Specialties of Blood Serum Structurization Under Some Physiological Conditions

Background: it is well-known that physiological stress agents can to produce a significant response of regulatory systems. At the same time, the nature of metabolic shifts in the organism during significant physical exertion and emotional stress has been insufficiently studied in detail. Aim: The aim of this investigation is study of modification of crystallogenic properties of human blood serum action under physical exertion and psychoemotional stress. Results: it is stated that physical exertion and psychoemotional stress causes increasing of crystallogenic activity of human blood serum. This trend is more pronounced for the first impact. This is confirmed by the results of vizuametric analysis of blood serum facias and its spectrometric testing. Conclusion: we show that crystalloscopic picture of blood serum is an informative criterion of different physiological conditions, including physical exertion and psychoemotional stress. It realized in the shifts of structure of biological fluid facias

CRYSTALLOGENIC PROPERTIES OF THE BLOOD SERUM OF RATS UNDER MODELING A THERMAL INJURY

Aim. To study the crystallogenic and initiating potential of biological fluids in rats under normal conditions and when modeling a contact thermal injury. Material and methods. To this end, we used our own model of contact thermal burn. This experiment involved the impact of a hot plate on the back of the animal, with the lesion area amounting to 20% of the body surface (3rd degree burn). This model of thermal injury was reproduced in 30 Wistar rats. 24 hours after the burn experiment, the animals were subjected to blood tests. Subsequently, an evaluation of the blood crystallogenic and initiating properties was performed. The range of basic substances used in teziographic tests was rather conventional and included 0.45, 0.9 and 3% sodium chloride solutions, as well as 0.1 N hydrochloric acid and sodium hydroxide solutions. The results of own and initiated crystallization of biological fluids were evaluated using the authors’ system of semi-quantitative indicators. Results. It is found that, in comparison with intact animals, micro-preparations of dried blood serum from rats after thermal trauma demonstrate a significant inhibition of both own crystallization and that initiated by various basic substances. This phenomenon is manifested in a significant decrease in the index of structural facies (in a crystalloscopic test), the main teziographic coefficient and the belt coefficient. The pathological nature of the observed shifts in the crystallogenic properties of biological fluids emphasizes a sharp increase in the degree of destruction demonstrated by the crystalline elements of the blood samples of rats in the main group. Conclusion. The conducted research shows that a model thermal injury in rats is accompanied by significant shifts in the crystallostasis of an animal organism, which are manifested in a significant change in the crystallogenic and initiating properties of the blood serum

Experimental Evaluation of Cryoprotector Systemic Effects

Aim. Experimental evaluation of the effect of some cryoprotectors on crystallogenic properties of mice blood serum at intraperitoneal administration.Material and methods. The experiment was performed on 40 adult white line mice divided into 4 equal groups. Animals from the control (fi rst) group received a single intraperitoneal injection of saline (0.5 ml agent/animal), animals of the second-fourth groups — 3 % solution of glycerin, dimethyl sulphoxide and trombocryodmac (N, N-dimethylacetamide), respectively, in the same quantity.Results. It is shown that single intraperitoneal introduction of cryoprotectants (solutions of glycerin, dimethyl sulphoxide and trombocryodmac) has a systemic effect on the mouse organism, which is manifested through the changes of crystallogenic properties of blood serum. 3% solution of glycerin, dimethyl sulphoxide and trombocryodmac have multidirectional infl uence on crystallogenic properties of mouse blood serum. The most pronounced physiological effect was established for dimethyl sulphoxide.Conclusion. Our studies demonstrate the presence of systemic effects in cryopreservative substances. It was confi rmed by the changes of crystallogenic properties of mice blood serum under intraperitoneal administration of cryopreservatives

Microscopic Colitis. Common Features and Differences

Aim. To study the morpho-molecular mechanisms underlying the formation of microscopic colitis (MC), as well as to identify features of its two forms – collagenous and lymphocytic.Material and methods. We studied biopsy samples from 23 patients exhibiting a clinical picture of irritable bowel syndrome; the material was obtained at the Endoscopic Department of the Region Clinic Hospital No. 2. The material was sampled from the five zones of the large intestine specified in the guidelines (Clinical Guidelines — Diagnosis and treatment of patients with digestive diseases, Appendix No. 3). The material was fixed in 10 % formalin, processed and embedded in paraffin. Sections were stained with hematoxylin and eosin (according to Mallory and Masson), as well as with picrosirius red, followed by the examination of these sections in polarised light. The immunohistochemical study was performed in line with the guidelines using monoclonal antibodies. Abcam antibodies (England) were used to detect type I and type III collagen; Cell Marque antibodies to CD4+ T and CD8+ T-lymphocytes (USA) were used to characterise lymphocytes.Results. It has been established that fi broblasts in the lamina propria play a key role in the pathogenesis of collagenous MC. This cell population synthesises extracellular matrix and forms layers of collagen fibres in the area under the surface epithelium. Pericryptal fibroblasts are also activated. Their differentiation occurs simultaneously with the migration of epithelial cells to the surface of the crypts with a possible change in their cellular composition. Intercryptal fi broblasts provide an increase in the synthesis rate of type III collagen. In the case of lymphocytic colitis, the pathogenetic mechanism is based on the relationship between lymphocytes and the cells in the lamina propria. The outcome is determined by the type of activated lymphocytes. CD8+ lymphocytes infiltrate the epithelial lining, causing a reaction to the luminal component, whereas CD4+ lymphocytes act as helpers and populate the lamina propria in the area under the epithelium.Conclusion. The pathogenesis of collagenous MC is based on the mechanism exhibited by the fibroblasts in the colon lamina propria, whereas the pathogenesis of lymphocytic colitis is determined by the dynamics of CD4+ T and CD8+ T-lymphocyte subpopulations