ECG-derived heart delta age was significantly correlated with brain delta age (r=0.12, p=0.0001) and associated with cognitive function, with 13% of the effect mediated through brain age.
Observational (n=7,779)
Is machine-learning-derived heart delta age associated with cognitive function in a population-based sample?
Machine-learning-derived heart age from standard ECGs is independently associated with cognitive function and brain age, highlighting a measurable heart-brain connection in aging.
Effect estimate: Pearson's r 0.12
p-value: p=0.0001
BACKGROUND AND PURPOSE: A heart age biomarker has been developed using deep neural networks applied to electrocardiograms. Whether this biomarker is associated with cognitive function was investigated. METHODS: Using 12-lead electrocardiograms, heart age was estimated for a population-based sample (N = 7779, age 40-85 years, 45.3% men). Associations between heart delta age (HDA) and cognitive test scores were studied adjusted for cardiovascular risk factors. In addition, the relationship between HDA, brain delta age (BDA) and cognitive test scores was investigated in mediation analysis. RESULTS: Significant associations between HDA and the Word test, Digit Symbol Coding Test and tapping test scores were found. HDA was correlated with BDA (Pearson's r = 0.12, p = 0.0001). Moreover, 13% (95% confidence interval 3-36) of the HDA effect on the tapping test score was mediated through BDA. DISCUSSION: Heart delta age, representing the cumulative effects of life-long exposures, was associated with brain age. HDA was associated with cognitive function that was minimally explained through BDA.
Iakunchykova et al. (Wed,) conducted a observational in Cognitive function (n=7,779). Heart delta age (HDA) was evaluated on Correlation between heart delta age (HDA) and brain delta age (BDA) (Pearson's r 0.12, p=0.0001). ECG-derived heart delta age was significantly correlated with brain delta age (r=0.12, p=0.0001) and associated with cognitive function, with 13% of the effect mediated through brain age.
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