Bilateral median nerve stimulation and High-Frequency Oscillations unveil interhemispheric inhibition of primary sensory cortex

•The interhemispheric connection between primary somatosensory areas can be probed by using bilateral median nerve stimulation.•N20 potentials and the late component of the high-frequency oscillations vary significantly across interstimulus intervals.•Findings suggest interhemispheric interaction be...

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Veröffentlicht in:	Clinical neurophysiology 2024-09, Vol.165, p.154-165
Hauptverfasser:	Norata, Davide, Musumeci, Gabriella, Todisco, Antonio, Cruciani, Alessandro, Motolese, Francesco, Capone, Fioravante, Lattanzi, Simona, Ranieri, Federico, Di Lazzaro, Vincenzo, Pilato, Fabio
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Schlagworte:	Bilateral median nerve stimulation High-frequency oscillations Interhemispheric interactions Primary somatosensory cortex Somatosensory evoked potentials
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creator	Norata, Davide Musumeci, Gabriella Todisco, Antonio Cruciani, Alessandro Motolese, Francesco Capone, Fioravante Lattanzi, Simona Ranieri, Federico Di Lazzaro, Vincenzo Pilato, Fabio
description	•The interhemispheric connection between primary somatosensory areas can be probed by using bilateral median nerve stimulation.•N20 potentials and the late component of the high-frequency oscillations vary significantly across interstimulus intervals.•Findings suggest interhemispheric interaction between the primary somatosensory cortices, through corpus callosum. This study aimed at investigating the effect of median nerve stimulation on ipsilateral cortical potentials evoked by contralateral median nerve electrical stimulation. We recorded somatosensory-evoked potentials (SEPs) from the left parietal cortex in 15 right-handed, healthy subjects. We administered bilateral median nerve stimulation, with the ipsilateral stimulation preceding the stimulation on the contralateral by intervals of 5, 10, 20, or 40 ms. We adjusted these intervals based on each individual’s N20 latency. As a measure of S1 excitability, the amplitude of the N20 and the area of the High Frequency Oscillation (HFO) burst were analyzed for each condition. The results revealed significant inhibition of N20 amplitude by ipsilateral median nerve stimulation at interstimulus intervals (ISIs) between 5 and 40 ms. Late HFO burst was suppressed at short ISIs of 5 and 10 ms, pointing to a transcallosal inhibitory effect on S1 intracortical circuits. Findings suggest interhemispheric interaction between the primary somatosensory areas, supporting the existence of transcallosal transfer of tactile information. This study provides valuable insights into the interhemispheric connections between primary sensory areas and underscore the potential role of interhemispheric interactions in somatosensory processing.
doi_str_mv	10.1016/j.clinph.2024.06.011
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This study aimed at investigating the effect of median nerve stimulation on ipsilateral cortical potentials evoked by contralateral median nerve electrical stimulation. We recorded somatosensory-evoked potentials (SEPs) from the left parietal cortex in 15 right-handed, healthy subjects. We administered bilateral median nerve stimulation, with the ipsilateral stimulation preceding the stimulation on the contralateral by intervals of 5, 10, 20, or 40 ms. We adjusted these intervals based on each individual’s N20 latency. As a measure of S1 excitability, the amplitude of the N20 and the area of the High Frequency Oscillation (HFO) burst were analyzed for each condition. The results revealed significant inhibition of N20 amplitude by ipsilateral median nerve stimulation at interstimulus intervals (ISIs) between 5 and 40 ms. Late HFO burst was suppressed at short ISIs of 5 and 10 ms, pointing to a transcallosal inhibitory effect on S1 intracortical circuits. Findings suggest interhemispheric interaction between the primary somatosensory areas, supporting the existence of transcallosal transfer of tactile information. 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This study aimed at investigating the effect of median nerve stimulation on ipsilateral cortical potentials evoked by contralateral median nerve electrical stimulation. We recorded somatosensory-evoked potentials (SEPs) from the left parietal cortex in 15 right-handed, healthy subjects. We administered bilateral median nerve stimulation, with the ipsilateral stimulation preceding the stimulation on the contralateral by intervals of 5, 10, 20, or 40 ms. We adjusted these intervals based on each individual’s N20 latency. As a measure of S1 excitability, the amplitude of the N20 and the area of the High Frequency Oscillation (HFO) burst were analyzed for each condition. The results revealed significant inhibition of N20 amplitude by ipsilateral median nerve stimulation at interstimulus intervals (ISIs) between 5 and 40 ms. Late HFO burst was suppressed at short ISIs of 5 and 10 ms, pointing to a transcallosal inhibitory effect on S1 intracortical circuits. Findings suggest interhemispheric interaction between the primary somatosensory areas, supporting the existence of transcallosal transfer of tactile information. 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subjects	Bilateral median nerve stimulation High-frequency oscillations Interhemispheric interactions Primary somatosensory cortex Somatosensory evoked potentials
title	Bilateral median nerve stimulation and High-Frequency Oscillations unveil interhemispheric inhibition of primary sensory cortex
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