Intensity- and timing-dependent modulation of motion perception with transcranial magnetic stimulation of visual cortex

Despite the widespread use of transcranial magnetic stimulation (TMS) in research and clinical care, the dose–response relations and neurophysiological correlates of modulatory effects remain relatively unexplored. To fill this gap, we studied modulation of visual processing as a function of TMS par...

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Veröffentlicht in:	Neuropsychologia 2020-10, Vol.147, p.107581-107581, Article 107581
Hauptverfasser:	Gamboa Arana, Olga Lucia, Palmer, Hannah, Dannhauer, Moritz, Hile, Connor, Liu, Sicong, Hamdan, Rena, Brito, Alexandra, Cabeza, Roberto, Davis, Simon W., Peterchev, Angel V., Sommer, Marc A., Appelbaum, Lawrence G.
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Sprache:	eng
Schlagworte:	Motion sensitive cortex TMS TMS Evoked potential Transcranial magnetic stimulation Visual evoked potential Visual motion
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creator	Gamboa Arana, Olga Lucia Palmer, Hannah Dannhauer, Moritz Hile, Connor Liu, Sicong Hamdan, Rena Brito, Alexandra Cabeza, Roberto Davis, Simon W. Peterchev, Angel V. Sommer, Marc A. Appelbaum, Lawrence G.
description	Despite the widespread use of transcranial magnetic stimulation (TMS) in research and clinical care, the dose–response relations and neurophysiological correlates of modulatory effects remain relatively unexplored. To fill this gap, we studied modulation of visual processing as a function of TMS parameters. Our approach combined electroencephalography (EEG) with application of single pulse TMS to visual cortex as participants performed a motion perception task. During each participants’ first visit, motion coherence thresholds, 64-channel visual evoked potentials (VEPs), and TMS resting motor thresholds (RMT) were measured. In second and third visits, single pulse TMS was delivered at one of two latencies, either 30 ms before the onset of motion or at the onset latency of the N2 VEP component derived from the first session. TMS was delivered at 0%, 80%, 100%, or 120% of RMT over the site of N2 peak activity, or at 120% over vertex. Behavioral results demonstrated a significant main effect of TMS timing on accuracy, with better performance when TMS was applied at the N2-Onset timing versus Pre-Onset, as well as a significant interaction, indicating that 80% intensity produced higher accuracy than other conditions at the N2-Onset. TMS effects on the P3 VEP showed reduced amplitudes in the 80% Pre-Onset condition, an increase for the 120% N2-Onset condition, and monotonic amplitude scaling with stimulation intensity. The N2 component was not affected by TMS. These findings reveal the influence of TMS intensity and timing on visual perception and electrophysiological responses, with optimal facilitation at stimulation intensities below RMT. •Studied modulation of visual perception and EEG due to single-pulse TMS.•Delivered spTMS at two latencies and five intensities to either visual cortex or vertex.•Found a significant effect of timing and an interaction with intensity on accuracy.•P3 VEP showed monotonic amplitude scaling with stimulation intensity.•Findings generally indicate facilitation at stimulation intensities below RMT.
doi_str_mv	10.1016/j.neuropsychologia.2020.107581
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Behavioral results demonstrated a significant main effect of TMS timing on accuracy, with better performance when TMS was applied at the N2-Onset timing versus Pre-Onset, as well as a significant interaction, indicating that 80% intensity produced higher accuracy than other conditions at the N2-Onset. TMS effects on the P3 VEP showed reduced amplitudes in the 80% Pre-Onset condition, an increase for the 120% N2-Onset condition, and monotonic amplitude scaling with stimulation intensity. The N2 component was not affected by TMS. These findings reveal the influence of TMS intensity and timing on visual perception and electrophysiological responses, with optimal facilitation at stimulation intensities below RMT. •Studied modulation of visual perception and EEG due to single-pulse TMS.•Delivered spTMS at two latencies and five intensities to either visual cortex or vertex.•Found a significant effect of timing and an interaction with intensity on accuracy.•P3 VEP showed monotonic amplitude scaling with stimulation intensity.•Findings generally indicate facilitation at stimulation intensities below RMT.