Next-generation phenotyping of inherited retinal diseases from multimodal imaging with Eye2Gene

Nikolas Pontikos; William A. Woof; Siying Lin; Biraja Ghoshal; Bernardo S. Mendes; Advaith Veturi; Quang Nguyen; Behnam Javanmardi; Michalis Georgiou; Alexander Hustinx; Miguel A. Ibarra-Arellano; Ismail Moghul; Yichen Liu; Kristina Pfau; Maximilian Pfau; Mital Shah; Jing Yu; Saoud Al-Khuzaei; Siegfried K. Wagner; Malena Daich Varela; Thales Antonio Cabral de Guimarães; Sagnik Sen; Gunjan Naik; Dayyanah Sumodhee; Dun Jack Fu; Nathaniel Kabiri; Jennifer Furman; Bart Liefers; Aaron Y. Lee; Samantha R. De Silva; Caio Marques; Fabiana Motta; Yu Fujinami-Yokokawa; Alison J. Hardcastle; Gavin Arno; Birgit Lorenz; Philipp Herrmann; Kaoru Fujinami; Juliana Sallum; Savita Madhusudhan; Susan M. Downes; Frank G. Holz; Konstantinos Balaskas; Andrew R. Webster; Omar A. Mahroo; Peter M. Krawitz; Michel Michaelides

doi:10.1038/s42256-025-01040-8

Next-generation phenotyping of inherited retinal diseases from multimodal imaging with Eye2Gene

Nikolas Pontikos
, William A. Woof
, Siying Lin
, Biraja Ghoshal
, Bernardo S. Mendes
, Advaith Veturi
, Quang Nguyen
, Behnam Javanmardi
, Michalis Georgiou
, Alexander Hustinx
, Miguel A. Ibarra-Arellano
, Ismail Moghul
, Yichen Liu
, Kristina Pfau
, Maximilian Pfau
, Mital Shah
, Jing Yu
, Saoud Al-Khuzaei
, Siegfried K. Wagner
, Malena Daich Varela

Thales Antonio Cabral de Guimarães, Sagnik Sen, Gunjan Naik, Dayyanah Sumodhee, Dun Jack Fu, Nathaniel Kabiri, Jennifer Furman, Bart Liefers, Aaron Y. Lee, Samantha R. De Silva, Caio Marques, Fabiana Motta, Yu Fujinami-Yokokawa, Alison J. Hardcastle, Gavin Arno, Birgit Lorenz, Philipp Herrmann, Kaoru Fujinami, Juliana Sallum, Savita Madhusudhan, Susan M. Downes, Frank G. Holz, Konstantinos Balaskas, Andrew R. Webster, Omar A. Mahroo, Peter M. Krawitz, Michel Michaelides

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Rare eye diseases such as inherited retinal diseases (IRDs) are challenging to diagnose genetically. IRDs are typically monogenic disorders and represent a leading cause of blindness in children and working-age adults worldwide. A growing number are now being targeted in clinical trials, with approved treatments increasingly available. However, access requires a genetic diagnosis to be established sufficiently early. Critically, the timely identification of a genetic cause remains challenging. We demonstrate that a deep learning algorithm, Eye2Gene, trained on a large multimodal imaging dataset of individuals with IRDs (n = 2,451) and externally validated on data provided by five different clinical centres, provides better-than-expert-level top-five accuracy of 83.9% for supporting genetic diagnosis for the 63 most common genetic causes. We demonstrate that Eye2Gene’s next-generation phenotyping can increase diagnostic yield by improving screening for IRDs, phenotype-driven variant prioritization and automatic similarity matching in phenotypic space to identify new genes. Eye2Gene is accessible online (app.eye2gene.com) for research purposes.

