Concomitant Evaluation of Heart Period and QT Interval Variability Spectral Markers to Typify Cardiac Control in Humans and Rats

The variability of heart period, measured as the time distance between two consecutive QRS complexes from the electrocardiogram (RR), was exploited to infer cardiac vagal control, while the variability of the duration of the electrical activity of the heart, measured as the time interval from Q-wave...

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Autores principales: De Maria, Beatrice, Bari, Vlasta, Sgoifo, Andrea, Carnevali, Luca, Cairo, Beatrice, Vaini, Emanuele, Catai, Aparecida Maria, de Medeiros Takahashi, Anielle Cristhine, Dalla Vecchia, Laura Adelaide, Porta, Alberto
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2019
Materias:
Physiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6897045/
https://www.ncbi.nlm.nih.gov/pubmed/31849718
http://dx.doi.org/10.3389/fphys.2019.01478
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author De Maria, Beatrice
Bari, Vlasta
Sgoifo, Andrea
Carnevali, Luca
Cairo, Beatrice
Vaini, Emanuele
Catai, Aparecida Maria
de Medeiros Takahashi, Anielle Cristhine
Dalla Vecchia, Laura Adelaide
Porta, Alberto
author_facet De Maria, Beatrice
Bari, Vlasta
Sgoifo, Andrea
Carnevali, Luca
Cairo, Beatrice
Vaini, Emanuele
Catai, Aparecida Maria
de Medeiros Takahashi, Anielle Cristhine
Dalla Vecchia, Laura Adelaide
Porta, Alberto
author_sort De Maria, Beatrice
collection PubMed
description The variability of heart period, measured as the time distance between two consecutive QRS complexes from the electrocardiogram (RR), was exploited to infer cardiac vagal control, while the variability of the duration of the electrical activity of the heart, measured as the time interval from Q-wave onset to T-wave end (QT), was proposed as an indirect index of cardiac sympathetic modulation. This study tests the utility of the concomitant evaluation of RR variability (RRV) and QT variability (QTV) markers in typifying cardiac autonomic control of humans under different experimental conditions and of rat groups featuring documented differences in resting sympatho-vagal balance. We considered: (i) 23 healthy young subjects in resting supine position (REST) undergoing head-up tilt at 45° (T45) and 90° (T90) followed by recovery to the supine position; (ii) 9 Wistar (WI) and 14 wild-type Groningen (WT) rats in unstressed conditions, where the WT animals were classified as non-aggressive (non-AGG, n = 9) and aggressive (AGG, n = 5) according to the resident intruder test. In humans, spectral analysis of RRV and QTV was performed over a single stationary sequence of 250 consecutive values. In rats, spectral analysis was iterated over 10-min recordings with a frame length of 250 beats with 80% overlap and the median of the distribution of the spectral markers was extracted. Over RRV and QTV we computed the power in the low frequency (LF, from 0.04 to 0.15 Hz in humans and from 0.2 to 0.75 Hz in rats) band (LF(RR) and LF(QT)) and the power in the high frequency (HF, from 0.15 to 0.5 Hz in humans and from 0.75 to 2.5 Hz in rats) band (HF(RR) and HF(QT)). In humans the HF(RR) power was lower during T90 and higher during recovery compared to REST, while the LF(QT) power was higher during T90. In rats the HF(RR) power was lower in WT rats compared to WI rats and the LF(QT) power was higher in AGG than in non-AGG animals. We concluded that RRV and QTV provide complementary information in describing the functioning of vagal and sympathetic limbs of the autonomic nervous system in humans and rats.
