Erschienen in:
01.03.2015 | Original Article
Respiratory sinus arrhythmia stabilizes mean arterial blood pressure at high-frequency interval in healthy humans
verfasst von:
Maja Elstad, Lars Walløe, Nathalie L. A. Holme, Elke Maes, Marianne Thoresen
Erschienen in:
European Journal of Applied Physiology
|
Ausgabe 3/2015
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Abstract
Purpose
Arterial blood pressure variations are an independent risk factor for end organ failure. Respiratory sinus arrhythmia (RSA) is a sign of a healthy cardiovascular system. However, whether RSA counteracts arterial blood pressure variations during the respiratory cycle remains controversial. We restricted normal RSA with non-invasive intermittent positive pressure ventilation (IPPV) to test the hypothesis that RSA normally functions to stabilize mean arterial blood pressure.
Methods
Ten young volunteers were investigated during metronome-paced breathing and IPPV. Heart rate (ECG), mean arterial blood pressure and left stroke volume (finger arterial pressure curve) and right stroke volume (pulsed ultrasound Doppler) were recorded, while systemic and pulmonary blood flow were calculated beat-by-beat. Respiratory variations (high-frequency power, 0.15–0.40 Hz) in cardiovascular variables were estimated by spectral analysis. Phase angles and correlation were calculated by cross-spectral analysis.
Results
The magnitude of RSA was reduced from 4.9 bpm2 (95 % CI 3.0, 6.2) during metronome breathing to 2.8 bpm2 (95 % CI 1.1, 5.0) during IPPV (p = 0.03). Variations in mean arterial blood pressure were greater (2.3 mmHg2 (95 % CI 1.4, 3.9) during IPPV than during metronome breathing (1.0 mmHg2 [95 % CI 0.7, 1.3]) (p = 0.014). Respiratory variations in right and left stroke volumes were inversely related in the respiratory cycle during both metronome breathing and IPPV.
Conclusions
RSA magnitude is lower and mean arterial blood pressure variability is greater during IPPV than during metronome breathing. We conclude that in healthy humans, RSA stabilizes mean arterial blood pressure at respiratory frequency.