Sleep-wake differences in scaling behavior of the human heartbeat: Analysis of terrestrial and long-term space flight data
- 1 December 1999
- journal article
- research article
- Published by IOP Publishing in Europhysics Letters
- Vol. 48 (5) , 594-600
- https://doi.org/10.1209/epl/i1999-00525-0
Abstract
We compare scaling properties of the cardiac dynamics during sleep and wake periods for healthy individuals, cosmonauts during orbital flight, and subjects with severe heart disease. For all three groups, we find a greater degree of anticorrelation in the heartbeat fluctuations during sleep compared to wake periods. The sleep-wake difference in the scaling exponents for the three groups is comparable to the difference between healthy and diseased individuals. The observed scaling differences are not accounted for simply by different levels of activity, but appear related to intrinsic changes in the neuroautonomic control of the heartbeat.Keywords
All Related Versions
This publication has 26 references indexed in Scilit:
- Stochastic feedback and the regulation of biological rhythmsEurophysics Letters, 1998
- Effects of amiodarone on the circadiam pattern of sudden cardiac death (department of veterans affairs Congestive Heart Failure-Survival Trial of Antiarrhythmic Therapy)The American Journal of Cardiology, 1997
- Scaling behaviour of heartbeat intervals obtained by wavelet-based time-series analysisNature, 1996
- Heart rate dynamics during long-term space flight: Report on Mir cosmonautsAmerican Heart Journal, 1994
- Mosaic organization of DNA nucleotidesPhysical Review E, 1994
- Circadian pattern of arrythmic death in patients receiving encainide, Flecainide or moricizine in the cardiac arrhythmiaJournal of the American College of Cardiology, 1994
- Long-range anticorrelations and non-Gaussian behavior of the heartbeatPhysical Review Letters, 1993
- Circadian variation and influence of risk factors on heart rate variability in healthy subjectsThe American Journal of Cardiology, 1991
- Power Spectrum Analysis of Heart Rate Fluctuation: A Quantitative Probe of Beat-to-Beat Cardiovascular ControlScience, 1981
- Oscillation and Chaos in Physiological Control SystemsScience, 1977