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Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models

The cortical sources of event-related-potentials (ERP) using realistic source models were examined in a prosaccade and antisaccade procedure. College-age participants were presented with a preparatory interval and a target that indicated the direction of the eye movement that was to be made. In some...

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Autor principal: Richards, John E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3698448/
https://www.ncbi.nlm.nih.gov/pubmed/23847476
http://dx.doi.org/10.3389/fnsys.2013.00027
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author Richards, John E.
author_facet Richards, John E.
author_sort Richards, John E.
collection PubMed
description The cortical sources of event-related-potentials (ERP) using realistic source models were examined in a prosaccade and antisaccade procedure. College-age participants were presented with a preparatory interval and a target that indicated the direction of the eye movement that was to be made. In some blocks a cue was given in the peripheral location where the target was to be presented and in other blocks no cue was given. In Experiment 1 the prosaccade and antisaccade trials were presented randomly within a block; in Experiment 2 procedures were compared in which either prosaccade and antisaccade trials were mixed in the same block, or trials were presented in separate blocks with only one type of eye movement. There was a central negative slow wave occurring prior to the target, a slow positive wave over the parietal scalp prior to the saccade, and a parietal spike potential immediately prior to saccade onset. Cortical source analysis of these ERP components showed a common set of sources in the ventral anterior cingulate and orbital frontal gyrus for the presaccadic positive slow wave and the spike potential. In Experiment 2 the same cued- and non-cued blocks were used, but prosaccade and antisaccade trials were presented in separate blocks. This resulted in a smaller difference in reaction time between prosaccade and antisaccade trials. Unlike the first experiment, the central negative slow wave was larger on antisaccade than on prosaccade trials, and this effect on the ERP component had its cortical source primarily in the parietal and mid-central cortical areas contralateral to the direction of the eye movement. These results suggest that blocked prosaccade and antisaccade trials results in preparatory or set effects that decreases reaction time, eliminates some cueing effects, and is based on contralateral parietal-central brain areas.
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spelling pubmed-36984482013-07-11 Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models Richards, John E. Front Syst Neurosci Neuroscience The cortical sources of event-related-potentials (ERP) using realistic source models were examined in a prosaccade and antisaccade procedure. College-age participants were presented with a preparatory interval and a target that indicated the direction of the eye movement that was to be made. In some blocks a cue was given in the peripheral location where the target was to be presented and in other blocks no cue was given. In Experiment 1 the prosaccade and antisaccade trials were presented randomly within a block; in Experiment 2 procedures were compared in which either prosaccade and antisaccade trials were mixed in the same block, or trials were presented in separate blocks with only one type of eye movement. There was a central negative slow wave occurring prior to the target, a slow positive wave over the parietal scalp prior to the saccade, and a parietal spike potential immediately prior to saccade onset. Cortical source analysis of these ERP components showed a common set of sources in the ventral anterior cingulate and orbital frontal gyrus for the presaccadic positive slow wave and the spike potential. In Experiment 2 the same cued- and non-cued blocks were used, but prosaccade and antisaccade trials were presented in separate blocks. This resulted in a smaller difference in reaction time between prosaccade and antisaccade trials. Unlike the first experiment, the central negative slow wave was larger on antisaccade than on prosaccade trials, and this effect on the ERP component had its cortical source primarily in the parietal and mid-central cortical areas contralateral to the direction of the eye movement. These results suggest that blocked prosaccade and antisaccade trials results in preparatory or set effects that decreases reaction time, eliminates some cueing effects, and is based on contralateral parietal-central brain areas. Frontiers Media S.A. 2013-07-02 /pmc/articles/PMC3698448/ /pubmed/23847476 http://dx.doi.org/10.3389/fnsys.2013.00027 Text en Copyright © 2013 Richards. http://creativecommons.org/licenses/by/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in other forums, provided the original authors and source are credited and subject to any copyright notices concerning any third-party graphics etc.
spellingShingle Neuroscience
Richards, John E.
Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models
title Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models
title_full Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models
title_fullStr Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models
title_full_unstemmed Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models
title_short Cortical sources of ERP in prosaccade and antisaccade eye movements using realistic source models
title_sort cortical sources of erp in prosaccade and antisaccade eye movements using realistic source models
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3698448/
https://www.ncbi.nlm.nih.gov/pubmed/23847476
http://dx.doi.org/10.3389/fnsys.2013.00027
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