A cross population study of retinal aging biomarkers with longitudinal pre-training and label distribution learning

Zhen Yu; Ruiye Chen; Peng Gui; Wei Wang; Imran Razzak; Hamid Alinejad-Rokny; Xiaomin Zeng; Xianwen Shang; Lei Zhang; Xiaohong Yang; Honghua Yu; Wenyong Huang; Huimin Lu; Peter van Wijngaarden; Mingguang He; Zhuoting Zhu; Zongyuan Ge

doi:10.1038/s41746-025-01751-7

A cross population study of retinal aging biomarkers with longitudinal pre-training and label distribution learning

Zhen Yu, Ruiye Chen, Peng Gui, Wei Wang, Imran Razzak, Hamid Alinejad-Rokny, Xiaomin Zeng, Xianwen Shang, Lei Zhang, Xiaohong Yang, Honghua Yu, Wenyong Huang, Huimin Lu, Peter van Wijngaarden, Mingguang He (Corresponding Author), Zhuoting Zhu (Corresponding Author), Zongyuan Ge (Corresponding Author)

Research output: Journal article publication › Journal article › Academic research › peer-review

1 Citation (Scopus)

Abstract

Retinal age has emerged as a promising biomarker of aging, offering a non-invasive and accessible assessment tool. We developed a deep learning model to estimate retinal age with enhanced accuracy, leveraging retinal images from diverse populations. Our approach integrates self-supervised learning to capture chronological information from both snapshot and sequential images, alongside a progressive label distribution learning module to model biological aging variability. Trained and validated on healthy cohorts (34,433 participants from the UK Biobank and three Chinese cohorts), the model achieved a mean absolute error of 2.79 years, surpassing previous methods. When applied to broader populations, analysis of the retinal age gap—the difference between retina-predicted and chronological age—revealed associations with increased risks of all-cause mortality and multiple age-related diseases. These findings highlight the potential of retinal age as a reliable biomarker for predicting survival and aging outcomes, supporting targeted risk management and precision health interventions.

Original language	English
Article number	344
Pages (from-to)	1-14
Number of pages	14
Journal	npj Digital Medicine
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41746-025-01751-7
Publication status	Published - 10 Jun 2025

Keywords

Predictive markers
Risk factors

ASJC Scopus subject areas

Medicine (miscellaneous)
Health Informatics
Computer Science Applications
Health Information Management

More information

10.1038/s41746-025-01751-7

http://hdl.handle.net/10397/114146

Cite this

Yu, Z., Chen, R., Gui, P., Wang, W., Razzak, I., Alinejad-Rokny, H., Zeng, X., Shang, X., Zhang, L., Yang, X., Yu, H., Huang, W., Lu, H., van Wijngaarden, P., He, M., Zhu, Z., & Ge, Z. (2025). A cross population study of retinal aging biomarkers with longitudinal pre-training and label distribution learning. npj Digital Medicine, 8(1), 1-14. Article 344. https://doi.org/10.1038/s41746-025-01751-7

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abstract = "Retinal age has emerged as a promising biomarker of aging, offering a non-invasive and accessible assessment tool. We developed a deep learning model to estimate retinal age with enhanced accuracy, leveraging retinal images from diverse populations. Our approach integrates self-supervised learning to capture chronological information from both snapshot and sequential images, alongside a progressive label distribution learning module to model biological aging variability. Trained and validated on healthy cohorts (34,433 participants from the UK Biobank and three Chinese cohorts), the model achieved a mean absolute error of 2.79 years, surpassing previous methods. When applied to broader populations, analysis of the retinal age gap—the difference between retina-predicted and chronological age—revealed associations with increased risks of all-cause mortality and multiple age-related diseases. These findings highlight the potential of retinal age as a reliable biomarker for predicting survival and aging outcomes, supporting targeted risk management and precision health interventions.",

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author = "Zhen Yu and Ruiye Chen and Peng Gui and Wei Wang and Imran Razzak and Hamid Alinejad-Rokny and Xiaomin Zeng and Xianwen Shang and Lei Zhang and Xiaohong Yang and Honghua Yu and Wenyong Huang and Huimin Lu and \{van Wijngaarden\}, Peter and Mingguang He and Zhuoting Zhu and Zongyuan Ge",

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Yu, Z, Chen, R, Gui, P, Wang, W, Razzak, I, Alinejad-Rokny, H, Zeng, X, Shang, X, Zhang, L, Yang, X, Yu, H, Huang, W, Lu, H, van Wijngaarden, P, He, M, Zhu, Z & Ge, Z 2025, 'A cross population study of retinal aging biomarkers with longitudinal pre-training and label distribution learning', npj Digital Medicine, vol. 8, no. 1, 344, pp. 1-14. https://doi.org/10.1038/s41746-025-01751-7

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AU - Yu, Zhen

AU - Chen, Ruiye

AU - Gui, Peng

AU - Wang, Wei

AU - Razzak, Imran

AU - Alinejad-Rokny, Hamid

AU - Zeng, Xiaomin

AU - Shang, Xianwen

AU - Zhang, Lei

AU - Yang, Xiaohong

AU - Yu, Honghua

AU - Huang, Wenyong

AU - Lu, Huimin

AU - van Wijngaarden, Peter

AU - He, Mingguang

AU - Zhu, Zhuoting

AU - Ge, Zongyuan

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AB - Retinal age has emerged as a promising biomarker of aging, offering a non-invasive and accessible assessment tool. We developed a deep learning model to estimate retinal age with enhanced accuracy, leveraging retinal images from diverse populations. Our approach integrates self-supervised learning to capture chronological information from both snapshot and sequential images, alongside a progressive label distribution learning module to model biological aging variability. Trained and validated on healthy cohorts (34,433 participants from the UK Biobank and three Chinese cohorts), the model achieved a mean absolute error of 2.79 years, surpassing previous methods. When applied to broader populations, analysis of the retinal age gap—the difference between retina-predicted and chronological age—revealed associations with increased risks of all-cause mortality and multiple age-related diseases. These findings highlight the potential of retinal age as a reliable biomarker for predicting survival and aging outcomes, supporting targeted risk management and precision health interventions.

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A cross population study of retinal aging biomarkers with longitudinal pre-training and label distribution learning

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Keywords

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