Asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each level

The neural basis of selective attention within hierarchically organized Navon figures has been extensively studied with event related potentials (ERPs), by contrasting responses obtained when attending the global and the local echelons. The findings are inherently ambiguous because both levels are a...

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Main Authors: Jorge eIglesias-Fuster, Mitchell Joseph Valdes-Sosa, Yusniel eSantos-Rodríguez, Nelson eTrujillo-Barreto
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-01-01
Series:Frontiers in Psychology
Subjects:
ERP
Online Access:http://journal.frontiersin.org/Journal/10.3389/fpsyg.2014.01570/full
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spelling doaj-c068c152af04452b88baef5e6bc5381d2020-11-24T23:48:48ZengFrontiers Media S.A.Frontiers in Psychology1664-10782015-01-01510.3389/fpsyg.2014.0157091593Asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each levelJorge eIglesias-Fuster0Mitchell Joseph Valdes-Sosa1Yusniel eSantos-Rodríguez2Nelson eTrujillo-Barreto3Cuban Center for NeuroscienceCuban Center for NeuroscienceCuban Center for NeuroscienceCuban Center for NeuroscienceThe neural basis of selective attention within hierarchically organized Navon figures has been extensively studied with event related potentials (ERPs), by contrasting responses obtained when attending the global and the local echelons. The findings are inherently ambiguous because both levels are always presented together. Thus only a mixture of the brain responses to two levels can be observed. Here, we use a method that allows unveiling of global and local letters at distinct times, enabling estimation of separate ERPs related to each level. Two interspersed oddball streams were presented, each using letters from one level and comprised of frequent distracters and rare targets. Previous work and our Experiment 1 show that it is difficult to divide attention between two such streams of stimuli. ERP recording in Experiment 2 evinced an early selection negativity (SN, with latencies to the 50% area of about 266 ms for global distracters and 276 ms for local distracters) that was larger for attended relative to unattended distracters. The SN was larger over right posterior occipito-temporal derivations for global stimuli and over left posterior occipito-temporal derivations for local stimuli (although the latter was less strongly lateralized). A discrimination negativity (DN, accompanied by a P3b) was larger for attended targets relative to attended distracters, with latencies to the 50% area of about 316 ms for global stimuli and 301 ms for local stimuli, which presented a similar distribution for both levels over left temporo-parietal electrodes. The two negativities apparently index successive stages in the processing of a selected level within a compound figure. By resolving the ambiguity of traditional designs, our method allowed us to observe the effects of attention for each hierarchical level on its own.http://journal.frontiersin.org/Journal/10.3389/fpsyg.2014.01570/fullAttentionERPgloballocalNavon task
collection DOAJ
language English
format Article
sources DOAJ
author Jorge eIglesias-Fuster
Mitchell Joseph Valdes-Sosa
Yusniel eSantos-Rodríguez
Nelson eTrujillo-Barreto
spellingShingle Jorge eIglesias-Fuster
Mitchell Joseph Valdes-Sosa
Yusniel eSantos-Rodríguez
Nelson eTrujillo-Barreto
Asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each level
Frontiers in Psychology
Attention
ERP
global
local
Navon task
author_facet Jorge eIglesias-Fuster
Mitchell Joseph Valdes-Sosa
Yusniel eSantos-Rodríguez
Nelson eTrujillo-Barreto
author_sort Jorge eIglesias-Fuster
title Asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each level
title_short Asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each level
title_full Asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each level
title_fullStr Asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each level
title_full_unstemmed Asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each level
title_sort asynchronous presentation of global and local information reveals effects of attention on brain electrical activity specific to each level
publisher Frontiers Media S.A.
series Frontiers in Psychology
issn 1664-1078
publishDate 2015-01-01
description The neural basis of selective attention within hierarchically organized Navon figures has been extensively studied with event related potentials (ERPs), by contrasting responses obtained when attending the global and the local echelons. The findings are inherently ambiguous because both levels are always presented together. Thus only a mixture of the brain responses to two levels can be observed. Here, we use a method that allows unveiling of global and local letters at distinct times, enabling estimation of separate ERPs related to each level. Two interspersed oddball streams were presented, each using letters from one level and comprised of frequent distracters and rare targets. Previous work and our Experiment 1 show that it is difficult to divide attention between two such streams of stimuli. ERP recording in Experiment 2 evinced an early selection negativity (SN, with latencies to the 50% area of about 266 ms for global distracters and 276 ms for local distracters) that was larger for attended relative to unattended distracters. The SN was larger over right posterior occipito-temporal derivations for global stimuli and over left posterior occipito-temporal derivations for local stimuli (although the latter was less strongly lateralized). A discrimination negativity (DN, accompanied by a P3b) was larger for attended targets relative to attended distracters, with latencies to the 50% area of about 316 ms for global stimuli and 301 ms for local stimuli, which presented a similar distribution for both levels over left temporo-parietal electrodes. The two negativities apparently index successive stages in the processing of a selected level within a compound figure. By resolving the ambiguity of traditional designs, our method allowed us to observe the effects of attention for each hierarchical level on its own.
topic Attention
ERP
global
local
Navon task
url http://journal.frontiersin.org/Journal/10.3389/fpsyg.2014.01570/full
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