Original language	English
Pages (from-to)	967-978
Number of pages	12
Journal	Nature Machine Intelligence
Volume	7
Issue number	6
DOIs	https://doi.org/10.1038/s42256-025-01040-8
State	Published - Jun 2025

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Pontikos, N., Woof, W. A., Lin, S., Ghoshal, B., Mendes, B. S., Veturi, A., Nguyen, Q., Javanmardi, B., Georgiou, M., Hustinx, A., Ibarra-Arellano, M. A., Moghul, I., Liu, Y., Pfau, K., Pfau, M., Shah, M., Yu, J., Al-Khuzaei, S., Wagner, S. K., ... Michaelides, M. (2025). Next-generation phenotyping of inherited retinal diseases from multimodal imaging with Eye2Gene. Nature Machine Intelligence, 7(6), 967-978. https://doi.org/10.1038/s42256-025-01040-8

@article{53ce11f82fff4d83bb0af5a7f1f147a6,

title = "Next-generation phenotyping of inherited retinal diseases from multimodal imaging with Eye2Gene",

abstract = "Rare eye diseases such as inherited retinal diseases (IRDs) are challenging to diagnose genetically. IRDs are typically monogenic disorders and represent a leading cause of blindness in children and working-age adults worldwide. A growing number are now being targeted in clinical trials, with approved treatments increasingly available. However, access requires a genetic diagnosis to be established sufficiently early. Critically, the timely identification of a genetic cause remains challenging. We demonstrate that a deep learning algorithm, Eye2Gene, trained on a large multimodal imaging dataset of individuals with IRDs (n = 2,451) and externally validated on data provided by five different clinical centres, provides better-than-expert-level top-five accuracy of 83.9\% for supporting genetic diagnosis for the 63 most common genetic causes. We demonstrate that Eye2Gene{\textquoteright}s next-generation phenotyping can increase diagnostic yield by improving screening for IRDs, phenotype-driven variant prioritization and automatic similarity matching in phenotypic space to identify new genes. Eye2Gene is accessible online (app.eye2gene.com) for research purposes.",

author = "Nikolas Pontikos and Woof, \{William A.\} and Siying Lin and Biraja Ghoshal and Mendes, \{Bernardo S.\} and Advaith Veturi and Quang Nguyen and Behnam Javanmardi and Michalis Georgiou and Alexander Hustinx and Ibarra-Arellano, \{Miguel A.\} and Ismail Moghul and Yichen Liu and Kristina Pfau and Maximilian Pfau and Mital Shah and Jing Yu and Saoud Al-Khuzaei and Wagner, \{Siegfried K.\} and \{Daich Varela\}, Malena and \{Cabral de Guimar{\~a}es\}, \{Thales Antonio\} and Sagnik Sen and Gunjan Naik and Dayyanah Sumodhee and Fu, \{Dun Jack\} and Nathaniel Kabiri and Jennifer Furman and Bart Liefers and Lee, \{Aaron Y.\} and \{De Silva\}, \{Samantha R.\} and Caio Marques and Fabiana Motta and Yu Fujinami-Yokokawa and Hardcastle, \{Alison J.\} and Gavin Arno and Birgit Lorenz and Philipp Herrmann and Kaoru Fujinami and Juliana Sallum and Savita Madhusudhan and Downes, \{Susan M.\} and Holz, \{Frank G.\} and Konstantinos Balaskas and Webster, \{Andrew R.\} and Mahroo, \{Omar A.\} and Krawitz, \{Peter M.\} and Michel Michaelides",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = jun,

doi = "10.1038/s42256-025-01040-8",

language = "English",

volume = "7",

pages = "967--978",

journal = "Nature Machine Intelligence",

issn = "2522-5839",

number = "6",

}

Pontikos, N, Woof, WA, Lin, S, Ghoshal, B, Mendes, BS, Veturi, A, Nguyen, Q, Javanmardi, B, Georgiou, M, Hustinx, A, Ibarra-Arellano, MA, Moghul, I, Liu, Y, Pfau, K, Pfau, M, Shah, M, Yu, J, Al-Khuzaei, S, Wagner, SK, Daich Varela, M, Cabral de Guimarães, TA, Sen, S, Naik, G, Sumodhee, D, Fu, DJ, Kabiri, N, Furman, J, Liefers, B, Lee, AY, De Silva, SR, Marques, C, Motta, F, Fujinami-Yokokawa, Y, Hardcastle, AJ, Arno, G, Lorenz, B, Herrmann, P, Fujinami, K, Sallum, J, Madhusudhan, S, Downes, SM, Holz, FG, Balaskas, K, Webster, AR, Mahroo, OA, Krawitz, PM & Michaelides, M 2025, 'Next-generation phenotyping of inherited retinal diseases from multimodal imaging with Eye2Gene', Nature Machine Intelligence, vol. 7, no. 6, pp. 967-978. https://doi.org/10.1038/s42256-025-01040-8

TY - JOUR

T1 - Next-generation phenotyping of inherited retinal diseases from multimodal imaging with Eye2Gene

AU - Pontikos, Nikolas

AU - Woof, William A.

