Watch out! Medial frontal cortex is activated by cues signaling potential changes in response demands

The human medial frontal cortex and especially the anterior cingulate cortex (ACC) have been implicated in several aspects of performance monitoring. We examined event-related EEG during a general process of controlling attention by using a novel paradigm to elicit a medial frontal negativity (MFN)...

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Published inNeuroImage (Orlando, Fla.) Vol. 114; pp. 356 - 370
Main Authors van Noordt, Stefon J.R., Desjardins, James A., Segalowitz, Sidney J.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.07.2015
Elsevier Limited
Subjects
Adult
Anterior cingulate cortex
Attention - physiology
Behavior
Cues
Electroencephalography
ERN
Error correction & detection
Female
Frontal Lobe - physiology
Grants
Humans
Independent components analysis
Male
Paradigms
Performance monitoring
Psychomotor Performance - physiology
Robust estimation
Task switching
Young Adult
Independent components analysis
ERN
Task switching
Robust estimation
Anterior cingulate cortex
Performance monitoring
Online AccessGet full text
ISSN1053-8119
1095-9572
1095-9572
DOI10.1016/j.neuroimage.2015.04.021

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Abstract The human medial frontal cortex and especially the anterior cingulate cortex (ACC) have been implicated in several aspects of performance monitoring. We examined event-related EEG during a general process of controlling attention by using a novel paradigm to elicit a medial frontal negativity (MFN) to stimuli that indicate potential changes in future response demands. Independent components analysis revealed that the latent factors that accounted for MFN activity to such changes also accounted for activity associated with the error-related negativity and the NoGo inhibitory N2. Given that the medial frontal activation to these changes varied reliably across subjects simply as a function of potential need to alter responses in the absence of error commission and response inhibition, we propose that the underlying basis for medial frontal activation in situations demanding ongoing monitoring of performance involves an increase in attention control, a factor common to all MFN paradigms. [Display omitted] •MFN elicited to stimuli indicating potential response demand changes•Alerting stimuli affects behavior and activation in ICs capturing MFN responses.•ICs account for MFN activity to alerting stimuli, ERN, and NoGo N2.•Several MFNs can be attributed to the general process of controlling attention.•Medial frontal cortex functioning captured with simple response context paradigm
AbstractList The human medial frontal cortex and especially the anterior cingulate cortex (ACC) have been implicated in several aspects of performance monitoring. We examined event-related EEG during a general process of controlling attention by using a novel paradigm to elicit a medial frontal negativity (MFN) to stimuli that indicate potential changes in future response demands. Independent components analysis revealed that the latent factors that accounted for MFN activity to such changes also accounted for activity associated with the error-related negativity and the NoGo inhibitory N2. Given that the medial frontal activation to these changes varied reliably across subjects simply as a function of potential need to alter responses in the absence of error commission and response inhibition, we propose that the underlying basis for medial frontal activation in situations demanding ongoing monitoring of performance involves an increase in attention control, a factor common to all MFN paradigms.
The human medial frontal cortex and especially the anterior cingulate cortex (ACC) have been implicated in several aspects of performance monitoring. We examined event-related EEG during a general process of controlling attention by using a novel paradigm to elicit a medial frontal negativity (MFN) to stimuli that indicate potential changes in future response demands. Independent components analysis revealed that the latent factors that accounted for MFN activity to such changes also accounted for activity associated with the error-related negativity and the NoGo inhibitory N2. Given that the medial frontal activation to these changes varied reliably across subjects simply as a function of potential need to alter responses in the absence of error commission and response inhibition, we propose that the underlying basis for medial frontal activation in situations demanding ongoing monitoring of performance involves an increase in attention control, a factor common to all MFN paradigms. [Display omitted] •MFN elicited to stimuli indicating potential response demand changes•Alerting stimuli affects behavior and activation in ICs capturing MFN responses.•ICs account for MFN activity to alerting stimuli, ERN, and NoGo N2.•Several MFNs can be attributed to the general process of controlling attention.•Medial frontal cortex functioning captured with simple response context paradigm
The human medial frontal cortex and especially the anterior cingulate cortex (ACC) have been implicated in several aspects of performance monitoring. We examined event-related EEG during a general process of controlling attention by using a novel paradigm to elicit a medial frontal negativity (MFN) to stimuli that indicate potential changes in future response demands. Independent components analysis revealed that the latent factors that accounted for MFN activity to such changes also accounted for activity associated with the error-related negativity and the NoGo inhibitory N2. Given that the medial frontal activation to these changes varied reliably across subjects simply as a function of potential need to alter responses in the absence of error commission and response inhibition, we propose that the underlying basis for medial frontal activation in situations demanding ongoing monitoring of performance involves an increase in attention control, a factor common to all MFN paradigms.The human medial frontal cortex and especially the anterior cingulate cortex (ACC) have been implicated in several aspects of performance monitoring. We examined event-related EEG during a general process of controlling attention by using a novel paradigm to elicit a medial frontal negativity (MFN) to stimuli that indicate potential changes in future response demands. Independent components analysis revealed that the latent factors that accounted for MFN activity to such changes also accounted for activity associated with the error-related negativity and the NoGo inhibitory N2. Given that the medial frontal activation to these changes varied reliably across subjects simply as a function of potential need to alter responses in the absence of error commission and response inhibition, we propose that the underlying basis for medial frontal activation in situations demanding ongoing monitoring of performance involves an increase in attention control, a factor common to all MFN paradigms.
Author Desjardins, James A.
Segalowitz, Sidney J.
van Noordt, Stefon J.R.
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  givenname: Sidney J.
  surname: Segalowitz
  fullname: Segalowitz, Sidney J.
  email: sid.segalowitz@brocku.ca
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Keywords Independent components analysis
ERN
Task switching
Robust estimation
Anterior cingulate cortex
Performance monitoring
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Snippet The human medial frontal cortex and especially the anterior cingulate cortex (ACC) have been implicated in several aspects of performance monitoring. We...
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SubjectTerms Adult
Anterior cingulate cortex
Attention - physiology
Behavior
Cues
Electroencephalography
ERN
Error correction & detection
Female
Frontal Lobe - physiology
Grants
Humans
Independent components analysis
Male
Paradigms
Performance monitoring
Psychomotor Performance - physiology
Robust estimation
Task switching
Young Adult
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Title Watch out! Medial frontal cortex is activated by cues signaling potential changes in response demands
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