Local and global patterns support medical imaging as a biomarker of ageing

Mueller, Tamara T.; Starck, Sophie; Llalloshi, Rozafe; Kaissis, Georgios; Ziller, Alexander; Graf, Robert; Schlett, Christopher; Ringhof, Steffen; Bamberg, MD, MPH, Fabian; Wielpuetz, Mark; Völzke, Henry; Leitzmann, Michael; Niendorf, Thoralf; Keil, Thomas; Krist, Lilian; Pischon, Tobias; Karch, Andre; Berger, Klaus; Kirschke, Jan; Rueckert, Daniel; Braren, Rickmer

Local and global patterns support medical imaging as a biomarker of ageing

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Item Type:	Preprint
Title:	Local and global patterns support medical imaging as a biomarker of ageing
Creators Name:	Mueller, Tamara T., Starck, Sophie, Llalloshi, Rozafe, Kaissis, Georgios, Ziller, Alexander, Graf, Robert, Schlett, Christopher, Ringhof, Steffen, Bamberg, MD, MPH, Fabian, Wielpuetz, Mark, Völzke, Henry, Leitzmann, Michael, Niendorf, Thoralf, Keil, Thomas, Krist, Lilian, Pischon, Tobias, Karch, Andre, Berger, Klaus, Kirschke, Jan, Rueckert, Daniel and Braren, Rickmer
Abstract:	BACKGROUND: Understanding human ageing across multiple organs is essential for characterising individual health trajectories and identifying abnormal ageing processes. Multi-organ imaging provides an opportunity to quantify biological ageing beyond chronological age. The aim of this study is to assess organ-specific and whole-body ageing patterns and their associations with disease and lifestyle factors. METHODS: In this large-scale study, we evaluate biological ageing patterns using 70,000 MRI scans from the UK Biobank and the German National Cohort. We employ 3D ResNet-18 models to predict chronological age from various body regions (brain, heart, liver, spine, lungs, muscle, and intestine) and the whole body. From these predictions, we derive age gaps relative to a strictly healthy reference cohort, which enables the identification of accelerated ageing patterns. We then evaluate associations with chronic diseases and lifestyle factors, and a virtual ageing framework was developed to explore counterfactual scenarios by substituting anatomical regions across subjects, quantifying local impacts on global biological age. RESULTS: Here we show significant associations between detected accelerated ageing and specific chronic diseases, including multiple sclerosis and chronic obstructive pulmonary disease, as well as lifestyle factors such as smoking and physical activity. Virtual substitution of anatomical regions demonstrates that local substitutions can influence global ageing patterns. CONCLUSIONS: This study demonstrates that multi-organ imaging enables the detection of abnormal ageing patterns at both local and global levels. The presented framework provides a foundation for improved risk stratification and supports the development of personalised approaches to health assessment and disease prevention.
Keywords:	Medical Imaging, Ageing Biomarkers, Accelerated Ageing, Population Studies
Source:	bioRxiv
Publisher:	Cold Spring Harbor Laboratory Press
Article Number:	2025.05.18.654705v3
Date:	8 April 2026
Official Publication:	https://doi.org/10.1101/2025.05.18.654705

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