Tuning the brakes - Modulatory role of transcranial random noise stimulation on inhibition.
Flexibly learning and adapting to external environments is integral to cognitive flexibility. This includes scenarios requiring the capability to withhold our actions. In this study, we used transcranial random stimulation, a form of non-invasive brain stimulation and showed improvement in inhibition-related behaviours and associated neural activity in terms of spectral power and intermittent bursts.
Similar content
Driving theta-gamma oscillations modulates extrasynaptic GABAergic tone: a tACS-TMS study
Dual-site beta transcranial alternating current stimulation during a bimanual coordination task modulates functional connectivity between motor areas
Closed-loop beta stimulation enhances beta activity and motor behaviour
Modulation of motor cortical theta and gamma oscillations using phase-targeted, closed-loop optogenetic stimulation of local excitatory and inhibitory neurons
Citation
DOI
Free Full Text at Europe PMC
PMC7616112Downloads
Tuning the brakes - Modulatory role of transcranial random noise stimulation on inhibition.
Flexibly learning and adapting to external environments is integral to cognitive flexibility. This includes scenarios requiring the capability to withhold our actions. In this study, we used transcranial random stimulation, a form of non-invasive brain stimulation and showed improvement in inhibition-related behaviours and associated neural activity in terms of spectral power and intermittent bursts.
Citation
DOI
Free Full Text at Europe PMC
PMC7616112Downloads