Study on strategy of CT image sequence segmentation for liver and tumor based on U-Net and Bi-ConvLSTM

Study on strategy of CT image sequence segmentation for liver and tumor based on U-Net and Bi-ConvLSTM

•A branch structure is added on the skip connections of U-net to supplement features.•Bi-ConvLSTM based post-processing for U-net leads to more accurate contours.•Integrating sequence information into U-net achieves better coincidence degree.•Sequence segmentation hardly increases model parameter nu...

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Veröffentlicht in:Expert systems with applications 2021-10, Vol.180, p.115008, Article 115008
Hauptverfasser: Li, Jing, Ou, Xue, Shen, Nanyan, Sun, Jie, Ding, Junli, Zhang, Jiawen, Yao, Jia, Wang, Ziyan
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Bi-directional convolutional long short-term memory
Computed tomography
Computer Science
Computer Science, Artificial Intelligence
Contours
CT image
Deep learning
Engineering
Engineering, Electrical & Electronic
Feature extraction
Image segmentation
Liver
Liver tumor
Medical imaging
Operations Research & Management Science
Post-processing
Science & Technology
Sequence segmentation
Strategy
Technology
Tumors
U-net
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container_issue
container_start_page 115008
container_title Expert systems with applications
container_volume 180
creator Li, Jing
Ou, Xue
Shen, Nanyan
Sun, Jie
Ding, Junli
Zhang, Jiawen
Yao, Jia
Wang, Ziyan
description •A branch structure is added on the skip connections of U-net to supplement features.•Bi-ConvLSTM based post-processing for U-net leads to more accurate contours.•Integrating sequence information into U-net achieves better coincidence degree.•Sequence segmentation hardly increases model parameter number compared with U-net. Accurate segmentation of the liver and tumors in computed tomography (CT) images is critical for intelligent computer-aided diagnosis (CAD). The commonly used segmentation methods based on fully convolutional networks (FCN) only take a single image into consideration but do not make good use of sequence information. In this paper, two more feasible sequence segmentation strategies than 3D U-net which can utilize inter-slice and intra-slice features simultaneously at the lower hardware and time cost are studied to improve the segmentation result. U-net serves as the backbone model of segmentation and Bi-directional convolutional long short-term memory (Bi-ConvLSTM) is chosen to extract and fuse the inter-slice feature. Strategy A corrects the pre-segmented results of U-net in the fusion of sequence information as a post-processing, where Mod-1, Mod-2 and Mod-3 models are built to compare the effects of width, depth, and residual structure on the modified model of sequence segmentation. Strategy B directly integrates the fusion of sequence information into the feature extraction of U-net, and then an end-to-end model called W-net is built based on it. The experiment results show that both strategies improve the liver and tumor segmentation performance in various aspects. The results based on strategy A are closer to the ground truth with less misdiagnose region: Mod-1 achieves better accuracy on liver contour segmentation because of the largest model width; Mod-2 can obtain more accurate tumor contour since the greatest depth of feature extraction process; and Mod-3 is at the average segmentation performance. Therefore, strategy A is recommended in the application of surgery planning of tumors. Strategy B achieves better space coincidence degree and less training time cost, which is more suitable for the early screening of liver cancer.
doi_str_mv 10.1016/j.eswa.2021.115008
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Accurate segmentation of the liver and tumors in computed tomography (CT) images is critical for intelligent computer-aided diagnosis (CAD). The commonly used segmentation methods based on fully convolutional networks (FCN) only take a single image into consideration but do not make good use of sequence information. In this paper, two more feasible sequence segmentation strategies than 3D U-net which can utilize inter-slice and intra-slice features simultaneously at the lower hardware and time cost are studied to improve the segmentation result. U-net serves as the backbone model of segmentation and Bi-directional convolutional long short-term memory (Bi-ConvLSTM) is chosen to extract and fuse the inter-slice feature. Strategy A corrects the pre-segmented results of U-net in the fusion of sequence information as a post-processing, where Mod-1, Mod-2 and Mod-3 models are built to compare the effects of width, depth, and residual structure on the modified model of sequence segmentation. Strategy B directly integrates the fusion of sequence information into the feature extraction of U-net, and then an end-to-end model called W-net is built based on it. The experiment results show that both strategies improve the liver and tumor segmentation performance in various aspects. The results based on strategy A are closer to the ground truth with less misdiagnose region: Mod-1 achieves better accuracy on liver contour segmentation because of the largest model width; Mod-2 can obtain more accurate tumor contour since the greatest depth of feature extraction process; and Mod-3 is at the average segmentation performance. Therefore, strategy A is recommended in the application of surgery planning of tumors. 