Timing of visuo-spatial information processing: Electrical source imaging related to line bisection judgements

This study deconvolves the temporal dynamics of the neural processes underlying line bisection judgements (i.e., the landmark task). Event-related potentials (ERPs) were recorded from 96 scalp electrodes in 10 healthy right-handed male subjects while they were judging whether horizontal lines were c...

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Published inNeuropsychologia Vol. 46; no. 5; pp. 1201 - 1210
Main Authors Waberski, Till D., Gobbelé, René, Lamberty, Kathrin, Buchner, Helmut, Marshall, John C., Fink, Gereon R.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.01.2008
Elsevier Science
Subjects
Adult
Algorithms
Behavioral psychophysiology
Biological and medical sciences
Cluster Analysis
Data Interpretation, Statistical
Electroencephalography
Electrophysiology
Evoked Potentials - physiology
Fundamental and applied biological sciences. Psychology
Head
Hemispheric specialization
Humans
Image Processing, Computer-Assisted
Landmark task
Male
Models, Anatomic
Models, Neurological
Neglect
Posterior parietal cortex
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Psychometrics
Psychomotor Performance - physiology
Reaction Time - physiology
Space Perception - physiology
Visual Cortex - physiology
Visual Perception - physiology
Visuo-spatial attention
Landmark task
Visuo-spatial attention
Hemispheric specialization
Posterior parietal cortex
Neglect
Human
Healthy subject
Spatial neglect
Spatial cognition
Spatial attention
Electrophysiology
Cognition
Space perception
Encephalon
Parietal cortex
Information processing
Medical imagery
Timing
Event evoked potential
Bisection task
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Abstract This study deconvolves the temporal dynamics of the neural processes underlying line bisection judgements (i.e., the landmark task). Event-related potentials (ERPs) were recorded from 96 scalp electrodes in 10 healthy right-handed male subjects while they were judging whether horizontal lines were correctly prebisected. In the control task, subjects judged whether or not the horizontal line was transected by a vertical line, irrespective of its position. Using a current density reconstruction approach, source maxima in the time range from 50 to 400ms after stimulus onset were localized and the time courses of activation were elaborated. Five regions, corresponding to those revealed by our previous fMRI studies (e.g., [Fink, G. R., Marshall, J. C., Shah, N. J., Weiss, P. H., Halligan, P. W., Grosse-Ruyken, et al. (2000). Line bisection judgments implicate right parietal cortex and cerebellum as assessed by fMRI. Neurology, 54, 1324–1331]), were identified as contributing significant source activity related to line bisection judgements: right middle occipital gyrus (Brodmann area; BA18); bilateral inferior occipital gyrus (BA19); right superior posterior parietal cortex (BA7) and right inferior posterior parietal cortex (BA40). Temporal deconvolution indicated sequential activation of these regions starting at BA18 as early as 90ms post-stimulus onset, followed by the successive activation of the right superior posterior parietal (BA7), bilateral inferior occipital (BA19) and right inferior posterior parietal cortex (BA40). Three of these areas (BA18, BA17 and BA19) became reactivated within 250ms of stimulus onset. The data provide evidence for an early involvement of the right hemispheric parietal network in visuo-spatial information processing. Furthermore, the temporal deconvolution of the electrophysiological data suggest that iterative processes between and within parietal (dorsal path) and occipital areas (ventral path) mediate bisection judgements.
