AIROGS: Artificial Intelligence for Robust Glaucoma Screening Challenge

Coen De Vente; Koenraad A. Vermeer; Nicolas Jaccard; He Wang; Hongyi Sun; Firas Khader; Daniel Truhn; Temirgali Aimyshev; Yerkebulan Zhanibekuly; Tien Dung Le; Adrian Galdran; Miguel Angel Gonzalez Ballester; Gustavo Carneiro; R. G. Devika; Hrishikesh Panikkasseril Sethumadhavan; Densen Puthussery; Hong Liu; Zekang Yang; Satoshi Kondo; Satoshi Kasai; Edward Wang; Ashritha Durvasula; Jonathan Heras; Miguel Angel Zapata; Teresa Araujo; Guilherme Aresta; Hrvoje Bogunovic; Mustafa Arikan; Yeong Chan Lee; Hyun Bin Cho; Yoon Ho Choi; Abdul Qayyum; Imran Razzak; Bram Van Ginneken; Hans G. Lemij; Clara I. Sanchez

doi:10.1109/TMI.2023.3313786

AIROGS: Artificial Intelligence for Robust Glaucoma Screening Challenge

Coen De Vente^*
, Koenraad A. Vermeer
, Nicolas Jaccard
, He Wang
, Hongyi Sun
, Firas Khader
, Daniel Truhn
, Temirgali Aimyshev
, Yerkebulan Zhanibekuly
, Tien Dung Le
, Adrian Galdran
, Miguel Angel Gonzalez Ballester
, Gustavo Carneiro
, R. G. Devika
, Hrishikesh Panikkasseril Sethumadhavan
, Densen Puthussery
, Hong Liu
, Zekang Yang
, Satoshi Kondo
, Satoshi Kasai

Edward Wang, Ashritha Durvasula, Jonathan Heras, Miguel Angel Zapata, Teresa Araujo, Guilherme Aresta, Hrvoje Bogunovic, Mustafa Arikan, Yeong Chan Lee, Hyun Bin Cho, Yoon Ho Choi, Abdul Qayyum, Imran Razzak, Bram Van Ginneken, Hans G. Lemij, Clara I. Sanchez

^*Autor correspondiente de este trabajo

University of Amsterdam
Amsterdam University Medical Center
Radboud University Nijmegen
The Rotterdam Eye Hospital
ORBIS International
Chinese Academy of Medical Sciences
Capital Medical University
Tsinghua University
RWTH Aachen University
CMC Technologies LLP
KBC
University of Adelaide
ICREA
University of Surrey
College of Engineering Trivandrum
Founding Minds Software
CAS - Institute of Computing Technology
Muroran Institute of Technology
Niigata University of Health and Welfare
Western University
Universidad de La Rioja
UPRetina
Medical University of Vienna
University College London
Sungkyunkwan University
Mayo Clinic Jacksonville, FL
King's College London
University of New South Wales

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

52 Citas (Scopus)

1 Descargas (Pure)

Resumen

The early detection of glaucoma is essential in preventing visual impairment. Artificial intelligence (AI) can be used to analyze color fundus photographs (CFPs) in a cost-effective manner, making glaucoma screening more accessible. While AI models for glaucoma screening from CFPs have shown promising results in laboratory settings, their performance decreases significantly in real-world scenarios due to the presence of out-of-distribution and low-quality images. To address this issue, we propose the Artificial Intelligence for Robust Glaucoma Screening (AIROGS) challenge. This challenge includes a large dataset of around 113,000 images from about 60,000 patients and 500 different screening centers, and encourages the development of algorithms that are robust to ungradable and unexpected input data. We evaluated solutions from 14 teams in this paper and found that the best teams performed similarly to a set of 20 expert ophthalmologists and optometrists. The highest-scoring team achieved an area under the receiver operating characteristic curve of 0.99 (95% CI: 0.98-0.99) for detecting ungradable images on-the-fly. Additionally, many of the algorithms showed robust performance when tested on three other publicly available datasets. These results demonstrate the feasibility of robust AI-enabled glaucoma screening.

