An investigation of cardiac vagal tone over time and its relation to vigilance performance: a growth curve modeling approach

An investigation of cardiac vagal tone over time and its relation to vigilance performance: a growth curve modeling approach

Research over the last couple of decades has demonstrated a relationship between psychophysiological measures, specifically cardiac functions, and cognitive performance. Regulation of the cardiac system under parasympathetic control is commonly referred to as cardiac vagal tone and is associated wit...

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Bibliographic Details
Published in:Frontiers in neuroergonomics Vol. 4; p. 1244658
Main Authors: McGarry, Shannon P D, Neilson, Brittany N, Brown, Noelle L, Strong, Kaylin D, Greenlee, Eric T, Klein, Martina I, Coyne, Joseph T
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 11-12-2023
Subjects:
cardiac vagal tone
heart rate variability
individual differences
longitudinal growth curve modeling
Neuroergonomics
vigilance decrement
longitudinal growth curve modeling
cardiac vagal tone
vigilance decrement
heart rate variability
individual differences
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Summary:Research over the last couple of decades has demonstrated a relationship between psychophysiological measures, specifically cardiac functions, and cognitive performance. Regulation of the cardiac system under parasympathetic control is commonly referred to as cardiac vagal tone and is associated with the regulation of cognitive and socioemotional states. The goal of the current study was to capture the dynamic relationship between cardiac vagal tone and performance in a vigilance task. We implemented a longitudinal growth curve modeling approach which unveiled a relationship between cardiac vagal tone and vigilance that was non-monotonic and dependent upon each person. The findings suggest that cardiac vagal tone may be a process-based physiological measure that further explains how the vigilance decrement manifests over time and differs across individuals. This contributes to our understanding of vigilance by modeling individual differences in cardiac vagal tone changes that occur over the course of the vigilance task.
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Edited by: Carryl L. Baldwin, Wichita State University, United States
Reviewed by: Lorenzo Pasquini, Klinikum rechts der Isar, Germany; Chad L. Stephens, National Aeronautics and Space Administration (NASA), United States; Steven Chong, Wichita State University, United States
ISSN:2673-6195
2673-6195
DOI:10.3389/fnrgo.2023.1244658