After-effects of 10 Hz tACS over the prefrontal cortex on phonological word decisions

Introduction Previous work in the language domain has shown that 10 Hz rTMS of the left or right posterior inferior frontal gyrus (pIFG) in the prefrontal cortex impaired phonological decision-making, arguing for a causal contribution of the bilateral pIFG to phonological processing. However, the neurophysiological correlates of these effects are unclear. The present study addressed the question whether neural activity in the prefrontal cortex could be modulated by 10 Hz tACS and how this would affect phonological decisions. Methods In three sessions, 24 healthy participants received tACS at 10 Hz or 16.18 Hz (control frequency) or sham stimulation over the bilateral prefrontal cortex before task processing. Resting state EEG was recorded before and after tACS. We also recorded EEG during task processing. Results Relative to sham stimulation, 10 Hz tACS significantly facilitated phonological response speed. This effect was task-specific as tACS did not affect a simple control task. Moreover, 10 Hz tACS significantly increased theta power during phonological decisions. The individual increase in theta power was positively correlated with the behavioral facilitation after 10 Hz tACS. Conclusion Our results show a facilitation of phonological decisions after 10 Hz tACS over the bilateral prefrontal cortex. This might indicate that 10 Hz tACS increased task-related activity in the stimulated area to a level that was optimal for phonological performance. The significant correlation with the individual increase in theta power suggests that the behavioral facilitation might be related to increased theta power during language processing

No effects of prefrontal multichannel tACS at individual alpha frequency on phonological decisions

Objective Alpha oscillations are linked to inhibitory capabilities in higher cognitive processing. Transcranial alternating current stimulation (tACS) at 10 Hz can enhance alpha oscillations and modulate behaviour. One possibility to increase the efficacy of tACS may be stimulating at the individual alpha frequency (IAF). The present work addresses this issue (among others) to increase the current understanding of the functional role of alpha oscillations in higher cognitive tasks. Methods Twenty-two healthy and 13 dyslexic participants performed two word decision tasks while receiving IAF-tACS over the left prefrontal cortex. Resting EEG was recorded to detect electrophysiological changes. Cortical excitability was assessed with TMS. Results Dyslexic participants performed worse in the phonological task. However, no significant tACS effects were found. Interestingly, higher cortical excitability was correlated with faster responses in healthy controls. In dyslexics this association significantly differed in the phonological task. Conclusion The non-significant modulation by tACS might be explained by methodological limitations. Alternatively, it may indicate that alpha oscillations do not play a functional role in phonological decisions. The findings on cortical excitability expands the existing literature and may reflect the specific phonological deficit in dyslexics. Significance Our critical discussion of these null findings expands the systematic knowledge on alpha-tACS for future studies