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Кафедра анатомии человека, оперативной хирургии и топографической анатомии, Ивано-Франковский национальный медицинский университет, Ивано-Франковск, Украина, Conferința Ştiinţifică Internaţională ”Probleme actuale ale morfologiei” dedicată celor 70 de ani de la fondarea Universității de Stat de Medicină și Farmacie „Nicolae Testemiţanu”, Chişinău, 15-16 octombrie 2015 |
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Abstract
Background: In a variety of literary sources the study of greater salivary glands morphology in hypothyroidism
remains neglected, while we know that they are one of the organs-depot of iodine and their functioning depends on the
metabolic processes in the organism, which, in turn, are determined by the level of iodine-containing hormones of thyroid
gland [3]. Functioning of greater and lesser salivary glands and oral mucosa determines the state of the teeth-jaw system,
digestive and other systems of the body, for they perform such important functions as: the protective, trophic, excretory,
incretory ones. Morphofunctional peculiarities of the gums provide homeostasis not only locally, but also of the upper
digestive system, being at the same time their state reflection.
Material and methods: Modeling of hypothyroidism was performed in 20 white outbred mature rats with the help
of medicine “Merkazolil” (“Zdorovya”, Ukraine), which was administered in drinking water at doses of corresponding
settlement – 7.5 mg per 100 g of animal’s body weight [1, 5] during 14 and 21 days. All manipulations were performed
in compliance with requirements of ethics and humane treatment of animals. Collection of material – after 14th and 21st
day. Euthanasia – by the introduction of 2% solution of sodium thiopental at a dose of 25 mg/kg. Electronic microscopic
method of investigation was used.
Results: The paper presents the results of electronic microscopic study of morphofunctional state of the structural
components of salivary glands, gums, mucous membrane of the palate and cheeks during the 14th and 21st day of Merkazolilinduced hypothyroidism, which was modeled in 20 mature outbred white rats. In all studied organs the same type of reactive-degenerative changes of the blood vessels, epithelium, and connective tissue framework were found. At the same type,
the pathological changes are on the basis of both vascular and connective tissue changes mutually potentiate each other.
Conclusions: Thus, during the 14th day of the experimentally modeled hypothyroidism in all studied organs there are
similar changes: edematous phenomenon in connective tissue and structural components of the vascular bed wall, and as
a result, epitheliocytes develop degenerative processes that are complicated during the 21st day of the experiment. Taking
into account the pronounced reactivity of the studied structures, it is reasonable to study the dynamics of morphological
transformations in phasing with the aim to find possible methods of prevention and timely correction. |
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