Performance monitoring in children and adolescents: A review of developmental changes in the error-related negativity and brain maturation

AbstractThe abilities to monitor one’s actions and novel information in the environment are crucial for behavioural and cognitive control. This study investigated the development of error and novelty monitoring and their electrophysiological correlates by using a combined flanker with novelty-oddball task in children (7–12 years) and adolescents (14–18 years). Potential moderating influences of prenatal perturbation of steroid hormones on these performance monitoring processes were explored by comparing individuals who were prenatally exposed and who were not prenatally exposed to synthetic glucocorticoids (sGC). Generally, adolescents performed more accurately and faster than children. However, behavioural adaptations to error or novelty, as reflected in post-error or post-novelty slowing, showed different developmental patterns. Whereas post-novelty slowing could be observed in children and adolescents, error-related slowing was absent in children and was marginally significant in adolescents. Furthermore, the amplitude of error-related negativity was larger in adolescents, whereas the amplitude of novelty-related N2 was larger in children. These age differences suggest that processes involving top-down processing of task-relevant information (for instance, error monitoring) mature later than processes implicating bottom-up processing of salient novel stimuli (for instance, novelty monitoring). Prenatal exposure to sGC did not directly affect performance monitoring but initial findings suggest that it might alter brain-behaviour relation, especially for novelty monitoring.

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Behavioral and Electrophysiological Correlates of Performance Monitoring and Development in Children and Adolescents with Attention-Deficit/Hyperactivity Disorder

Brain Sciences ◽

10.3390/brainsci10020079 ◽

2020 ◽

Vol 10 (2) ◽

pp. 79 ◽

Cited By ~ 3

Author(s):

Yanni Liu ◽

Gregory L. Hanna ◽

Barbara S. Hanna ◽

Haley E. Rough ◽

Paul D. Arnold ◽

...

Keyword(s):

Attention Deficit Hyperactivity Disorder ◽

Children And Adolescents ◽

Attention Deficit ◽

Child Behavior Checklist ◽

Performance Monitoring ◽

Longitudinal Design ◽

Flanker Task ◽

Developmental Trajectory ◽

Time Variability ◽

Hyperactivity Disorder

The pathophysiology of attention-deficit/hyperactivity disorder (ADHD) involves deficits in performance monitoring and adaptive adjustments. Yet, the developmental trajectory and underlying neural correlates of performance monitoring deficits in youth with ADHD remain poorly understood. To address the gap, this study recruited 77 children and adolescents with ADHD and 77 age- and gender-matched healthy controls (HC), ages 8–18 years, who performed an arrow flanker task during electroencephalogram recording. Compared to HC, participants with ADHD responded more slowly and showed larger reaction time variability (RTV) and reduced post-error slowing; they also exhibited reduced error-related negativity (ERN) and error positivity effects, and reduced N2 and P3 congruency effects. Age effects were observed across groups: with increasing age, participants responded faster, with less variability, and with increased post-error slowing. They also exhibited increased ERN effects and increased N2 and P3 congruency effects. Increased RTV and reduced P3 amplitude in incongruent trials were associated with increased ADHD Problems Scale scores on the Child Behavior Checklist across groups. The altered behavioral and ERP responses in ADHD are consistent with the pattern associated with younger age across groups. Further research with a longitudinal design may determine specific aspects of developmental alteration and deficits in ADHD during performance monitoring.

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Ontogenetic modifications of neuronal excitability during brain maturation: Developmental changes of neurotransmitter receptors

Epilepsia ◽

10.1111/j.1528-1167.2011.03222.x ◽

2011 ◽

Vol 52 ◽

pp. 3-5 ◽

Cited By ~ 9

Author(s):

Eleonora Aronica ◽

Anand Iyer ◽

Emanuele Zurolo ◽

Jan A. Gorter

Keyword(s):

Neuronal Excitability ◽

Developmental Changes ◽

Brain Maturation ◽

Neurotransmitter Receptors

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0325 Better Aerobic Fitness is Associated with Distinct Sleep Characteristics in Children and Adolescents - A Pilot Study

SLEEP ◽

10.1093/sleep/zsaa056.322 ◽

2020 ◽

Vol 43 (Supplement_1) ◽

pp. A123-A124

Author(s):

A B Neikrug ◽

S Radom-Aizik ◽

I Y Chen ◽

A Stehli ◽

K K Lui ◽

...

