Abstract
Conventional deep learning (DL) algorithm requires full supervision of annotating the region of interest (ROI) that is laborious and often biased. We aimed to develop a weakly-supervised DL algorithm that diagnosis breast cancer at ultrasound without image annotation. Weakly-supervised DL algorithms were implemented with three networks (VGG16, ResNet34, and GoogLeNet) and trained using 1000 unannotated US images (500 benign and 500 malignant masses). Two sets of 200 images (100 benign and 100 malignant masses) were used for internal and external validation sets. For comparison with fully-supervised algorithms, ROI annotation was performed manually and automatically. Diagnostic performances were calculated as the area under the receiver operating characteristic curve (AUC). Using the class activation map, we determined how accurately the weakly-supervised DL algorithms localized the breast masses. For internal validation sets, the weakly-supervised DL algorithms achieved excellent diagnostic performances, with AUC values of 0.92–0.96, which were not statistically different (all Ps > 0.05) from those of fully-supervised DL algorithms with either manual or automated ROI annotation (AUC, 0.92–0.96). For external validation sets, the weakly-supervised DL algorithms achieved AUC values of 0.86–0.90, which were not statistically different (Ps > 0.05) or higher (P = 0.04, VGG16 with automated ROI annotation) from those of fully-supervised DL algorithms (AUC, 0.84–0.92). In internal and external validation sets, weakly-supervised algorithms could localize 100% of malignant masses, except for ResNet34 (98%). The weakly-supervised DL algorithms developed in the present study were feasible for US diagnosis of breast cancer with well-performing localization and differential diagnosis.
Highlights
Conventional deep learning (DL) algorithm requires full supervision of annotating the region of interest (ROI) that is laborious and often biased
Conventional approaches using DL algorithms have involved full supervision that require image annotation processes usually performed by drawing the region of interest (ROI) of the lesion by humans
Weakly-supervised DL algorithm was evaluated in magnetic resonance imaging (MRI) or chest x-ray images and demonstrated good diagnostic performances in the classification of breast lesions and thoracic d isease[10,11]
Summary
Conventional deep learning (DL) algorithm requires full supervision of annotating the region of interest (ROI) that is laborious and often biased. The weakly-supervised DL algorithms achieved excellent diagnostic performances, with AUC values of 0.92–0.96, which were not statistically different (all Ps > 0.05) from those of fully-supervised DL algorithms with either manual or automated ROI annotation (AUC, 0.92–0.96). Ultrasound (US) is the mainstay of differential diagnosis between benign and malignant breast masses and has traditionally been used in diagnostic settings with renewed interest of its use in screening s ettings[1,2] Despite such wide applicability, breast US has intrinsic limitations, including interobserver variability in diagnostic performance that is often worse among non-experts[3]. Weakly-supervised DL algorithms allow us to use the entire image as input to the trained model, leading to an improvement in workflow efficiency over fully-supervised algorithms as the additional task of marking lesions can be avoided Despite these benefits of weakly-supervised DL algorithms, only a few studies have demonstrated their feasibility in radiology. The purpose of this study was to develop a weakly-supervised DL algorithm that detects breast masses in US images and make a differential diagnosis between benignity and malignancy synchronously
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