DEEPLY-SUPERVISED NETWORKS WITH THRESHOLD LOSS FOR CANCER DETECTION IN AUTOMATED BREAST ULTRASOUND

Abstract

This project proposes to automatically locate the shadow region caused by nipples, and attempt to conduct extra analyses in this area .Automated breast ultrasound (ABUS), is an innovative and promising method of screening for breast examination. Comparing to common B-mode 2D ultrasound, ABUS attains operator independent image acquisition and also provides 3D views of the whole breast. Nonetheless, reviewing ABUS images is particularly time intensive and errors by oversight might occur. For this study, we offer an innovative 3D convolutional network, which is used for ABUS for automated cancer detection, in order to accelerate reviewing and meanwhile to obtain high detection sensitivity with low false positives (FPs). Specifically, we offer a densely deep supervision method in order to augment the detection sensitivity greatly by effectively using multi-layer features. Furthermore, we suggest a threshold loss in order to present voxel level adaptive threshold for discerning cancer vs. non cancer, which can attain high sensitivity with low false positives. The efficacy of our network is verified from a collected dataset of 219 patients with 614 ABUS volumes, including 745 cancer regions, and 144 healthy women with a total of 900 volumes, without abnormal findings. Extensive experiments demonstrate our method attains a sensitivity of 95% with 0.84 FP per volume. The proposed network provides an effective cancer detection scheme for breast examination using ABUS by sustaining high sensitivity with low false positives. This project is implemented with MATLAB software.

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