尽管档案切片噪音很大,但仍能通过机器学习趋同黑素细胞形态学

Mikio Tada, Garrett Gaskins, Sina Ghandian, Nicholas Mew, Michael J. Keiser, Elizabeth S. Keiser
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摘要

黑色素细胞不典型性从良性到恶性不等,常常导致诊断不一致,使机器学习模型的预测变得复杂。为了克服这一问题,我们将H&E染色的组织学图像与通过MelanA、MelPro或SOX10抗体对黑色素细胞进行免疫组化(IHC)染色的连续切片配对。我们开发了一种深度学习管道,通过数字化两个机构61个确诊原位黑色素瘤(MIS)病例的122张配对全切片图像的真实世界档案数据集,来识别黑色素细胞不典型性。只有 37.7% 的病例中的组织配对匹配度足以进行深度学习。尽管如此,MelanA+MelPro 模型的平均接受者操作特征下面积(AUROC)为 0.948,平均精确度-召回曲线下面积(AUPRC)为 0.611,而 SOX10 模型的平均接受者操作特征下面积(AUROC)为 0.867,平均精确度-召回曲线下面积(AUPRC)为 0.433。尽管卷积神经网络(CNN)模型从生物学上不同的 IHC 染色体中学习,但通过可解释的人工智能显著性计算,这些模型独立地表现出了直观的趋同性原理。不同抗体的细胞核染色与细胞质染色提供了互补而又一致的信息,卷积神经网络对这些信息进行了有效整合。由此产生的多抗体虚拟染色可直接从 H&E 染色的组织学图像中识别出形态细胞学和小尺度结构特征,有助于病理学家评估皮肤 MIS。
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Machine-learning convergent melanocytic morphology despite noisy archival slides
Melanocytic atypia, ranging from benign to malignant, often leads to diagnostic discordance, complicating its prediction by machine learning models. To overcome this, we paired H&E-stained histology images with contiguous or serial sections immunohistochemically (IHC) stained for melanocytic cells via antibodies for MelanA, MelPro, or SOX10. We developed a deep-learning pipeline to identify melanocytic atypia by digitizing a real-world archival dataset of 122 paired whole slide images from 61 confirmed melanoma in situ (MIS) cases at two institutions. Only 37.7% of the cases contained tissue pairs that matched well enough for deep learning. Nonetheless, the MelanA+MelPro models achieved an average area under the receiver-operating characteristic (AUROC) of 0.948 and an average area under the precision-recall curve (AUPRC) of 0.611, while the SOX10 models had an average of 0.867 AUROC and 0.433 AUPRC. Despite learning from biologically different IHC stains, the convolutional neural network (CNN) models independently exhibited an intuitive convergent rationale by explainable AI saliency calculations. Different antibodies, with nuclear versus cytoplasmic staining, provided complementary yet consistent information, which the CNNs integrated effectively. The resulting multi-antibody virtual stains identified morphologic cytologic and small-scale architectural features directly from H&E-stained histology images, which can assist pathologists in assessing cutaneous MIS.
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