Computational model of thalamo-cortical networks: dynamical control of alpha rhythms in relation to focal attention

EEG/MEG rhythmic activities such as alpha rhythms, of the visual or of the somato-sensory cortex, are commonly modulated as subjects perform certain tasks or react to specific stimuli. In general, these activities change depending on extrinsic or intrinsic events. A decrease of the amplitude of alph...

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Bibliographic Details
Published inInternational journal of psychophysiology Vol. 43; no. 1; pp. 25 - 40
Main Authors Suffczynski, Piotr, Kalitzin, Stiliyan, Pfurtscheller, Gert, Lopes da Silva, F.H
Format Journal Article Conference Proceeding
LanguageEnglish
Published Shannon Elsevier B.V 01.12.2001
Elsevier Science
Subjects
Alpha Rhythm
Alpha rhythms
Attention - physiology
Behavioral psychophysiology
Biological and medical sciences
Cerebral Cortex - physiology
Cortical Synchronization
Electrophysiology
Focal attention
Fundamental and applied biological sciences. Psychology
Humans
Models, Neurological
Nerve Net - physiology
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Thalamus - physiology
Focal attention
Alpha rhythms
Human
Vigilance
Alpha rhythm
Inhibitory postsynaptic potential
Central nervous system
Attention
Electrophysiology
Somatosensory cortex
Somesthetic pathway
Afferent projection
Thalamus
Desynchronization
Models
Event evoked potential
Brain (vertebrata)
Online AccessGet full text
ISSN0167-8760
1872-7697
DOI10.1016/S0167-8760(01)00177-5

