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Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine

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Zeitschriftentitel: Journal of Autonomic Pharmacology
Personen und Körperschaften: Bernardi, M., Deslauriers, R., Docherty, J., Galeazzi, G., Rossini, L., Rossini, P.
In: Journal of Autonomic Pharmacology, 17, 1997, 1, S. 27-34
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Pharmacology
General Neuroscience
author_facet Bernardi, M.
Deslauriers, R.
Docherty, J.
Galeazzi, G.
Rossini, L.
Rossini, P.
Bernardi, M.
Deslauriers, R.
Docherty, J.
Galeazzi, G.
Rossini, L.
Rossini, P.
author Bernardi, M.
Deslauriers, R.
Docherty, J.
Galeazzi, G.
Rossini, L.
Rossini, P.
spellingShingle Bernardi, M.
Deslauriers, R.
Docherty, J.
Galeazzi, G.
Rossini, L.
Rossini, P.
Journal of Autonomic Pharmacology
Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
Pharmacology
General Neuroscience
author_sort bernardi, m.
spelling Bernardi, M. Deslauriers, R. Docherty, J. Galeazzi, G. Rossini, L. Rossini, P. 0144-1795 1365-2680 Wiley Pharmacology General Neuroscience http://dx.doi.org/10.1046/j.1365-2680.1997.00437.x <jats:p> <jats:bold>1</jats:bold> Within the context of neural regulation of the activity of sinus node pacemaker cells, the study of heart rate variability, as explored in the frequency domain by spectral analysis, was proposed about 15 years ago as a quantitative tool for the evaluation of short‐term autonomic cardiovascular control. It has since been postulated that the two main oscillations observed, one at low and the other at high frequency, may respectively be markers of sympathetic vs. vagal efferent cardiac activity, and that the low‐ and high‐frequency signals may reflect a reciprocal or ‘push–pull’ relationship between sympathetic and parasympathetic control.</jats:p><jats:p> <jats:bold>2 </jats:bold>In our power spectra assessment, ECG R–R intervals were submitted to fast Fourier transformation analysis in order to study the mechanisms underlying the control of heart beats in rats. Data were acquired in conditions of steady arterial blood pressure and cardiac and respiratory activity (spontaneous or artificially stimulated) in diethyl‐ether‐anaesthetized and pithed rats, as well as in a group of control rats, all in the presence and absence of <jats:italic>l</jats:italic>‐hyoscyamine.</jats:p><jats:p> <jats:bold>3 </jats:bold>With increasing doses of the parasympathetic antagonist, the fractal dimension of the time‐series structure remained stable in most cases. The low‐frequency spectral component narrowed with increasing drug doses and the high‐frequency band underwent either no, or only very slight, changes.</jats:p><jats:p> <jats:bold>4 </jats:bold>In these rodent assays, the low‐ and high‐frequency signals cannot be interpreted as a push–pull relationship between sympathetic and parasympathetic control.</jats:p> Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with <i>l</i>‐hyoscyamine Journal of Autonomic Pharmacology
doi_str_mv 10.1046/j.1365-2680.1997.00437.x
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series Journal of Autonomic Pharmacology
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title Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_unstemmed Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_full Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_fullStr Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_full_unstemmed Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_short Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_sort spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with <i>l</i>‐hyoscyamine
topic Pharmacology
General Neuroscience
url http://dx.doi.org/10.1046/j.1365-2680.1997.00437.x
publishDate 1997
physical 27-34
description <jats:p> <jats:bold>1</jats:bold> Within the context of neural regulation of the activity of sinus node pacemaker cells, the study of heart rate variability, as explored in the frequency domain by spectral analysis, was proposed about 15 years ago as a quantitative tool for the evaluation of short‐term autonomic cardiovascular control. It has since been postulated that the two main oscillations observed, one at low and the other at high frequency, may respectively be markers of sympathetic vs. vagal efferent cardiac activity, and that the low‐ and high‐frequency signals may reflect a reciprocal or ‘push–pull’ relationship between sympathetic and parasympathetic control.</jats:p><jats:p> <jats:bold>2 </jats:bold>In our power spectra assessment, ECG R–R intervals were submitted to fast Fourier transformation analysis in order to study the mechanisms underlying the control of heart beats in rats. Data were acquired in conditions of steady arterial blood pressure and cardiac and respiratory activity (spontaneous or artificially stimulated) in diethyl‐ether‐anaesthetized and pithed rats, as well as in a group of control rats, all in the presence and absence of <jats:italic>l</jats:italic>‐hyoscyamine.</jats:p><jats:p> <jats:bold>3 </jats:bold>With increasing doses of the parasympathetic antagonist, the fractal dimension of the time‐series structure remained stable in most cases. The low‐frequency spectral component narrowed with increasing drug doses and the high‐frequency band underwent either no, or only very slight, changes.</jats:p><jats:p> <jats:bold>4 </jats:bold>In these rodent assays, the low‐ and high‐frequency signals cannot be interpreted as a push–pull relationship between sympathetic and parasympathetic control.</jats:p>
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author Bernardi, M., Deslauriers, R., Docherty, J., Galeazzi, G., Rossini, L., Rossini, P.