Keyword(s):

Pilot Study ◽

Sleep Quality ◽

Children And Adolescents ◽

Aerobic Fitness ◽

Time Consistency ◽

Sleep Time ◽

Brain Maturation ◽

Circadian Activity ◽

Sleep Patterns ◽

Local Sleep

Abstract Introduction Aerobic fitness facilitates brain synaptic plasticity, which influences global and local sleep expression. While it is known that sleep patterns/behavior and non-rapid eye movement (NREM) sleep slow wave activity (SWA) tracks brain maturation, little is known about how aerobic fitness and sleep interact during growth and development in children and adolescents. The aim of this pilot study was to characterize relationships among aerobic fitness, measures of global/local sleep expression, and habitual sleep patterns in children and adolescents. We hypothesized that greater aerobic fitness would be associated with better sleep quality, indicated by increased SWA. Methods Twenty healthy youth (11-17 years-old, 11 female) were evaluated during summer vacation (no school schedule constraints). Aerobic fitness (VO2peak) was measured using ramp-type progressive cycle ergometry, habitual sleep (i.e., sleep-time consistency and circadian activity patterns) was assessed with 7-day actigraphy, and ad lib sleep was evaluated during overnight polysomnography (PSG) with high-density electroencephalography (hdEEG; 128 channels). Spectral analysis was implemented to quantify SWA (0.5-4.5Hz). Data were analyzed using linear regression analyses and exploratory independent samples t-tests. Results Negative correlations were observed between VO2peak and sleep measures including sleep-time consistency (partial r=-0.53, p=0.045) and timing/acrophase of the circadian activity rhythm (partial r=-0.64, p=0.01) while controlling for sex and age. Additionally, after accounting for Tanner stage and sex, data demonstrated significant effects in SWA at frontal derivations (p=0.024) between low and high fitness levels at topographically specific and meaningful EEG derivations, e.g. over frontal cortex. Conclusion These results suggest that children and adolescents with greater fitness have less variability in sleep-times (improved sleep consistency), tend to have a more advanced circadian activity phase (i.e., go to sleep earlier), and express greater frontal SWA, supporting the hypothesis that fitness is associated with improved local and global sleep quality. Future research with larger samples is necessary to further evaluate these relationships, and to determine if interventions that improve fitness also improve sleep and related brain plasticity. Support NCATS grant #UL1TR001414 & PERC Systems Biology Fund

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Error Awareness Revisited: Accumulation of Multimodal Evidence from Central and Autonomic Nervous Systems

Journal of Cognitive Neuroscience ◽

10.1162/jocn.2011.21635 ◽

2011 ◽

Vol 23 (10) ◽

pp. 3021-3036 ◽

Cited By ~ 118

Author(s):

Jan R. Wessel ◽

Claudia Danielmeier ◽

Markus Ullsperger

Keyword(s):

