Risk Architecture for Altered Hippocampal Connectivity in Normal Aging Differ Between Men and Women

AbstractBackgroundFunctional MRI (fMRI) studies have associated impaired memory networks with increase in AD pathology. Recently, cross‐sectional analyses found b‐amyloid (Aβ) deposition associated with different patterns of hippocampal connectivity in a memory task based on sex and white matter hyperintensity volume (WMHV). However, cross‐sectional studies don’t provide insight into the driving mechanisms of network change. In this longitudinal study, we identify risk factors based on sex that are associated with memory network connectivity changes.MethodOur study included 54 cognitively normal older adults (N = 34 female, mean age 74.6 years) with MRI scans on average 2.43 (SD 0.82) years apart. T1w, T2‐FLAIR MRI, and PiB PET were collected to quantify cortical volume, WMHV and Aβ deposition, respectively. Task fMRI was collected while participants performed face‐name associative memory tasks. Left and right hippocampus seeds were used to estimate functional connectivity between hippocampus and voxels in the brain. Second‐level analyses were performed to determine regions of interest (ROI) with significant differences in sex by time interaction (p<0.001). The mean beta values were extracted from the significant ROIs for post‐hoc analysis where we performed multivariate linear regression analyses to find correlations with connectivity change (follow‐up minus baseline).ResultThree ROIs presented significant sex by time interactions: left‐right hippocampus, hippocampus‐anterior cingulate cortex (ACC), and hippocampus‐medial frontal gyrus. The change in left‐right hippocampus connectivity increased for women and decreased for men (Fig.1). For the other ROIs, connectivity increased for men and decreased for women (Fig.2). Left‐right hippocampal connectivity change had a significant sex‐WMHV interaction effect (p<0.01), where only women had a positive association between connectivity change and baseline WMHV. Hippocampus‐ACC connectivity change had a significant sex‐Aβ interaction (p<0.01), with greater baseline Aβ associated with increased connectivity change for men and decreased for women.ConclusionWe observed sex‐differences in risk architecture for altered hippocampal connectivity. In the presence of vascular pathology and Aβ, women appear to experience local hippocampal connectivity and decrease hippocampal‐frontal connectivity. Meanwhile, men experienced hippocampal‐frontal connectivity with increased Aβ burden. Characterizing these sex differences in memory network alterations can help guide the development of sex‐specific prevention and treatment strategies.