AbstractList This study deconvolves the temporal dynamics of the neural processes underlying line bisection judgements (i.e., the landmark task). Event-related potentials (ERPs) were recorded from 96 scalp electrodes in 10 healthy right-handed male subjects while they were judging whether horizontal lines were correctly prebisected. In the control task, subjects judged whether or not the horizontal line was transected by a vertical line, irrespective of its position. Using a current density reconstruction approach, source maxima in the time range from 50 to 400ms after stimulus onset were localized and the time courses of activation were elaborated. Five regions, corresponding to those revealed by our previous fMRI studies (e.g., [Fink, G. R., Marshall, J. C., Shah, N. J., Weiss, P. H., Halligan, P. W., Grosse-Ruyken, et al. (2000). Line bisection judgments implicate right parietal cortex and cerebellum as assessed by fMRI. Neurology, 54, 1324-1331]), were identified as contributing significant source activity related to line bisection judgements: right middle occipital gyrus (Brodmann area; BA18); bilateral inferior occipital gyrus (BA19); right superior posterior parietal cortex (BA7) and right inferior posterior parietal cortex (BA40). Temporal deconvolution indicated sequential activation of these regions starting at BA18 as early as 90ms post-stimulus onset, followed by the successive activation of the right superior posterior parietal (BA7), bilateral inferior occipital (BA19) and right inferior posterior parietal cortex (BA40). Three of these areas (BA18, BA17 and BA19) became reactivated within 250ms of stimulus onset. The data provide evidence for an early involvement of the right hemispheric parietal network in visuo-spatial information processing. Furthermore, the temporal deconvolution of the electrophysiological data suggest that iterative processes between and within parietal (dorsal path) and occipital areas (ventral path) mediate bisection judgements.This study deconvolves the temporal dynamics of the neural processes underlying line bisection judgements (i.e., the landmark task). Event-related potentials (ERPs) were recorded from 96 scalp electrodes in 10 healthy right-handed male subjects while they were judging whether horizontal lines were correctly prebisected. In the control task, subjects judged whether or not the horizontal line was transected by a vertical line, irrespective of its position. Using a current density reconstruction approach, source maxima in the time range from 50 to 400ms after stimulus onset were localized and the time courses of activation were elaborated. Five regions, corresponding to those revealed by our previous fMRI studies (e.g., [Fink, G. R., Marshall, J. C., Shah, N. J., Weiss, P. H., Halligan, P. W., Grosse-Ruyken, et al. (2000). Line bisection judgments implicate right parietal cortex and cerebellum as assessed by fMRI. Neurology, 54, 1324-1331]), were identified as contributing significant source activity related to line bisection judgements: right middle occipital gyrus (Brodmann area; BA18); bilateral inferior occipital gyrus (BA19); right superior posterior parietal cortex (BA7) and right inferior posterior parietal cortex (BA40). Temporal deconvolution indicated sequential activation of these regions starting at BA18 as early as 90ms post-stimulus onset, followed by the successive activation of the right superior posterior parietal (BA7), bilateral inferior occipital (BA19) and right inferior posterior parietal cortex (BA40). Three of these areas (BA18, BA17 and BA19) became reactivated within 250ms of stimulus onset. The data provide evidence for an early involvement of the right hemispheric parietal network in visuo-spatial information processing. Furthermore, the temporal deconvolution of the electrophysiological data suggest that iterative processes between and within parietal (dorsal path) and occipital areas (ventral path) mediate bisection judgements.
This study deconvolves the temporal dynamics of the neural processes underlying line bisection judgements (i.e., the landmark task). Event-related potentials (ERPs) were recorded from 96 scalp electrodes in 10 healthy right-handed male subjects while they were judging whether horizontal lines were correctly prebisected. In the control task, subjects judged whether or not the horizontal line was transected by a vertical line, irrespective of its position. Using a current density reconstruction approach, source maxima in the time range from 50 to 400ms after stimulus onset were localized and the time courses of activation were elaborated. Five regions, corresponding to those revealed by our previous fMRI studies (e.g., [Fink, G. R., Marshall, J. C., Shah, N. J., Weiss, P. H., Halligan, P. W., Grosse-Ruyken, et al. (2000). Line bisection judgments implicate right parietal cortex and cerebellum as assessed by fMRI. Neurology, 54, 1324-1331]), were identified as contributing significant source activity related to line bisection judgements: right middle occipital gyrus (Brodmann area; BA18); bilateral inferior occipital gyrus (BA19); right superior posterior parietal cortex (BA7) and right inferior posterior parietal cortex (BA40). Temporal deconvolution indicated sequential activation of these regions starting at BA18 as early as 90ms post-stimulus onset, followed by the successive activation of the right superior posterior parietal (BA7), bilateral inferior occipital (BA19) and right inferior posterior parietal cortex (BA40). Three of these areas (BA18, BA17 and BA19) became reactivated within 250ms of stimulus onset. The data provide evidence for an early involvement of the right hemispheric parietal network in visuo-spatial information processing. Furthermore, the temporal deconvolution of the electrophysiological data suggest that iterative processes between and within parietal (dorsal path) and occipital areas (ventral path) mediate bisection judgements.
