Cerebellar lesions alter performance monitoring on the antisaccade task—An event-related potentials study

► Reduced early negativity in cerebellar lesion patients. ► Enhanced late positivity in cerebellar lesion patients. ► More similar event-related potentials for errors and correct responses in patients. ► Largely intact behavioural antisaccade performance in cerebellar lesion patients. ► Evidence for...

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Published inNeuropsychologia Vol. 50; no. 3; pp. 379 - 389
Main Authors Peterburs, Jutta, Gajda, Kathrin, Koch, Benno, Schwarz, Michael, Hoffmann, Klaus-Peter, Daum, Irene, Bellebaum, Christian
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.02.2012
Elsevier
Subjects
Adult
Adult and adolescent clinical studies
Antisaccades
Biological and medical sciences
Case-Control Studies
Cerebellar Diseases - physiopathology
Cerebellum
Electroencephalography
Electrooculography
Error negativity (Ne)
Error positivity (Pe)
Error processing
Error-related negativity (ERN)
Evoked Potentials - physiology
Female
Humans
Male
Medical sciences
Middle Aged
Organic mental disorders. Neuropsychology
Performance monitoring
Psychology. Psychoanalysis. Psychiatry
Psychomotor Performance
Psychopathology. Psychiatry
Reaction Time - physiology
Saccades - physiology
Cerebellum
Error-related negativity (ERN)
Error negativity (Ne)
Error positivity (Pe)
Antisaccades
Performance monitoring
Error processing
Human
Nervous system diseases
Central nervous system
Electrophysiology
Cognition
Encephalon
Cerebral disorder
Saccadic eye movement
Cerebellar disease
Central nervous system disease
Inhibition
Event evoked potential
Monitoring
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Abstract ► Reduced early negativity in cerebellar lesion patients. ► Enhanced late positivity in cerebellar lesion patients. ► More similar event-related potentials for errors and correct responses in patients. ► Largely intact behavioural antisaccade performance in cerebellar lesion patients. ► Evidence for cerebellar involvement in performance monitoring. Error processing is associated with distinct event-related potential components (ERPs), i.e. the error-related negativity (ERN) which occurs within approximately 150 ms and is typically more pronounced than the correct-response negativity (CRN), and the error positivity (Pe) emerging from about 200 to 400 ms after an erroneous response. The short latency of the ERN suggests that the internal error monitoring system acts on rapidly available central information such as an efference copy signal rather than slower peripheral feedback. The cerebellum has been linked to an internal forward-model which enables online performance monitoring by predicting the sensory consequences of actions, most probably by making use of efference copies. In the present study it was hypothesized that the cerebellum is involved in the fast evaluation of saccadic response accuracy as reflected by the ERN. Error processing on an antisaccade task was investigated in eight patients with focal vascular lesions to the cerebellum and 22 control subjects using ERPs. While error rates were comparable between groups, saccadic reaction times (SRTs) were enhanced in the patients, and the error-correct difference waveforms showed reduced amplitudes for patients relative to controls in the ERN time window. Notably, this effect was mainly driven by an increased CRN in the patients. In the later Pe time window, the difference signal yielded higher amplitudes in patients compared to controls mainly because of smaller Pe amplitudes on correct trials in patients. The altered ERN/CRN pattern suggests that the cerebellum is critically involved in fast classification of saccadic accuracy. Largely intact performance accuracy together with increased SRTs and the altered Pe pattern may indicate a compensatory mechanism presumably related to slower, more conscious aspects of error processing in the patients.
