Heterogeneous aging across multiple organ systems and prediction of chronic disease and mortality

Ye Ella Tian¹, Vanessa Cropley², Andrea B Maier^{3

4

5}, Nicola T Lautenschlager^{6

7}, Michael Breakspear^{8

9}, Andrew Zalesky^{10

11}

Affiliations

¹ Melbourne Neuropsychiatry Centre, Department of Psychiatry, Melbourne Medical School, The University of Melbourne, Melbourne, Victoria, Australia. ye.tian2@unimelb.edu.au.
² Melbourne Neuropsychiatry Centre, Department of Psychiatry, Melbourne Medical School, The University of Melbourne, Melbourne, Victoria, Australia.
³ Healthy Longevity Translational Research Program, Yong Loo Lin School of Medicine, National University of Singapore, Singapore, Singapore.
⁴ Centre for Healthy Longevity, @AgeSingapore, National University Health System, Singapore, Singapore.
⁵ Department of Human Movement Sciences, @AgeAmsterdam, Amsterdam Movement Science, Vrije Universiteit Amsterdam, Amsterdam, The Netherlands.
⁶ Academic Unit for Psychiatry of Old Age, Department of Psychiatry, Melbourne Medical School, The University of Melbourne, Melbourne, Victoria, Australia.
⁷ NorthWestern Mental Health, Royal Melbourne Hospital, Melbourne, Victoria, Australia.
⁸ Discipline of Psychiatry, College of Health, Medicine and Wellbeing, The University of Newcastle, Newcastle, New South Wales, Australia.
⁹ School of Psychological Sciences, College of Engineering, Science and Environment, The University of Newcastle, Newcastle, New South Wales, Australia.
¹⁰ Melbourne Neuropsychiatry Centre, Department of Psychiatry, Melbourne Medical School, The University of Melbourne, Melbourne, Victoria, Australia. azalesky@unimelb.edu.au.
¹¹ Department of Biomedical Engineering, Faculty of Engineering and Information Technology, The University of Melbourne, Melbourne, Victoria, Australia. azalesky@unimelb.edu.au.

PMID: 37024597
DOI: 10.1038/s41591-023-02296-6

Heterogeneous aging across multiple organ systems and prediction of chronic disease and mortality

Ye Ella Tian et al. Nat Med. 2023 May.

. 2023 May;29(5):1221-1231.

doi: 10.1038/s41591-023-02296-6. Epub 2023 Apr 6.

Authors

Ye Ella Tian¹, Vanessa Cropley², Andrea B Maier^{3

4

5}, Nicola T Lautenschlager^{6

7}, Michael Breakspear^{8

9}, Andrew Zalesky^{10

11}

Affiliations

¹ Melbourne Neuropsychiatry Centre, Department of Psychiatry, Melbourne Medical School, The University of Melbourne, Melbourne, Victoria, Australia. ye.tian2@unimelb.edu.au.
² Melbourne Neuropsychiatry Centre, Department of Psychiatry, Melbourne Medical School, The University of Melbourne, Melbourne, Victoria, Australia.
³ Healthy Longevity Translational Research Program, Yong Loo Lin School of Medicine, National University of Singapore, Singapore, Singapore.
⁴ Centre for Healthy Longevity, @AgeSingapore, National University Health System, Singapore, Singapore.
⁵ Department of Human Movement Sciences, @AgeAmsterdam, Amsterdam Movement Science, Vrije Universiteit Amsterdam, Amsterdam, The Netherlands.
⁶ Academic Unit for Psychiatry of Old Age, Department of Psychiatry, Melbourne Medical School, The University of Melbourne, Melbourne, Victoria, Australia.
⁷ NorthWestern Mental Health, Royal Melbourne Hospital, Melbourne, Victoria, Australia.
⁸ Discipline of Psychiatry, College of Health, Medicine and Wellbeing, The University of Newcastle, Newcastle, New South Wales, Australia.
⁹ School of Psychological Sciences, College of Engineering, Science and Environment, The University of Newcastle, Newcastle, New South Wales, Australia.
¹⁰ Melbourne Neuropsychiatry Centre, Department of Psychiatry, Melbourne Medical School, The University of Melbourne, Melbourne, Victoria, Australia. azalesky@unimelb.edu.au.
¹¹ Department of Biomedical Engineering, Faculty of Engineering and Information Technology, The University of Melbourne, Melbourne, Victoria, Australia. azalesky@unimelb.edu.au.

PMID: 37024597
DOI: 10.1038/s41591-023-02296-6

Abstract

Biological aging of human organ systems reflects the interplay of age, chronic disease, lifestyle and genetic risk. Using longitudinal brain imaging and physiological phenotypes from the UK Biobank, we establish normative models of biological age for three brain and seven body systems. Here we find that an organ's biological age selectively influences the aging of other organ systems, revealing a multiorgan aging network. We report organ age profiles for 16 chronic diseases, where advanced biological aging extends from the organ of primary disease to multiple systems. Advanced body age associates with several lifestyle and environmental factors, leukocyte telomere lengths and mortality risk, and predicts survival time (area under the curve of 0.77) and premature death (area under the curve of 0.86). Our work reveals the multisystem nature of human aging in health and chronic disease. It may enable early identification of individuals at increased risk of aging-related morbidity and inform new strategies to potentially limit organ-specific aging in such individuals.

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Comment in

Organ-specific aging and the risk of chronic diseases.
Moqri M, Snyder M. Moqri M, et al. Nat Med. 2023 May;29(5):1068-1069. doi: 10.1038/s41591-023-02338-z. Nat Med. 2023. PMID: 37161069 No abstract available.
Chronic kidney disease promotes ageing in a multiorgan disease network.
Benzing T, Schumacher B. Benzing T, et al. Nat Rev Nephrol. 2023 Sep;19(9):542-543. doi: 10.1038/s41581-023-00729-6. Nat Rev Nephrol. 2023. PMID: 37237148 No abstract available.

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Heterogeneous aging across multiple organ systems and prediction of chronic disease and mortality

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Heterogeneous aging across multiple organ systems and prediction of chronic disease and mortality

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Medical