Abstract
Alzheimers Dement. 2025 Dec;21 Suppl 2:e099155. doi: 10.1002/alz70856_099155.
ABSTRACT
BACKGROUND: Perivascular spaces (PVS), when enlarged, become visible and quantifiable on brain magnetic resonance images (MRI). PVS visibility in MRI has been found to be associated with ageing, hypertension, sleep disorders, and cerebral small vessel disease, but their relationship with cognition in adults remains unclear.
METHOD: Here, we aimed to determine whether PVS volumes were associated with cognitive performance, using MRI and cognitive data from 14 different cohorts on ageing, dementia, and cerebrovascular disease. We computationally segmented PVS and estimated PVS volumes within the basal ganglia (BG-PVS) and cerebral white matter, primarily including the centrum semiovale (CSO-PVS) regions-of-interest. We then performed cross-sectional and longitudinal meta-analyses, both accounting for random effects. The cross-sectional meta-analysis employed a linear mixed model to relate PVS volumes to cognitive performance scores (Montreal Cognitive Assessment, MoCA or, Toronto Cognitive Assessment, TorCA) divided by the maximum in each cohort. The longitudinal meta-analysis used logistic regression to predict cognitive status, either remaining cognitively normal or developing impairment over time, from PVS volumes as a percentage in the respective regions-of-interest.
RESULT: Cross-sectional meta-analysis (n = 17771). Individuals with higher fractional PVS volumes had lower cognitive performance scores. This observation was consistent across multiple studies and remained significant after adjusting for age, sex, white matter hyperintensities, and years of education. A 10% change in CSO-PVS volume would estimate a 2% reduction in cognitive score. Longitudinal meta-analysis (n = 2447). Higher fractional PVS volumes tended to predict a greater likelihood of any cognitive impairment, although this relationship varied according to the participant populations (healthy aging, stroke, memory clinic) and/or other long-term brain changes (e.g., atrophy, worsening WMH), and variation in duration of follow-up.
CONCLUSION: The volume of MRI-visible PVS impacts ageing, vascular or neurogenerative processes leading to cognitive decline. More longitudinal data are needed to confirm the association. Other PVS measures should be assessed as these may be more sensitive to cognitive decline.
PMID:41447460 | DOI:10.1002/alz70856_099155