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Experimental suppression of transcranial magnetic stimulation‐electroencephalography sensory potentials

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The sensory experience of transcranial magnetic stimulation (TMS) evokes cortical responses measured in electroencephalography (EEG) that confound interpretation of TMS‐evoked potentials (TEPs). Methods for sensory masking have been proposed to… Click to show full abstract

The sensory experience of transcranial magnetic stimulation (TMS) evokes cortical responses measured in electroencephalography (EEG) that confound interpretation of TMS‐evoked potentials (TEPs). Methods for sensory masking have been proposed to minimize sensory contributions to the TEP, but the most effective combination for suprathreshold TMS to dorsolateral prefrontal cortex (dlPFC) is unknown. We applied sensory suppression techniques and quantified electrophysiology and perception from suprathreshold dlPFC TMS to identify the best combination to minimize the sensory TEP. In 21 healthy adults, we applied single pulse TMS at 120% resting motor threshold (rMT) to the left dlPFC and compared EEG vertex N100‐P200 and perception. Conditions included three protocols: No masking (no auditory masking, no foam, and jittered interstimulus interval [ISI]), Standard masking (auditory noise, foam, and jittered ISI), and our ATTENUATE protocol (auditory noise, foam, over‐the‐ear protection, and unjittered ISI). ATTENUATE reduced vertex N100‐P200 by 56%, “click” loudness perception by 50%, and scalp sensation by 36%. We show that sensory prediction, induced with predictable ISI, has a suppressive effect on vertex N100‐P200, and that combining standard suppression protocols with sensory prediction provides the best N100‐P200 suppression. ATTENUATE was more effective than Standard masking, which only reduced vertex N100‐P200 by 22%, loudness by 27%, and scalp sensation by 24%. We introduce a sensory suppression protocol superior to Standard masking and demonstrate that using an unjittered ISI can contribute to minimizing sensory confounds. ATTENUATE provides superior sensory suppression to increase TEP signal‐to‐noise and contributes to a growing understanding of TMS‐EEG sensory neuroscience.

Keywords: n100 p200; magnetic stimulation; vertex n100; suppression; transcranial magnetic

Journal Title: Human Brain Mapping
Year Published: 2022

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