Effects of the unilateral dynamic handgrip on resting cortical activity levels: A replication and extension

Arash Mirifar, Fernando Cross-Villasana, Jürgen Beckmann, Felix Ehrlenspiel

Research output: Contribution to journalArticlepeer-review

4 Scopus citations

Abstract

Previous studies have linked unilateral hand contractions to subsequent changes in hemispheric asymmetric activity, as reflected in the electroencephalographic alpha (8–12 Hz) range in each hemisphere. However, debate continues regarding the state of asymmetry induced by unilateral contractions. We have previously found a bilateral enhancement of alpha amplitude that occurs after contractions, reflecting cortical downregulation instead of changes in asymmetric activity. To corroborate our observations, we examined the effects of 45 s of unilateral dynamic handgrip contractions on subsequent resting alpha activity. Twenty-two right-handed participants were recruited (M = 25 years, 17 female). The study used a within-subjects design consisting of a pre- and post-test (2 min resting; eyes open) for the intervention (dynamic handgrip; at a self-determined pace of approximately twice a second for 45 s for each hand). Following the handgrip task, an increase in alpha amplitude above the baseline was observed over the entire cortex, which was greater after left-hand squeezing. This observation confirms our previous findings and we have extended them by adding more electrodes to gain further insights into the handgrip exercise as an external brain stimulator. Moreover, we grouped electrodes according to scalp regions to facilitate the visualization of the effects on the frequency spectrum. Our findings can be used to develop targeted interventions aimed at modifying behavioral outcomes affected by alpha activity.

Original languageEnglish
Pages (from-to)40-48
Number of pages9
JournalInternational Journal of Psychophysiology
Volume156
DOIs
StatePublished - Oct 2020
Externally publishedYes

Keywords

  • Alpha activity
  • Brain activity
  • Handgrip
  • Muscle contractions

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