Circadian variation of EEG power spectra in NREM and REM sleep in humans: Dissociation from body temperature
Article first published online: 5 JAN 2002
Journal of Sleep Research
Volume 8, Issue 3, pages 189–195, September 1999
How to Cite
Dijk, D.-J. (1999), Circadian variation of EEG power spectra in NREM and REM sleep in humans: Dissociation from body temperature. Journal of Sleep Research, 8: 189–195. doi: 10.1046/j.1365-2869.1999.00159.x
- Issue published online: 5 JAN 2002
- Article first published online: 5 JAN 2002
- forced desynchrony;
In humans, EEG power spectra in REM and NREM sleep, as well as characteristics of sleep spindles such as their duration, amplitude, frequency and incidence, vary with circadian phase. Recently it has been hypothesized that circadian variations in EEG spectra in humans are caused by variations in brain or body temperature and may not represent phenomena relevant to sleep regulatory processes. To test this directly, a further analysis of EEG power spectra – collected in a forced desynchrony protocol in which sleep episodes were scheduled to a 28-h period while the rhythms of body temperature and plasma melatonin were oscillating at their near 24-h period – was carried out.
EEG power spectra were computed for NREM and REM sleep occurring between 90–120 and 270–300 degrees of the circadian melatonin rhythm, i.e. just after the clearance of melatonin from plasma in the ‘morning’ and just after the ‘evening’ increase in melatonin secretion. Average body temperatures during scheduled sleep at these two circadian phases were identical (36.72°C). Despite identical body temperatures, the power spectra in NREM sleep were very different at these two circadian phases. EEG activity in the low frequency spindle range was significantly and markedly enhanced after the evening increase in plasma melatonin as compared to the morning phase. For REM sleep, significant differences in power spectra during these two circadian phases, in particular in the alpha range, were also observed.
The results confirm that EEG power spectra in NREM and REM sleep vary with circadian phase, suggesting that the direct contribution of temperature to the circadian variation in EEG power spectra is absent or only minor, and are at variance with the hypothesis that circadian variations in EEG power spectra are caused by variations in temperature.