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spelling pubmed-68970452019-12-17 Concomitant Evaluation of Heart Period and QT Interval Variability Spectral Markers to Typify Cardiac Control in Humans and Rats De Maria, Beatrice Bari, Vlasta Sgoifo, Andrea Carnevali, Luca Cairo, Beatrice Vaini, Emanuele Catai, Aparecida Maria de Medeiros Takahashi, Anielle Cristhine Dalla Vecchia, Laura Adelaide Porta, Alberto Front Physiol Physiology The variability of heart period, measured as the time distance between two consecutive QRS complexes from the electrocardiogram (RR), was exploited to infer cardiac vagal control, while the variability of the duration of the electrical activity of the heart, measured as the time interval from Q-wave onset to T-wave end (QT), was proposed as an indirect index of cardiac sympathetic modulation. This study tests the utility of the concomitant evaluation of RR variability (RRV) and QT variability (QTV) markers in typifying cardiac autonomic control of humans under different experimental conditions and of rat groups featuring documented differences in resting sympatho-vagal balance. We considered: (i) 23 healthy young subjects in resting supine position (REST) undergoing head-up tilt at 45° (T45) and 90° (T90) followed by recovery to the supine position; (ii) 9 Wistar (WI) and 14 wild-type Groningen (WT) rats in unstressed conditions, where the WT animals were classified as non-aggressive (non-AGG, n = 9) and aggressive (AGG, n = 5) according to the resident intruder test. In humans, spectral analysis of RRV and QTV was performed over a single stationary sequence of 250 consecutive values. In rats, spectral analysis was iterated over 10-min recordings with a frame length of 250 beats with 80% overlap and the median of the distribution of the spectral markers was extracted. Over RRV and QTV we computed the power in the low frequency (LF, from 0.04 to 0.15 Hz in humans and from 0.2 to 0.75 Hz in rats) band (LF(RR) and LF(QT)) and the power in the high frequency (HF, from 0.15 to 0.5 Hz in humans and from 0.75 to 2.5 Hz in rats) band (HF(RR) and HF(QT)). In humans the HF(RR) power was lower during T90 and higher during recovery compared to REST, while the LF(QT) power was higher during T90. In rats the HF(RR) power was lower in WT rats compared to WI rats and the LF(QT) power was higher in AGG than in non-AGG animals. We concluded that RRV and QTV provide complementary information in describing the functioning of vagal and sympathetic limbs of the autonomic nervous system in humans and rats. Frontiers Media S.A. 2019-11-29 /pmc/articles/PMC6897045/ /pubmed/31849718 http://dx.doi.org/10.3389/fphys.2019.01478 Text en Copyright © 2019 De Maria, Bari, Sgoifo, Carnevali, Cairo, Vaini, Catai, de Medeiros Takahashi, Dalla Vecchia and Porta. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Physiology
De Maria, Beatrice
Bari, Vlasta
Sgoifo, Andrea
Carnevali, Luca
Cairo, Beatrice
Vaini, Emanuele
Catai, Aparecida Maria
de Medeiros Takahashi, Anielle Cristhine
Dalla Vecchia, Laura Adelaide
Porta, Alberto
Concomitant Evaluation of Heart Period and QT Interval Variability Spectral Markers to Typify Cardiac Control in Humans and Rats
title Concomitant Evaluation of Heart Period and QT Interval Variability Spectral Markers to Typify Cardiac Control in Humans and Rats
title_full Concomitant Evaluation of Heart Period and QT Interval Variability Spectral Markers to Typify Cardiac Control in Humans and Rats
title_fullStr Concomitant Evaluation of Heart Period and QT Interval Variability Spectral Markers to Typify Cardiac Control in Humans and Rats
title_full_unstemmed Concomitant Evaluation of Heart Period and QT Interval Variability Spectral Markers to Typify Cardiac Control in Humans and Rats
title_short Concomitant Evaluation of Heart Period and QT Interval Variability Spectral Markers to Typify Cardiac Control in Humans and Rats
title_sort concomitant evaluation of heart period and qt interval variability spectral markers to typify cardiac control in humans and rats
topic Physiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6897045/
https://www.ncbi.nlm.nih.gov/pubmed/31849718
http://dx.doi.org/10.3389/fphys.2019.01478
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