Data efficient unsupervised domain adaptation for cross-modality image segmentation

Cheng Ouyang; Konstantinos Kamnitsas; Carlo Biffi; Jinming Duan; Daniel Rueckert

doi:10.1007/978-3-030-32245-8_74

Data efficient unsupervised domain adaptation for cross-modality image segmentation

Cheng Ouyang, Konstantinos Kamnitsas, Carlo Biffi, Jinming Duan, Daniel Rueckert

Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

18 Citations (Scopus)

Abstract

Deep learning models trained on medical images from a source domain ( e.g. imaging modality) often fail when deployed on images from a different target domain, despite imaging common anatomical structures. Deep unsupervised domain adaptation (UDA) aims to improve the performance of a deep neural network model on a target domain, using solely unlabelled target domain data and labelled source domain data. However, current state-of-the-art methods exhibit reduced performance when target data is scarce. In this work, we introduce a new data efficient UDA method for multi-domain medical image segmentation. The proposed method combines a novel VAE-based feature prior matching, which is data-efficient, and domain adversarial training to learn a shared domain-invariant latent space which is exploited during segmentation. Our method is evaluated on a public multi-modality cardiac image segmentation dataset by adapting from the labelled source domain (3D MRI) to the unlabelled target domain (3D CT). We show that by using only one single unlabelled 3D CT scan, the proposed architecture outperforms the state-of-the-art in the same setting. Finally, we perform ablation studies on prior matching and domain adversarial training to shed light on the theoretical grounding of the proposed method.

Original language	English
Title of host publication	Medical Image Computing and Computer Assisted Intervention – MICCAI 2019
Subtitle of host publication	22nd International Conference, Shenzhen, China, October 13–17, 2019, Proceedings, Part II
Editors	Dinggang Shen, Tianming Liu, Terry M. Peters, Lawrence H. Staib, Caroline Essert, Sean Zhou, Pew-Thian Yap, Ali Khan
Publisher	Springer
Chapter	74
Pages	669-677
Number of pages	9
ISBN (Electronic)	978-3-030-32245-8
ISBN (Print)	978-3-030-32244-1
DOIs	https://doi.org/10.1007/978-3-030-32245-8_74
Publication status	Published - 10 Oct 2019

Publication series

Name	Lecture Notes in Computer Science
Publisher	Springer
Volume	11765
ISSN (Print)	0302-9743
ISSN (Electronic)	1611-3349

ASJC Scopus subject areas

Theoretical Computer Science
Computer Science(all)

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10.1007/978-3-030-32245-8_74Licence: None: All rights reserved

Cite this

Ouyang, C., Kamnitsas, K., Biffi, C., Duan, J., & Rueckert, D. (2019). Data efficient unsupervised domain adaptation for cross-modality image segmentation. In D. Shen, T. Liu, T. M. Peters, L. H. Staib, C. Essert, S. Zhou, P-T. Yap, & A. Khan (Eds.), Medical Image Computing and Computer Assisted Intervention – MICCAI 2019: 22nd International Conference, Shenzhen, China, October 13–17, 2019, Proceedings, Part II (pp. 669-677). (Lecture Notes in Computer Science ; Vol. 11765). Springer. https://doi.org/10.1007/978-3-030-32245-8_74

Ouyang, Cheng ; Kamnitsas, Konstantinos ; Biffi, Carlo et al. / Data efficient unsupervised domain adaptation for cross-modality image segmentation. Medical Image Computing and Computer Assisted Intervention – MICCAI 2019: 22nd International Conference, Shenzhen, China, October 13–17, 2019, Proceedings, Part II. editor / Dinggang Shen ; Tianming Liu ; Terry M. Peters ; Lawrence H. Staib ; Caroline Essert ; Sean Zhou ; Pew-Thian Yap ; Ali Khan. Springer, 2019. pp. 669-677 (Lecture Notes in Computer Science ).

