Аннотации:
© 2019, Springer Science+Business Media, LLC, part of Springer Nature. The aims of the present work was to describe primitive whisker movements in neonatal Wistar rats (postnatal days 4–7) in the states of sleep and waking and to study correlations between whisker movements and body movements. Whisker movements were recorded by high-speed video recording and the animals’ behavioral state was determined by recording electromyographic activity of the cervical muscles and simultaneous recording of limb movements using piezo elements. During active sleep, movements consisted mostly of short-term whisker movements, and a significant proportion of these movements arose simultaneously with short-term bursts of activity in the cervical muscles and transient myoclonic twitches of the animal’s body. During periods of waking, movements were mostly complex long-lasting whisker movements, which were accompanied by long-term increases in cervical muscle tone and complex body and limb movements. Both types of whisker movement occurred mainly in the rostral and caudal directions, and the amplitude of movements during waking was only slightly greater than the amplitude of whisker movements during sleep. The data obtained here provide evidence that the temporal organization of whisker movement activity in neonatal rats is significantly different in the states of sleep and waking and that whisker movements in both behavioral states showed strong correlations with the animal’s body movements. It is suggested that generalized primitive whisker and body movements in neonatal rats are due to the activity of a single central pattern generator both in the state of active sleep and in the state of waking.