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Sleep Processes Exert a Predominant Influence on the 24-h Profile of Heart Rate Variability

Laboratoire des Régulations Physiologiques et des Rythmes Biologiques chez l'Homme, 4 rue Kirschleger, 67085 Strasbourg Cedex–France; antoine.viola{at}medecine.u-strasbg.fr

Chantal Simon

Jean Ehrhart

Bernard Geny

Laboratoire des Régulations Physiologiques et des Rythmes Biologiques chez l'Homme, 67085 Strasbourg, France

François Piquard

Alain Muzet

Centre d'Etudes de Physiologie Appliquée, 67096 Strasbourg, France

Gabrielle Brandenberger

Laboratoire des Régulations Physiologiques et des Rythmes Biologiques chez l'Homme, 67085 Strasbourg, France

Adverse cardiovascular events are known to exhibit 24-h variations with a peak incidence in the morning hours and a nonuniform distribution during the night. The authors examined whether these 24-h variations could be related to circadian or sleep-related changes in heart rate (HR) and in HR variability (HRV). To differentiate the effect of circadian and sleep-related influences, independent of posture and of meal ingestion, seven normal subjects were studied over 24 h, once with nocturnal sleep from 2300 to 0700 h and once after a night of sleep deprivation followed by8hof daytime sleep from 0700 to 1500 h. The subjects were submitted to constant conditions (continuous enteral nutrition and bed rest). HRV was calculated every 5 min using two indexes: the standard deviation of normal R-R intervals (SDNN) and the ratio of low-frequency to low-frequency plus high-frequency power. Sleep processes exerted a predominant influence on the 24-h profiles of HR and HRV, with lowest HRV levels during slow wave sleep, high levels during REM sleep and intrasleep awakenings, and abrupt increases in HR at each transition from deeper sleep to lighter sleep or awakenings. The circadian influence was smaller, except for SDNN, which displayed a nocturnal increase of 140% whether the subjects slept or not. This study demonstrates that 24-h variations in HR and HRV are little influenced by the circadian clock and are mainly sleep-stage dependent. The results suggest an important role for exogenous factors in the morning increase in cardiovascular events. During sleep, the sudden rises in HR at each transition from deeper sleep to lighter sleep or awakenings might precipitate the adverse cardiac events.

Key Words: circadian rhythm • sleep • heart rate • heart rate variability • autonomic nervous system

Journal of Biological Rhythms, Vol. 17, No. 6, 539-547 (2002)
DOI: 10.1177/0748730402238236


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