our data and we demonstrate a tissue type-based visual attention aid as a sample tool that could be developed from our database.
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