Heart Rate ◽

Performance Monitoring ◽

Autonomic Nervous ◽

Error Awareness ◽

Error Related Negativity ◽

Positive Voltage ◽

Error Positivity ◽

Input Signals ◽

Rate Deceleration ◽

Brain Behavior

The differences between erroneous actions that are consciously perceived as errors and those that go unnoticed have recently become an issue in the field of performance monitoring. In EEG studies, error awareness has been suggested to influence the error positivity (Pe) of the response-locked event-related brain potential, a positive voltage deflection prominent approximately 300 msec after error commission, whereas the preceding error-related negativity (ERN) seemed to be unaffected by error awareness. Erroneous actions, in general, have been shown to promote several changes in ongoing autonomic nervous system (ANS) activity, yet such investigations have only rarely taken into account the question of subjective error awareness. In the first part of this study, heart rate, pupillometry, and EEG were recorded during an antisaccade task to measure autonomic arousal and activity of the CNS separately for perceived and unperceived errors. Contrary to our expectations, we observed differences in both Pe and ERN with respect to subjective error awareness. This was replicated in a second experiment, using a modified version of the same task. In line with our predictions, only perceived errors provoke the previously established post-error heart rate deceleration. Also, pupil size yields a more prominent dilatory effect after an erroneous saccade, which is also significantly larger for perceived than unperceived errors. On the basis of the ERP and ANS results as well as brain–behavior correlations, we suggest a novel interpretation of the implementation and emergence of error awareness in the brain. In our framework, several systems generate input signals (e.g., ERN, sensory input, proprioception) that influence the emergence of error awareness, which is then accumulated and presumably reflected in later potentials, such as the Pe.

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Brain maturation: Predicting individual BrainAGE in children and adolescents using structural MRI

NeuroImage ◽

10.1016/j.neuroimage.2012.08.001 ◽

2012 ◽

Vol 63 (3) ◽

pp. 1305-1312 ◽

Cited By ~ 130

Author(s):

Katja Franke ◽

Eileen Luders ◽

Arne May ◽

Marko Wilke ◽

Christian Gaser

Keyword(s):

Children And Adolescents ◽

Structural Mri ◽

Brain Maturation

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The Role of Intact Frontostriatal Circuits in Error Processing

Journal of Cognitive Neuroscience ◽

10.1162/jocn.2006.18.4.651 ◽

2006 ◽

Vol 18 (4) ◽

pp. 651-664 ◽

Cited By ~ 110

Author(s):

Markus Ullsperger ◽

D. Yves von Cramon

Keyword(s):

Prefrontal Cortex ◽

Basal Ganglia ◽

Anterior Cingulate Cortex ◽

Performance Monitoring ◽

Brain Plasticity ◽

Cingulate Cortex ◽

Anterior Cingulate ◽

Cortical Circuits ◽

Lateral Prefrontal Cortex ◽

Error Related Negativity

The basal ganglia have been suggested to play a key role in performance monitoring and resulting behavioral adjustments. It is assumed that the integration of prefrontal and motor cortico—striato—thalamo—cortical circuits provides contextual information to the motor anterior cingulate cortex regions to enable their function in performance monitoring. So far, direct evidence is missing, however. We addressed the involvement of frontostriatal circuits in performance monitoring by collecting event-related brain potentials (ERPs) and behavioral data in nine patients with focal basal ganglia lesions and seven patients with lateral prefrontal cortex lesions while they performed a flanker task. In both patient groups, the amplitude of the error-related negativity was reduced, diminishing the difference to the ERPs on correct responses. Despite these electrophysiological abnormalities, most of the patients were able to correct errors. Only in lateral prefrontal cortex patients whose lesions extended into the frontal white matter, disrupting the connections to the motor anterior cingulate cortex and the striatum, were error corrections severely impaired. In sum, the fronto—striato—thalamo—cortical circuits seem necessary for the generation of error-related negativity, even when brain plasticity has resulted in behavioral compensation of the damage. Thus, error-related ERPs in patients provide a sensitive measure of the integrity of the performance monitoring network.

