Effects of healthy aging and mnemonic strategies on verbal memory performance across the adult lifespan: Mediating role of posterior hippocampus

Abstract

AbstractIn this study, we aimed to understand the contributions of hippocampal anteroposterior subregions (head, body, tail) and subfields (cornu ammonis 1‐3 [CA1‐3], dentate gyrus [DG], and subiculum [Sub]) and encoding strategies to the age‐related verbal memory decline. Healthy participants were administered the California Verbal Learning Test‐II to evaluate verbal memory performance and encoding strategies and underwent 4.7 T magnetic resonance imaging brain scan with subsequent hippocampal subregions and subfields manual segmentation. While total hippocampal volume was not associated with verbal memory performance, we found the volumes of the posterior hippocampus (body) and Sub showed significant effects on verbal memory performance. Additionally, the age‐related volume decline in hippocampal body volume contributed to lower use of semantic clustering, resulting in lower verbal memory performance. The effect of Sub on verbal memory was statistically independent of encoding strategies. While total CA1‐3 and DG volumes did not show direct or indirect effects on verbal memory, exploratory analyses with DG and CA1‐3 volumes within the hippocampal body subregion suggested an indirect effect of age‐related volumetric reduction on verbal memory performance through semantic clustering. As semantic clustering is sensitive to age‐related hippocampal volumetric decline but not to the direct effect of age, further investigation of mechanisms supporting semantic clustering can have implications for early detection of cognitive impairments and decline.