Idioma original	Inglés
Páginas (desde-hasta)	542-557
Número de páginas	16
Publicación	IEEE Transactions on Medical Imaging
Volumen	43
N.º	1
DOI	https://doi.org/10.1109/TMI.2023.3313786
Estado	Publicada - 1 ene 2024
Publicado de forma externa	Sí

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10.1109/TMI.2023.3313786

AIROGS_Artificial_Intelligence_for_Robust_Glaucoma_Screening_ChallengeVersión publicada final, 9,73 MBLicencia: CC BY

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De Vente, C., Vermeer, K. A., Jaccard, N., Wang, H., Sun, H., Khader, F., Truhn, D., Aimyshev, T., Zhanibekuly, Y., Le, T. D., Galdran, A., Ballester, M. A. G., Carneiro, G., Devika, R. G., Sethumadhavan, H. P., Puthussery, D., Liu, H., Yang, Z., Kondo, S., ... Sanchez, C. I. (2024). AIROGS: Artificial Intelligence for Robust Glaucoma Screening Challenge. IEEE Transactions on Medical Imaging, 43(1), 542-557. https://doi.org/10.1109/TMI.2023.3313786

@article{5314b9ec7a3c42b0a9be9b35da9d7f9e,

title = "AIROGS: Artificial Intelligence for Robust Glaucoma Screening Challenge",

abstract = "The early detection of glaucoma is essential in preventing visual impairment. Artificial intelligence (AI) can be used to analyze color fundus photographs (CFPs) in a cost-effective manner, making glaucoma screening more accessible. While AI models for glaucoma screening from CFPs have shown promising results in laboratory settings, their performance decreases significantly in real-world scenarios due to the presence of out-of-distribution and low-quality images. To address this issue, we propose the Artificial Intelligence for Robust Glaucoma Screening (AIROGS) challenge. This challenge includes a large dataset of around 113,000 images from about 60,000 patients and 500 different screening centers, and encourages the development of algorithms that are robust to ungradable and unexpected input data. We evaluated solutions from 14 teams in this paper and found that the best teams performed similarly to a set of 20 expert ophthalmologists and optometrists. The highest-scoring team achieved an area under the receiver operating characteristic curve of 0.99 (95\% CI: 0.98-0.99) for detecting ungradable images on-the-fly. Additionally, many of the algorithms showed robust performance when tested on three other publicly available datasets. These results demonstrate the feasibility of robust AI-enabled glaucoma screening.",

keywords = "Color fundus photography, glaucoma screening, out-of-distribution detection, retina, robustness",

author = "\{De Vente\}, Coen and Vermeer, \{Koenraad A.\} and Nicolas Jaccard and He Wang and Hongyi Sun and Firas Khader and Daniel Truhn and Temirgali Aimyshev and Yerkebulan Zhanibekuly and Le, \{Tien Dung\} and Adrian Galdran and Ballester, \{Miguel Angel Gonzalez\} and Gustavo Carneiro and Devika, \{R. G.\} and Sethumadhavan, \{Hrishikesh Panikkasseril\} and Densen Puthussery and Hong Liu and Zekang Yang and Satoshi Kondo and Satoshi Kasai and Edward Wang and Ashritha Durvasula and Jonathan Heras and Zapata, \{Miguel Angel\} and Teresa Araujo and Guilherme Aresta and Hrvoje Bogunovic and Mustafa Arikan and Lee, \{Yeong Chan\} and Cho, \{Hyun Bin\} and Choi, \{Yoon Ho\} and Abdul Qayyum and Imran Razzak and \{Van Ginneken\}, Bram and Lemij, \{Hans G.\} and Sanchez, \{Clara I.\}",

note = "Publisher Copyright: {\textcopyright} 1982-2012 IEEE.",

year = "2024",

month = jan,

day = "1",

doi = "10.1109/TMI.2023.3313786",

language = "English",

volume = "43",

pages = "542--557",

journal = "IEEE Transactions on Medical Imaging",

issn = "0278-0062",

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De Vente, C, Vermeer, KA, Jaccard, N, Wang, H, Sun, H, Khader, F, Truhn, D, Aimyshev, T, Zhanibekuly, Y, Le, TD, Galdran, A, Ballester, MAG, Carneiro, G, Devika, RG, Sethumadhavan, HP, Puthussery, D, Liu, H, Yang, Z, Kondo, S, Kasai, S, Wang, E, Durvasula, A, Heras, J, Zapata, MA, Araujo, T, Aresta, G, Bogunovic, H, Arikan, M, Lee, YC, Cho, HB, Choi, YH, Qayyum, A, Razzak, I, Van Ginneken, B, Lemij, HG & Sanchez, CI 2024, 'AIROGS: Artificial Intelligence for Robust Glaucoma Screening Challenge', IEEE Transactions on Medical Imaging, vol. 43, n.º 1, pp. 542-557. https://doi.org/10.1109/TMI.2023.3313786

TY - JOUR

T1 - AIROGS

T2 - Artificial Intelligence for Robust Glaucoma Screening Challenge

AU - De Vente, Coen

AU - Vermeer, Koenraad A.

