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09 15, 2024;14 (1): 21529.

Boundary-aware convolutional attention network for liver segmentation in ultrasound images.

Jiawei Wu, Fulong Liu, Weiqin Sun, Zhipeng Liu, Hui Hou, Rui Jiang, Haowei Hu, Peng Ren, Ran Zhang, Xiao Zhang
Author Information
  1. Jiawei Wu: School of Medical Informatics and Engineering, Xuzhou Medical University, Xuzhou, 221000, China.
  2. Fulong Liu: School of Medical Informatics and Engineering, Xuzhou Medical University, Xuzhou, 221000, China.
  3. Weiqin Sun: School of Medical Informatics and Engineering, Xuzhou Medical University, Xuzhou, 221000, China.
  4. Zhipeng Liu: Department of Information, Taizhou People's Hospital Affiliated to Nanjing Medical University, Taizhou, 225300, China.
  5. Hui Hou: Department of Imaging, The Fourth People's Hospital of Taizhou in Jiangsu Province, Taizhou, 225300, China.
  6. Rui Jiang: School of Medical Informatics and Engineering, Xuzhou Medical University, Xuzhou, 221000, China.
  7. Haowei Hu: School of Medical Informatics and Engineering, Xuzhou Medical University, Xuzhou, 221000, China.
  8. Peng Ren: School of Medical Informatics and Engineering, Xuzhou Medical University, Xuzhou, 221000, China.
  9. Ran Zhang: School of Medical Informatics and Engineering, Xuzhou Medical University, Xuzhou, 221000, China.
  10. Xiao Zhang: School of Medical Informatics and Engineering, Xuzhou Medical University, Xuzhou, 221000, China. changshui@hotmail.com.
PMID: 39278955 DOI: 10.1038/s41598-024-70527-y

Abstract

Liver ultrasound is widely used in clinical practice due to its advantages of non-invasiveness, non-radiation, and real-time imaging. Accurate segmentation of the liver region in ultrasound images is essential for accelerating the auxiliary diagnosis of liver-related diseases. This paper proposes BACANet, a deep learning algorithm designed for real-time liver ultrasound segmentation. Our approach utilizes a lightweight network backbone for liver feature extraction and incorporates a convolutional attention mechanism to enhance the network's ability to capture global contextual information. To improve early localization of liver boundaries, we developed a selective large kernel convolution module for boundary feature extraction and introduced explicit liver boundary supervision. Additionally, we designed an enhanced attention gate to efficiently convey liver body and boundary features to the decoder to enhance the feature representation capability. Experimental results across multiple datasets demonstrate that BACANet effectively completes the task of liver ultrasound segmentation, achieving a balance between inference speed and segmentation accuracy. On a public dataset, BACANet achieved a DSC of 0.921 and an IOU of 0.854. On a private test dataset, BACANet achieved a DSC of 0.950 and an IOU of 0.907, with an inference time of approximately 0.32 s per image on a CPU processor.

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Grants

  1. KYCX23_2965/Jiangsu Provincial Graduate Student Research and Innovation Program
  2. JBGS202204/Unveiling & Leading Project of XZHMU

MeSH Term

Humans
Ultrasonography
Liver
Deep Learning
Algorithms
Image Processing, Computer-Assisted
Neural Networks, Computer
Journal Article
Article has an altmetric score of 1

Word Cloud

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