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Pretrained deep 2.5D models for efficient predictive modeling from retinal OCT: a PINNACLE study report

Pretrained deep 2.5D models for efficient predictive modeling from retinal OCT: a PINNACLE study report
Pretrained deep 2.5D models for efficient predictive modeling from retinal OCT: a PINNACLE study report
In the field of medical imaging, 3D deep learning models play a crucial role in building powerful predictive models of disease progression. However, the size of these models presents significant challenges, both in terms of computational resources and data requirements. Moreover, achieving high-quality pretraining of 3D models proves to be even more challenging. To address these issues, hybrid 2.5D approaches provide an effective solution for utilizing 3D volumetric data efficiently using 2D models. Combining 2D and 3D techniques offers a promising avenue for optimizing performance while minimizing memory requirements. In this paper, we explore 2.5D architectures based on a combination of convolutional neural networks (CNNs), long short-term memory (LSTM), and Transformers. In addition, leveraging the benefits of recent non-contrastive pretraining approaches in 2D, we enhanced the performance and data efficiency of 2.5D techniques even further. We demonstrate the effectiveness of architectures and associated pretraining on a task of predicting progression to wet age-related macular degeneration (AMD) within a six-month period on two large longitudinal OCT datasets.
0302-9743
132-141
Springer Cham
Emre, Taha
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Oghbaie, Marzieh
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Chakravarty, Arunava
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Rivali, Antoine
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Riedl, Sophie
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Mai, Julia
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Scholl, Hendrik P.N.
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Rueckert, Daniel
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Lotery, Andrew
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Schmidt-Erfurth, Ursula
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Bogunović, Hrvoje
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Antony, Bhavna
Chen, Hao
Fang, Huihui
Fu, Huazhu
Lee, Cecilia S.
Zheng, Yalin
Emre, Taha
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Oghbaie, Marzieh
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Chakravarty, Arunava
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Rivali, Antoine
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Riedl, Sophie
2a16668f-5046-4305-a936-753987cc55aa
Mai, Julia
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Scholl, Hendrik P.N.
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Rueckert, Daniel
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Lotery, Andrew
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Schmidt-Erfurth, Ursula
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Bogunović, Hrvoje
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Antony, Bhavna
Chen, Hao
Fang, Huihui
Fu, Huazhu
Lee, Cecilia S.
Zheng, Yalin

Emre, Taha, Oghbaie, Marzieh, Chakravarty, Arunava, Rivali, Antoine, Riedl, Sophie, Mai, Julia, Scholl, Hendrik P.N., Rueckert, Daniel, Lotery, Andrew, Schmidt-Erfurth, Ursula and Bogunović, Hrvoje (2023) Pretrained deep 2.5D models for efficient predictive modeling from retinal OCT: a PINNACLE study report. Antony, Bhavna, Chen, Hao, Fang, Huihui, Fu, Huazhu, Lee, Cecilia S. and Zheng, Yalin (eds.) In Ophthalmic Medical Image Analysis - 10th International Workshop, OMIA 2023, Held in Conjunction with MICCAI 2023, Proceedings: 10th International Workshop, OMIA 2023, Held in Conjunction with MICCAI 2023, Vancouver, BC, Canada, October 12, 2023, Proceedin. vol. 14096 LNCS, Springer Cham. pp. 132-141 . (doi:10.1007/978-3-031-44013-7_14).

Record type: Conference or Workshop Item (Paper)

Abstract

In the field of medical imaging, 3D deep learning models play a crucial role in building powerful predictive models of disease progression. However, the size of these models presents significant challenges, both in terms of computational resources and data requirements. Moreover, achieving high-quality pretraining of 3D models proves to be even more challenging. To address these issues, hybrid 2.5D approaches provide an effective solution for utilizing 3D volumetric data efficiently using 2D models. Combining 2D and 3D techniques offers a promising avenue for optimizing performance while minimizing memory requirements. In this paper, we explore 2.5D architectures based on a combination of convolutional neural networks (CNNs), long short-term memory (LSTM), and Transformers. In addition, leveraging the benefits of recent non-contrastive pretraining approaches in 2D, we enhanced the performance and data efficiency of 2.5D techniques even further. We demonstrate the effectiveness of architectures and associated pretraining on a task of predicting progression to wet age-related macular degeneration (AMD) within a six-month period on two large longitudinal OCT datasets.

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e-pub ahead of print date: 16 September 2023
Published date: 2023
Additional Information: Funding Information: Acknowledgements. This work was supported in part by Wellcome Trust Collaborative Award (PINNACLE) Ref. 210572/Z/18/Z, Christian Doppler Research Association, and FWF (Austrian Science Fund; grant no. FG 9-N). Publisher Copyright: © 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.
Venue - Dates: 10th MICCAI Workshop on Ophthalmic Medical Image Analysis, Vancouver Convention Centre, Vancouver, Canada, 2023-10-12 - 2023-10-12

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Local EPrints ID: 484405
URI: http://eprints.soton.ac.uk/id/eprint/484405
ISSN: 0302-9743
PURE UUID: e33ecd67-4fd8-4795-b534-82cb43d8a7f8
ORCID for Andrew Lotery: ORCID iD orcid.org/0000-0001-5541-4305

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Date deposited: 16 Nov 2023 11:51
Last modified: 06 Jun 2024 01:41

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Contributors

Author: Taha Emre
Author: Marzieh Oghbaie
Author: Arunava Chakravarty
Author: Antoine Rivali
Author: Sophie Riedl
Author: Julia Mai
Author: Hendrik P.N. Scholl
Author: Daniel Rueckert
Author: Andrew Lotery ORCID iD
Author: Ursula Schmidt-Erfurth
Author: Hrvoje Bogunović
Editor: Bhavna Antony
Editor: Hao Chen
Editor: Huihui Fang
Editor: Huazhu Fu
Editor: Cecilia S. Lee
Editor: Yalin Zheng

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