Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals—A Review

Cardiac parasympathetic activity may be non-invasively investigated using heart rate variability (HRV), although HRV is not widely accepted to reflect sympathetic activity. Instead, cardiac sympathetic activity may be investigated using systolic time intervals (STI), such as the pre-ejection period....

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Main Authors: Scott Michael, Kenneth S. Graham, Glen M. Davis
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-05-01
Series:Frontiers in Physiology
Subjects:
HRV
Online Access:http://journal.frontiersin.org/article/10.3389/fphys.2017.00301/full
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spelling doaj-60913847d22042aaa06d3980ce58e6ce2020-11-24T22:20:54ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2017-05-01810.3389/fphys.2017.00301259883Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals—A ReviewScott Michael0Kenneth S. Graham1Kenneth S. Graham2Glen M. Davis3Discipline of Exercise and Sports Science, Faculty of Health Sciences, University of SydneySydney, NSW, AustraliaDiscipline of Exercise and Sports Science, Faculty of Health Sciences, University of SydneySydney, NSW, AustraliaNew South Wales Institute of SportSydney, NSW, AustraliaDiscipline of Exercise and Sports Science, Faculty of Health Sciences, University of SydneySydney, NSW, AustraliaCardiac parasympathetic activity may be non-invasively investigated using heart rate variability (HRV), although HRV is not widely accepted to reflect sympathetic activity. Instead, cardiac sympathetic activity may be investigated using systolic time intervals (STI), such as the pre-ejection period. Although these autonomic indices are typically measured during rest, the “reactivity hypothesis” suggests that investigating responses to a stressor (e.g., exercise) may be a valuable monitoring approach in clinical and high-performance settings. However, when interpreting these indices it is important to consider how the exercise dose itself (i.e., intensity, duration, and modality) may influence the response. Therefore, the purpose of this investigation was to review the literature regarding how the exercise dosage influences these autonomic indices during exercise and acute post-exercise recovery. There are substantial methodological variations throughout the literature regarding HRV responses to exercise, in terms of exercise protocols and HRV analysis techniques. Exercise intensity is the primary factor influencing HRV, with a greater intensity eliciting a lower HRV during exercise up to moderate-high intensity, with minimal change observed as intensity is increased further. Post-exercise, a greater preceding intensity is associated with a slower HRV recovery, although the dose-response remains unclear. A longer exercise duration has been reported to elicit a lower HRV only during low-moderate intensity and when accompanied by cardiovascular drift, while a small number of studies have reported conflicting results regarding whether a longer duration delays HRV recovery. “Modality” has been defined multiple ways, with limited evidence suggesting exercise of a greater muscle mass and/or energy expenditure may delay HRV recovery. STI responses during exercise and recovery have seldom been reported, although limited data suggests that intensity is a key determining factor. Concurrent monitoring of HRV and STI may be a valuable non-invasive approach to investigate autonomic stress reactivity; however, this integrative approach has not yet been applied with regards to exercise stressors.http://journal.frontiersin.org/article/10.3389/fphys.2017.00301/fullparasympatheticHRVvagalsympatheticpre-ejection periodreactivity
collection DOAJ
language English
format Article
sources DOAJ
author Scott Michael
Kenneth S. Graham
Kenneth S. Graham
Glen M. Davis
spellingShingle Scott Michael
Kenneth S. Graham
Kenneth S. Graham
Glen M. Davis
Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals—A Review
Frontiers in Physiology
parasympathetic
HRV
vagal
sympathetic
pre-ejection period
reactivity
author_facet Scott Michael
Kenneth S. Graham
Kenneth S. Graham
Glen M. Davis
author_sort Scott Michael
title Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals—A Review
title_short Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals—A Review
title_full Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals—A Review
title_fullStr Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals—A Review
title_full_unstemmed Cardiac Autonomic Responses during Exercise and Post-exercise Recovery Using Heart Rate Variability and Systolic Time Intervals—A Review
title_sort cardiac autonomic responses during exercise and post-exercise recovery using heart rate variability and systolic time intervals—a review
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2017-05-01
description Cardiac parasympathetic activity may be non-invasively investigated using heart rate variability (HRV), although HRV is not widely accepted to reflect sympathetic activity. Instead, cardiac sympathetic activity may be investigated using systolic time intervals (STI), such as the pre-ejection period. Although these autonomic indices are typically measured during rest, the “reactivity hypothesis” suggests that investigating responses to a stressor (e.g., exercise) may be a valuable monitoring approach in clinical and high-performance settings. However, when interpreting these indices it is important to consider how the exercise dose itself (i.e., intensity, duration, and modality) may influence the response. Therefore, the purpose of this investigation was to review the literature regarding how the exercise dosage influences these autonomic indices during exercise and acute post-exercise recovery. There are substantial methodological variations throughout the literature regarding HRV responses to exercise, in terms of exercise protocols and HRV analysis techniques. Exercise intensity is the primary factor influencing HRV, with a greater intensity eliciting a lower HRV during exercise up to moderate-high intensity, with minimal change observed as intensity is increased further. Post-exercise, a greater preceding intensity is associated with a slower HRV recovery, although the dose-response remains unclear. A longer exercise duration has been reported to elicit a lower HRV only during low-moderate intensity and when accompanied by cardiovascular drift, while a small number of studies have reported conflicting results regarding whether a longer duration delays HRV recovery. “Modality” has been defined multiple ways, with limited evidence suggesting exercise of a greater muscle mass and/or energy expenditure may delay HRV recovery. STI responses during exercise and recovery have seldom been reported, although limited data suggests that intensity is a key determining factor. Concurrent monitoring of HRV and STI may be a valuable non-invasive approach to investigate autonomic stress reactivity; however, this integrative approach has not yet been applied with regards to exercise stressors.
topic parasympathetic
HRV
vagal
sympathetic
pre-ejection period
reactivity
url http://journal.frontiersin.org/article/10.3389/fphys.2017.00301/full
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