Oculomics: Current concepts and evidence

Zhuoting Zhu; Yueye Wang; Ziyi Qi; Wenyi Hu; Xiayin Zhang; Siegfried K. Wagner; Yujie Wang; An Ran Ran; Joshua Ong; Ethan Waisberg; Mouayad Masalkhi; Alex Suh; Yih Chung Tham; Carol Y. Cheung; Xiaohong Yang; Honghua Yu; Zongyuan Ge; Wei Wang; Bin Sheng; Yun Liu; Andrew G. Lee; Alastair K. Denniston; Peter van Wijngaarden; Pearse A. Keane; Ching Yu Cheng; Mingguang He; Tien Yin Wong

doi:10.1016/j.preteyeres.2025.101350

Oculomics: Current concepts and evidence

Zhuoting Zhu, Yueye Wang, Ziyi Qi, Wenyi Hu, Xiayin Zhang, Siegfried K. Wagner, Yujie Wang, An Ran Ran, Joshua Ong, Ethan Waisberg, Mouayad Masalkhi, Alex Suh, Yih Chung Tham, Carol Y. Cheung, Xiaohong Yang, Honghua Yu, Zongyuan Ge, Wei Wang, Bin Sheng, Yun LiuAndrew G. Lee, Alastair K. Denniston, Peter van Wijngaarden, Pearse A. Keane, Ching Yu Cheng, Mingguang He, Tien Yin Wong

Research output: Contribution to journal › Review article › peer-review

2 Scopus citations

Abstract

The eye provides novel insights into general health, as well as pathogenesis and development of systemic diseases. In the past decade, growing evidence has demonstrated that the eye's structure and function mirror multiple systemic health conditions, especially in cardiovascular diseases, neurodegenerative disorders, and kidney impairments. This has given rise to the field of oculomics-the application of ophthalmic biomarkers to understand mechanisms, detect and predict disease. The development of this field has been accelerated by three major advances: 1) the availability and widespread clinical adoption of high-resolution and non-invasive ophthalmic imaging (“hardware”); 2) the availability of large studies to interrogate associations (“big data”); 3) the development of novel analytical methods, including artificial intelligence (AI) (“software”). Oculomics offers an opportunity to enhance our understanding of the interplay between the eye and the body, while supporting development of innovative diagnostic, prognostic, and therapeutic tools. These advances have been further accelerated by developments in AI, coupled with large-scale linkage datasets linking ocular imaging data with systemic health data. Oculomics also enables the detection, screening, diagnosis, and monitoring of many systemic health conditions. Furthermore, oculomics with AI allows prediction of the risk of systemic diseases, enabling risk stratification, opening up new avenues for prevention or individualized risk prediction and prevention, facilitating personalized medicine. In this review, we summarise current concepts and evidence in the field of oculomics, highlighting the progress that has been made, remaining challenges, and the opportunities for future research.

Original language	English (US)
Article number	101350
Journal	Progress in Retinal and Eye Research
Volume	106
DOIs	https://doi.org/10.1016/j.preteyeres.2025.101350
State	Published - May 2025

Keywords

Artificial intelligence
Big data
Disease detection
Disease prediction
Oculomics
Retinal imaging
Systemic diseases

ASJC Scopus subject areas

Ophthalmology
Sensory Systems

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10.1016/j.preteyeres.2025.101350

Cite this

Zhu, Z., Wang, Y., Qi, Z., Hu, W., Zhang, X., Wagner, S. K., Wang, Y., Ran, A. R., Ong, J., Waisberg, E., Masalkhi, M., Suh, A., Tham, Y. C., Cheung, C. Y., Yang, X., Yu, H., Ge, Z., Wang, W., Sheng, B., ... Wong, T. Y. (2025). Oculomics: Current concepts and evidence. Progress in Retinal and Eye Research, 106, Article 101350. https://doi.org/10.1016/j.preteyeres.2025.101350

Zhu, Z, Wang, Y, Qi, Z, Hu, W, Zhang, X, Wagner, SK, Wang, Y, Ran, AR, Ong, J, Waisberg, E, Masalkhi, M, Suh, A, Tham, YC, Cheung, CY, Yang, X, Yu, H, Ge, Z, Wang, W, Sheng, B, Liu, Y, Lee, AG, Denniston, AK, Wijngaarden, PV, Keane, PA, Cheng, CY, He, M & Wong, TY 2025, 'Oculomics: Current concepts and evidence', Progress in Retinal and Eye Research, vol. 106, 101350. https://doi.org/10.1016/j.preteyeres.2025.101350

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title = "Oculomics: Current concepts and evidence",

abstract = "The eye provides novel insights into general health, as well as pathogenesis and development of systemic diseases. In the past decade, growing evidence has demonstrated that the eye's structure and function mirror multiple systemic health conditions, especially in cardiovascular diseases, neurodegenerative disorders, and kidney impairments. This has given rise to the field of oculomics-the application of ophthalmic biomarkers to understand mechanisms, detect and predict disease. The development of this field has been accelerated by three major advances: 1) the availability and widespread clinical adoption of high-resolution and non-invasive ophthalmic imaging (“hardware”); 2) the availability of large studies to interrogate associations (“big data”); 3) the development of novel analytical methods, including artificial intelligence (AI) (“software”). Oculomics offers an opportunity to enhance our understanding of the interplay between the eye and the body, while supporting development of innovative diagnostic, prognostic, and therapeutic tools. These advances have been further accelerated by developments in AI, coupled with large-scale linkage datasets linking ocular imaging data with systemic health data. Oculomics also enables the detection, screening, diagnosis, and monitoring of many systemic health conditions. Furthermore, oculomics with AI allows prediction of the risk of systemic diseases, enabling risk stratification, opening up new avenues for prevention or individualized risk prediction and prevention, facilitating personalized medicine. In this review, we summarise current concepts and evidence in the field of oculomics, highlighting the progress that has been made, remaining challenges, and the opportunities for future research.",

