Bidirectional Cardio-Respiratory Interactions in Heart Failure.

Nikola N Radovanović,Mirjana M Platiša,Bratislav Kirćanski,Siniša U Pavlović,Goran Milašinović

doi:10.3389/fphys.2018.00165

Nikola N Radovanović, Mirjana M Platiša + Show 3 more

Open Access

https://doi.org/10.3389/fphys.2018.00165

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Abstract

We investigated cardio-respiratory coupling in patients with heart failure by quantification of bidirectional interactions between cardiac (RR intervals) and respiratory signals with complementary measures of time series analysis. Heart failure patients were divided into three groups of twenty, age and gender matched, subjects: with sinus rhythm (HF-Sin), with sinus rhythm and ventricular extrasystoles (HF-VES), and with permanent atrial fibrillation (HF-AF). We included patients with indication for implantation of implantable cardioverter defibrillator or cardiac resynchronization therapy device. ECG and respiratory signals were simultaneously acquired during 20 min in supine position at spontaneous breathing frequency in 20 healthy control subjects and in patients before device implantation. We used coherence, Granger causality and cross-sample entropy analysis as complementary measures of bidirectional interactions between RR intervals and respiratory rhythm. In heart failure patients with arrhythmias (HF-VES and HF-AF) there is no coherence between signals (p < 0.01), while in HF-Sin it is reduced (p < 0.05), compared with control subjects. In all heart failure groups causality between signals is diminished, but with significantly stronger causality of RR signal in respiratory signal in HF-VES. Cross-sample entropy analysis revealed the strongest synchrony between respiratory and RR signal in HF-VES group. Beside respiratory sinus arrhythmia there is another type of cardio-respiratory interaction based on the synchrony between cardiac and respiratory rhythm. Both of them are altered in heart failure patients. Respiratory sinus arrhythmia is reduced in HF-Sin patients and vanished in heart failure patients with arrhythmias. Contrary, in HF-Sin and HF-VES groups, synchrony increased, probably as consequence of some dominant neural compensatory mechanisms. The coupling of cardiac and respiratory rhythm in heart failure patients varies depending on the presence of atrial/ventricular arrhythmias and it could be revealed by complementary methods of time series analysis.

Highlights

The interaction of the cardiovascular and respiratory systems in healthy subjects has long been observed
heart failure (HF)-Sin patients had a lower average heart rate compared to the HF-ventricular extrasystoles (VES) and HF-AF patients (p < 0.01, both groups) and the control subjects (p < 0.05)
Breathing frequency was higher in patients with arrhythmias, HF-VES and HF-AF (p < 0.01, both groups) compared with the control subjects

Summary

Introduction

The interaction of the cardiovascular and respiratory systems in healthy subjects has long been observed. Over the last few decades heart rate variability (HRV) analysis in time and frequency domain has been used as a Cardio-Respiratory Coupling in Heart Failure noninvasive measure of RSA (Berntson et al, 1993; Task Force of the European society of cardiology the North American society of pacing electrophysiology, 1996). Another type of cardio-respiratory coupling was recognized as an inverse phenomenon of RSA, i.e., cardio-respiratory phase synchronization (Schäfer et al, 1998; Lotricand Stefanovska, 2000; Toledo et al, 2002; Bartsch et al, 2012). Studies including healthy subjects and patients have been conducted to better understand the regulatory and compensatory mechanisms, both those that are physiological and those that develop during disease progression (Schulz et al, 2013)

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