Nutritional Density and Its Impact on Biological Age: Insights From Large Cohort Studies
Eleonora Porcu, Charlotte Debras, Shu Wang, Li-Tang Tsai, Alberto Conde Freniche, Philipp Gut, Sébastien Herzig

TL;DR
This study shows that better nutrition, measured by a diet quality score, is linked to slower biological aging in large populations.
Contribution
The study demonstrates that nutritional density significantly affects biological age, with specific nutrients like fiber and magnesium playing key roles.
Findings
Higher nutrition density scores are associated with lower biological age advancement in both UKBiobank and NHANES populations.
Fiber and magnesium intake are linked to reduced biological age advancement, while added sugars increase it.
A portion of the relationship between nutrition and biological age is mediated by BMI.
Abstract
Relationships between nutrition and aging represent a critical area of research, as dietary choices can influence health and disease risk. In this study, we used Clinical PhenoAge (PA) as an indicator of health status reflecting biological processes of aging better than chronological age. We calculated biological age advancement (BAA) in two populations (UKBiobank, N = 103,344 and NHANES 2015-2018, N = 4,264) as the difference between PA and chronological age and explored the association with specific diet quality scores. To this end we used nutrition density (measured using NRF9.3 score, a method evaluating adequate intakes of 12 nutrients) as well as individual nutrient intake. After adjusting for relevant anthropometric, sociodemographic and health-related covariates, the linear regression analyses revealed that a 50-point increase of NRF9.3 is associated with lower BAA in UKBiobank…
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Taxonomy
TopicsNutritional Studies and Diet · Nutrition, Genetics, and Disease · Health, Environment, Cognitive Aging
