Multimodal clocks of human aging
Summary
Human aging is characterized by complex structural and functional decline, but quantifying its heterogeneity and assessing biological age remain challenges. We present the mCAS (multicentric Chinese aging standardized cohort) developed from 2,019 Chinese individuals aged 18-91 years. Integrating high-dimensional clinical, physiological, and molecular-level data, we constructed a three-tiered aging framework: the core capacity clock (CC-clock) to quantify clinical physiological decline, the
Content
# Multimodal clocks of human aging
*Published: 2026 May 8*
Human aging is characterized by complex structural and functional decline, but
quantifying its heterogeneity and assessing biological age remain challenges. We
present the mCAS (multicentric Chinese aging standardized cohort) developed from
2,019 Chinese individuals aged 18-91 years. Integrating high-dimensional
clinical, physiological, and molecular-level data, we constructed a three-tiered
aging framework: the core capacity clock (CC-clock) to quantify clinical
physiological decline, the multimodal clock (MM-clock) with extensive parameter
coverage and enhanced predictive precision, and organ-associated aging clocks.
Cross-layer analysis demonstrates that plasma protein clocks not only capture
chronological age but also serve as efficient proxies for systemic physiological
capacity. Leveraging this framework for discovery, we identified the
age-dependent accumulation of coagulation factors as a driver of multi-organ
senescence and systemic inflammatory activation. This study provides a
foundational framework that bridges molecular signatures with functional
decline, identifies new biomarkers for aging assessment, and reveals a novel
translational driver of aging.
DOI: 10.1016/j.cell.2026.04.025