keywords = "Artificial intelligence, Big data, Disease detection, Disease prediction, Oculomics, Retinal imaging, Systemic diseases",

author = "Zhuoting Zhu and Yueye Wang and Ziyi Qi and Wenyi Hu and Xiayin Zhang and Wagner, {Siegfried K.} and Yujie Wang and Ran, {An Ran} and Joshua Ong and Ethan Waisberg and Mouayad Masalkhi and Alex Suh and Tham, {Yih Chung} and Cheung, {Carol Y.} and Xiaohong Yang and Honghua Yu and Zongyuan Ge and Wei Wang and Bin Sheng and Yun Liu and Lee, {Andrew G.} and Denniston, {Alastair K.} and Wijngaarden, {Peter van} and Keane, {Pearse A.} and Cheng, {Ching Yu} and Mingguang He and Wong, {Tien Yin}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = may,

doi = "10.1016/j.preteyeres.2025.101350",

language = "English (US)",

volume = "106",

journal = "Progress in Retinal and Eye Research",

issn = "1350-9462",

publisher = "Elsevier Ltd",

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TY - JOUR

T1 - Oculomics

T2 - Current concepts and evidence

AU - Zhu, Zhuoting

AU - Wang, Yueye

AU - Qi, Ziyi

AU - Hu, Wenyi

AU - Zhang, Xiayin

AU - Wagner, Siegfried K.

AU - Wang, Yujie

AU - Ran, An Ran

AU - Ong, Joshua

AU - Waisberg, Ethan

AU - Masalkhi, Mouayad

AU - Suh, Alex

AU - Tham, Yih Chung

AU - Cheung, Carol Y.

AU - Yang, Xiaohong

AU - Yu, Honghua

AU - Ge, Zongyuan

AU - Wang, Wei

AU - Sheng, Bin

AU - Liu, Yun

AU - Lee, Andrew G.

AU - Denniston, Alastair K.

AU - Wijngaarden, Peter van

AU - Keane, Pearse A.

AU - Cheng, Ching Yu

AU - He, Mingguang

AU - Wong, Tien Yin

PY - 2025/5

Y1 - 2025/5

N2 - The eye provides novel insights into general health, as well as pathogenesis and development of systemic diseases. In the past decade, growing evidence has demonstrated that the eye's structure and function mirror multiple systemic health conditions, especially in cardiovascular diseases, neurodegenerative disorders, and kidney impairments. This has given rise to the field of oculomics-the application of ophthalmic biomarkers to understand mechanisms, detect and predict disease. The development of this field has been accelerated by three major advances: 1) the availability and widespread clinical adoption of high-resolution and non-invasive ophthalmic imaging (“hardware”); 2) the availability of large studies to interrogate associations (“big data”); 3) the development of novel analytical methods, including artificial intelligence (AI) (“software”). Oculomics offers an opportunity to enhance our understanding of the interplay between the eye and the body, while supporting development of innovative diagnostic, prognostic, and therapeutic tools. These advances have been further accelerated by developments in AI, coupled with large-scale linkage datasets linking ocular imaging data with systemic health data. Oculomics also enables the detection, screening, diagnosis, and monitoring of many systemic health conditions. Furthermore, oculomics with AI allows prediction of the risk of systemic diseases, enabling risk stratification, opening up new avenues for prevention or individualized risk prediction and prevention, facilitating personalized medicine. In this review, we summarise current concepts and evidence in the field of oculomics, highlighting the progress that has been made, remaining challenges, and the opportunities for future research.

AB - The eye provides novel insights into general health, as well as pathogenesis and development of systemic diseases. In the past decade, growing evidence has demonstrated that the eye's structure and function mirror multiple systemic health conditions, especially in cardiovascular diseases, neurodegenerative disorders, and kidney impairments. This has given rise to the field of oculomics-the application of ophthalmic biomarkers to understand mechanisms, detect and predict disease. The development of this field has been accelerated by three major advances: 1) the availability and widespread clinical adoption of high-resolution and non-invasive ophthalmic imaging (“hardware”); 2) the availability of large studies to interrogate associations (“big data”); 3) the development of novel analytical methods, including artificial intelligence (AI) (“software”). Oculomics offers an opportunity to enhance our understanding of the interplay between the eye and the body, while supporting development of innovative diagnostic, prognostic, and therapeutic tools. These advances have been further accelerated by developments in AI, coupled with large-scale linkage datasets linking ocular imaging data with systemic health data. Oculomics also enables the detection, screening, diagnosis, and monitoring of many systemic health conditions. Furthermore, oculomics with AI allows prediction of the risk of systemic diseases, enabling risk stratification, opening up new avenues for prevention or individualized risk prediction and prevention, facilitating personalized medicine. In this review, we summarise current concepts and evidence in the field of oculomics, highlighting the progress that has been made, remaining challenges, and the opportunities for future research.

KW - Artificial intelligence

KW - Big data

KW - Disease detection

KW - Disease prediction

KW - Oculomics

KW - Retinal imaging

KW - Systemic diseases

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U2 - 10.1016/j.preteyeres.2025.101350

DO - 10.1016/j.preteyeres.2025.101350

M3 - Review article

C2 - 40049544

AN - SCOPUS:86000770280

SN - 1350-9462

VL - 106

JO - Progress in Retinal and Eye Research

JF - Progress in Retinal and Eye Research

M1 - 101350

ER -

Oculomics: Current concepts and evidence

Abstract

Keywords

ASJC Scopus subject areas

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