datacentre@scilifelab.se) if you think anything looks out of place.Lifestyle, biological, and genetic factors related to brain iron accumulation across adulthood.
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Gustavsson J, Ištvánfyová Z, Papenberg G, Falahati F, Laukka EJ, Lehtisalo J, Mangialasche F, Kalpouzos G
Neurobiol. Aging 144 (-) 56-67 [2024-12-00; online 2024-09-10]
Iron is necessary for many neurobiological mechanisms, but its overaccumulation can be harmful. Factors triggering age-related brain iron accumulation remain largely unknown and longitudinal data are insufficient. We examined associations between brain iron load and accumulation and, blood markers of iron metabolism, cardiovascular health, lifestyle factors (smoking, alcohol use, physical activity, diet), and ApoE status using longitudinal data from the IronAge study (n = 208, age = 20-79, mean follow-up time = 2.75 years). Iron in cortex and basal ganglia was estimated with magnetic resonance imaging using quantitative susceptibility mapping (QSM). Our results showed that (1) higher peripheral iron levels (i.e., composite score of blood iron markers) were related to greater iron load in the basal ganglia; (2) healthier diet was related to higher iron levels in the cortex and basal ganglia, although for the latter the association was significant only in younger adults (age = 20-39); (3) worsening cardiovascular health was related to increased iron accumulation; (4) younger ApoE ε4 carriers accumulated more iron in basal ganglia than younger non-carriers. Our results demonstrate that modifiable factors, including lifestyle, cardiovascular, and physiological ones, are linked to age-related brain iron content and accumulation, contributing novel information on potential targets for interventions in preventing brain iron-overload.
NGI Uppsala (SNP&SEQ Technology Platform) [Service]
National Genomics Infrastructure [Service]
PubMed 39277972
DOI 10.1016/j.neurobiolaging.2024.09.004
Crossref 10.1016/j.neurobiolaging.2024.09.004
pii: S0197-4580(24)00159-3