AU - Lin, Siying

AU - Ghoshal, Biraja

AU - Mendes, Bernardo S.

AU - Veturi, Advaith

AU - Nguyen, Quang

AU - Javanmardi, Behnam

AU - Georgiou, Michalis

AU - Hustinx, Alexander

AU - Ibarra-Arellano, Miguel A.

AU - Moghul, Ismail

AU - Liu, Yichen

AU - Pfau, Kristina

AU - Pfau, Maximilian

AU - Shah, Mital

AU - Yu, Jing

AU - Al-Khuzaei, Saoud

AU - Wagner, Siegfried K.

AU - Daich Varela, Malena

AU - Cabral de Guimarães, Thales Antonio

AU - Sen, Sagnik

AU - Naik, Gunjan

AU - Sumodhee, Dayyanah

AU - Fu, Dun Jack

AU - Kabiri, Nathaniel

AU - Furman, Jennifer

AU - Liefers, Bart

AU - Lee, Aaron Y.

AU - De Silva, Samantha R.

AU - Marques, Caio

AU - Motta, Fabiana

AU - Fujinami-Yokokawa, Yu

AU - Hardcastle, Alison J.

AU - Arno, Gavin

AU - Lorenz, Birgit

AU - Herrmann, Philipp

AU - Fujinami, Kaoru

AU - Sallum, Juliana

AU - Madhusudhan, Savita

AU - Downes, Susan M.

AU - Holz, Frank G.

AU - Balaskas, Konstantinos

AU - Webster, Andrew R.

AU - Mahroo, Omar A.

AU - Krawitz, Peter M.

AU - Michaelides, Michel

PY - 2025/6

Y1 - 2025/6

N2 - Rare eye diseases such as inherited retinal diseases (IRDs) are challenging to diagnose genetically. IRDs are typically monogenic disorders and represent a leading cause of blindness in children and working-age adults worldwide. A growing number are now being targeted in clinical trials, with approved treatments increasingly available. However, access requires a genetic diagnosis to be established sufficiently early. Critically, the timely identification of a genetic cause remains challenging. We demonstrate that a deep learning algorithm, Eye2Gene, trained on a large multimodal imaging dataset of individuals with IRDs (n = 2,451) and externally validated on data provided by five different clinical centres, provides better-than-expert-level top-five accuracy of 83.9% for supporting genetic diagnosis for the 63 most common genetic causes. We demonstrate that Eye2Gene’s next-generation phenotyping can increase diagnostic yield by improving screening for IRDs, phenotype-driven variant prioritization and automatic similarity matching in phenotypic space to identify new genes. Eye2Gene is accessible online (app.eye2gene.com) for research purposes.

AB - Rare eye diseases such as inherited retinal diseases (IRDs) are challenging to diagnose genetically. IRDs are typically monogenic disorders and represent a leading cause of blindness in children and working-age adults worldwide. A growing number are now being targeted in clinical trials, with approved treatments increasingly available. However, access requires a genetic diagnosis to be established sufficiently early. Critically, the timely identification of a genetic cause remains challenging. We demonstrate that a deep learning algorithm, Eye2Gene, trained on a large multimodal imaging dataset of individuals with IRDs (n = 2,451) and externally validated on data provided by five different clinical centres, provides better-than-expert-level top-five accuracy of 83.9% for supporting genetic diagnosis for the 63 most common genetic causes. We demonstrate that Eye2Gene’s next-generation phenotyping can increase diagnostic yield by improving screening for IRDs, phenotype-driven variant prioritization and automatic similarity matching in phenotypic space to identify new genes. Eye2Gene is accessible online (app.eye2gene.com) for research purposes.

UR - https://www.scopus.com/pages/publications/105008290612

U2 - 10.1038/s42256-025-01040-8

DO - 10.1038/s42256-025-01040-8

M3 - Article

C2 - 40567353

AN - SCOPUS:105008290612

SN - 2522-5839

VL - 7

SP - 967

EP - 978

JO - Nature Machine Intelligence

JF - Nature Machine Intelligence

IS - 6

ER -

Next-generation phenotyping of inherited retinal diseases from multimodal imaging with Eye2Gene

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