This study deconvolves the temporal dynamics of the neural processes underlying line bisection judgements (i.e., the landmark task). Event-related potentials (ERPs) were recorded from 96 scalp electrodes in 10 healthy right-handed male subjects while they were judging whether horizontal lines were correctly prebisected. In the control task, subjects judged whether or not the horizontal line was transected by a vertical line, irrespective of its position. Using a current density reconstruction approach, source maxima in the time range from 50 to 400ms after stimulus onset were localized and the time courses of activation were elaborated. Five regions, corresponding to those revealed by our previous fMRI studies (e.g., [Fink, G. R., Marshall, J. C., Shah, N. J., Weiss, P. H., Halligan, P. W., Grosse-Ruyken, et al. (2000). Line bisection judgments implicate right parietal cortex and cerebellum as assessed by fMRI. Neurology, 54, 1324–1331]), were identified as contributing significant source activity related to line bisection judgements: right middle occipital gyrus (Brodmann area; BA18); bilateral inferior occipital gyrus (BA19); right superior posterior parietal cortex (BA7) and right inferior posterior parietal cortex (BA40). Temporal deconvolution indicated sequential activation of these regions starting at BA18 as early as 90ms post-stimulus onset, followed by the successive activation of the right superior posterior parietal (BA7), bilateral inferior occipital (BA19) and right inferior posterior parietal cortex (BA40). Three of these areas (BA18, BA17 and BA19) became reactivated within 250ms of stimulus onset. The data provide evidence for an early involvement of the right hemispheric parietal network in visuo-spatial information processing. Furthermore, the temporal deconvolution of the electrophysiological data suggest that iterative processes between and within parietal (dorsal path) and occipital areas (ventral path) mediate bisection judgements.
Author Fink, Gereon R.
Waberski, Till D.
Buchner, Helmut
Gobbelé, René
Lamberty, Kathrin
Marshall, John C.
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  givenname: Till D.
  surname: Waberski
  fullname: Waberski, Till D.
  email: Till.Waberski@post.rwth-aachen.de
  organization: Department of Neurology, University Hospital Aachen, Pauwelsstr. 30, RWTH Aachen, D-52057 Aachen, Germany
– sequence: 2
  givenname: René
  surname: Gobbelé
  fullname: Gobbelé, René
  organization: Department of Neurology, University Hospital Aachen, Pauwelsstr. 30, RWTH Aachen, D-52057 Aachen, Germany
– sequence: 3
  givenname: Kathrin
  surname: Lamberty
  fullname: Lamberty, Kathrin
  organization: Department of Neurology, University Hospital Aachen, Pauwelsstr. 30, RWTH Aachen, D-52057 Aachen, Germany
– sequence: 4
  givenname: Helmut
  surname: Buchner
  fullname: Buchner, Helmut
  organization: Department of Neurology, Knappschaftskrankenhaus Recklinghausen, Germany
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  givenname: Gereon R.
  surname: Fink
  fullname: Fink, Gereon R.
  organization: Institute of Medicine (IME), Research Centre Jülich, Germany
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Issue 5
Keywords Landmark task
Visuo-spatial attention
Hemispheric specialization
Posterior parietal cortex
Neglect
Human
Healthy subject
Spatial neglect
Spatial cognition
Spatial attention
Electrophysiology
Cognition
Space perception
Encephalon
Parietal cortex
Information processing
Medical imagery
Timing
Event evoked potential
Bisection task
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Snippet This study deconvolves the temporal dynamics of the neural processes underlying line bisection judgements (i.e., the landmark task). Event-related potentials...
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SubjectTerms Adult
Algorithms
Behavioral psychophysiology
Biological and medical sciences
Cluster Analysis
Data Interpretation, Statistical
Electroencephalography
Electrophysiology
Evoked Potentials - physiology
Fundamental and applied biological sciences. Psychology
Head
Hemispheric specialization
Humans
Image Processing, Computer-Assisted
Landmark task
Male
Models, Anatomic
Models, Neurological
Neglect
Posterior parietal cortex
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Psychometrics
Psychomotor Performance - physiology
Reaction Time - physiology
Space Perception - physiology
Visual Cortex - physiology
Visual Perception - physiology
Visuo-spatial attention
Title Timing of visuo-spatial information processing: Electrical source imaging related to line bisection judgements
URI https://dx.doi.org/10.1016/j.neuropsychologia.2007.10.024
https://www.ncbi.nlm.nih.gov/pubmed/18249421
https://www.proquest.com/docview/69207416
Volume 46
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