Time course of EEG oscillations during repeated listening of a well-known aria

While previous studies have analyzed mean neurophysiological responses to musical stimuli, the current study aimed to identify specific time courses of electroencephalography (EEG) oscillations, which are associated with dynamic changes in the acoustic features of the musical stimulus. In addition,...

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Published inFrontiers in human neuroscience Vol. 9; p. 401
Main Authors Jäncke, Lutz, Kühnis, Jürg, Rogenmoser, Lars, Elmer, Stefan
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 20.07.2015
Frontiers Media S.A
Subjects
Acoustics
Attention
EEG
Electroencephalography
emotion
Emotions
Heart Rate
Listening
Music
music perception
Neuroscience
Oscillations
Power
Ratings & rankings
Skin conductance
Spectrum analysis
Studies
Synchronization
Switzerland
heart rate
music
EEG oscillation
brain signature of music listening
EEG time course
electrodermal response
Online AccessGet full text
ISSN1662-5161
1662-5161
DOI10.3389/fnhum.2015.00401

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Abstract While previous studies have analyzed mean neurophysiological responses to musical stimuli, the current study aimed to identify specific time courses of electroencephalography (EEG) oscillations, which are associated with dynamic changes in the acoustic features of the musical stimulus. In addition, we were interested in whether these time courses change during a repeated presentation of the same musical piece. A total of 16 subjects repeatedly listened to the well-known aria "Nessun dorma," sung by Paul Potts, while continuous 128-channel EEG and heart rate, as well as electrodermal responses, were recorded. The time courses for the EEG oscillations were calculated using a time resolution of 1 second for several frequency bands, on the basis of individual alpha-peak frequencies (theta, low alpha-1, low alpha-2, upper alpha, and beta). For all frequency bands, we identified a more or less continuous increase in power relative to a baseline period, indicating strong event-related synchronization (ERS) during music listening. The ERS time courses, however, did not correlate strongly with the time courses of the acoustic features of the aria. In addition, we did not observe changes in EEG oscillations after repeated presentation of the same musical piece. Aside from this distinctive feature, we identified a remarkable variability in EEG oscillations, both within and between the repeated presentations of the aria. We interpret the continuous increase in ERS observed in all frequency bands during music listening as an indicator of a particular neurophysiological and psychological state evoked by music listening. We suggest that this state is characterized by increased internal attention (accompanied by reduced external attention), increased inhibition of brain networks not involved in the generation of this internal state, the maintenance of a particular level of general alertness, and a type of brain state that can be described as "mind wandering." The overall state can be categorized as a psychological process that may be seen as a "drawing in" to the musical piece. However, this state is not stable and varies considerably throughout the music listening session and across subjects. Most important, however, is the finding that the neurophysiological activations occurring during music listening are dynamic and not stationary.
AbstractList While previous studies have analyzed mean neurophysiological responses to musical stimuli, the current study aimed to identify specific time courses of electroencephalography (EEG) oscillations, which are associated with dynamic changes in the acoustic features of the musical stimulus. In addition, we were interested in whether these time courses change during a repeated presentation of the same musical piece. A total of 16 subjects repeatedly listened to the well-known aria "Nessun dorma," sung by Paul Potts, while continuous 128-channel EEG and heart rate, as well as electrodermal responses, were recorded. The time courses for the EEG oscillations were calculated using a time resolution of 1 second for several frequency bands, on the basis of individual alpha-peak frequencies (theta, low alpha-1, low alpha-2, upper alpha, and beta). For all frequency bands, we identified a more or less continuous increase in power relative to a baseline period, indicating strong event-related synchronization (ERS) during music listening. The ERS time courses, however, did not correlate strongly with the time courses of the acoustic features of the aria. In addition, we did not observe changes in EEG oscillations after repeated presentation of the same musical piece. Aside from this distinctive feature, we identified a remarkable variability in EEG oscillations, both within and between the repeated presentations of the aria. We interpret the continuous increase in ERS observed in all frequency bands during music listening as an indicator of a particular neurophysiological and psychological state evoked by music listening. We suggest that this state is characterized by increased internal attention (accompanied by reduced external attention), increased inhibition of brain networks not involved in the generation of this internal state, the maintenance of a particular level of general alertness, and a type of brain state that can be described as "mind wandering." The overall state can be categorized as a psychological process that may be seen as a "drawing in" to the musical piece. However, this state is not stable and varies considerably throughout the music listening session and across subjects. Most important, however, is the finding that the neurophysiological activations occurring during music listening are dynamic and not stationary.
