Moderating role of physical activity on hippocampal iron deposition and memory outcomes in typically aging older adults.

Physical activity (PA) is linked to better cognitive and brain health, though its mechanisms are unknown. While brain iron is essential for normal function, levels increase with age and, when excessive, can cause detrimental neural effects. We examined how objectively measured PA relates to cerebral iron deposition and memory functioning in normal older adults. Sixty-eight cognitively unimpaired older adults from the UCSF Memory and Aging Center completed neuropsychological testing and brain magnetic resonance imaging, followed by 30-day Fitbit monitoring. Magnetic resonance imaging quantitative susceptibility mapping (QSM) quantified iron deposition. PA was operationalized as average daily steps. Linear regression models examined memory as a function of hippocampal QSM, PA, and their interaction. Higher bilateral hippocampal iron deposition correlated with worse memory but was not strongly related to PA. Covarying for demographics, PA moderated the relationship between bilateral hippocampal iron deposition and memory such that the negative effect of hippocampal QSM on memory performances was no longer significant above 9120 daily steps. PA may mitigate adverse iron-related pathways for memory health. • Brain iron deposition occurs with age and increases the risk for cognitive decline. • The role of physical activity (PA) on brain iron deposition is unknown. • Hippocampal iron deposition is related to poorer memory in cognitively normal adults. • PA attenuated the relationship between iron deposition and memory. • PA may mitigate adverse iron-related pathways for memory health. [ABSTRACT FROM AUTHOR]