MultiAge: A New Multidimensional Biomarker of Biological Age Derived from Comprehensive Phenotypic and Molecular Profiling

  1. Valentin Max Vetter
  2. Marit Philine Junge
  3. Ganling Ding
  4. Annemarie Luise Weihs
  5. Johanna Drewelies
  6. Sandra Düzel
  7. Jan Homann
  8. Eva-Marie Maetzel
  9. Dominik Spira
  10. Hans Jörgen Grabe
  11. Eva Grill
  12. Ulman Lindenberger
  13. Matthias Nauck
  14. Graham Pawelec
  15. Anette Peters
  16. Elisabeth Steinhagen-Thiessen
  17. Barbara Thorand
  18. Henry Völzke
  19. Juliane Winkelmann
  20. Klaus Berger
  21. Alexander Teumer
  22. Melanie Waldenberger
  23. Denis Gerstorf
  24. Christina M. Lill
  25. Lars Bertram
  26. Ilja Demuth
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Abstract

Background

It is an everyday observation that people of the same chronological age differ with respect to their physical and mental capacity. However, assessing these differences in biological age remains challenging.

Methods

Here, we aggregate 89 age-associated variables from the Berlin Aging Study II (BASE-II, n=1,631) to generate MultiAge, a new marker of biological age that summarizes information from ten domains reflecting organ health and global biological age. We then used methylation data obtained from an Illumina MethylationEPIC array and supervised machine learning to translate MultiAge into a DNA methylation signature, MultiAgeEpi (309 CpGs), which was subsequently validated in four independent external validation cohorts (KORA FF4, KORA Age, SHIP-TREND, BiDirect, total n=4,339). MultiAgeEpi results were compared with previously published epigenetic clocks (GrimAge, DunedinPACE, SystemsAge).

Results

We report that MultiAgeEpi showed similar, and in several cases, stronger associations with age-associated outcomes such as diabetes, metabolic syndrome, multimorbidity, frailty and mortality (q < 0.05) compared to the other clocks.

Conclusions

MultiAge and MultiAgeEpi thus provide a comprehensive assessment of biological age through aggregation of numerous age-associated variables and the use of the high-resolution methylomics data makes transfer of this marker to other cohorts possible.

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  1. Version published to 10.64898/2026.06.01.26354629 on medRxiv