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Abstract EEG/MEG rhythmic activities such as alpha rhythms, of the visual or of the somato-sensory cortex, are commonly modulated as subjects perform certain tasks or react to specific stimuli. In general, these activities change depending on extrinsic or intrinsic events. A decrease of the amplitude of alpha rhythmic activity occurring after a given event, which manifests as a decrease of a spectral peak, is called event-related desynchronization (ERD), whereas the inverse is called event-related synchronization (ERS), since it is assumed that the power of a spectral peak is related to the degree of synchrony of the underlying oscillating neuronal populations. An intriguing observation in this respect [Pfurtscheller and Neuper, Neurosci. Lett. 174 (1994) 93–96] was that ERD of alpha rhythms recorded over the central areas was accompanied by ERS, within the same frequency band, recorded over neighboring areas. In case the event was a hand movement, ERD was recorded over the scalp overlying the hand cortical area, whereas ERS was concomitantly recorded over the midline, whereas if the movement was of the foot the opposite was found. We called this phenomenon ‘focal ERD/surround ERS’. The question of how this phenomenon may be generated was approached by means of a computational model of thalamo-cortical networks, that incorporates basic properties of neurons and synaptic interactions. These simulation studies revealed that this antagonistic ERD/ERS phenomenon depends on the functional interaction between the populations of thalamo-cortical cells (TCR) and reticular nucleus cells (RE) and on how this interaction is modulated by cholinergic inputs. An essential feature of this interaction is the existence of cross-talk between different sectors of RE that correspond to distinct sensory modules (e.g. hand, foot). These observations led us to formulate the hypothesis that this basic neurophysiological mechanism can account for the general observation that enhanced attention given to a certain stimulus (the focus) is coupled to inhibition of attention to other stimuli (the surround).
AbstractList EEG/MEG rhythmic activities such as alpha rhythms, of the visual or of the somato-sensory cortex, are commonly modulated as subjects perform certain tasks or react to specific stimuli. In general, these activities change depending on extrinsic or intrinsic events. A decrease of the amplitude of alpha rhythmic activity occurring after a given event, which manifests as a decrease of a spectral peak, is called event-related desynchronization (ERD), whereas the inverse is called event-related synchronization (ERS), since it is assumed that the power of a spectral peak is related to the degree of synchrony of the underlying oscillating neuronal populations. An intriguing observation in this respect [Pfurtscheller and Neuper, Neurosci. Lett. 174 (1994) 93-96] was that ERD of alpha rhythms recorded over the central areas was accompanied by ERS, within the same frequency band, recorded over neighboring areas. In case the event was a hand movement, ERD was recorded over the scalp overlying the hand cortical area, whereas ERS was concomitantly recorded over the midline, whereas if the movement was of the foot the opposite was found. We called this phenomenon 'focal ERD/surround ERS'. The question of how this phenomenon may be generated was approached by means of a computational model of thalamo-cortical networks, that incorporates basic properties of neurons and synaptic interactions. These simulation studies revealed that this antagonistic ERD/ERS phenomenon depends on the functional interaction between the populations of thalamo-cortical cells (TCR) and reticular nucleus cells (RE) and on how this interaction is modulated by cholinergic inputs. An essential feature of this interaction is the existence of cross-talk between different sectors of RE that correspond to distinct sensory modules (e.g. hand, foot). These observations led us to formulate the hypothesis that this basic neurophysiological mechanism can account for the general observation that enhanced attention given to a certain stimulus (the focus) is coupled to inhibition of attention to other stimuli (the surround).EEG/MEG rhythmic activities such as alpha rhythms, of the visual or of the somato-sensory cortex, are commonly modulated as subjects perform certain tasks or react to specific stimuli. In general, these activities change depending on extrinsic or intrinsic events. A decrease of the amplitude of alpha rhythmic activity occurring after a given event, which manifests as a decrease of a spectral peak, is called event-related desynchronization (ERD), whereas the inverse is called event-related synchronization (ERS), since it is assumed that the power of a spectral peak is related to the degree of synchrony of the underlying oscillating neuronal populations. An intriguing observation in this respect [Pfurtscheller and Neuper, Neurosci. Lett. 174 (1994) 93-96] was that ERD of alpha rhythms recorded over the central areas was accompanied by ERS, within the same frequency band, recorded over neighboring areas. In case the event was a hand movement, ERD was recorded over the scalp overlying the hand cortical area, whereas ERS was concomitantly recorded over the midline, whereas if the movement was of the foot the opposite was found. We called this phenomenon 'focal ERD/surround ERS'. The question of how this phenomenon may be generated was approached by means of a computational model of thalamo-cortical networks, that incorporates basic properties of neurons and synaptic interactions. These simulation studies revealed that this antagonistic ERD/ERS phenomenon depends on the functional interaction between the populations of thalamo-cortical cells (TCR) and reticular nucleus cells (RE) and on how this interaction is modulated by cholinergic inputs. An essential feature of this interaction is the existence of cross-talk between different sectors of RE that correspond to distinct sensory modules (e.g. hand, foot). These observations led us to formulate the hypothesis that this basic neurophysiological mechanism can account for the general observation that enhanced attention given to a certain stimulus (the focus) is coupled to inhibition of attention to other stimuli (the surround).
EEG/MEG rhythmic activities such as alpha rhythms, of the visual or of the somato-sensory cortex, are commonly modulated as subjects perform certain tasks or react to specific stimuli. In general, these activities change depending on extrinsic or intrinsic events. A decrease of the amplitude of alpha rhythmic activity occurring after a given event, which manifests as a decrease of a spectral peak, is called event-related desynchronization (ERD), whereas the inverse is called event-related synchronization (ERS), since it is assumed that the power of a spectral peak is related to the degree of synchrony of the underlying oscillating neuronal populations. An intriguing observation in this respect [Pfurtscheller and Neuper, Neurosci. Lett. 174 (1994) 93–96] was that ERD of alpha rhythms recorded over the central areas was accompanied by ERS, within the same frequency band, recorded over neighboring areas. In case the event was a hand movement, ERD was recorded over the scalp overlying the hand cortical area, whereas ERS was concomitantly recorded over the midline, whereas if the movement was of the foot the opposite was found. We called this phenomenon ‘focal ERD/surround ERS’. The question of how this phenomenon may be generated was approached by means of a computational model of thalamo-cortical networks, that incorporates basic properties of neurons and synaptic interactions. These simulation studies revealed that this antagonistic ERD/ERS phenomenon depends on the functional interaction between the populations of thalamo-cortical cells (TCR) and reticular nucleus cells (RE) and on how this interaction is modulated by cholinergic inputs. An essential feature of this interaction is the existence of cross-talk between different sectors of RE that correspond to distinct sensory modules (e.g. hand, foot). These observations led us to formulate the hypothesis that this basic neurophysiological mechanism can account for the general observation that enhanced attention given to a certain stimulus (the focus) is coupled to inhibition of attention to other stimuli (the surround).
Author Suffczynski, Piotr
Pfurtscheller, Gert
Lopes da Silva, F.H
Kalitzin, Stiliyan
Author_xml – sequence: 1
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  surname: Suffczynski
  fullname: Suffczynski, Piotr
  organization: Laboratory of Medical Physics, Institute of Experimental Physics, Warsaw University, Warsaw, Poland
– sequence: 2
  givenname: Stiliyan
  surname: Kalitzin
  fullname: Kalitzin, Stiliyan
  organization: Institute of Epilepsy, Dutch Epilepsy Clinics Foundation, “Meer en Bosch”, Heemstede, The Netherlands
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  surname: Pfurtscheller
  fullname: Pfurtscheller, Gert
  organization: Department of Medical Informatics, Institute of Medical Engineering, University of Technology, Graz, Austria
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  givenname: F.H
  surname: Lopes da Silva
  fullname: Lopes da Silva, F.H
  organization: Institute of Epilepsy, Dutch Epilepsy Clinics Foundation, “Meer en Bosch”, Heemstede, The Netherlands
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https://www.ncbi.nlm.nih.gov/pubmed/11742683$$D View this record in MEDLINE/PubMed
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ISSN 0167-8760
IngestDate Fri Sep 05 06:25:19 EDT 2025
Wed Feb 19 01:19:37 EST 2025
Wed Apr 02 07:26:37 EDT 2025
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Fri Feb 23 02:18:15 EST 2024
IsPeerReviewed true
IsScholarly true
Issue 1
Keywords Focal attention
Alpha rhythms
Human
Vigilance
Alpha rhythm
Inhibitory postsynaptic potential
Central nervous system
Attention
Electrophysiology
Somatosensory cortex
Somesthetic pathway
Afferent projection
Thalamus
Desynchronization
Models
Event evoked potential
Brain (vertebrata)
Language English
License https://www.elsevier.com/tdm/userlicense/1.0
CC BY 4.0
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MeetingName Thalamo-Cortical Relationships
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PublicationTitle International journal of psychophysiology
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Elsevier Science
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Snippet EEG/MEG rhythmic activities such as alpha rhythms, of the visual or of the somato-sensory cortex, are commonly modulated as subjects perform certain tasks or...
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SubjectTerms Alpha Rhythm
Alpha rhythms
Attention - physiology
Behavioral psychophysiology
Biological and medical sciences
Cerebral Cortex - physiology
Cortical Synchronization
Electrophysiology
Focal attention
Fundamental and applied biological sciences. Psychology
Humans
Models, Neurological
Nerve Net - physiology
Psychology. Psychoanalysis. Psychiatry
Psychology. Psychophysiology
Thalamus - physiology
Title Computational model of thalamo-cortical networks: dynamical control of alpha rhythms in relation to focal attention
URI https://dx.doi.org/10.1016/S0167-8760(01)00177-5
https://www.ncbi.nlm.nih.gov/pubmed/11742683
https://www.proquest.com/docview/72353998
Volume 43
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