Abstract
The influence of noise from night flying on electro-bioligical reactions and on the secretion of catecholamines (adrenaline and noradrenaline) was studied in eight healthy adults whose place of residence exposes them to day-time aircraft noise. The inter-relationships were then analysed, with daytime noise exposure, personality traits and general day-to-day condition reflected in control variables. The subjects were each observed during five nights without noise exposure (Leq=dB(A)) and five nights with noise exposure (Leq=36 to 56 dB(A)), when the following factors were varied: frequency of nocturnal flights; and sound level. All these flights were transmitted via a sound system between the third and sixth hour of the night. In the case of adrenaline, the original data already showed a significant increase with noise exposure. Taking various day-time exposures into account, significant mean value differences between noisy and peaceful nights were assessed in 8-hour collected urine for both catecholamines. Furthermore, catecholamine concentration increases with sound level. (orig.).
Maschke, C;
Breinl, S;
[1]
Grimm, R;
Ising, H
[2]
- Technische Univ. Berlin (Germany). Inst. fuer Technische Akustik
- BGA, Berlin (Germany). Inst. fuer Wasser-, Boden- und Lufthygiene
Citation Formats
Maschke, C, Breinl, S, Grimm, R, and Ising, H.
The influence of night-flight noise on sleep and catecholamine secretion. Der Einfluss von Nachtfluglaerm auf den Schlaf und die Katecholaminausscheidung.
Germany: N. p.,
1992.
Web.
Maschke, C, Breinl, S, Grimm, R, & Ising, H.
The influence of night-flight noise on sleep and catecholamine secretion. Der Einfluss von Nachtfluglaerm auf den Schlaf und die Katecholaminausscheidung.
Germany.
Maschke, C, Breinl, S, Grimm, R, and Ising, H.
1992.
"The influence of night-flight noise on sleep and catecholamine secretion. Der Einfluss von Nachtfluglaerm auf den Schlaf und die Katecholaminausscheidung."
Germany.
@misc{etde_5108647,
title = {The influence of night-flight noise on sleep and catecholamine secretion. Der Einfluss von Nachtfluglaerm auf den Schlaf und die Katecholaminausscheidung}
author = {Maschke, C, Breinl, S, Grimm, R, and Ising, H}
abstractNote = {The influence of noise from night flying on electro-bioligical reactions and on the secretion of catecholamines (adrenaline and noradrenaline) was studied in eight healthy adults whose place of residence exposes them to day-time aircraft noise. The inter-relationships were then analysed, with daytime noise exposure, personality traits and general day-to-day condition reflected in control variables. The subjects were each observed during five nights without noise exposure (Leq=dB(A)) and five nights with noise exposure (Leq=36 to 56 dB(A)), when the following factors were varied: frequency of nocturnal flights; and sound level. All these flights were transmitted via a sound system between the third and sixth hour of the night. In the case of adrenaline, the original data already showed a significant increase with noise exposure. Taking various day-time exposures into account, significant mean value differences between noisy and peaceful nights were assessed in 8-hour collected urine for both catecholamines. Furthermore, catecholamine concentration increases with sound level. (orig.).}
journal = []
volume = {35:3}
journal type = {AC}
place = {Germany}
year = {1992}
month = {Mar}
}
title = {The influence of night-flight noise on sleep and catecholamine secretion. Der Einfluss von Nachtfluglaerm auf den Schlaf und die Katecholaminausscheidung}
author = {Maschke, C, Breinl, S, Grimm, R, and Ising, H}
abstractNote = {The influence of noise from night flying on electro-bioligical reactions and on the secretion of catecholamines (adrenaline and noradrenaline) was studied in eight healthy adults whose place of residence exposes them to day-time aircraft noise. The inter-relationships were then analysed, with daytime noise exposure, personality traits and general day-to-day condition reflected in control variables. The subjects were each observed during five nights without noise exposure (Leq=dB(A)) and five nights with noise exposure (Leq=36 to 56 dB(A)), when the following factors were varied: frequency of nocturnal flights; and sound level. All these flights were transmitted via a sound system between the third and sixth hour of the night. In the case of adrenaline, the original data already showed a significant increase with noise exposure. Taking various day-time exposures into account, significant mean value differences between noisy and peaceful nights were assessed in 8-hour collected urine for both catecholamines. Furthermore, catecholamine concentration increases with sound level. (orig.).}
journal = []
volume = {35:3}
journal type = {AC}
place = {Germany}
year = {1992}
month = {Mar}
}