author_facet Bernardi, M., Deslauriers, R., Docherty, J., Galeazzi, G., Rossini, L., Rossini, P., Bernardi, M., Deslauriers, R., Docherty, J., Galeazzi, G., Rossini, L., Rossini, P.
author_sort bernardi, m.
container_issue 1
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container_title Journal of Autonomic Pharmacology
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description <jats:p> <jats:bold>1</jats:bold> Within the context of neural regulation of the activity of sinus node pacemaker cells, the study of heart rate variability, as explored in the frequency domain by spectral analysis, was proposed about 15 years ago as a quantitative tool for the evaluation of short‐term autonomic cardiovascular control. It has since been postulated that the two main oscillations observed, one at low and the other at high frequency, may respectively be markers of sympathetic vs. vagal efferent cardiac activity, and that the low‐ and high‐frequency signals may reflect a reciprocal or ‘push–pull’ relationship between sympathetic and parasympathetic control.</jats:p><jats:p> <jats:bold>2 </jats:bold>In our power spectra assessment, ECG R–R intervals were submitted to fast Fourier transformation analysis in order to study the mechanisms underlying the control of heart beats in rats. Data were acquired in conditions of steady arterial blood pressure and cardiac and respiratory activity (spontaneous or artificially stimulated) in diethyl‐ether‐anaesthetized and pithed rats, as well as in a group of control rats, all in the presence and absence of <jats:italic>l</jats:italic>‐hyoscyamine.</jats:p><jats:p> <jats:bold>3 </jats:bold>With increasing doses of the parasympathetic antagonist, the fractal dimension of the time‐series structure remained stable in most cases. The low‐frequency spectral component narrowed with increasing drug doses and the high‐frequency band underwent either no, or only very slight, changes.</jats:p><jats:p> <jats:bold>4 </jats:bold>In these rodent assays, the low‐ and high‐frequency signals cannot be interpreted as a push–pull relationship between sympathetic and parasympathetic control.</jats:p>
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spelling Bernardi, M. Deslauriers, R. Docherty, J. Galeazzi, G. Rossini, L. Rossini, P. 0144-1795 1365-2680 Wiley Pharmacology General Neuroscience http://dx.doi.org/10.1046/j.1365-2680.1997.00437.x <jats:p> <jats:bold>1</jats:bold> Within the context of neural regulation of the activity of sinus node pacemaker cells, the study of heart rate variability, as explored in the frequency domain by spectral analysis, was proposed about 15 years ago as a quantitative tool for the evaluation of short‐term autonomic cardiovascular control. It has since been postulated that the two main oscillations observed, one at low and the other at high frequency, may respectively be markers of sympathetic vs. vagal efferent cardiac activity, and that the low‐ and high‐frequency signals may reflect a reciprocal or ‘push–pull’ relationship between sympathetic and parasympathetic control.</jats:p><jats:p> <jats:bold>2 </jats:bold>In our power spectra assessment, ECG R–R intervals were submitted to fast Fourier transformation analysis in order to study the mechanisms underlying the control of heart beats in rats. Data were acquired in conditions of steady arterial blood pressure and cardiac and respiratory activity (spontaneous or artificially stimulated) in diethyl‐ether‐anaesthetized and pithed rats, as well as in a group of control rats, all in the presence and absence of <jats:italic>l</jats:italic>‐hyoscyamine.</jats:p><jats:p> <jats:bold>3 </jats:bold>With increasing doses of the parasympathetic antagonist, the fractal dimension of the time‐series structure remained stable in most cases. The low‐frequency spectral component narrowed with increasing drug doses and the high‐frequency band underwent either no, or only very slight, changes.</jats:p><jats:p> <jats:bold>4 </jats:bold>In these rodent assays, the low‐ and high‐frequency signals cannot be interpreted as a push–pull relationship between sympathetic and parasympathetic control.</jats:p> Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with <i>l</i>‐hyoscyamine Journal of Autonomic Pharmacology
spellingShingle Bernardi, M., Deslauriers, R., Docherty, J., Galeazzi, G., Rossini, L., Rossini, P., Journal of Autonomic Pharmacology, Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine, Pharmacology, General Neuroscience
title Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_full Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_fullStr Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_full_unstemmed Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_short Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
title_sort spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with <i>l</i>‐hyoscyamine
title_unstemmed Spectral analysis of intercycle heart fluctuations in the diethyl‐ether‐anaesthetized or pithed rat treated with l‐hyoscyamine
topic Pharmacology, General Neuroscience
url http://dx.doi.org/10.1046/j.1365-2680.1997.00437.x