# Gait speed and cognitive performance in older adult women: the Study of Women’s Health Across the Nation

**Authors:** Jillian Baker, Lauren MacConnachie, Alexis Reeves, Michelle Hood, Kelley Pettee Gabriel, Bradley Appelhans, Carol Derby, Carrie Karvonen-Gutierrez

PMC · DOI: 10.1093/geroni/igaf122.117 · Innovation in Aging · 2025-12-31

## TL;DR

This study finds that faster walking speed in older women is linked to better future thinking speed, but not the other way around.

## Contribution

The study provides longitudinal evidence that gait speed predicts future processing speed, but not vice versa, in older women.

## Key findings

- Faster gait speed at V13 predicted better processing speed at V15 (β = 4.19).
- Processing speed at V13 did not significantly predict gait speed at V15.
- No significant associations were found between gait speed and working or verbal memory.

## Abstract

Cross-sectional studies show a bi-directional association between gait speed and cognitive function; longitudinal studies are needed to determine the true causal directionality. However, longitudinal studies, particularly of older adults, are prone to selection bias due to differential loss to follow-up. This analysis leverages longitudinal data from the Study of Women’s Health Across the Nation to explore relationships between gait speed and cognitive function, accounting for meaningful loss-to-follow-up. We hypothesize that gait speed predicts cognitive functioning and vice-versa. SWAN is a multi-ethnic, community-based cohort of women followed through menopause and into older adulthood. At study visits in 2012-13 (V13) and 2015-16 (V15), 1,258 participants completed: a four-meter timed walk to quantify gait speed and tests of working memory, processing speed, and verbal memory. Linear regressions predicted V15 cognitive test scores from V13 gait speed and vice-versa. Inverse probability weights for missingness due to death, stroke, poor physical function, and other missingness adjusted for differential loss-to-follow-up from baseline. In models including weights to account for differential loss-to-follow-up and adjusting for race and ethnicity, education, age, and financial strain, faster gait speeds at V13 were associated with better processing speed at V15 (β = 4.19,95%CI:1.69,6.70) but processing speed at V13 was not statistically significantly associated with gait speed at V15 (β = 0.0010,95%CI:-0.0002,0.0022). No statistically significant associations were observed between gait speed and working or verbal memory. These results suggest the relationship between gait speed and cognitive function is not bi-directional, but that gait speed may have an effect on future processing speed and not the reverse.

---
Source: https://tomesphere.com/paper/PMC12760278