Abstract
AbstractBackgroundCognitive reserve is the term used to describe the apparent ability of one’s cognitive processes or neural networks to adapt in response to neuropathology and brain injury. This protective ability is proposed to account for individual differences in age‐associated cognitive decline and Alzheimer’s disease (AD) risk, where higher levels of cognitive reserve are associated with more preserved cognitive functioning and delayed onset of AD dementia. Women have a higher prevalence of AD than men, and account for two‐thirds of AD diagnoses. Sex differences in the protective ability of cognitive reserve may account for differences in Alzheimer’s disease prevalence between men and women, but few studies have explored this possibility. This study evaluates sex as a moderator of the relationship between cognitive reserve and brain volume effects on executive function.MethodThe study used archival data from 997 older adult participants in the Australian Imaging, Biomarkers, and Lifestyle(AIBL) Flagship Study of Ageing (see Table 1 for descriptives). Structural equation modelling was used to estimate a proxy for cognitive reserve and to run the analytical model. Cognitive reserve was defined as the variance in episodic memory not explained by demographics (e.g., education) and brain integrity (i.e., the residual reserve index; Reed et al., 2010). Executive functioning intercept and slope – derived from up to 7 study visits (18‐month follow‐up intervals) – were regressed onto the main and interaction effects of the residual reserve index, brain integrity (i.e., the combination of grey matter, hippocampal, and white matter hyperintensity volumes), and sex, plus covariates (e.g., number of apolipoprotein alleles; age).ResultA significant three‐way interaction was observed between cognitive reserve, brain integrity, and sex; Women benefitted more than men from the protective effects of cognitive reserve at comparably low levels of brain integrity. Further analyses also showed that women, on average, have higher levels of cognitive reserve as reflected by the residual reserve index.ConclusionSex differences in cognitive reserve highlight a potential sex‐related mechanism by which cognitive reserve confers protection against cognitive decline in the face of low brain integrity. These findings further our understanding of potential factors that maximise the protective effect of cognitive reserve.
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