While previous studies have analyzed mean neurophysiological responses to musical stimuli, the current study aimed to identify specific time courses of EEG oscillations, which are associated with dynamic changes in the acoustic features of the musical stimulus. In addition, we were interested in whether these time courses change during a repeated presentation of the same musical piece. A total of 16 subjects repeatedly listened to the well-known aria Nessun dorma, sung by Paul Potts, while continuous 128-channel EEG and heart rate (HR), as well as electrodermal (EDA) responses, were recorded. The time courses for the EEG oscillations were calculated using a time resolution of 1 second for several frequency bands, on the basis of individual alpha-peak frequencies (theta, low alpha-1, low alpha-2, upper alpha, and beta). For all frequency bands, we identified a more or less continuous increase in power relative to a baseline period, indicating strong event-related synchronization (ERS) during music listening. The ERS time courses, however, did not correlate strongly with the time courses of the acoustic features of the aria. In addition, we did not observe changes in EEG oscillations after repeated presentation of the same musical piece. Aside from this distinctive feature, we identified a remarkable variability in EEG oscillations, both within and between the repeated presentations of the aria. We interpret the continuous increase in ERS observed in all frequency bands during music listening as an indicator of a particular neurophysiological and psychological state evoked by music listening. We suggest that this state is characterized by increased internal attention (accompanied by reduced external attention), increased inhibition of brain networks not involved in the generation of this internal state, the maintenance of a particular level of general alertness, and a type of brain state that can be described as mind wandering. The overall state can be categorize
While previous studies have analyzed mean neurophysiological responses to musical stimuli, the current study aimed to identify specific time courses of electroencephalography (EEG) oscillations, which are associated with dynamic changes in the acoustic features of the musical stimulus. In addition, we were interested in whether these time courses change during a repeated presentation of the same musical piece. A total of 16 subjects repeatedly listened to the well-known aria "Nessun dorma," sung by Paul Potts, while continuous 128-channel EEG and heart rate, as well as electrodermal responses, were recorded. The time courses for the EEG oscillations were calculated using a time resolution of 1 second for several frequency bands, on the basis of individual alpha-peak frequencies (theta, low alpha-1, low alpha-2, upper alpha, and beta). For all frequency bands, we identified a more or less continuous increase in power relative to a baseline period, indicating strong event-related synchronization (ERS) during music listening. The ERS time courses, however, did not correlate strongly with the time courses of the acoustic features of the aria. In addition, we did not observe changes in EEG oscillations after repeated presentation of the same musical piece. Aside from this distinctive feature, we identified a remarkable variability in EEG oscillations, both within and between the repeated presentations of the aria. We interpret the continuous increase in ERS observed in all frequency bands during music listening as an indicator of a particular neurophysiological and psychological state evoked by music listening. We suggest that this state is characterized by increased internal attention (accompanied by reduced external attention), increased inhibition of brain networks not involved in the generation of this internal state, the maintenance of a particular level of general alertness, and a type of brain state that can be described as "mind wandering." The overall state can be categorized as a psychological process that may be seen as a "drawing in" to the musical piece. However, this state is not stable and varies considerably throughout the music listening session and across subjects. Most important, however, is the finding that the neurophysiological activations occurring during music listening are dynamic and not stationary.While previous studies have analyzed mean neurophysiological responses to musical stimuli, the current study aimed to identify specific time courses of electroencephalography (EEG) oscillations, which are associated with dynamic changes in the acoustic features of the musical stimulus. In addition, we were interested in whether these time courses change during a repeated presentation of the same musical piece. A total of 16 subjects repeatedly listened to the well-known aria "Nessun dorma," sung by Paul Potts, while continuous 