Associations among executive function Abilities, free Water, and white matter microstructure in early old age

BACKGROUND: Studies have investigated white matter microstructure in relation to late-life cognitive impairments, with fractional anisotropy (FA) and mean diffusivity (MD) measures thought to capture demyelination and axonal degradation. However, new post-processing methods allow isolation of free water (FW), which captures extracellular fluid contributions such as atrophy and neuroinflammation, from tissue components. FW also appears to be highly relevant to late-life cognitive impairment. Here, we evaluated whether executive functions are associated with FW, and FA and MD corrected for FW (FA(FWcorr) and MD(FWcorr)). METHOD: We examined 489 non-demented men in the Vietnam Era Twin Study of Aging (VETSA) at mean age 68. Two latent factors capturing ‘common executive function’ and ‘working-memory specific’ processes were estimated based on 6 tasks. Analyses focused on 11 cortical white matter tracts across three metrics: FW, FA(FWcorr), and MD(FWcorr). RESULTS: Better ‘common executive function’ was associated with lower FW across 9 of the 11 tracts. There were no significant associations with intracellular metrics after false discovery rate correction. Effects also appeared driven by individuals with MCI (13.7% of the sample). Working memory-specific tasks showed some associations with FA(FWcorr), including the triangularis portion of the inferior frontal gyrus. There was no evidence that cognitive reserve (i.e., general cognitive ability assessed in early adulthood) moderated these associations between executive function and FW or FA. DISCUSSION: Executive function abilities in early old age are associated primarily with extracellular fluid (FW) as opposed to white matter (FA(FWcorr) or MD(FWcorr)). Moderation analyses suggested cognitive reserve does not play a strong role in these associations, at least in this sample of non-demented men.