Crown-Like Structures in Breast Adipose Tissue: Finding a 'Needle-in-a-Haystack' using Artificial Intelligence and Collaborative Active Learning on the Web

arXiv - QuanBio - Quantitative Methods Pub Date : 2024-09-12 DOI:arxiv-2409.08275

Praphulla MS Bhawsar, Cody Ramin, Petra Lenz, Máire A Duggan, Alexandra R Harris, Brittany Jenkins, Renata Cora, Mustapha Abubakar, Gretchen Gierach, Joel Saltz, Jonas S Almeida

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Abstract

Crown-like structures (CLS) in breast adipose tissue are formed as a result of macrophages clustering around necrotic adipocytes in specific patterns. As a histologic marker of local inflammation, CLS could have potential diagnostic utility as a biomarker for breast cancer risk. However, given the scale of whole slide images and the rarity of CLS (a few cells in an entire tissue sample), microscope-based manual identification is a challenge for the pathologist. In this report, we describe an artificial intelligence pipeline to solve this needle-in-a-haystack problem. We developed a zero-cost, zero-footprint web platform to enable remote operation on digital whole slide imaging data directly in the web browser, supporting collaborative annotation of the data by multiple experts. The annotated images then allow for incremental training and fine tuning of deep neural networks via active learning. The platform is reusable and requires no backend or installations, thus ensuring the data remains secure and private under the governance of the end user. Using this platform, we iteratively trained a CLS identification model, evaluating the performance after each round and adding examples to the training data to overcome failure cases. The resulting model, with an AUC of 0.90, shows promise as a first-pass screening tool to detect CLS in breast adipose tissue, considerably reducing the workload of the pathologist. Platform available at: https://episphere.github.io/path

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乳房脂肪组织中的冠状结构：利用人工智能和网络协作主动学习寻找 "大海捞针

乳腺脂肪组织中的冠状结构（CLS）是巨噬细胞以特定模式聚集在坏死脂肪细胞周围而形成的。作为局部炎症的组织学标记，冠状结构可能具有诊断乳腺癌风险的生物标记的潜在作用。然而，鉴于整张载玻片图像的比例和 CLS 的罕见性（整个组织样本中只有几个细胞），基于显微镜的人工识别对病理学家来说是一项挑战。在本报告中，我们介绍了一种人工智能管道来解决这个大海捞针式的问题。我们开发了一个零成本、零足迹的网络平台，可直接在网络浏览器中对数字全切片成像数据进行远程操作，支持多位专家对数据进行协作注释。注释后的图像可通过主动学习对深度神经网络进行增量训练和微调。该平台可重复使用，无需后台或安装，从而确保数据在终端用户的管理下保持安全和私密。利用该平台，我们反复训练 CLS 识别模型，在每轮训练后评估其性能，并向训练数据中添加示例以克服失败案例。结果表明，该模型的 AUC 为 0.90，有望成为检测乳腺脂肪组织中 CLS 的第一道筛查工具，从而大大减轻病理学家的工作量。平台见： https://episphere.github.io/path

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arXiv - QuanBio - Quantitative Methods

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