Effects of Dynamic Resilience on the Reactivity of Vagally Mediated Heart Rate Variability

doi:10.3389/fpsyg.2020.579210

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Effects of Dynamic Resilience on the Reactivity of Vagally Mediated Heart Rate Variability

Crameri, L, Hettiarachchi, Imali and Hanoun, Samer 2021, Effects of Dynamic Resilience on the Reactivity of Vagally Mediated Heart Rate Variability, Frontiers in Psychology, vol. 11, pp. 1-16, doi: 10.3389/fpsyg.2020.579210.

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Title	Effects of Dynamic Resilience on the Reactivity of Vagally Mediated Heart Rate Variability
Author(s)	Crameri, L Hettiarachchi, Imali orcid.org/0000-0002-4220-0970 Hanoun, Samer orcid.org/0000-0002-8697-1515
Journal name	Frontiers in Psychology
Volume number	11
Article ID	579210
Start page	1
End page	16
Total pages	16
Publisher	Frontiers Media
Place of publication	Lausanne, Switzerland
Publication date	2021-01-20
ISSN	1664-1078 1664-1078
Keyword(s)	cognitive assessment dynamic resilience heart rate variability human performance psychology physiological markers Social Sciences Psychology, Multidisciplinary Psychology NEUROVISCERAL INTEGRATION HUMAN-PERFORMANCE TANK THEORY 3 RS STRESS MODEL AXIS METAANALYSIS VALIDATION INDICATORS
Summary	Dynamic resilience is a novel concept that aims to quantify how individuals are coping while operating in dynamic and complex task environments. A recently developed dynamic resilience measure, derived through autoregressive modeling, offers an avenue toward dynamic resilience classification that may yield valuable information about working personnel for industries such as defense and elite sport. However, this measure classifies dynamic resilience based upon in-task performance rather than self-regulating cognitive structures; thereby, lacking any supported self-regulating cognitive links to the dynamic resilience framework. Vagally mediated heart rate variability (vmHRV) parameters are potential physiological measures that may offer an opportunity to link self-regulating cognitive structures to dynamic resilience given their supported connection to the self-regulation of stress. This study examines if dynamic resilience classifications reveal significant differences in vagal reactivity between higher, moderate and lower dynamic resilience groups, as participants engage in a dynamic, decision-making task. An amended Three Rs paradigm was implemented that examined vagal reactivity across six concurrent vmHRV reactivity segments consisting of lower and higher task load. Overall, the results supported significant differences between higher and moderate dynamic resilience groups' vagal reactivity but rejected significant differences between the lower dynamic resilience group. Additionally, differences in vagal reactivity across vmHRV reactivity segments within an amended Three Rs paradigm were partially supported. Together, these findings offer support toward linking dynamic resilience to temporal self-regulating cognitive structures that play a role in mediating physiological adaptations during task engagement.
Language	eng
DOI	10.3389/fpsyg.2020.579210
Field of Research	1701 Psychology 1702 Cognitive Sciences
HERDC Research category	C1 Refereed article in a scholarly journal
Free to Read?	Yes
Persistent URL	http://hdl.handle.net/10536/DRO/DU:30148042

Document type:	Journal Article
Collections:	Institute for Intelligent Systems Research and Innovation (IISRI) Open Access Collection

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Created:	Sun, 14 Feb 2021, 09:48:52 EST