Cortical mechanisms underlying variability in intermittent theta-burst stimulation-induced plasticity: A TMS-EEG study

Objective: To test the hypothesis that intermittent theta burst stimulation (iTBS) variability depends on the ability to engage specific neurons in the primary motor cortex (M1). Methods: In a sham-controlled interventional study on 31 healthy volunteers, we used concomitant tran-scranial magnetic stimulation (TMS) and electroencephalography (EEG). We compared baseline motor evoked potentials (MEPs), M1 iTBS-evoked EEG oscillations, and resting-state EEG (rsEEG) between sub-jects who did and did not show MEP facilitation following iTBS. We also investigated whether baseline MEP and iTBS-evoked EEG oscillations could explain inter and intraindividual variability in iTBS afteref-fects. Results: The facilitation group had smaller baseline MEPs than the no-facilitation group and showed more iTBS-evoked EEG oscillation synchronization in the alpha and beta frequency bands. Resting-state EEG power was similar between groups and iTBS had a similar non-significant effect on rsEEG in both groups. Baseline MEP amplitude and beta iTBS-evoked EEG oscillation power explained both inter and intraindividual variability in MEP modulation following iTBS. Conclusions: The results show that variability in iTBS-associated plasticity depends on baseline corti-cospinal excitability and on the ability of iTBS to engage M1 beta oscillations. Significance: These observations can be used to optimize iTBS investigational and therapeutic applications. (c) 2021 International Federation of Clinical Neurophysiology. Published by Elsevier B.V. All rights reserved.