通过深度学习和浅度学习分析光学与化学图像实现癌症自动诊断

Automated Cancer Diagnostics via Analysis of Optical and Chemical Images by Deep and Shallow Learning.

作者信息

Isberg Olof Gerdur, Giunchiglia Valentina, McKenzie James S, Takats Zoltan, Jonasson Jon Gunnlaugur, Bodvarsdottir Sigridur Klara, Thorsteinsdottir Margret, Xiang Yuchen

机构信息

Department of Metabolism, Digestion and Reproduction, Faculty of Medicine, Imperial College London, London SW7 2AZ, UK.

Faculty of Pharmaceutical Sciences, University of Iceland, Hofsvallagata 53, 107 Reykjavik, Iceland.

出版信息

Metabolites. 2022 May 18;12(5):455. doi: 10.3390/metabo12050455.

DOI:10.3390/metabo12050455

PMID:35629959

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9143055/

Abstract

Optical microscopy has long been the gold standard to analyse tissue samples for the diagnostics of various diseases, such as cancer. The current diagnostic workflow is time-consuming and labour-intensive, and manual annotation by a qualified pathologist is needed. With the ever-increasing number of tissue blocks and the complexity of molecular diagnostics, new approaches have been developed as complimentary or alternative solutions for the current workflow, such as digital pathology and mass spectrometry imaging (MSI). This study compares the performance of a digital pathology workflow using deep learning for tissue recognition and an MSI approach utilising shallow learning to annotate formalin-fixed and paraffin-embedded (FFPE) breast cancer tissue microarrays (TMAs). Results show that both deep learning algorithms based on conventional optical images and MSI-based shallow learning can provide automated diagnostics with F1-scores higher than 90%, with the latter intrinsically built on biochemical information that can be used for further analysis.

摘要

长期以来，光学显微镜一直是分析组织样本以诊断各种疾病（如癌症）的金标准。当前的诊断流程既耗时又费力，需要由合格的病理学家进行手动注释。随着组织块数量的不断增加以及分子诊断的复杂性，已经开发出了新的方法作为当前工作流程的补充或替代解决方案，如数字病理学和质谱成像（MSI）。本研究比较了使用深度学习进行组织识别的数字病理学工作流程和利用浅层学习对福尔马林固定石蜡包埋（FFPE）乳腺癌组织微阵列（TMA）进行注释的MSI方法的性能。结果表明，基于传统光学图像的深度学习算法和基于MSI的浅层学习都可以提供F1分数高于90%的自动化诊断，后者本质上基于可用于进一步分析的生化信息。

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通过深度学习和浅度学习分析光学与化学图像实现癌症自动诊断

Automated Cancer Diagnostics via Analysis of Optical and Chemical Images by Deep and Shallow Learning.

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