Brain and core temperatures and peripheral vasomotion during sleep and wakefulness at various ambient temperatures in the rat

Brain and core temperatures and peripheral vasomotion during sleep and wakefulness at various ambient temperatures in the rat

Changes in brain, core and tail skin temperatures (Tbr, Tc and Tt) associated with transitions in the arousal states were recorded in rats throughout the 24-h diurnal cycle at 10 degrees C, 21 degrees C and 29 degrees C. Falling asleep was accompanied by decreases in both Tbr and Tc and vasodilation...

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Veröffentlicht in:Pflügers Archiv 1990-11, Vol.417 (3), p.336-341
Hauptverfasser: Alföldi, P, Rubicsek, G, Cserni, G, Obál, Jr, F
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Body Temperature - physiology
Body Temperature Regulation
Brain - physiology
Circadian Rhythm
Male
Rats
Rats, Inbred Strains
Skin Temperature - physiology
Sleep - physiology
Sleep, REM - physiology
Tail
Temperature
Vasomotor System - physiology
Wakefulness - physiology
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container_start_page 336
container_title Pflügers Archiv
container_volume 417
creator Alföldi, P
Rubicsek, G
Cserni, G
Obál, Jr, F
description Changes in brain, core and tail skin temperatures (Tbr, Tc and Tt) associated with transitions in the arousal states were recorded in rats throughout the 24-h diurnal cycle at 10 degrees C, 21 degrees C and 29 degrees C. Falling asleep was accompanied by decreases in both Tbr and Tc and vasodilation at 10 degrees C and 21 degrees C. At 29 degrees C, tail vessels were permanently dilated, and further dilation was not found on sleep onset. Tbr and Tc, however, continued to decrease during non-rapid-eye-movement sleep (NREMS); these changes are likely to result from reductions in heat production and increased conductive heat loss. The changes in Tbr, Tc and Tt on awakening mirrored those on falling asleep. It is suggested that the suppression of sleep in the cold and the enhancement of NREMS in the heat promote thermoregulation. Rapid-eye-movement sleep (REMS) was associated with sharp rises in Tbr. The rise in Tbr was the largest in the cold and was attenuated at 29 degrees C. Tc decreased and Tt increased in the cold, whereas Tc tended to increase and Tt to decrease in the heat. The paradoxical peripheral vasomotion during REMS supports previous suggestions on severe thermoregulatory impairment during REMS in other species.
doi_str_mv 10.1007/bf00371001
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source MEDLINE; SpringerLink Journals
subjects Animals
Body Temperature - physiology
Body Temperature Regulation
Brain - physiology
Circadian Rhythm
Male
Rats
Rats, Inbred Strains
Skin Temperature - physiology
Sleep - physiology
Sleep, REM - physiology
Tail
Temperature
Vasomotor System - physiology
Wakefulness - physiology
title Brain and core temperatures and peripheral vasomotion during sleep and wakefulness at various ambient temperatures in the rat
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