Department of Radiology, Huadong Hospital Affiliated to Fudan University, Shanghai, P.R. China.
Diagnosis and Treatment Center of Small Lung Nodules of Huadong Hospital, Shanghai, P.R. China.
Cancer Res. 2018 Dec 15;78(24):6881-6889. doi: 10.1158/0008-5472.CAN-18-0696. Epub 2018 Oct 2.
: Identification of early-stage pulmonary adenocarcinomas before surgery, especially in cases of subcentimeter cancers, would be clinically important and could provide guidance to clinical decision making. In this study, we developed a deep learning system based on 3D convolutional neural networks and multitask learning, which automatically predicts tumor invasiveness, together with 3D nodule segmentation masks. The system processes a 3D nodule-centered patch of preprocessed CT and learns a deep representation of a given nodule without the need for any additional information. A dataset of 651 nodules with manually segmented voxel-wise masks and pathological labels of atypical adenomatous hyperplasia (AAH), adenocarcinomas (AIS), minimally invasive adenocarcinoma (MIA), and invasive pulmonary adenocarcinoma (IA) was used in this study. We trained and validated our deep learning system on 523 nodules and tested its performance on 128 nodules. An observer study with 2 groups of radiologists, 2 senior and 2 junior, was also investigated. We merged AAH and AIS into one single category AAH-AIS, comprising a 3-category classification in our study. The proposed deep learning system achieved better classification performance than the radiologists; in terms of 3-class weighted average F1 score, the model achieved 63.3% while the radiologists achieved 55.6%, 56.6%, 54.3%, and 51.0%, respectively. These results suggest that deep learning methods improve the yield of discriminative results and hold promise in the CADx application domain, which could help doctors work efficiently and facilitate the application of precision medicine. SIGNIFICANCE: Machine learning tools are beginning to be implemented for clinical applications. This study represents an important milestone for this emerging technology, which could improve therapy selection for patients with lung cancer.
术前早期肺腺癌的识别,特别是亚厘米大小的癌症,将具有重要的临床意义,并能为临床决策提供指导。在这项研究中,我们开发了一个基于三维卷积神经网络和多任务学习的深度学习系统,该系统可以自动预测肿瘤侵袭性,并同时生成三维结节分割掩模。该系统以预处理的 CT 为中心的三维结节斑块作为输入,无需任何额外信息,即可学习到给定结节的深层表示。本研究使用了一个包含 651 个结节的数据集,这些结节都有手动分割的体素级别的掩模和非典型腺瘤样增生(AAH)、腺癌(AIS)、微浸润性腺癌(MIA)和浸润性肺腺癌(IA)的病理标签。我们在 523 个结节上训练和验证了我们的深度学习系统,并在 128 个结节上测试了其性能。还进行了一项有两组放射科医生(2 名高级和 2 名初级)参与的观察者研究。我们将 AAH 和 AIS 合并为一个单一的 AAH-AIS 类别,在我们的研究中包含一个三分类。所提出的深度学习系统的分类性能优于放射科医生;在 3 类加权平均 F1 评分方面,模型达到了 63.3%,而放射科医生的评分分别为 55.6%、56.6%、54.3%和 51.0%。这些结果表明,深度学习方法提高了判别结果的准确性,有望在 CADx 应用领域得到应用,这有助于医生高效地工作,并促进精准医学的应用。意义:机器学习工具开始应用于临床。本研究代表了这一新兴技术的一个重要里程碑,有望改善肺癌患者的治疗选择。
