Bioengineering & Translational Medicine (Nov 2023)

Deep learning‐based multimodal fusion network for segmentation and classification of breast cancers using B‐mode and elastography ultrasound images

  • Sampa Misra,
  • Chiho Yoon,
  • Kwang‐Ju Kim,
  • Ravi Managuli,
  • Richard G. Barr,
  • Jongduk Baek,
  • Chulhong Kim

DOI
https://doi.org/10.1002/btm2.10480
Journal volume & issue
Vol. 8, no. 6
pp. n/a – n/a

Abstract

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Abstract Ultrasonography is one of the key medical imaging modalities for evaluating breast lesions. For differentiating benign from malignant lesions, computer‐aided diagnosis (CAD) systems have greatly assisted radiologists by automatically segmenting and identifying features of lesions. Here, we present deep learning (DL)‐based methods to segment the lesions and then classify benign from malignant, utilizing both B‐mode and strain elastography (SE‐mode) images. We propose a weighted multimodal U‐Net (W‐MM‐U‐Net) model for segmenting lesions where optimum weight is assigned on different imaging modalities using a weighted‐skip connection method to emphasize its importance. We design a multimodal fusion framework (MFF) on cropped B‐mode and SE‐mode ultrasound (US) lesion images to classify benign and malignant lesions. The MFF consists of an integrated feature network (IFN) and a decision network (DN). Unlike other recent fusion methods, the proposed MFF method can simultaneously learn complementary information from convolutional neural networks (CNNs) trained using B‐mode and SE‐mode US images. The features from the CNNs are ensembled using the multimodal EmbraceNet model and DN classifies the images using those features. The experimental results (sensitivity of 100 ± 0.00% and specificity of 94.28 ± 7.00%) on the real‐world clinical data showed that the proposed method outperforms the existing single‐ and multimodal methods. The proposed method predicts seven benign patients as benign three times out of five trials and six malignant patients as malignant five out of five trials. The proposed method would potentially enhance the classification accuracy of radiologists for breast cancer detection in US images.

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