Generalizing to Unseen Domains in Diabetic Retinopathy with Disentangled Representations

Peng Xia; Ming Hu; Feilong Tang; Wenxue Li; Wenhao Zheng; Lie Ju; Peibo Duan; Huaxiu Yao; Zongyuan Ge

doi:10.1007/978-3-031-72117-5_40

Generalizing to Unseen Domains in Diabetic Retinopathy with Disentangled Representations

Peng Xia, Ming Hu, Feilong Tang, Wenxue Li, Wenhao Zheng, Lie Ju, Peibo Duan, Huaxiu Yao, Zongyuan Ge

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

Abstract

Diabetic Retinopathy (DR), induced by diabetes, poses a significant risk of visual impairment. Accurate and effective grading of DR aids in the treatment of this condition. Yet existing models experience notable performance degradation on unseen domains due to domain shifts. Previous methods address this issue by simulating domain style through simple visual transformation and mitigating domain noise via learning robust representations. However, domain shifts encompass more than image styles. They overlook biases caused by implicit factors such as ethnicity, age, and diagnostic criteria. In our work, we propose a novel framework where representations of paired data from different domains are decoupled into semantic features and domain noise. The resulting augmented representation comprises original retinal semantics and domain noise from other domains, aiming to generate enhanced representations aligned with real-world clinical needs, incorporating rich information from diverse domains. Subsequently, to improve the robustness of the decoupled representations, class and domain prototypes are employed to interpolate the disentangled representations while data-aware weights are designed to focus on rare classes and domains. Finally, we devise a robust pixel-level semantic alignment loss to align retinal semantics decoupled from features, maintaining a balance between intra-class diversity and dense class features. Experimental results on multiple benchmarks demonstrate the effectiveness of our method on unseen domains. The code implementations are accessible on https://github.com/richard-peng-xia/DECO.

Original language	English
Title of host publication	International Conference on Medical Image Computing and Computer-Assisted Intervention – MICCAI 2024, 27th International Conference Marrakesh, Morocco, October 6–10, 2024 Proceedings, Part X
Editors	Marius George Linguraru, Qi Dou, Aasa Feragen, Stamatia Giannarou, Ben Glocker, Karim Lekadir, Julia A. Schnabel
Place of Publication	Cham Switzerland
Publisher	Springer
Pages	427-437
Number of pages	11
ISBN (Electronic)	9783031721175
ISBN (Print)	9783031721168
DOIs	https://doi.org/10.1007/978-3-031-72117-5_40
Publication status	Published - 2024
Event	Medical Image Computing and Computer-Assisted Intervention 2024 - Marrakesh, Morocco Duration: 6 Oct 2024 → 10 Oct 2024 Conference number: 27th https://link.springer.com/book/10.1007/978-3-031-72117-5 (Proceedings) https://conferences.miccai.org/2024/en/ (Website)

Conference

Conference	Medical Image Computing and Computer-Assisted Intervention 2024
Abbreviated title	MICCAI 2024
Country/Territory	Morocco
City	Marrakesh
Period	6/10/24 → 10/10/24
Internet address	https://link.springer.com/book/10.1007/978-3-031-72117-5 (Proceedings) https://conferences.miccai.org/2024/en/ (Website)

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This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/978-3-031-72117-5_40

Cite this

Xia, P., Hu, M., Tang, F., Li, W., Zheng, W., Ju, L., Duan, P., Yao, H., & Ge, Z. (2024). Generalizing to Unseen Domains in Diabetic Retinopathy with Disentangled Representations. In M. George Linguraru, Q. Dou, A. Feragen, S. Giannarou, B. Glocker, K. Lekadir, & J. A. Schnabel (Eds.), International Conference on Medical Image Computing and Computer-Assisted Intervention – MICCAI 2024, 27th International Conference Marrakesh, Morocco, October 6–10, 2024 Proceedings, Part X (pp. 427-437). Springer. https://doi.org/10.1007/978-3-031-72117-5_40

Xia, Peng ; Hu, Ming ; Tang, Feilong et al. / Generalizing to Unseen Domains in Diabetic Retinopathy with Disentangled Representations. International Conference on Medical Image Computing and Computer-Assisted Intervention – MICCAI 2024, 27th International Conference Marrakesh, Morocco, October 6–10, 2024 Proceedings, Part X. editor / Marius George Linguraru ; Qi Dou ; Aasa Feragen ; Stamatia Giannarou ; Ben Glocker ; Karim Lekadir ; Julia A. Schnabel. Cham Switzerland : Springer, 2024. pp. 427-437

@inproceedings{37c743c8efc7436485fddee6ab033574,

title = "Generalizing to Unseen Domains in Diabetic Retinopathy with Disentangled Representations",

abstract = "Diabetic Retinopathy (DR), induced by diabetes, poses a significant risk of visual impairment. Accurate and effective grading of DR aids in the treatment of this condition. Yet existing models experience notable performance degradation on unseen domains due to domain shifts. Previous methods address this issue by simulating domain style through simple visual transformation and mitigating domain noise via learning robust representations. However, domain shifts encompass more than image styles. They overlook biases caused by implicit factors such as ethnicity, age, and diagnostic criteria. In our work, we propose a novel framework where representations of paired data from different domains are decoupled into semantic features and domain noise. The resulting augmented representation comprises original retinal semantics and domain noise from other domains, aiming to generate enhanced representations aligned with real-world clinical needs, incorporating rich information from diverse domains. Subsequently, to improve the robustness of the decoupled representations, class and domain prototypes are employed to interpolate the disentangled representations while data-aware weights are designed to focus on rare classes and domains. Finally, we devise a robust pixel-level semantic alignment loss to align retinal semantics decoupled from features, maintaining a balance between intra-class diversity and dense class features. Experimental results on multiple benchmarks demonstrate the effectiveness of our method on unseen domains. The code implementations are accessible on https://github.com/richard-peng-xia/DECO.",

