Sex Differences in Magnetoencephalography-Identified Functional Connectivity in the Human Connectome Project Connectomics of Brain Aging and Dementia Cohort

Impact statementFunctional connectivity is a promising tool to detect brain functional changes that may lead to age-associated cognitive impairment. Here we studied networks in the alpha band, which are affected during the asymptomatic phase of neurodegenerative disorders. We found that the older females had greater phase locking values in these networks than men, similar to what is found in people with mild cognitive impairment. This suggests the possibilities that women may have brain functional changes earlier in life than men, which might explain the higher prevalence of dementias among women than men. Introduction: The human brain shows modest traits of sexual dimorphism, with the female brain, on average, 10% smaller than the male brain. These differences do not imply a lowered cognitive performance, but suggest a more optimal brain organization in women. Here we evaluate the patterns of functional connectivity (FC) in women and men from the Connectomics of Brain Aging and Dementia sample.Methods: We used phase locking values to calculate FC from the magnetoencephalography time series in a sample of 138 old adults (87 females and 51 males). We compared the FC patterns between sexes, with the intention of detecting regions with different levels of connectivity.Results: We found a frontal cluster, involving anterior cingulate and the medial frontal lobe, where women showed higher FC values than men. Involved connections included the following: (1) medial parietal areas, such as posterior cingulate cortices and precunei; (2) right insula; and (3) medium cingulate and paracingulate cortices. Moreover, these differences persisted when considering only cognitively intact individuals, but not when considering only cognitively impaired individuals.Discussion: Increased anteroposterior FC has been identified as a biomarker for increased risk of developing cognitive impairment or dementia. In our study, cognitively intact women showed higher levels of FC than their male counterparts. This result suggests that neurodegenerative processes could be taking place in these women, but the changes are undetected by current diagnosis tools. FC, as measured here, might be valuable for early identification of this neurodegeneration.

Automated summary

The study found that older females had higher phase locking values in networks affected during the asymptomatic phase of neurodegenerative disorders, similar to individuals with mild cognitive impairment. This suggests that women may experience brain functional changes earlier in life than men, potentially explaining the higher prevalence of dementia among women.