Childhood engagement in cognitively stimulating activities moderates relationships between brain structure and cognitive function in adulthood.

Greater engagement in cognitively stimulating activities (CSA) during adulthood has been shown to protect against neurocognitive decline, but no studies have investigated whether CSA during childhood protects against effects of brain changes on cognition later in life. The current study tested the moderating role of childhood CSA in the relationships between brain structure and cognitive performance during adulthood. At baseline (N=250) and 5-year follow-up (N=204) healthy adults aged 20–80 underwent MRI to assess four structural brain measures and completed neuropsychological tests to measure three cognitive domains. Participants were categorized into low and high childhood CSA based on self-report questionnaires. Results of multivariable linear regressions analyzing interactions between CSA, brain structure, and cognition showed that higher childhood CSA was associated with a weaker relationship between cortical thickness and memory at baseline, and attenuated the effects of change in cortical thickness and brain volume on decline in processing speed over time. These findings suggest higher CSA during childhood may mitigate the effects of brain structure changes on cognitive function later in life. • Childhood cognitively stimulating activities (CSA) impact adult cognitive function. • Childhood CSA attenuates relationship between cortical thickness and memory. • CSA mitigates effect of cortical thickness and brain volume on speed longitudinally. • Childhood CSA may contribute to cognitive reserve that is protective later in life.. [ABSTRACT FROM AUTHOR]