author = "Peng Xia and Ming Hu and Feilong Tang and Wenxue Li and Wenhao Zheng and Lie Ju and Peibo Duan and Huaxiu Yao and Zongyuan Ge",

year = "2024",

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booktitle = "International Conference on Medical Image Computing and Computer-Assisted Intervention – MICCAI 2024, 27th International Conference Marrakesh, Morocco, October 6–10, 2024 Proceedings, Part X",

publisher = "Springer",

address = "Switzerland",

note = "Medical Image Computing and Computer-Assisted Intervention 2024, MICCAI 2024 ; Conference date: 06-10-2024 Through 10-10-2024",

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Xia, P, Hu, M, Tang, F, Li, W, Zheng, W, Ju, L, Duan, P, Yao, H & Ge, Z 2024, Generalizing to Unseen Domains in Diabetic Retinopathy with Disentangled Representations. in M George Linguraru, Q Dou, A Feragen, S Giannarou, B Glocker, K Lekadir & J A. Schnabel (eds), International Conference on Medical Image Computing and Computer-Assisted Intervention – MICCAI 2024, 27th International Conference Marrakesh, Morocco, October 6–10, 2024 Proceedings, Part X. Springer, Cham Switzerland, pp. 427-437, Medical Image Computing and Computer-Assisted Intervention 2024, Marrakesh, Morocco, 6/10/24. https://doi.org/10.1007/978-3-031-72117-5_40

Generalizing to Unseen Domains in Diabetic Retinopathy with Disentangled Representations. / Xia, Peng; Hu, Ming; Tang, Feilong et al.
International Conference on Medical Image Computing and Computer-Assisted Intervention – MICCAI 2024, 27th International Conference Marrakesh, Morocco, October 6–10, 2024 Proceedings, Part X. ed. / Marius George Linguraru; Qi Dou; Aasa Feragen; Stamatia Giannarou; Ben Glocker; Karim Lekadir; Julia A. Schnabel. Cham Switzerland: Springer, 2024. p. 427-437.

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

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AU - Xia, Peng

AU - Hu, Ming

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AU - Li, Wenxue

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AU - Duan, Peibo

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AU - Ge, Zongyuan

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N2 - Diabetic Retinopathy (DR), induced by diabetes, poses a significant risk of visual impairment. Accurate and effective grading of DR aids in the treatment of this condition. Yet existing models experience notable performance degradation on unseen domains due to domain shifts. Previous methods address this issue by simulating domain style through simple visual transformation and mitigating domain noise via learning robust representations. However, domain shifts encompass more than image styles. They overlook biases caused by implicit factors such as ethnicity, age, and diagnostic criteria. In our work, we propose a novel framework where representations of paired data from different domains are decoupled into semantic features and domain noise. The resulting augmented representation comprises original retinal semantics and domain noise from other domains, aiming to generate enhanced representations aligned with real-world clinical needs, incorporating rich information from diverse domains. Subsequently, to improve the robustness of the decoupled representations, class and domain prototypes are employed to interpolate the disentangled representations while data-aware weights are designed to focus on rare classes and domains. Finally, we devise a robust pixel-level semantic alignment loss to align retinal semantics decoupled from features, maintaining a balance between intra-class diversity and dense class features. Experimental results on multiple benchmarks demonstrate the effectiveness of our method on unseen domains. The code implementations are accessible on https://github.com/richard-peng-xia/DECO.

AB - Diabetic Retinopathy (DR), induced by diabetes, poses a significant risk of visual impairment. Accurate and effective grading of DR aids in the treatment of this condition. Yet existing models experience notable performance degradation on unseen domains due to domain shifts. Previous methods address this issue by simulating domain style through simple visual transformation and mitigating domain noise via learning robust representations. However, domain shifts encompass more than image styles. They overlook biases caused by implicit factors such as ethnicity, age, and diagnostic criteria. In our work, we propose a novel framework where representations of paired data from different domains are decoupled into semantic features and domain noise. The resulting augmented representation comprises original retinal semantics and domain noise from other domains, aiming to generate enhanced representations aligned with real-world clinical needs, incorporating rich information from diverse domains. Subsequently, to improve the robustness of the decoupled representations, class and domain prototypes are employed to interpolate the disentangled representations while data-aware weights are designed to focus on rare classes and domains. Finally, we devise a robust pixel-level semantic alignment loss to align retinal semantics decoupled from features, maintaining a balance between intra-class diversity and dense class features. Experimental results on multiple benchmarks demonstrate the effectiveness of our method on unseen domains. The code implementations are accessible on https://github.com/richard-peng-xia/DECO.

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BT - International Conference on Medical Image Computing and Computer-Assisted Intervention – MICCAI 2024, 27th International Conference Marrakesh, Morocco, October 6–10, 2024 Proceedings, Part X

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A2 - Feragen, Aasa

A2 - Giannarou, Stamatia

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Xia P, Hu M, Tang F, Li W, Zheng W, Ju L et al. Generalizing to Unseen Domains in Diabetic Retinopathy with Disentangled Representations. In George Linguraru M, Dou Q, Feragen A, Giannarou S, Glocker B, Lekadir K, A. Schnabel J, editors, International Conference on Medical Image Computing and Computer-Assisted Intervention – MICCAI 2024, 27th International Conference Marrakesh, Morocco, October 6–10, 2024 Proceedings, Part X. Cham Switzerland: Springer. 2024. p. 427-437 doi: 10.1007/978-3-031-72117-5_40