Frontiers in Human Neuroscience (Jul 2024)

Towards optimized methodological parameters for maximizing the behavioral effects of transcranial direct current stimulation

  • Tyler Santander,
  • Tyler Santander,
  • Sara Leslie,
  • Luna J. Li,
  • Henri E. Skinner,
  • Jessica M. Simonson,
  • Jessica M. Simonson,
  • Patrick Sweeney,
  • Kaitlyn P. Deen,
  • Michael B. Miller,
  • Michael B. Miller,
  • Tad T. Brunye,
  • Tad T. Brunye

DOI
https://doi.org/10.3389/fnhum.2024.1305446
Journal volume & issue
Vol. 18

Abstract

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IntroductionTranscranial direct current stimulation (tDCS) administers low-intensity direct current electrical stimulation to brain regions via electrodes arranged on the surface of the scalp. The core promise of tDCS is its ability to modulate brain activity and affect performance on diverse cognitive functions (affording causal inferences regarding regional brain activity and behavior), but the optimal methodological parameters for maximizing behavioral effects remain to be elucidated. Here we sought to examine the effects of 10 stimulation and experimental design factors across a series of five cognitive domains: motor performance, visual search, working memory, vigilance, and response inhibition. The objective was to identify a set of optimal parameter settings that consistently and reliably maximized the behavioral effects of tDCS within each cognitive domain.MethodsWe surveyed tDCS effects on these various cognitive functions in healthy young adults, ultimately resulting in 721 effects across 106 published reports. Hierarchical Bayesian meta-regression models were fit to characterize how (and to what extent) these design parameters differentially predict the likelihood of positive/negative behavioral outcomes.ResultsConsistent with many previous meta-analyses of tDCS effects, extensive variability was observed across tasks and measured outcomes. Consequently, most design parameters did not confer consistent advantages or disadvantages to behavioral effects—a domain-general model suggested an advantage to using within-subjects designs (versus between-subjects) and the tendency for cathodal stimulation (relative to anodal stimulation) to produce reduced behavioral effects, but these associations were scarcely-evident in domain-specific models.DiscussionThese findings highlight the urgent need for tDCS studies to more systematically probe the effects of these parameters on behavior to fulfill the promise of identifying causal links between brain function and cognition.

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