The Structure of Submandibular and Sublingual Salivary Glands Parenchyma and Their Acini Morphometric Characteristics Using Factor Models

Relevance. Perspective area of investigating salivary glands (SG) is the study of the structure of their acini and excretory ducts in pathological processes models. The obtained results are compared with the results of studying intact animals. Literature data concerning structural organization of the intact rats’ SG differ in ways of morphometry performing, quantitative indicators and are often contradictory in their results. Objective. To study the structure of submandibular (SMDG) and sublingual (SLG) salivary glands parenchyma in intact mature rats and determine the significance of various morphometric parameters of acini. Materials and methods. Histological sections were stained with hematoxylin-eosin and semifine ones with methylene blue. Electronic and microscopic study was performed by the generally accepted method. The morphometric analysis was performed at the light and optical level. We determined the area of profile fields, the elongation coefficient and forms of acini and their nuclei.To compare the results we used Mann-Whitney test. The exploratory factor analysis was performed. Results. We have learned characteristic? features of? SMDG and SLG? acini structure and the significance of various morphometric parameters. It was ascertained, that the? system of excretory ducts of glands particles is represented by intercalated,? striated and intralobular ducts. We have also found granular ducts in SMDG. The obtained factor models characterize salivary glands functioning in intact animals and are determined by two latent factors. Conclusions. 1) structural features of acini and their morphometric characteristics are specific for 12-months old intact male rats; 2) received factor models determine a large part of the total dispersion parameters of both SG and are adequate; 3) the similarity of factor structures of SG confirms the principle of intasystem organization of the cells of their final secretory departments; 4) Factor 1 is a factor of morphofunctional state of nuclei and Factor 2 is a factor of morphofunctional state of the cellular composition of acini.