[MICRO- AND ULTRASTRUCTURAL RECONSTRUCTION OF THE RAT SUBMANDIBULAR GLAND IN THE LATE STAGES OF EXPERIMENTAL TYPE 2 DIABETES MELLITUS]

Abstract

Electron microscopic investigations of the animals' submandibular gland, conducted in 6 weeks of the experiment, established that ultrastructural changes increase in glandular cells of terminal secretory units in comparison with early period of the experiment. Serocytes have osmiophilic, rather small or picnotic nuclei. Perinuclear spaces of karyolemma are uneven, external nuclear membrane forms local protrusions. Electron density of the karyoplasm is significant, appearing homogenous, nuclei are not observed. Evident submicroscopic changes in blood capillaries of the submandibular gland in experimental diabetes mellitus indicate the impairment of blood-tissue barrier and transcapillary exchange. Deep destructive modifications of all branches of microcirculatory blood flow of the submandibular gland are observed in 8-week course of experimental diabetes mellitus. As compared with the 6th week of investigation, a reliable slight dilation of organ artery diameter, dilation of the diameter of interlobular arterioles, dilation of the diameter of intralobular (precapillary) arteriole and dilation of the capillary diameter were observed. Dilation, as compared to 6th weeks of the experiment, of postcapillary venules was observed. Compared to the indices of the 6th weeks of the experiment, an index of trophic activity of the submandibular gland tissuereaches its maximum meaning and an index of packing density of the capillaries reaches its minimum meaning. Capillary network loses delicate, tortuous pattern and often breaks due to destruction of the capillary component. Arteriovenous anastomoses dilate and blood from the arterioles flows into the venous bed avoiding destructed capillaries. Venules are dilated; thin-walled, retained fragments of the capillaries are significantly dilated in some areas. Swelling of connective tissue stroma and significant swelling of the interstitium are observed. Walls of the capillaries and venules are deformed. The walls of the arterioles are thickened due to plasmorrhagia, sclerosis and hyalinosis.