AbstractList ► Reduced early negativity in cerebellar lesion patients. ► Enhanced late positivity in cerebellar lesion patients. ► More similar event-related potentials for errors and correct responses in patients. ► Largely intact behavioural antisaccade performance in cerebellar lesion patients. ► Evidence for cerebellar involvement in performance monitoring. Error processing is associated with distinct event-related potential components (ERPs), i.e. the error-related negativity (ERN) which occurs within approximately 150 ms and is typically more pronounced than the correct-response negativity (CRN), and the error positivity (Pe) emerging from about 200 to 400 ms after an erroneous response. The short latency of the ERN suggests that the internal error monitoring system acts on rapidly available central information such as an efference copy signal rather than slower peripheral feedback. The cerebellum has been linked to an internal forward-model which enables online performance monitoring by predicting the sensory consequences of actions, most probably by making use of efference copies. In the present study it was hypothesized that the cerebellum is involved in the fast evaluation of saccadic response accuracy as reflected by the ERN. Error processing on an antisaccade task was investigated in eight patients with focal vascular lesions to the cerebellum and 22 control subjects using ERPs. While error rates were comparable between groups, saccadic reaction times (SRTs) were enhanced in the patients, and the error-correct difference waveforms showed reduced amplitudes for patients relative to controls in the ERN time window. Notably, this effect was mainly driven by an increased CRN in the patients. In the later Pe time window, the difference signal yielded higher amplitudes in patients compared to controls mainly because of smaller Pe amplitudes on correct trials in patients. The altered ERN/CRN pattern suggests that the cerebellum is critically involved in fast classification of saccadic accuracy. Largely intact performance accuracy together with increased SRTs and the altered Pe pattern may indicate a compensatory mechanism presumably related to slower, more conscious aspects of error processing in the patients.
Error processing is associated with distinct event-related potential components (ERPs), i.e. the error-related negativity (ERN) which occurs within approximately 150 ms and is typically more pronounced than the correct-response negativity (CRN), and the error positivity (Pe) emerging from about 200 to 400 ms after an erroneous response. The short latency of the ERN suggests that the internal error monitoring system acts on rapidly available central information such as an efference copy signal rather than slower peripheral feedback. The cerebellum has been linked to an internal forward-model which enables online performance monitoring by predicting the sensory consequences of actions, most probably by making use of efference copies. In the present study it was hypothesized that the cerebellum is involved in the fast evaluation of saccadic response accuracy as reflected by the ERN. Error processing on an antisaccade task was investigated in eight patients with focal vascular lesions to the cerebellum and 22 control subjects using ERPs. While error rates were comparable between groups, saccadic reaction times (SRTs) were enhanced in the patients, and the error-correct difference waveforms showed reduced amplitudes for patients relative to controls in the ERN time window. Notably, this effect was mainly driven by an increased CRN in the patients. In the later Pe time window, the difference signal yielded higher amplitudes in patients compared to controls mainly because of smaller Pe amplitudes on correct trials in patients. The altered ERN/CRN pattern suggests that the cerebellum is critically involved in fast classification of saccadic accuracy. Largely intact performance accuracy together with increased SRTs and the altered Pe pattern may indicate a compensatory mechanism presumably related to slower, more conscious aspects of error processing in the patients.
