Abstract
BACKGROUND: Visual contrast sensitivity (CS) is critical to many functions in older adults and is associated with brain network community structure, but the direction of the relationship between CS and the brain remains unclear. METHODS: We evaluated whether baseline binocular CS predicts 30-month functional brain network organization in 172 community-dwelling older adults (mean age 76.4 ± 4.8 years, 56.4% female, 11.6% non-White/Hispanic) that underwent functional MRI at rest and during a motor imagery task. We constructed separate distance regression models for each of the 8 subnetworks covering the entire brain, while controlling for the baseline brain networks, sex, and the number of volumes removed during motion scrubbing from head motion in the scanner. RESULTS: Worse baseline CS predicted lower community structure integrity at 30 months in the visual network (β = 0.0115; p < .0001), dorsal attention network (β = 0.0075; p = .0089), and default mode network both at rest (β = 0.0173; p < .0001) and during the motor imagery task (default mode network, β = 0.0103; p = .0002). No other networks showed significant associations. The dorsal attention network did not have a relationship with CS at baseline but was significant at 30 months. Similar findings were observed in models that additionally controlled for baseline Montreal Cognitive Assessment and change in Montreal Cognitive Assessment score over 30 months. CONCLUSIONS: Poor CS may identify a subset of older adults at risk of future decrements in brain circuits important for vision, cognitive, and mobility functions. Future studies should explore if improving CS increases functional brain health.