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Conflict monitoring, error detection, and inhibition: behavioural and electrophysiological features

10.32920/ryerson.14647125.v1 ◽

2021 ◽

Author(s):

Peter Egeto

Keyword(s):

Error Detection ◽

Performance Monitoring ◽

Event Related Potentials ◽

Error Monitoring ◽

Conflict Monitoring ◽

Error Awareness ◽

Error Related Negativity ◽

Error Positivity ◽

Related Potentials ◽

Inhibition Index

Event-related potentials of performance monitoring, including N2 (conflict monitoring), error-related negativity and error positivity (ERN and Pe; error monitoring), and P3 (inhibition) have been studied. However, conflict monitoring lacks a behavioural measure, and the functional significance of ERN, Pe, and P3 are debated. To address these issues, a behavioural measure of conflict monitoring was tested by subtracting the reaction time (RT) of a simple from a choice RT task to isolate conflict monitoring; the functions of error monitoring and inhibition were examined. The RT difference correlated with the N2 area (longer conflict monitoring related to a larger N2). ERN and Pe areas were negatively and positively correlated with errors, respectively. P3 magnitude and onset were correlated with an inhibition index. The new behavioural measure provides an accessible way to study conflict monitoring. Theories of conflict monitoring for ERN, error awareness for Pe, and inhibition for P3 were replicated and extended.

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Error-Related Activity in Striatal Local Field Potentials and Medial Frontal Cortex: Evidence From Patients With Severe Opioid Abuse Disorder

Frontiers in Human Neuroscience ◽

10.3389/fnhum.2020.627564 ◽

2021 ◽

Vol 14 ◽

Author(s):

Elena Sildatke ◽

Thomas Schüller ◽

Theo O. J. Gründler ◽

Markus Ullsperger ◽

Veerle Visser-Vandewalle ◽

...

Keyword(s):

Local Field ◽

Performance Monitoring ◽

Flanker Task ◽

Local Field Potentials ◽

Opioid Abuse ◽

Error Processing ◽

Field Potentials ◽

Error Awareness ◽

Error Related Negativity ◽

Behavioral Adaptations

For successful goal-directed behavior, a performance monitoring system is essential. It detects behavioral errors and initiates behavioral adaptations to improve performance. Two electrophysiological potentials are known to follow errors in reaction time tasks: the error-related negativity (ERN), which is linked to error processing, and the error positivity (Pe), which is associated with subjective error awareness. Furthermore, the correct-related negativity (CRN) is linked to uncertainty about the response outcome. Here we attempted to identify the involvement of the nucleus accumbens (NAc) in the aforementioned performance monitoring processes. To this end, we simultaneously recorded cortical activity (EEG) and local field potentials (LFP) during a flanker task performed by four patients with severe opioid abuse disorder who underwent electrode implantation in the NAc for deep brain stimulation. We observed significant accuracy-related modulations in the LFPs at the time of the ERN/CRN in two patients and at the time of Pe in three patients. These modulations correlated with the ERN in 2/8, with CRN in 5/8 and with Pe in 6/8, recorded channels, respectively. Our results demonstrate the functional interrelation of striatal and cortical processes in performance monitoring specifically related to error processing and subjective error awareness.

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Developmental and Prosocial Dimensions of Hypo-egoic Phenomena

10.1093/oxfordhb/9780199328079.013.6 ◽

2016 ◽

Author(s):

Susan Harter

Keyword(s):

Individual Differences ◽

Prosocial Behavior ◽

Children And Adolescents ◽

Perspective Taking ◽

Cognitive Skills ◽

Developmental Changes ◽

Childhood And Adolescence ◽

True Self ◽

Developmental Transitions

This chapter provides a developmental perspective on phenomena that involve a hypo-egoic perspective—such as perspective taking, prosocial behavior, empathy, true-self behavior, and self-coherence—with a focus on whether hypo-egoic processes that have been described in adult populations also exist in childhood and adolescence. The chapter examines the extent to which children and adolescents have the cognitive skills to engage in various hypo-egoic behaviors and explores the motives that might underlie hypo-egoic phenomena at different developmental levels. Along the way, the development of skills and motives that promote self-absorbed and self-aggrandizing tendencies, such as egocentrism and narcissism, are also discussed. The role of cognitive-developmental changes, socially driven developmental transitions, developmentally salient needs, and individual differences in parenting and socialization practices on hypo-egoic perspectives and behaviors are also examined.

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