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Cardiac segmentation on late gadolinium enhancement MRI: a benchmark study from multi-sequence cardiac MR segmentation challenge

Cardiac segmentation on late gadolinium enhancement MRI: a benchmark study from multi-sequence cardiac MR segmentation challenge
Cardiac segmentation on late gadolinium enhancement MRI: a benchmark study from multi-sequence cardiac MR segmentation challenge

Accurate computing, analysis and modeling of the ventricles and myocardium from medical images are important, especially in the diagnosis and treatment management for patients suffering from myocardial infarction (MI). Late gadolinium enhancement (LGE) cardiac magnetic resonance (CMR) provides an important protocol to visualize MI. However, compared with the other sequences LGE CMR images with gold standard labels are particularly limited. This paper presents the selective results from the Multi-Sequence Cardiac MR (MS-CMR) Segmentation challenge, in conjunction with MICCAI 2019. The challenge offered a data set of paired MS-CMR images, including auxiliary CMR sequences as well as LGE CMR, from 45 patients who underwent cardiomyopathy. It was aimed to develop new algorithms, as well as benchmark existing ones for LGE CMR segmentation focusing on myocardial wall of the left ventricle and blood cavity of the two ventricles. In addition, the paired MS-CMR images could enable algorithms to combine the complementary information from the other sequences for the ventricle segmentation of LGE CMR. Nine representative works were selected for evaluation and comparisons, among which three methods are unsupervised domain adaptation (UDA) methods and the other six are supervised. The results showed that the average performance of the nine methods was comparable to the inter-observer variations. Particularly, the top-ranking algorithms from both the supervised and UDA methods could generate reliable and robust segmentation results. The success of these methods was mainly attributed to the inclusion of the auxiliary sequences from the MS-CMR images, which provide important label information for the training of deep neural networks. The challenge continues as an ongoing resource, and the gold standard segmentation as well as the MS-CMR images of both the training and test data are available upon registration via its homepage (www.sdspeople.fudan.edu.cn/zhuangxiahai/0/mscmrseg/).

Benchmark, Cardiac MRI segmentation, Challenge, Multi-sequence
1361-8415
Zhuang, Xiahai
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Xu, Jiahang
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Luo, Xinzhe
0397065a-ee61-48bf-b550-0e6325c628bc
Chen, Chen
ae1a5fdc-7100-414d-816e-e0033c8abb05
Ouyang, Cheng
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Rueckert, Daniel
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Campello, Victor M.
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Lekadir, Karim
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Vesal, Sulaiman
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RaviKumar, Nishant
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Liu, Yashu
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Luo, Gongning
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Chen, Jingkun
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Li, Hongwei
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Ly, Buntheng
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Sermesant, Maxime
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Roth, Holger
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Zhu, Wentao
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Wang, Jiexiang
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Ding, Xinghao
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Wang, Xinyue
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Yang, Sen
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Li, Lei
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et al.
Zhuang, Xiahai
c58e977b-e70e-4b37-9acd-b7f8070d98a8
Xu, Jiahang
c4afcbf6-c448-44b6-b69d-65532a6769a9
Luo, Xinzhe
0397065a-ee61-48bf-b550-0e6325c628bc
Chen, Chen
ae1a5fdc-7100-414d-816e-e0033c8abb05
Ouyang, Cheng
9e470e72-b52f-497e-8b18-92d4f7e25223
Rueckert, Daniel
3c5b51eb-7e44-4a00-ba79-cafb7ab3d970
Campello, Victor M.
70b294e4-d5f3-4f65-9d26-d0d6c6c8227d
Lekadir, Karim
b8de558a-869c-4574-b0d3-005dc52c3106
Vesal, Sulaiman
699156d1-9c6d-4831-b11d-fcead890c7f0
RaviKumar, Nishant
e31cd3f7-b112-4078-b5fc-0cfc005a061a
Liu, Yashu
5ce4ba50-0738-4c7f-a069-c965c388b502
Luo, Gongning
10ce984c-04c2-445b-952f-c5b00d027981
Chen, Jingkun
93b93f97-bd2a-46dd-b801-291254b9a07b
Li, Hongwei
6c14e527-e06b-4740-91ac-4f8360d0157c
Ly, Buntheng
761ad994-a7ea-4809-95ac-785dbe387114
Sermesant, Maxime
bdfc1c7b-46e9-45dc-99e7-51312c5facc0
Roth, Holger
c4222bf8-26f0-48af-8c87-aa16fc33f25b
Zhu, Wentao
a81f4ab2-5ba8-4d04-939c-a81ad4359ec3
Wang, Jiexiang
7ca81de9-f843-4a4a-b649-815229567218
Ding, Xinghao
d0e6c600-1214-4186-bc1f-34488f924b08
Wang, Xinyue
50a3b746-a049-423c-bfb9-5b1680ae16d6
Yang, Sen
d65addd5-43fa-41b4-bc76-a3454a5f1d66
Li, Lei
2da88502-0bd8-4e6b-8f7d-0c01a48b399e

