Event-related brain potentials reveal enhancing and compensatory mechanisms during dual neurocognitive and cycling tasks

Hsiao Lung Chan, Yuan Ouyang, Cheng Chou Lai, Ming An Lin, Ya Ju Chang, Szi Wen Chen, Jiunn Woei Liaw, Ling Fu Meng*

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

Abstract

Background: Various neurocognitive tests have shown that cycling enhances cognitive performance compared to resting. Event-related potentials (ERPs) elicited by an oddball or flanker task have clarified the impact of dual-task cycling on perception and attention. In this study, we investigate the effect of cycling on cognitive recruitment during tasks that involve not only stimulus identification but also semantic processing and memory retention. Methods: We recruited 24 healthy young adults (12 males, 12 females; mean age = 22.71, SD = 1.97 years) to perform three neurocognitive tasks (namely color-word matching, arithmetic calculation, and spatial working memory) at rest and while cycling, employing a within-subject design with rest/cycling counterbalancing. Results: The reaction time on the spatial working memory task was faster while cycling than at rest at a level approaching statistical significance. The commission error percentage on the color–word matching task was significantly lower at rest than while cycling. Dual-task cycling while responding to neurocognitive tests elicited the following results: (a) a greater ERP P1 amplitude, delayed P3a latency, less negative N4, and less positivity in the late slow wave (LSW) during color-word matching; (b) a greater P1 amplitude during memory encoding and smaller posterior negativity during memory retention on the spatial working memory task; and (c) a smaller P3 amplitude, followed by a more negative N4 and less LSW positivity during arithmetic calculation. Conclusion: The encoding of color-word and spatial information while cycling may have resulted in compensatory visual processing and attention allocation to cope with the additional cycling task load. The dual-task cycling and cognitive performance reduced the demands of semantic processing for color-word matching and the cognitive load associated with temporarily suspending spatial information. While dual-tasking may have required enhanced semantic processing to initiate mental arithmetic, a compensatory decrement was noted during arithmetic calculation. These significant neurocognitive findings demonstrate the effect of cycling on semantic-demand and memory retention-demand tasks.

Original languageEnglish
Article number133
Pages (from-to)133
JournalBMC Sports Science, Medicine and Rehabilitation
Volume15
Issue number1
DOIs
StatePublished - 17 10 2023

Bibliographical note

© 2023. BioMed Central Ltd., part of Springer Nature.

Keywords

  • Arithmetic calculation
  • Color–word matching
  • Cycling
  • Dual tasks
  • Electroencephalogram
  • Event-related brain potential
  • Spatial working memory

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