Generalized Poincaré plots analysis of heart period dynamics in different physiological conditions: Trained vs. untrained men

Generalized Poincaré plots analysis of heart period dynamics in different physiological conditions: Trained vs. untrained men

Recently we proposed a new method called generalized Poincaré plot (gPp) analysis which gave a new insight into the pattern of neurocaridac control. In this study we examined potential of gPp method to reveal changes in cardiac neural control in young athletes during three conditions: supine rest, r...

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Veröffentlicht in:PloS one 2019-07, Vol.14 (7), p.e0219281-e0219281
Hauptverfasser: Platiša, Mirjana M, Bojić, Tijana, Mazić, Sanja, Kalauzi, Aleksandar
Format: Artikel
Sprache:eng
Schlagworte:
Adult
Athletes
Biology and Life Sciences
Biometry - methods
Cardiac arrhythmia
Change detection
Correlation coefficient
Correlation coefficients
Data Analysis
Fitness equipment
Fitness training programs
Heart - physiology
Heart rate
Heart Rate - physiology
Humans
Intervals
Laboratories
Male
Medicine
Medicine and Health Sciences
Methods
Nervous system
Physiology
Regulatory mechanisms (biology)
Research and Analysis Methods
Rest - physiology
Running
Running - physiology
Sinuses
Sleep
Time series
Young Adult
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creator Platiša, Mirjana M
Bojić, Tijana
Mazić, Sanja
Kalauzi, Aleksandar
description Recently we proposed a new method called generalized Poincaré plot (gPp) analysis which gave a new insight into the pattern of neurocaridac control. In this study we examined potential of gPp method to reveal changes in cardiac neural control in young athletes during three conditions: supine rest, running and relaxation, with respect to untrained subjects. This method is based on the quantification of Pearson's correlation coefficients r(j, k), between symmetrical (j = k) and asymmetrical summed j previous and k following RR intervals up to the 100th order (j,k≤100). Differences between groups were obtained at all levels of this analysis. The main result is the significant difference of NAI, normalized index of asymmetry, between groups in running, which was originated in different positions of local maxima of r(j, k). Compared with untrained subjects, these findings indicate modified neural control and altered intrinsic heart rate behavior in athletes which are related to some kind of memory mechanism between RR intervals. Obtained results provide great potential of gPp method analysis in the recognition of changes in neurocardiac control in healthy subjects. Further studies are needed for identification of altered cardiac regulatory mechanisms whose background may be useful in the evaluation of genesis of athletes neurocardiovascular pathology.
doi_str_mv 10.1371/journal.pone.0219281
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In this study we examined potential of gPp method to reveal changes in cardiac neural control in young athletes during three conditions: supine rest, running and relaxation, with respect to untrained subjects. This method is based on the quantification of Pearson's correlation coefficients r(j, k), between symmetrical (j = k) and asymmetrical summed j previous and k following RR intervals up to the 100th order (j,k≤100). Differences between groups were obtained at all levels of this analysis. The main result is the significant difference of NAI, normalized index of asymmetry, between groups in running, which was originated in different positions of local maxima of r(j, k). Compared with untrained subjects, these findings indicate modified neural control and altered intrinsic heart rate behavior in athletes which are related to some kind of memory mechanism between RR intervals. 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In this study we examined potential of gPp method to reveal changes in cardiac neural control in young athletes during three conditions: supine rest, running and relaxation, with respect to untrained subjects. This method is based on the quantification of Pearson's correlation coefficients r(j, k), between symmetrical (j = k) and asymmetrical summed j previous and k following RR intervals up to the 100th order (j,k≤100). Differences between groups were obtained at all levels of this analysis. The main result is the significant difference of NAI, normalized index of asymmetry, between groups in running, which was originated in different positions of local maxima of r(j, k). Compared with untrained subjects, these findings indicate modified neural control and altered intrinsic heart rate behavior in athletes which are related to some kind of memory mechanism between RR intervals. Obtained results provide great potential of gPp method analysis in the recognition of changes in neurocardiac control in healthy subjects. Further studies are needed for identification of altered cardiac regulatory mechanisms whose background may be useful in the evaluation of genesis of athletes neurocardiovascular pathology.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>31276529</pmid><doi>10.1371/journal.pone.0219281</doi><orcidid>https://orcid.org/0000-0002-0915-2823</orcidid><oa>free_for_read</oa></addata></record>
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subjects Adult
Athletes
Biology and Life Sciences
Biometry - methods
Cardiac arrhythmia
Change detection
Correlation coefficient
Correlation coefficients
Data Analysis
Fitness equipment
Fitness training programs
Heart - physiology
Heart rate
Heart Rate - physiology
Humans
Intervals
Laboratories
Male
Medicine
Medicine and Health Sciences
Methods
Nervous system
Physiology
Regulatory mechanisms (biology)
Research and Analysis Methods
Rest - physiology
Running
Running - physiology
Sinuses
Sleep
Time series
Young Adult
title Generalized Poincaré plots analysis of heart period dynamics in different physiological conditions: Trained vs. untrained men
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