Data are presented on the thymus structure of American Mink of the Standard, Sapphire, Lavender colouring genotypes in the early postnatal period from birth to 180 days. The thymus is known to be a fully formed organ at birth. The anatomical structure of the thymus and its topography are not determined by genotype. At 45 days of age, the changes are manifested by an increase in the thymic lobule area and the brain matter therein, a decrease in the cortex area; the most intense growth of the thymus due to the rise in the number of lobules is noted. The thymus of mink at 45 to 90 days of age is characterised by an equalisation between the genotypes, increasing cortical area values to about the level of newborn mink with a corresponding increase in the cortical-brain index. The thymus of minks at the age of 90 to 180 days retains the typical morphological structure. Still, the signs of age involutive processes are seen – reduction of the lobule area, enlargement of the medulla, changes in the form of the organ (lobule fusion), increased signs of fat transformation thymus. Hassall’s corpuscles were found in the medulla in all periods of investigation. The number of Hassall’s bodies and their morphology depends on the functional activity of the thymus. In newborns, unicellular, young and juvenile forms predominate. In 45-day-old minks, young and immature forms predominate. In 90-day-old female and male Standard burros, young and quite often unicellular bodies are visualised, while mature and juvenile records are less common. In mink of the coloured genotypes, immature and youthful Hassall’s corpuscles are predominant. By 180 days, the number of mature and young corpuscles with signs of central cell destruction with detritus accumulation and cavity formation increases.
The relationship between serum levels of prolactin and growth hormone in the early postnatal period
