Verbal fluency dual-tasks show greater age-related cognitive-motor interference: a meta-analysis of walking performance.

Authors

Kenneth Harrison, Keven Santa-Maria Guzman, Brandon M Peoples, Silvia Campos-Vargas, Bria R Smith, Damaris C Cifuentes, Grace Greer, Kristina A Neely, Jaimie A Roper

Published in

Experimental brain research. Volume 243. Issue 11. Pages 219. Oct 04, 2025. Epub Oct 04, 2025.

Abstract

A substantial body of literature has examined gait during cognitive dual-tasking in younger and older adults. However, it remains unclear how, and to what extent, different cognitive tasks uniquely influence gait. This meta-analysis quantified age-related differences in gait speed during dual-task walking. Importantly, we examined cognitive task as a potential moderator. We searched Web of Science for studies comparing young and older adults during single-task and dual-task walking conditions. Twenty-two studies met the inclusion criteria, representing 544 young adults (mean age range: 20-31 years) and 511 older adults (mean age range: 62-85 years). Studies employed primarily serial subtraction tasks (n = 12) and verbal fluency tasks (n = 8); however, one study used digit vigilance, and another used a texting paradigm during walking. Random-effects meta-analysis using standardized mean differences (Hedges' g) revealed a significant overall effect (g = -0.2612, 95% CI [-0.4914, -0.0310], p = 0.0261), indicating greater dual-task costs in older adults compared to younger adults with a small to medium effect size. Substantial heterogeneity was observed across studies (I² = 66.53%, p < 0.0001). Subgroup analysis demonstrated that verbal fluency tasks produced a larger and statistically significant age-related difference (g = -0.4744, 95% CI [-0.8712, -0.0777], p = 0.0191), while serial subtraction tasks showed smaller, non-significant effects (g = -0.1412, p = 0.3474). These findings suggest that verbal fluency creates unique neural resource competition in older adults, involving prefrontal, cerebellar, and basal ganglia circuits that support both language production and gait control. The task-specific vulnerability to verbal fluency, and not serial subtraction, provides evidence for age-related changes in cognitive-motor integration. Rehabilitation strategies targeting executive functions may be effective for maintaining mobility in aging populations.

PMID:
41045320
Bibliographic data and abstract were imported from PubMed on 04 Oct 2025.

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