128-channel EEG and heart rate, as well as electrodermal responses, were recorded. The time courses for the EEG oscillations were calculated using a time resolution of 1 second for several frequency bands, on the basis of individual alpha-peak frequencies (theta, low alpha-1, low alpha-2, upper alpha, and beta). For all frequency bands, we identified a more or less continuous increase in power relative to a baseline period, indicating strong event-related synchronization (ERS) during music listening. The ERS time courses, however, did not correlate strongly with the time courses of the acoustic features of the aria. In addition, we did not observe changes in EEG oscillations after repeated presentation of the same musical piece. Aside from this distinctive feature, we identified a remarkable variability in EEG oscillations, both within and between the repeated presentations of the aria. We interpret the continuous increase in ERS observed in all frequency bands during music listening as an indicator of a particular neurophysiological and psychological state evoked by music listening. We suggest that this state is characterized by increased internal attention (accompanied by reduced external attention), increased inhibition of brain networks not involved in the generation of this internal state, the maintenance of a particular level of general alertness, and a type of brain state that can be described as "mind wandering." The overall state can be categorized as a psychological process that may be seen as a "drawing in" to the musical piece. However, this state is not stable and varies considerably throughout the music listening session and across subjects. Most important, however, is the finding that the neurophysiological activations occurring during music listening are dynamic and not stationary.
Author Jäncke, Lutz
Kühnis, Jürg
Elmer, Stefan
Rogenmoser, Lars
AuthorAffiliation 5 Department of Special Education, King Abdulaziz University, Jeddah Saudi Arabia
6 Neuroimaging and Stroke Recovery Laboratory, Department of Neurology, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, MA USA
3 Center for Integrative Human Physiology, University of Zurich, Zurich Switzerland
4 University Research Priority Program, Dynamic of Healthy Aging, University of Zurich, Zurich Switzerland
2 International Normal Aging and Plasticity Imaging Center, University of Zurich, Zurich Switzerland
1 Division Neuropsychology, Institute of Psychology, University of Zurich, Zurich Switzerland
AuthorAffiliation_xml – name: 3 Center for Integrative Human Physiology, University of Zurich, Zurich Switzerland
– name: 1 Division Neuropsychology, Institute of Psychology, University of Zurich, Zurich Switzerland
– name: 4 University Research Priority Program, Dynamic of Healthy Aging, University of Zurich, Zurich Switzerland
– name: 5 Department of Special Education, King Abdulaziz University, Jeddah Saudi Arabia
– name: 6 Neuroimaging and Stroke Recovery Laboratory, Department of Neurology, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, MA USA
– name: 2 International Normal Aging and Plasticity Imaging Center, University of Zurich, Zurich Switzerland
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  surname: Jäncke
  fullname: Jäncke, Lutz
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  surname: Rogenmoser
  fullname: Rogenmoser, Lars
– sequence: 4
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  surname: Elmer
  fullname: Elmer, Stefan
BackLink https://www.ncbi.nlm.nih.gov/pubmed/26257624$$D View this record in MEDLINE/PubMed
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Copyright © 2015 Jäncke, Kühnis, Rogenmoser and Elmer. 2015 Jäncke, Kühnis, Rogenmoser and Elmer
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Keywords heart rate
music
EEG oscillation
brain signature of music listening
EEG time course
electrodermal response
Language English
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Snippet While previous studies have analyzed mean neurophysiological responses to musical stimuli, the current study aimed to identify specific time courses of...
While previous studies have analyzed mean neurophysiological responses to musical stimuli, the current study aimed to identify specific time courses of EEG...
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StartPage 401
SubjectTerms Acoustics
Attention
EEG
Electroencephalography
emotion
Emotions
Heart Rate
Listening
Music
music perception
Neuroscience
Oscillations
Power
Ratings & rankings
Skin conductance
Spectrum analysis
Studies
Synchronization
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Title Time course of EEG oscillations during repeated listening of a well-known aria
URI https://www.ncbi.nlm.nih.gov/pubmed/26257624
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Volume 9
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