Cardiac and respiratory rhythms are highly nonlinear and nonstationary. As a result traditional time-domain techniques are often inadequate to characterize their complex dynamics. In this article, we introduce a novel technique to investigate the interactions between R-R intervals and respiratory phases based on their joint symbolic dynamics. To evaluate the technique, electrocardiograms (ECG) and respiratory signals were recorded in 13 healthy subjects in different body postures during spontaneous and controlled breathing. Herein, the R-R time series were extracted from ECG and respiratory phases were obtained from abdomen impedance belts using the Hilbert transform. Both time series were transformed into ternary symbol vectors based on th...
Although the basic determinants of cardiovascular and respiratory regulation are well described, the...
We propose a symbolic analysis framework for the quantitative characterization of complex dynamical ...
Heart rate and respiration display fluctuations that are interlinked by central regulatory mechanism...
Cardiac and respiratory rhythms are highly nonlinear and nonstationary. As a result traditional time...
Associate Editor Jane Grande-Allen oversaw the review of this article. Abstract—Cardiac and respirat...
Cardio-respiratory dynamics exhibit complex behaviour and underlying mechanisms responsible for thei...
Abstract—Cardio-respiratory dynamics exhibit complex be-haviour and underlying mechanisms responsibl...
The aim of this paper was to study interactions between R-R intervals and respiratory phases in heal...
Human physiological systems are a widely studied topic in the field of Biomedical Engineering. There...
© Copyright 2005 IEEEAssessing autonomic control provides information about patho-physiological imba...
The aim of this study was to quantify cardiorespiratory interaction in patients with obstructive sle...
Traditional time-domain techniques of data analysis are often not sufficient to characterize the com...
Beat-to-beat variations in heart period provide information on cardiovascular control and are closel...
In this study we assessed the effect of body postural changes from the supine (Sup) to the upright (...
Respiratory sinus arrhythmia (RSA), the natural variation in heart rate synchronized with respiratio...
Although the basic determinants of cardiovascular and respiratory regulation are well described, the...
We propose a symbolic analysis framework for the quantitative characterization of complex dynamical ...
Heart rate and respiration display fluctuations that are interlinked by central regulatory mechanism...
Cardiac and respiratory rhythms are highly nonlinear and nonstationary. As a result traditional time...
Associate Editor Jane Grande-Allen oversaw the review of this article. Abstract—Cardiac and respirat...
Cardio-respiratory dynamics exhibit complex behaviour and underlying mechanisms responsible for thei...
Abstract—Cardio-respiratory dynamics exhibit complex be-haviour and underlying mechanisms responsibl...
The aim of this paper was to study interactions between R-R intervals and respiratory phases in heal...
Human physiological systems are a widely studied topic in the field of Biomedical Engineering. There...
© Copyright 2005 IEEEAssessing autonomic control provides information about patho-physiological imba...
The aim of this study was to quantify cardiorespiratory interaction in patients with obstructive sle...
Traditional time-domain techniques of data analysis are often not sufficient to characterize the com...
Beat-to-beat variations in heart period provide information on cardiovascular control and are closel...
In this study we assessed the effect of body postural changes from the supine (Sup) to the upright (...
Respiratory sinus arrhythmia (RSA), the natural variation in heart rate synchronized with respiratio...
Although the basic determinants of cardiovascular and respiratory regulation are well described, the...
We propose a symbolic analysis framework for the quantitative characterization of complex dynamical ...
Heart rate and respiration display fluctuations that are interlinked by central regulatory mechanism...