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title = "Data efficient unsupervised domain adaptation for cross-modality image segmentation",

abstract = "Deep learning models trained on medical images from a source domain ( e.g. imaging modality) often fail when deployed on images from a different target domain, despite imaging common anatomical structures. Deep unsupervised domain adaptation (UDA) aims to improve the performance of a deep neural network model on a target domain, using solely unlabelled target domain data and labelled source domain data. However, current state-of-the-art methods exhibit reduced performance when target data is scarce. In this work, we introduce a new data efficient UDA method for multi-domain medical image segmentation. The proposed method combines a novel VAE-based feature prior matching, which is data-efficient, and domain adversarial training to learn a shared domain-invariant latent space which is exploited during segmentation. Our method is evaluated on a public multi-modality cardiac image segmentation dataset by adapting from the labelled source domain (3D MRI) to the unlabelled target domain (3D CT). We show that by using only one single unlabelled 3D CT scan, the proposed architecture outperforms the state-of-the-art in the same setting. Finally, we perform ablation studies on prior matching and domain adversarial training to shed light on the theoretical grounding of the proposed method.",

author = "Cheng Ouyang and Konstantinos Kamnitsas and Carlo Biffi and Jinming Duan and Daniel Rueckert",

year = "2019",

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Ouyang, C, Kamnitsas, K, Biffi, C, Duan, J & Rueckert, D 2019, Data efficient unsupervised domain adaptation for cross-modality image segmentation. in D Shen, T Liu, TM Peters, LH Staib, C Essert, S Zhou, P-T Yap & A Khan (eds), Medical Image Computing and Computer Assisted Intervention – MICCAI 2019: 22nd International Conference, Shenzhen, China, October 13–17, 2019, Proceedings, Part II. Lecture Notes in Computer Science , vol. 11765, Springer, pp. 669-677. https://doi.org/10.1007/978-3-030-32245-8_74

Data efficient unsupervised domain adaptation for cross-modality image segmentation. / Ouyang, Cheng; Kamnitsas, Konstantinos; Biffi, Carlo et al.
Medical Image Computing and Computer Assisted Intervention – MICCAI 2019: 22nd International Conference, Shenzhen, China, October 13–17, 2019, Proceedings, Part II. ed. / Dinggang Shen; Tianming Liu; Terry M. Peters; Lawrence H. Staib; Caroline Essert; Sean Zhou; Pew-Thian Yap; Ali Khan. Springer, 2019. p. 669-677 (Lecture Notes in Computer Science ; Vol. 11765).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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N2 - Deep learning models trained on medical images from a source domain ( e.g. imaging modality) often fail when deployed on images from a different target domain, despite imaging common anatomical structures. Deep unsupervised domain adaptation (UDA) aims to improve the performance of a deep neural network model on a target domain, using solely unlabelled target domain data and labelled source domain data. However, current state-of-the-art methods exhibit reduced performance when target data is scarce. In this work, we introduce a new data efficient UDA method for multi-domain medical image segmentation. The proposed method combines a novel VAE-based feature prior matching, which is data-efficient, and domain adversarial training to learn a shared domain-invariant latent space which is exploited during segmentation. Our method is evaluated on a public multi-modality cardiac image segmentation dataset by adapting from the labelled source domain (3D MRI) to the unlabelled target domain (3D CT). We show that by using only one single unlabelled 3D CT scan, the proposed architecture outperforms the state-of-the-art in the same setting. Finally, we perform ablation studies on prior matching and domain adversarial training to shed light on the theoretical grounding of the proposed method.

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Ouyang C, Kamnitsas K, Biffi C, Duan J, Rueckert D. Data efficient unsupervised domain adaptation for cross-modality image segmentation. In Shen D, Liu T, Peters TM, Staib LH, Essert C, Zhou S, Yap P-T, Khan A, editors, Medical Image Computing and Computer Assisted Intervention – MICCAI 2019: 22nd International Conference, Shenzhen, China, October 13–17, 2019, Proceedings, Part II. Springer. 2019. p. 669-677. (Lecture Notes in Computer Science ). doi: 10.1007/978-3-030-32245-8_74

Data efficient unsupervised domain adaptation for cross-modality image segmentation

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