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Accurate segmentation of the liver and tumors in computed tomography (CT) images is critical for intelligent computer-aided diagnosis (CAD). The commonly used segmentation methods based on fully convolutional networks (FCN) only take a single image into consideration but do not make good use of sequence information. In this paper, two more feasible sequence segmentation strategies than 3D U-net which can utilize inter-slice and intra-slice features simultaneously at the lower hardware and time cost are studied to improve the segmentation result. U-net serves as the backbone model of segmentation and Bi-directional convolutional long short-term memory (Bi-ConvLSTM) is chosen to extract and fuse the inter-slice feature. Strategy A corrects the pre-segmented results of U-net in the fusion of sequence information as a post-processing, where Mod-1, Mod-2 and Mod-3 models are built to compare the effects of width, depth, and residual structure on the modified model of sequence segmentation. Strategy B directly integrates the fusion of sequence information into the feature extraction of U-net, and then an end-to-end model called W-net is built based on it. The experiment results show that both strategies improve the liver and tumor segmentation performance in various aspects. The results based on strategy A are closer to the ground truth with less misdiagnose region: Mod-1 achieves better accuracy on liver contour segmentation because of the largest model width; Mod-2 can obtain more accurate tumor contour since the greatest depth of feature extraction process; and Mod-3 is at the average segmentation performance. Therefore, strategy A is recommended in the application of surgery planning of tumors. 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Accurate segmentation of the liver and tumors in computed tomography (CT) images is critical for intelligent computer-aided diagnosis (CAD). The commonly used segmentation methods based on fully convolutional networks (FCN) only take a single image into consideration but do not make good use of sequence information. In this paper, two more feasible sequence segmentation strategies than 3D U-net which can utilize inter-slice and intra-slice features simultaneously at the lower hardware and time cost are studied to improve the segmentation result. U-net serves as the backbone model of segmentation and Bi-directional convolutional long short-term memory (Bi-ConvLSTM) is chosen to extract and fuse the inter-slice feature. Strategy A corrects the pre-segmented results of U-net in the fusion of sequence information as a post-processing, where Mod-1, Mod-2 and Mod-3 models are built to compare the effects of width, depth, and residual structure on the modified model of sequence segmentation. Strategy B directly integrates the fusion of sequence information into the feature extraction of U-net, and then an end-to-end model called W-net is built based on it. The experiment results show that both strategies improve the liver and tumor segmentation performance in various aspects. The results based on strategy A are closer to the ground truth with less misdiagnose region: Mod-1 achieves better accuracy on liver contour segmentation because of the largest model width; Mod-2 can obtain more accurate tumor contour since the greatest depth of feature extraction process; and Mod-3 is at the average segmentation performance. Therefore, strategy A is recommended in the application of surgery planning of tumors. Strategy B achieves better space coincidence degree and less training time cost, which is more suitable for the early screening of liver cancer.</abstract><cop>OXFORD</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.eswa.2021.115008</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0001-9264-2841</orcidid><orcidid>https://orcid.org/0000-0003-0040-3224</orcidid></addata></record>
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subjects Bi-directional convolutional long short-term memory
Computed tomography
Computer Science
Computer Science, Artificial Intelligence
Contours
CT image
Deep learning
Engineering
Engineering, Electrical & Electronic
Feature extraction
Image segmentation
Liver
Liver tumor
Medical imaging
Operations Research & Management Science
Post-processing
Science & Technology
Sequence segmentation
Strategy
Technology
Tumors
U-net
title Study on strategy of CT image sequence segmentation for liver and tumor based on U-Net and Bi-ConvLSTM
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