Title :
Endogenous circadian control of the human autonomic nervous system
Author :
Hilton, Mf ; Umali, Mu ; Czeisler, Ca ; Wyatt, Jk ; Shea, Sa
Author_Institution :
Circadian, Neurpendocrome & Sleep Disorders Sect., Brigham Young Univ., Provo, UT, USA
Abstract :
To determine if an endogenous circadian rhythmicity, independent from sleep/wake cycles, exists in autonomic nervous system (ANS) function, heart rate variability analysis of electrocardiogram R-R intervals was applied to data collected during, a 27-day forced desynchrony protocol. Results during wakefulness indicate that the circadian pacemaker may control both the sympathetic and vagal limbs of the ANS. Vagal tone was maximal during the circadian phase corresponding to the usual sleep episode (although these measurements were made in the absence of sleep) with an acrophase at 4 AM to 5 AM. Sympathoragal balance was minimal between 9 AM and 1 PM: These endogenous circadian rhythms in ANS function may contribute to mortality from cardiovascular disease and nocturnal asthma
Keywords :
biocontrol; diseases; electrocardiography; medical signal processing; neurophysiology; sleep; 27 d; 27-day forced desynchrony protocol; acrophase; cardiovascular disease; circadian phase; electrocardiogram R-R intervals; endogenous circadian control; endogenous circadian rhythmicity; heart rate variability analysis; human autonomic nervous system; mortality; nocturnal asthma; sleep/wake cycles; sympathetic limb; vagal limb; vagal tone; Autonomic nervous system; Cardiovascular diseases; Circadian rhythm; Control systems; Heart rate variability; Humans; Pacemakers; Phase measurement; Protocols; Sleep;
Conference_Titel :
Computers in Cardiology 2000
Conference_Location :
Cambridge, MA
Print_ISBN :
0-7803-6557-7
DOI :
10.1109/CIC.2000.898490