</description><identifier>ISSN: 0028-3932</identifier><identifier>EISSN: 1873-3514</identifier><identifier>DOI: 10.1016/j.neuropsychologia.2020.107581</identifier><identifier>PMID: 32795456</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Motion sensitive cortex ; TMS ; TMS Evoked potential ; Transcranial magnetic stimulation ; Visual evoked potential ; Visual motion</subject><ispartof>Neuropsychologia, 2020-10, Vol.147, p.107581-107581, Article 107581</ispartof><rights>2020 Elsevier Ltd</rights><rights>Copyright © 2020 Elsevier Ltd. 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Behavioral results demonstrated a significant main effect of TMS timing on accuracy, with better performance when TMS was applied at the N2-Onset timing versus Pre-Onset, as well as a significant interaction, indicating that 80% intensity produced higher accuracy than other conditions at the N2-Onset. TMS effects on the P3 VEP showed reduced amplitudes in the 80% Pre-Onset condition, an increase for the 120% N2-Onset condition, and monotonic amplitude scaling with stimulation intensity. The N2 component was not affected by TMS. These findings reveal the influence of TMS intensity and timing on visual perception and electrophysiological responses, with optimal facilitation at stimulation intensities below RMT. •Studied modulation of visual perception and EEG due to single-pulse TMS.•Delivered spTMS at two latencies and five intensities to either visual cortex or vertex.•Found a significant effect of timing and an interaction with intensity on accuracy.•P3 VEP showed monotonic amplitude scaling with stimulation intensity.•Findings generally indicate facilitation at stimulation intensities below RMT.</description><subject>Motion sensitive cortex</subject><subject>TMS</subject><subject>TMS Evoked potential</subject><subject>Transcranial magnetic stimulation</subject><subject>Visual evoked potential</subject><subject>Visual motion</subject><issn>0028-3932</issn><issn>1873-3514</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><recordid>eNqNUcFu1DAQtRCILoVfQDkhLlnGdrxOLkioAlqpEhc4W4492fUqsYPtbNu_x9stpXDiMp7Rm3lvxo-QdxTWFOjmw37tcYlhTndmF8awdXrNgB1BKVr6jKxoK3nNBW2ekxUAa2vecXZGXqW0B4BGsPYlOeNMdqIRmxW5ufIZfXL5rq60t1V2k_Pb2uKM3qLP1RTsMursgq_CUKr7bMZocL5Pb1zeVTlqn0wJTo_VpLceszNVKmRPZg8uLQU2IWa8fU1eDHpM-ObhPSc_vnz-fnFZX3_7enXx6bo2AniuTY9cQwlcWGBMcmuF7DW00AuEAXvGN51puw1tLNNGDnQQ1vQ9SCm6jgl-Tj6eeOeln9CaclLUo5qjm3S8U0E79Tfi3U5tw0FJIRpGu0Lw_oEghp8LpqwmlwyOo_YYlqRYw5tGgoT2j5aJIaWIw6MMBXV0T-3Vv-6po3vq5F4hePt02cfx33aVhstTA5YvOziMKhmH3qB1EU1WNrj_1foF1AO7kA</recordid><startdate>20201001</startdate><enddate>20201001</enddate><creator>Gamboa Arana, Olga Lucia</creator><creator>Palmer, Hannah</creator><creator>Dannhauer, Moritz</creator><creator>Hile, Connor</creator><creator>Liu, Sicong</creator><creator>Hamdan, Rena</creator><creator>Brito, Alexandra</creator><creator>Cabeza, Roberto</creator><creator>Davis, Simon W.</creator><creator>Peterchev, Angel V.</creator><creator>Sommer, Marc A.</creator><creator>Appelbaum, Lawrence G.</creator><general>Elsevier Ltd</general><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>5PM</scope></search><sort><creationdate>20201001</creationdate><title>Intensity- and timing-dependent modulation of motion perception with transcranial magnetic stimulation of visual cortex</title><author>Gamboa Arana, Olga Lucia ; 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Behavioral results demonstrated a significant main effect of TMS timing on accuracy, with better performance when TMS was applied at the N2-Onset timing versus Pre-Onset, as well as a significant interaction, indicating that 80% intensity produced higher accuracy than other conditions at the N2-Onset. TMS effects on the P3 VEP showed reduced amplitudes in the 80% Pre-Onset condition, an increase for the 120% N2-Onset condition, and monotonic amplitude scaling with stimulation intensity. The N2 component was not affected by TMS. These findings reveal the influence of TMS intensity and timing on visual perception and electrophysiological responses, with optimal facilitation at stimulation intensities below RMT. •Studied modulation of visual perception and EEG due to single-pulse TMS.•Delivered spTMS at two latencies and five intensities to either visual cortex or vertex.•Found a significant effect of timing and an interaction with intensity on accuracy.•P3 VEP showed monotonic amplitude scaling with stimulation intensity.•Findings generally indicate facilitation at stimulation intensities below RMT.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>32795456</pmid><doi>10.1016/j.neuropsychologia.2020.107581</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	Motion sensitive cortex TMS TMS Evoked potential Transcranial magnetic stimulation Visual evoked potential Visual motion
title	Intensity- and timing-dependent modulation of motion perception with transcranial magnetic stimulation of visual cortex
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