Effects of Early Adversity on Neural Mechanisms of Distractor Suppression Are Mediated by Sympathetic Nervous System Activity in Preschool-Aged Children

Multiple theoretical frameworks posit that interactions between the autonomic nervous system and higher-order neural networks are crucial for cognitive regulation. However, few studies have simultaneously examined autonomic physiology and brain activity during cognitive tasks. Such research is promi...

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Bibliographic Details
Published in:Developmental psychology 2018-09, Vol.54 (9), p.1674-1686
Main Authors: Giuliano, Ryan J., Karns, Christina M., Roos, Leslie E., Bell, Theodore A., Petersen, Seth, Skowron, Elizabeth A., Neville, Helen J., Pakulak, Eric
Format: Article
Language:English
Subjects:
Adversity
Anatomy
Arousal
At Risk Persons
Attention
Attention - physiology
Auditory Perception - physiology
Auditory Stimulation
Auditory Stimuli
Autonomic Nervous System
Brain
Brain activity
Central nervous system
Child development
Child, Preschool
Childrens health
Cognitive ability
Cognitive Processes
Cognitive tasks
Cross-Sectional Studies
Distraction
Early Childhood Development
Early Experience
Electrocardiography
Electroencephalography
Event-related potentials
Evoked Potentials
Female
Heart Rate
Heart Rate Variability
Human
Humans
Life stress
Male
Metabolism
Nervous system
Neural networks
Neurocognition
Parents
Physiology
Poverty - psychology
Preschool Children
Risk
Selective Attention
Socioeconomic Status
Sympathetic Nervous System
Sympathetic Nervous System - physiology
Variability
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Summary:Multiple theoretical frameworks posit that interactions between the autonomic nervous system and higher-order neural networks are crucial for cognitive regulation. However, few studies have simultaneously examined autonomic physiology and brain activity during cognitive tasks. Such research is promising for understanding how early adversity impacts neurocognitive development in children, given that stress experienced early in life impacts both autonomic function and regulatory behaviors. We recorded event-related potentials (ERPs) as a neural measure of auditory selective attention, and cardiovascular measures of high-frequency heart rate variability (HF-HRV) and preejection period (PEP), in 105 3-5-year-old children with varying degrees of socioeconomic risk. First, we replicated a previous study from our lab: Increased socioeconomic risk was associated with larger ERP amplitudes elicited by distracting sounds. Next, we tested whether PEP and HF-HRV (at rest and during the task) were associated with the distractor ERP response, and found that a physiological profile marked by heightened sympathetic nervous system activity, indexed by shorter PEP, was associated with better ERP suppression of distractor sounds in lower SES children. Finally, we found that PEP mediated the relationship between socioeconomic risk and larger ERP responses to distractor sounds. In line with similar reports, these results suggest that for lower SES children, there is a potential biological cost of achieving better cognitive performance, seen here as increased cardiovascular arousal both at rest and in response to task demands.
ISSN:0012-1649
1939-0599
DOI:10.1037/dev0000499