The effects of a newly designed air mattress upon sleep and bed climate.

Abstract

In our previous study, an air mattress with three series of air cells with inflation pressure, that was increased/decreased in time interval of 20 min, did not affect sleep quality and quantity, although the relative and absolute humidity inside the bedding was kept significantly higher than that of a Futon. The purpose of this study was to confirm the effects of a newly designed air mattress upon sleep and bed climate. In this newly designed air mattress, the cell series and time interval was reduced. Six healthy female volunteers, aged 18-22, served as subjects. The experiment was carried out under two conditions: using a regular Futon (Futon), and a newly-designed air mattress with the timer and pump activated (Airmat). The room temperature and relative humidity were controlled at 22-23 degrees C and RH 50-60%, respectively. The subjects' sleep was monitored by using an EEG machine and their skin temperatures and bed climates were also measured continuously. Subjective evaluations of bed comfort and sleep were obtained before and after the recording sessions. Sleep onset latency, wake after sleep onset and the sleep efficiency index showed no significant differences between the two conditions. A significant difference was observed in the bed climate of the waist area. The temperature of the waist was lower overall under the Airmat than the Futon, while relative humidity was higher under the Airmat. Absolute humidity also tended to be higher in the Airmat. Sleep evaluation and comfort sensation were good under both conditions. Although sleep was not disturbed and subjective sleep evaluation tended to be better in Airmat, our results indicate that changing the time intervals and cell series until this air mattress level is not effective in decreasing the bed climate humidity.