We studied morphological features of the cerebellum in 14-day-old Wistar rats from reduced litters (the number of pups was reduced from 10-12 to 6 on the next day after birth). The control group comprised 14-day-old animals from litters of medium size (10-12 rat pups). Rats from reduced litters had greater body weight and brain weight. The weight of the cerebellum, together with the weight of the adjacent part of the brain stem and the thickness of cerebellar cortex also significantly exceeded the corresponding parameters in control animals. The thickness of the molecular layer of the cerebellar cortex and the numerical density of Purkinje cells in these rats did not differ significantly from the control. The thickness of the external granular (neurogenic) layer of the cerebellar cortex in rats from reduced litters was smaller. This can indicate accelerated reduction of this layer that persists in rats until days 20-22 of age. Numerical density of cells in the external granular layer of control and experimental animals was similar. Numerical density Ki-67+ cells in this layer, as well as GFAP+ glial cells in the granular layer of the cerebellar cortex in rats from reduced litters significantly exceeded the corresponding parameters in control animals. The cerebellum of rats from litters reduced 1 day after birth had a number of differences in important indicators reflecting the rate of its development during the neonatal and suckling periods of ontogeny.
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