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Cardiovascular responses and electroencephalogram disturbances to intermittent noises: effects of nocturnal heat and daytime exposure (1991)

Bach, V. ; Libert, J. P. ; Tassi, P. ; [et al.]

Springer

European journal of applied physiology 63 (1991), S. 330-337

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ISSN: 1439-6327

Keywords: Human sleep ; Heart rate ; Noise ; Heat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary During sleep, in thermoneutral conditions, the noise of a passing vehicle induces a biphasic cardiac response, a transient peripheral vasoconstriction and sleep disturbances. The present study was performed to determine whether or not the physiological responses were modified in a hot environment or after daytime exposure to both heat and noise. Eight young men were exposed to a nocturnal thermoneutral (20° C) or hot (35° C) environment disturbed by traffic noise. During the night, the peak intensities were of 71 dB(A) for trucks, 67 dB(A) for motorbikes and 64 dB(A) for cars. The background noise level (pink noise) was set at 30 dB(A). The noises were randomly distributed at a rate of 9·h−1. Nights were equally preceded by day-time exposure to combined heat and noise or to no disturbance. During the day, the noises as well as the background noise levels were increased by 15 dB(A) and the rate was 48 · h−1. Electroencephalogram (EEG) measures of sleep, electrocardiograms and finger pulse amplitudes were continuously recorded. Regardless of the day condition, when compared with undisturbed nights, the nocturnal increase in the level of heart rate induced by heat exposure disappeared when noise was added. Percentages, delays, magnitudes and costs of cardiac and vascular responses as well as EEG events such as transient activation phases (TAP) due to noise were not affected by nocturnal thermal load or by the preceding daytime exposure to disturbances. Cardiovascular responses and TAP depended on the type of traffic noise and on the sleep stage during which noise occurred: motorbike noise provoked more disturbance than car or truck noise although the latter had the largest peak intensity. The TAP induced by noise were more frequent in stage 2 sleep than in other sleep stages. Cardiovascular responses were of lower amplitude in slow wave sleep (SWS) than in stage 2 sleep or in rapid eye movements (REM) sleep. These results suggested that the deleterious effect of noise on sleep depended on the type of noise (getting-up time and spectral composition) and that SWS was the least disturbed sleep stage when compared with stage 2 and REM sleep.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00364458

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Influence of repeated passive body heating on subsequent night sleep in humans (1989)

Nisi, J. ; Ehrhart, J. ; Galeou, M. ; [et al.]

Springer

European journal of applied physiology 59 (1989), S. 138-145

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ISSN: 1439-6327

Keywords: Heat ; Sweat rate ; Sleep stage ; Heat acclimation ; Human sleep

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Experiments were carried out on four healthy male subjects in two separate sessions: (a) A baseline period of two consecutive nights, one spent at thermoneutrality [operative temperature (T o)=30°C, dew-point temperature (T dp)=7°C, air velocity (V a)=0.2 m·s−1] and the other in hot condition (T o=35°C,T dp=7°C,V a=0.2 m·s−1). During the day, the subjects lived in their normal housing and were engaged in their usual activities. (b) An acclimation period of seven consecutive daily heat exposures from 1400 to 1700 hours (T o=44°C,T dp=29°C,V a=0.3 m·s−1). During each night, the subjects slept in thermoneutral or in hot conditions. The sleep measurements were: EEG from two sites, EOG from both eyes, EMG and EKG. Esophageal and ten skin temperatures were recorded continuously during the night. In the nocturnal hot conditions, a sweat collection capsule recorded the sweat gland activity in the different sleep stages. Results showed that passive body heating had no significant effect on the sleep structure of subsequent nights at thermoneutrality. In contrast, during nights atT o=35°C an effect of daily heat exposure was observed on sleep. During the 2nd night of the heat acclimation period, sleep was more restless and less efficient than during the baseline night. The rapid eye movement sleep duration was reduced, while the rate of transient activation phases observed in sleep stage 2 increased significantly. On the 7th night, stage 4 sleep increased (+68%) over values observed during the baseline night. The sweating adaptive mechanisms of heat acclimation persisted only in stage 4 sleep. The results indicated that body temperature rhythmicity was maintained in the heat by an increase in stage 4 sleep which reduced core temperature during the first part of the night.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02396592

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