Effects of an Artificial Smoke on Arousals During Human Sleep

The central processing of olfactory stimuli is different compared to other sensory systems, as they are not followed by arousals at least with regard to pure olfactory substances such as hydrogen sulfite. It is still unclear, however, whether a stimulus with a higher significance to the sleeper incr...

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Bibliographic Details
Published in:Chemosensory perception 2012-12, Vol.5 (3-4), p.274-279
Main Authors: Heiser, C., Baja, J., Lenz, F., Sommer, J. U., Hörmann, K., Herr, R. M., Stuck, B. A.
Format: Article
Language:English
Subjects:
Arousal
Carbon dioxide
Chemistry
Chemistry and Materials Science
Chemoreception
Chemosensory perception
Clinical Nutrition
Food Science
Hydrogen
Information processing
Neurosciences
Olfactometers
Olfactory stimuli
Olfactory system
Perception
Sensory systems
Sleep
Smoke
Smoke inhalation
Statistical analysis
sulfite
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Summary:The central processing of olfactory stimuli is different compared to other sensory systems, as they are not followed by arousals at least with regard to pure olfactory substances such as hydrogen sulfite. It is still unclear, however, whether a stimulus with a higher significance to the sleeper increases arousal frequency. Fifteen healthy volunteers participated in this controlled trial. Intranasal chemosensory stimulation was performed during sleep with an olfactometer. Artificial smoke was selected as an olfactory stimulus with high significance for different stimulus durations (1, 5, and 20 s), and carbon dioxide (CO 2 ) was used in a concentration of 40 % v / v for isolated trigeminal stimulation as an internal control. Arousal reactions in relation to chemosensory stimulation during sleep were assessed with the help of overnight sleep recordings during 30 nights of testing. Stimulation with an artificial smoke did not increase arousal frequency. In contrast, stimulation with CO 2 leads to an increase in arousal frequency. Even for the longest stimulus duration of artificial smoke, a statistically significant increase in arousal frequency could not be detected. Even a strong and significant olfactory stimulus such as artificial smoke does not elicit arousals during human sleep. Overall, the results confirm the unique role of the olfactory system in sensory physiology.
ISSN:1936-5802
1936-5810
DOI:10.1007/s12078-012-9131-y