Zhuang, Xiahai, Xu, Jiahang and Luo, Xinzhe , et al. (2022) Cardiac segmentation on late gadolinium enhancement MRI: a benchmark study from multi-sequence cardiac MR segmentation challenge. Medical Image Analysis, 81, [102528]. (doi:10.1016/j.media.2022.102528).

Record type: Article

Abstract

Accurate computing, analysis and modeling of the ventricles and myocardium from medical images are important, especially in the diagnosis and treatment management for patients suffering from myocardial infarction (MI). Late gadolinium enhancement (LGE) cardiac magnetic resonance (CMR) provides an important protocol to visualize MI. However, compared with the other sequences LGE CMR images with gold standard labels are particularly limited. This paper presents the selective results from the Multi-Sequence Cardiac MR (MS-CMR) Segmentation challenge, in conjunction with MICCAI 2019. The challenge offered a data set of paired MS-CMR images, including auxiliary CMR sequences as well as LGE CMR, from 45 patients who underwent cardiomyopathy. It was aimed to develop new algorithms, as well as benchmark existing ones for LGE CMR segmentation focusing on myocardial wall of the left ventricle and blood cavity of the two ventricles. In addition, the paired MS-CMR images could enable algorithms to combine the complementary information from the other sequences for the ventricle segmentation of LGE CMR. Nine representative works were selected for evaluation and comparisons, among which three methods are unsupervised domain adaptation (UDA) methods and the other six are supervised. The results showed that the average performance of the nine methods was comparable to the inter-observer variations. Particularly, the top-ranking algorithms from both the supervised and UDA methods could generate reliable and robust segmentation results. The success of these methods was mainly attributed to the inclusion of the auxiliary sequences from the MS-CMR images, which provide important label information for the training of deep neural networks. The challenge continues as an ongoing resource, and the gold standard segmentation as well as the MS-CMR images of both the training and test data are available upon registration via its homepage (www.sdspeople.fudan.edu.cn/zhuangxiahai/0/mscmrseg/).

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More information

Accepted/In Press date: 1 July 2022
e-pub ahead of print date: 9 July 2022
Published date: 11 July 2022
Keywords: Benchmark, Cardiac MRI segmentation, Challenge, Multi-sequence

Identifiers

Local EPrints ID: 488817
URI: http://eprints.soton.ac.uk/id/eprint/488817
ISSN: 1361-8415
PURE UUID: 5ad18830-2383-4082-bbbb-eecb11aee672
ORCID for Lei Li: ORCID iD orcid.org/0000-0003-1281-6472

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Date deposited: 05 Apr 2024 16:45
Last modified: 10 Apr 2024 02:14

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Contributors

Author: Xiahai Zhuang
Author: Jiahang Xu
Author: Xinzhe Luo
Author: Chen Chen
Author: Cheng Ouyang
Author: Daniel Rueckert
Author: Victor M. Campello
Author: Karim Lekadir
Author: Sulaiman Vesal
Author: Nishant RaviKumar
Author: Yashu Liu
Author: Gongning Luo
Author: Jingkun Chen
Author: Hongwei Li
Author: Buntheng Ly
Author: Maxime Sermesant
Author: Holger Roth
Author: Wentao Zhu
Author: Jiexiang Wang
Author: Xinghao Ding
Author: Xinyue Wang
Author: Sen Yang
Author: Lei Li ORCID iD
Corporate Author: et al.

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