基于压缩激励UNet和变压器的双支路编码器网络用于三维PET-CT图像肿瘤分割。

IF 2.6 4区医学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Medical & Biological Engineering & Computing Pub Date : 2025-09-05 DOI:10.1007/s11517-025-03427-6

Mingrui Li, Ruiming Zhu, Minghao Li, Haoran Wang, Yueyang Teng

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引用次数: 0

摘要

肿瘤识别在临床和放射组学中具有重要意义；然而，目前的分割任务仍然需要由专家手动完成。随着深度学习技术的发展，肿瘤的自动分割逐渐成为可能。本文结合PET的分子信息和CT的病理信息对肿瘤进行分割。基于压缩激励归一化UNet （SE-UNet）和Transformer设计了双支路编码器，在跳过连接中增加了三维卷积块注意模块（CBAM），并在训练中使用BCE损失来提高分割精度。这个新模型被命名为TASE-UNet。在HECKTOR2022数据集上进行了测试，与现有方法相比，该方法获得了最好的分割精度。具体来说，我们在两个关键评价指标DSC和HD95上获得了76.10%和3.27的结果。实验表明，所设计的网络是合理有效的。完整的实现可以在https://github.com/LiMingrui1/TASE-UNet上找到。

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A dual-branch encoder network based on squeeze-and-excitation UNet and transformer for 3D PET-CT image tumor segmentation.

Recognition of tumors is very important in clinical practice and radiomics; however, the segmentation task currently still needs to be done manually by experts. With the development of deep learning, automatic segmentation of tumors is gradually becoming possible. This paper combines the molecular information from PET and the pathology information from CT for tumor segmentation. A dual-branch encoder is designed based on SE-UNet (Squeeze-and-Excitation Normalization UNet) and Transformer, 3D Convolutional Block Attention Module (CBAM) is added to skip-connection, and BCE loss is used in training for improving segmentation accuracy. The new model is named TASE-UNet. The proposed method was tested on the HECKTOR2022 dataset, which obtains the best segmentation accuracy compared with state-of-the-art methods. Specifically, we obtained results of 76.10 $%$ and 3.27 for the two key evaluation metrics, DSC and HD95. Experiments demonstrate that the designed network is reasonable and effective. The full implementation is available at https://github.com/LiMingrui1/TASE-UNet .

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来源期刊

Medical & Biological Engineering & Computing 医学-工程：生物医学

CiteScore

6.00

自引率

3.10%

发文量

249

审稿时长

3.5 months

期刊介绍： Founded in 1963, Medical & Biological Engineering & Computing (MBEC) continues to serve the biomedical engineering community, covering the entire spectrum of biomedical and clinical engineering. The journal presents exciting and vital experimental and theoretical developments in biomedical science and technology, and reports on advances in computer-based methodologies in these multidisciplinary subjects. The journal also incorporates new and evolving technologies including cellular engineering and molecular imaging. MBEC publishes original research articles as well as reviews and technical notes. Its Rapid Communications category focuses on material of immediate value to the readership, while the Controversies section provides a forum to exchange views on selected issues, stimulating a vigorous and informed debate in this exciting and high profile field. MBEC is an official journal of the International Federation of Medical and Biological Engineering (IFMBE).