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Evaluating interhemispheric connectivity during midline object recognition using EEG

Functional integration between two hemispheres is crucial for perceptual binding to occur when visual stimuli are presented in the midline of the visual field. Mima and colleagues (2001) showed using EEG that midline object recognition was associated with task-related decrease in alpha band power (a...

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Autores principales: Das, Anwesha, Mandel, Alexandra, Shitara, Hitoshi, Popa, Traian, Horovitz, Silvina G., Hallett, Mark, Thirugnanasambandam, Nivethida
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9417031/
https://www.ncbi.nlm.nih.gov/pubmed/36026515
http://dx.doi.org/10.1371/journal.pone.0270949
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author Das, Anwesha
Mandel, Alexandra
Shitara, Hitoshi
Popa, Traian
Horovitz, Silvina G.
Hallett, Mark
Thirugnanasambandam, Nivethida
author_facet Das, Anwesha
Mandel, Alexandra
Shitara, Hitoshi
Popa, Traian
Horovitz, Silvina G.
Hallett, Mark
Thirugnanasambandam, Nivethida
author_sort Das, Anwesha
collection PubMed
description Functional integration between two hemispheres is crucial for perceptual binding to occur when visual stimuli are presented in the midline of the visual field. Mima and colleagues (2001) showed using EEG that midline object recognition was associated with task-related decrease in alpha band power (alpha desynchronisation) and a transient increase in interhemispheric coherence. Our objective in the current study was to replicate the results of Mima et al. and to further evaluate interhemispheric effective connectivity during midline object recognition in source space. We recruited 11 healthy adult volunteers and recorded EEG from 64 channels while they performed a midline object recognition task. Task-related power and coherence were estimated in sensor and source spaces. Further, effective connectivity was evaluated using Granger causality. While we were able to replicate the alpha desynchronisation associated with midline object recognition, we could not replicate the coherence results of Mima et al. The data-driven approach that we employed in our study localised the source of alpha desynchronisation over the left occipito-temporal region. In the alpha band, we further observed significant increase in imaginary part of coherency between bilateral occipito-temporal regions during object recognition. Finally, Granger causality analysis between the left and right occipito-temporal regions provided an insight that even though there is bidirectional interaction, the left occipito-temporal region may be crucial for integrating the information necessary for object recognition. The significance of the current study lies in using high-density EEG and applying more appropriate and robust measures of connectivity as well as statistical analysis to validate and enhance our current knowledge on the neural basis of midline object recognition.
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spelling pubmed-94170312022-08-27 Evaluating interhemispheric connectivity during midline object recognition using EEG Das, Anwesha Mandel, Alexandra Shitara, Hitoshi Popa, Traian Horovitz, Silvina G. Hallett, Mark Thirugnanasambandam, Nivethida PLoS One Research Article Functional integration between two hemispheres is crucial for perceptual binding to occur when visual stimuli are presented in the midline of the visual field. Mima and colleagues (2001) showed using EEG that midline object recognition was associated with task-related decrease in alpha band power (alpha desynchronisation) and a transient increase in interhemispheric coherence. Our objective in the current study was to replicate the results of Mima et al. and to further evaluate interhemispheric effective connectivity during midline object recognition in source space. We recruited 11 healthy adult volunteers and recorded EEG from 64 channels while they performed a midline object recognition task. Task-related power and coherence were estimated in sensor and source spaces. Further, effective connectivity was evaluated using Granger causality. While we were able to replicate the alpha desynchronisation associated with midline object recognition, we could not replicate the coherence results of Mima et al. The data-driven approach that we employed in our study localised the source of alpha desynchronisation over the left occipito-temporal region. In the alpha band, we further observed significant increase in imaginary part of coherency between bilateral occipito-temporal regions during object recognition. Finally, Granger causality analysis between the left and right occipito-temporal regions provided an insight that even though there is bidirectional interaction, the left occipito-temporal region may be crucial for integrating the information necessary for object recognition. The significance of the current study lies in using high-density EEG and applying more appropriate and robust measures of connectivity as well as statistical analysis to validate and enhance our current knowledge on the neural basis of midline object recognition. Public Library of Science 2022-08-26 /pmc/articles/PMC9417031/ /pubmed/36026515 http://dx.doi.org/10.1371/journal.pone.0270949 Text en https://creativecommons.org/publicdomain/zero/1.0/This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 (https://creativecommons.org/publicdomain/zero/1.0/) public domain dedication.
spellingShingle Research Article
Das, Anwesha
Mandel, Alexandra
Shitara, Hitoshi
Popa, Traian
Horovitz, Silvina G.
Hallett, Mark
Thirugnanasambandam, Nivethida
Evaluating interhemispheric connectivity during midline object recognition using EEG
title Evaluating interhemispheric connectivity during midline object recognition using EEG
title_full Evaluating interhemispheric connectivity during midline object recognition using EEG
title_fullStr Evaluating interhemispheric connectivity during midline object recognition using EEG
title_full_unstemmed Evaluating interhemispheric connectivity during midline object recognition using EEG
title_short Evaluating interhemispheric connectivity during midline object recognition using EEG
title_sort evaluating interhemispheric connectivity during midline object recognition using eeg
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9417031/
https://www.ncbi.nlm.nih.gov/pubmed/36026515
http://dx.doi.org/10.1371/journal.pone.0270949
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