Transfer Learning in 4D for Breast Cancer Diagnosis using Dynamic Contrast-Enhanced Magnetic Resonance Imaging

8 Nov 2019  ·  Qiyuan Hu, Heather M. Whitney, Maryellen L. Giger ·

Deep transfer learning using dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) has shown strong predictive power in characterization of breast lesions. However, pretrained convolutional neural networks (CNNs) require 2D inputs, limiting the ability to exploit the rich 4D (volumetric and temporal) image information inherent in DCE-MRI that is clinically valuable for lesion assessment. Training 3D CNNs from scratch, a common method to utilize high-dimensional information in medical images, is computationally expensive and is not best suited for moderately sized healthcare datasets. Therefore, we propose a novel approach using transfer learning that incorporates the 4D information from DCE-MRI, where volumetric information is collapsed at feature level by max pooling along the projection perpendicular to the transverse slices and the temporal information is contained either in second-post contrast subtraction images. Our methodology yielded an area under the receiver operating characteristic curve of 0.89+/-0.01 on a dataset of 1161 breast lesions, significantly outperforming a previous approach that incorporates the 4D information in DCE-MRI by the use of maximum intensity projection (MIP) images.

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