AU - Jaccard, Nicolas

AU - Wang, He

AU - Sun, Hongyi

AU - Khader, Firas

AU - Truhn, Daniel

AU - Aimyshev, Temirgali

AU - Zhanibekuly, Yerkebulan

AU - Le, Tien Dung

AU - Galdran, Adrian

AU - Ballester, Miguel Angel Gonzalez

AU - Carneiro, Gustavo

AU - Devika, R. G.

AU - Sethumadhavan, Hrishikesh Panikkasseril

AU - Puthussery, Densen

AU - Liu, Hong

AU - Yang, Zekang

AU - Kondo, Satoshi

AU - Kasai, Satoshi

AU - Wang, Edward

AU - Durvasula, Ashritha

AU - Heras, Jonathan

AU - Zapata, Miguel Angel

AU - Araujo, Teresa

AU - Aresta, Guilherme

AU - Bogunovic, Hrvoje

AU - Arikan, Mustafa

AU - Lee, Yeong Chan

AU - Cho, Hyun Bin

AU - Choi, Yoon Ho

AU - Qayyum, Abdul

AU - Razzak, Imran

AU - Van Ginneken, Bram

AU - Lemij, Hans G.

AU - Sanchez, Clara I.

PY - 2024/1/1

Y1 - 2024/1/1

N2 - The early detection of glaucoma is essential in preventing visual impairment. Artificial intelligence (AI) can be used to analyze color fundus photographs (CFPs) in a cost-effective manner, making glaucoma screening more accessible. While AI models for glaucoma screening from CFPs have shown promising results in laboratory settings, their performance decreases significantly in real-world scenarios due to the presence of out-of-distribution and low-quality images. To address this issue, we propose the Artificial Intelligence for Robust Glaucoma Screening (AIROGS) challenge. This challenge includes a large dataset of around 113,000 images from about 60,000 patients and 500 different screening centers, and encourages the development of algorithms that are robust to ungradable and unexpected input data. We evaluated solutions from 14 teams in this paper and found that the best teams performed similarly to a set of 20 expert ophthalmologists and optometrists. The highest-scoring team achieved an area under the receiver operating characteristic curve of 0.99 (95% CI: 0.98-0.99) for detecting ungradable images on-the-fly. Additionally, many of the algorithms showed robust performance when tested on three other publicly available datasets. These results demonstrate the feasibility of robust AI-enabled glaucoma screening.

AB - The early detection of glaucoma is essential in preventing visual impairment. Artificial intelligence (AI) can be used to analyze color fundus photographs (CFPs) in a cost-effective manner, making glaucoma screening more accessible. While AI models for glaucoma screening from CFPs have shown promising results in laboratory settings, their performance decreases significantly in real-world scenarios due to the presence of out-of-distribution and low-quality images. To address this issue, we propose the Artificial Intelligence for Robust Glaucoma Screening (AIROGS) challenge. This challenge includes a large dataset of around 113,000 images from about 60,000 patients and 500 different screening centers, and encourages the development of algorithms that are robust to ungradable and unexpected input data. We evaluated solutions from 14 teams in this paper and found that the best teams performed similarly to a set of 20 expert ophthalmologists and optometrists. The highest-scoring team achieved an area under the receiver operating characteristic curve of 0.99 (95% CI: 0.98-0.99) for detecting ungradable images on-the-fly. Additionally, many of the algorithms showed robust performance when tested on three other publicly available datasets. These results demonstrate the feasibility of robust AI-enabled glaucoma screening.

KW - Color fundus photography

KW - glaucoma screening

KW - out-of-distribution detection

KW - retina

KW - robustness

UR - https://www.scopus.com/pages/publications/85169909301

U2 - 10.1109/TMI.2023.3313786

DO - 10.1109/TMI.2023.3313786

M3 - Article

C2 - 37713220

AN - SCOPUS:85169909301

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EP - 557

JO - IEEE Transactions on Medical Imaging

JF - IEEE Transactions on Medical Imaging

IS - 1

ER -

AIROGS: Artificial Intelligence for Robust Glaucoma Screening Challenge

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