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Title: Effects of bright light and melatonin on sleep propensity, temperature, and cardiac activity at night
Author(s): H.J. Burgess, T. Sletten, N. Savic, S.S. Gilbert and D. Dawson
Journal: J.Appl.Physiol
Year: 2001
Volume: 91
Issue: 3
Pages: 1214--1222
Publisher address: Centre for Sleep Research, University of South Australia, Woodville, South Australia 5011, Australia.
File URL: vuams-pubs/Burgess_2001.pdf
Keywords: administration & dosage, Adult, analysis, Anticonvulsants, Arrhythmia,Sinus, blood, Blood Pressure, Body Temperature, chemistry, Circadian Rhythm, drug effects, Female, Heart, Heart Rate, Humans, Lighting, Male, Melatonin, physiology, physiopathology, Pressure, Respiration, Saliva, Sleep, Sympathetic Nervous System, Time, Wakefulness
Abstract: Melatonin increases sleepiness, decreases core temperature, and increases peripheral temperature in humans. Melatonin may produce these effects by activating peripheral receptors or altering autonomic activity. The latter hypothesis was investigated in 16 supine subjects. Three conditions were created by using bright light and exogenous melatonin: normal endogenous, suppressed, and pharmacological melatonin levels. Data during wakefulness from 1.5 h before to 2.5 h after each subject's estimated melatonin onset (wake time + 14 h) were analyzed. Respiratory sinus arrhythmia (cardiac parasympathetic activity) and preejection period (cardiac sympathetic activity) did not vary among conditions. Pharmacological melatonin levels significantly decreased systolic blood pressure [5.75 +/- 1.65 (SE) mmHg] but did not significantly change heart rate. Suppressed melatonin significantly increased rectal temperature (0.27 +/- 0.06 degrees C), decreased foot temperature (1.98 +/- 0.70 degrees C), and increased sleep onset latency (5.53 +/- 1.87 min). Thus melatonin does not significantly alter cardiac autonomic activity and instead may bind to peripheral receptors in the vasculature and heart. Furthermore, increases in cardiac parasympathetic activity before normal nighttime sleep cannot be attributed to the concomitant increase in endogenous melatonin

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