It has been recognized for a long time that hibernation and slow wave
sleep are homologous processes for energy conservation. Numerous EEG s
tudies have demonstrated that during entrance into hibernation rapid e
ye movement sleep (REM) disappeared under cerebral temperature below 2
5 degrees C and that in deep hibernation animals were preferentially i
n NREM sleep. Hibernation was thought to be an extension of NREM sleep
. Nevertheless, other observations suggest that hibernation is not an
homogeneous state. For example, in deep hibernation the activity of si
ngle thalamic units occurs with periods of activation and decline. Hig
h unit activity is associated with high electromyographic (EMG) activi
ty, whereas low unit activity is associated with low EMG activity. To
test the hypothesis that NREM sleep would have a restorative function,
the EEG SWA activity (EEG delta power) was recorded during an arousal
from hibernation and the following euthermic bout. Contrary to expect
ations, EEG SWA was maximal after an arousal and declined during the e
uthermic period. These findings suggest that a bout of hibernation is
not NREM sleep, but would be the equivalent of a sleep debt.