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Changes in Cortical Activation by Transcranial Magnetic Stimulation Due to Coil Rotation Are Not Attributable to Cranial Muscle Activation. | LitMetric

AI Article Synopsis

  • The study investigates the impact of coil rotation on TMS-EEG signals, aiming to reduce the interference from cranial muscle activation while measuring brain dynamics.
  • By comparing data from two different conditions (optimal coil rotation vs. minimized muscle activation), the researchers calculated various metrics (TEPs, TRSP, ITPC) using different preprocessing techniques.
  • Results indicate that TMS-EEG signals were significantly larger with optimal coil rotation, but also showed lower similarity than anticipated, suggesting that coil adjustments should be carefully considered based on the study's objectives.

Article Abstract

Transcranial magnetic stimulation coupled with electroencephalography (TMS-EEG) allows for the study of brain dynamics in health and disease. Cranial muscle activation can decrease the interpretability of TMS-EEG signals by masking genuine EEG responses and increasing the reliance on preprocessing methods but can be at least partly prevented by coil rotation coupled with the online monitoring of signals; however, the extent to which changing coil rotation may affect TMS-EEG signals is not fully understood. Our objective was to compare TMS-EEG data obtained with an optimal coil rotation to induce motor evoked potentials (M1) while rotating the coil to minimize cranial muscle activation (M1). TMS-evoked potentials (TEPs), TMS-related spectral perturbation (TRSP), and intertrial phase clustering (ITPC) were calculated in both conditions using two different preprocessing pipelines based on independent component analysis (ICA) or signal-space projection with source-informed reconstruction (SSP-SIR). Comparisons were performed with cluster-based correction. The concordance correlation coefficient was computed to measure the similarity between M1 and M1 TMS-EEG signals. TEPs, TRSP, and ITPC were significantly larger in M1 than in M1 conditions; a lower CCC than expected was also found. These results were similar across the preprocessing pipelines. While rotating the coil may be advantageous to reduce cranial muscle activation, it may result in changes in TMS-EEG signals; therefore, this solution should be tailored to the specific experimental context.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11048461PMC
http://dx.doi.org/10.3390/brainsci14040332DOI Listing

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