Error processing is associated with distinct event-related potential components (ERPs), i.e. the error-related negativity (ERN) which occurs within approximately 150 ms and is typically more pronounced than the correct-response negativity (CRN), and the error positivity (Pe) emerging from about 200 to 400 ms after an erroneous response. The short latency of the ERN suggests that the internal error monitoring system acts on rapidly available central information such as an efference copy signal rather than slower peripheral feedback. The cerebellum has been linked to an internal forward-model which enables online performance monitoring by predicting the sensory consequences of actions, most probably by making use of efference copies. In the present study it was hypothesized that the cerebellum is involved in the fast evaluation of saccadic response accuracy as reflected by the ERN. Error processing on an antisaccade task was investigated in eight patients with focal vascular lesions to the cerebellum and 22 control subjects using ERPs. While error rates were comparable between groups, saccadic reaction times (SRTs) were enhanced in the patients, and the error-correct difference waveforms showed reduced amplitudes for patients relative to controls in the ERN time window. Notably, this effect was mainly driven by an increased CRN in the patients. In the later Pe time window, the difference signal yielded higher amplitudes in patients compared to controls mainly because of smaller Pe amplitudes on correct trials in patients. The altered ERN/CRN pattern suggests that the cerebellum is critically involved in fast classification of saccadic accuracy. Largely intact performance accuracy together with increased SRTs and the altered Pe pattern may indicate a compensatory mechanism presumably related to slower, more conscious aspects of error processing in the patients.Error processing is associated with distinct event-related potential components (ERPs), i.e. the error-related negativity (ERN) which occurs within approximately 150 ms and is typically more pronounced than the correct-response negativity (CRN), and the error positivity (Pe) emerging from about 200 to 400 ms after an erroneous response. The short latency of the ERN suggests that the internal error monitoring system acts on rapidly available central information such as an efference copy signal rather than slower peripheral feedback. The cerebellum has been linked to an internal forward-model which enables online performance monitoring by predicting the sensory consequences of actions, most probably by making use of efference copies. In the present study it was hypothesized that the cerebellum is involved in the fast evaluation of saccadic response accuracy as reflected by the ERN. Error processing on an antisaccade task was investigated in eight patients with focal vascular lesions to the cerebellum and 22 control subjects using ERPs. While error rates were comparable between groups, saccadic reaction times (SRTs) were enhanced in the patients, and the error-correct difference waveforms showed reduced amplitudes for patients relative to controls in the ERN time window. Notably, this effect was mainly driven by an increased CRN in the patients. In the later Pe time window, the difference signal yielded higher amplitudes in patients compared to controls mainly because of smaller Pe amplitudes on correct trials in patients. The altered ERN/CRN pattern suggests that the cerebellum is critically involved in fast classification of saccadic accuracy. Largely intact performance accuracy together with increased SRTs and the altered Pe pattern may indicate a compensatory mechanism presumably related to slower, more conscious aspects of error processing in the patients.
Author Hoffmann, Klaus-Peter
Bellebaum, Christian
Peterburs, Jutta
Koch, Benno
Gajda, Kathrin
Daum, Irene
Schwarz, Michael
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  surname: Bellebaum
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  organization: Institute of Cognitive Neuroscience, Department of Neuropsychology, Faculty of Psychology, Ruhr University Bochum, Universitaetsstrasse 150, 44780 Bochum, Germany
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Issue 3
Keywords Cerebellum
Error-related negativity (ERN)
Error negativity (Ne)
Error positivity (Pe)
Antisaccades
Performance monitoring
Error processing
Human
Nervous system diseases
Central nervous system
Electrophysiology
Cognition
Encephalon
Cerebral disorder
Saccadic eye movement
Cerebellar disease
Central nervous system disease
Inhibition
Event evoked potential
Monitoring
Language English
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CC BY 4.0
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Snippet ► Reduced early negativity in cerebellar lesion patients. ► Enhanced late positivity in cerebellar lesion patients. ► More similar event-related potentials for...
Error processing is associated with distinct event-related potential components (ERPs), i.e. the error-related negativity (ERN) which occurs within...
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StartPage 379
SubjectTerms Adult
Adult and adolescent clinical studies
Antisaccades
Biological and medical sciences
Case-Control Studies
Cerebellar Diseases - physiopathology
Cerebellum
Electroencephalography
Electrooculography
Error negativity (Ne)
Error positivity (Pe)
Error processing
Error-related negativity (ERN)
Evoked Potentials - physiology
Female
Humans
Male
Medical sciences
Middle Aged
Organic mental disorders. Neuropsychology
Performance monitoring
Psychology. Psychoanalysis. Psychiatry
Psychomotor Performance
Psychopathology. Psychiatry
Reaction Time - physiology
Saccades - physiology
Title Cerebellar lesions alter performance monitoring on the antisaccade task—An event-related potentials study
URI https://dx.doi.org/10.1016/j.neuropsychologia.2011.12.009
https://www.ncbi.nlm.nih.gov/pubmed/22227094
https://www.proquest.com/docview/917578729
https://www.proquest.com/docview/923210345
Volume 50
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