4.5 Article

A method for segmentation of tumors in breast ultrasound images using the variant enhanced deep learning

Journal

BIOCYBERNETICS AND BIOMEDICAL ENGINEERING
Volume 41, Issue 2, Pages 802-818

Publisher

ELSEVIER
DOI: 10.1016/j.bbe.2021.05.007

Keywords

Breast ultrasound image; Speckle noise; Deep learning; Semantic segmentation; Tumor segmentation

Funding

  1. Thailand Research Fund grant [RSA6280098]
  2. Center of Excellence in Biomedical Engineering of Thammasat University

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A new method for semantic segmentation of breast ultrasound images was proposed, using different preprocessing and convolution methods, achieving high scores on malignant and benign breast ultrasound images, and outperforming previous methods.
Background: Breast cancer is a deadly disease responsible for statistical yearly global death. Identification of cancer tumors is quite tasking, as a result, concerted efforts are thus devoted. Clinicians have used ultrasounds as a diagnostic tool for breast cancer, though, poor image quality is a major limitation when segmenting breast ultrasound. To address this problem, we present a semantic segmentation method for breast ultrasound (BUS) images. Method: The BUS images were resized and then enhanced with the contrast limited adaptive histogram equalization method. Subsequently, the variant enhanced block was used to encode the preprocessed image. Finally, the concatenated convolutions produced the segmentation mask. Results: The proposed method was evaluated with two datasets. The datasets contain 264 and 830 BUS images respectively. Dice measure (DM), Jaccard measure, and Hausdroff distance were used to evaluate the methods. Results indicate that the proposed method achieves high DM with 89.73% for malignant and 89.62% for benign BUSs. Moreover, the results obtained validate the capacity of the proposed method to achieve higher DM in comparison with reported methods. Conclusion: The proposed algorithm provides a deep learning segmentation procedure that can segment tumors in BUS images effectively and efficiently. (C) 2021 Nalecz Institute of Biocybernetics and Biomedical Engineering of the Polish Academy of Sciences. Published by Elsevier B.V. All rights reserved.

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