Mid-life Epigenetic Age, Neuroimaging Brain Age, and Cognitive Function: Coronary Artery Risk Development in Young Adults (CARDIA) Study

Overview

Journal Aging (Albany NY)

Specialty Geriatrics

Date 2022 Feb 27

PMID 35220276

Authors

Yinan Zheng

Mohamad Habes

Mitzi Gonzales

Raymond Pomponio

Ilya Nasrallah

Sadiya Khan

Douglas E Vaughan

Christos Davatzikos

Sudha Seshadri

Lenore Launer

Farzaneh Sorond

Sanaz Sedaghat

Derek Wainwright

Andrea Baccarelli

Stephen Sidney

Nick Bryan

Philip Greenland

Donald Lloyd-Jones

Kristine Yaffe

Lifang Hou

Affiliations

Soon will be listed here.

Abstract

The proportion of aging populations affected by dementia is increasing. There is an urgent need to identify biological aging markers in mid-life before symptoms of age-related dementia present for early intervention to delay the cognitive decline and the onset of dementia. In this cohort study involving 1,676 healthy participants (mean age 40) with up to 15 years of follow up, we evaluated the associations between cognitive function and two classes of novel biological aging markers: blood-based epigenetic aging and neuroimaging-based brain aging. Both accelerated epigenetic aging and brain aging were prospectively associated with worse cognitive outcomes. Specifically, every year faster epigenetic or brain aging was on average associated with 0.19-0.28 higher (worse) Stroop score, 0.04-0.05 lower (worse) RAVLT score, and 0.23-0.45 lower (worse) DSST (all false-discovery-rate-adjusted p <0.05). While epigenetic aging is a more stable biomarker with strong long-term predictive performance for cognitive function, brain aging biomarker may change more dynamically in temporal association with cognitive decline. The combined model using epigenetic and brain aging markers achieved the highest accuracy (AUC: 0.68, p<0.001) in predicting global cognitive function status. Accelerated epigenetic age and brain age at midlife may aid timely identification of individuals at risk for accelerated cognitive decline and promote the development of interventions to preserve optimal functioning across the lifespan.

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