基于深度学习的乳腺钼靶微钙化乳腺癌鉴别诊断

Discrimination of Breast Cancer with Microcalcifications on Mammography by Deep Learning.

作者信息

Wang Jinhua, Yang Xi, Cai Hongmin, Tan Wanchang, Jin Cangzheng, Li Li

机构信息

Department of Radiology, Affiliated Nanhai Hospital of Southern Medical University, Foshan 528200, Guangdong, China.

School of Computer Science and Engineering, South China University of Technology, Guangzhou 510006, Guangdong, China.

出版信息

Sci Rep. 2016 Jun 7;6:27327. doi: 10.1038/srep27327.

DOI:10.1038/srep27327

PMID:27273294

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4895132/

Abstract

Microcalcification is an effective indicator of early breast cancer. To improve the diagnostic accuracy of microcalcifications, this study evaluates the performance of deep learning-based models on large datasets for its discrimination. A semi-automated segmentation method was used to characterize all microcalcifications. A discrimination classifier model was constructed to assess the accuracies of microcalcifications and breast masses, either in isolation or combination, for classifying breast lesions. Performances were compared to benchmark models. Our deep learning model achieved a discriminative accuracy of 87.3% if microcalcifications were characterized alone, compared to 85.8% with a support vector machine. The accuracies were 61.3% for both methods with masses alone and improved to 89.7% and 85.8% after the combined analysis with microcalcifications. Image segmentation with our deep learning model yielded 15, 26 and 41 features for the three scenarios, respectively. Overall, deep learning based on large datasets was superior to standard methods for the discrimination of microcalcifications. Accuracy was increased by adopting a combinatorial approach to detect microcalcifications and masses simultaneously. This may have clinical value for early detection and treatment of breast cancer.

摘要

微钙化是早期乳腺癌的有效指标。为提高微钙化的诊断准确性，本研究评估基于深度学习的模型在大型数据集上对其进行鉴别的性能。采用半自动分割方法对所有微钙化进行特征描述。构建了一个鉴别分类器模型，以评估微钙化和乳腺肿块单独或联合存在时对乳腺病变分类的准确性。将性能与基准模型进行比较。如果单独对微钙化进行特征描述，我们的深度学习模型实现了87.3%的鉴别准确率，而支持向量机的准确率为85.8%。两种方法单独对肿块的准确率均为61.3%，在与微钙化进行联合分析后分别提高到89.7%和85.8%。我们的深度学习模型在三种情况下分别产生了15、26和41个图像分割特征。总体而言，基于大型数据集的深度学习在微钙化鉴别方面优于标准方法。通过采用同时检测微钙化和肿块的组合方法提高了准确率。这可能对乳腺癌的早期检测和治疗具有临床价值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4e90/4895132/105483b3761c/srep27327-f1.jpg

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