The aim of this work was to identify morpho-functional and biochemical changes in erythrocytes in students with different daily educational -training regimens after dosed physical exertion. The study involved 50 male students aged 20–22 years who study at the Faculty of Physical Education and Sports. Of these, 25 were untrained students (control group) and 25 were students studying for the highest sports qualification who were engaged in sports in which training was conducted to improve overall endurance (skiing, biathlon, long-distance running). At the end of the school year, all students were required to carry out a single session involving physical loading of maximum intensity on a veloergometer. According to the results of the questionnaire, it was found that the combination of intensive training and training processes caused a mismatch between the functional capabilities of the students’ and athletes’ biological systems and the increased volume and intensity of their psycho-physical loading, which is closely correlated with a decrease in their level of physical health. In the blood of untrained students, under the influence of dosed physical activity, reversibly altered forms of erythrocytes appeared, which accounted for 2.0% of the total number of erythrocytes. In the morphological study of student athletes, an increase in the content of reversibly and irreversibly altered erythrocytes was observed, the number of which exceeded 2.0% of the total number of erythrocytes. In individual student athletes echinocytes with small-focal microdefects of the outer membrane were observed in the peripheral blood, as well as acanthocytes and stomatocytes, which have low resistance to acid hemolysis. The mechanism of this phenomenon is a decrease in the activity of glucose-6-phosphate dehydrogenase and glutathione reductase, which leads to a deficiency of reduced glutathione in erythrocytes. Such cells under the influence of oxidizing agents quickly undergo lysis, which is manifested by a violation of their structural integrity. This can lead to the development of “anemia of loading”, which is manifested by a decrease in the concentration of hemoglobin and the number of erythrocytes with their morphometric recalibration due to the appearance of macro-microcytic forms. The presence of such changes can adversely affect both the athletic performance and the state of health of students. This requires appropriate correction of the training process, as well as the development and timely application of adequate measures aimed at eliminating the development of the pathological process and eliminating possible undesirable consequences.
Purpose:to study the aspects of organism's cardio-hemo-dynamic and blood erythrocytes reaction of female volleyball players to standard physical load. Material:with functional methods we studied cardio-hemo-dynamic and with the help of scanning electronic microscopy -erythrocytes' structure in 18 female volleyball players of different qualification (age -22.0±0.60 years). Results:it was found that maximal physical load causes substantial changes in cardio-hemo-dynamic, which depend on female volleyball players' qualification. These changes have intrinsic to them type of blood circulation system reacting, which is manifested in the following: appropriate changes of some indicators; natural changes of periphery blood erythrocytes. In the article possible mechanisms of realization of female volleyball players' organism's typological features, depending on blood circulation type and erythrocytes' conformation, are discussed. Conclusions:In relaxed state all female volleyball players have non-uniform cardio-hemo-dynamic of blood circulation.With hyper-dynamic blood circulation type, higher indicators of strike and minute blood volume were observed. With hypo-kinetic blood circulation type the opposite picture was observed: indicators of strike and minute blood volume, heart index, load on cardio-vascular system in different periods of day were low.
The aim of the study was to determine the morphological changes in the cellular elements of blood in rats of different ages under conditions of prolonged hypokinesia. Research into the structural and functional properties of platelets and erythrocytes was carried out by electron microscope and by biochemical methods in 90 mature male rats aged 2, 12 and 24 months. We found that in young (2 month animals) there was a significant increase in the relative content of activated platelets while the normal content of aggregated and degranulated forms with the appearance of single platelets was maintained with an imbalance of alpha and delta granules. In 12-month-old animals, platelet hemostasis disorders were manifested by a significant increase in the relative content of activated platelets (by 125.8–134.7%) with an increase in aggregated and degranulated forms, the appearance of numerous platelets with an imbalance of alpha- and delta-granules, and reduction of mitochondria (by 24.9–27.8%). In 24 month old animals there was a sharp violation of platelet hemostasis due to a significant increase in the content of activated, degranulated and aggregated platelets, the release of the majority of granules, the development of intravascular platelet hyperactivation, an increase in the number of reversible and irreversibly transformed erythrocytes, an increase in the level of aggregation, in particular the appearance of complex cellular aggregates and bizarre forms of red blood cells. The greatest degree of manifestation of morpho-functional changes was revealed in animals aged 24 months, with relative stability of the hemostasis system in 2 and 12 month old animals. Our results showed that irrespective of age, the degree of disturbance of platelet-erythrocyte hemostasis rose as the period of hypokinesia increased and also depended on the increase in the level of serum creatinine. Taken together, intravascular platelet hyperactivation, an imbalance in the content of all types of granules, the transformation of surface cytoarchitectonics of erythrocytes, and the formation of platelet aggregates may play the role of an early predictor of the development of hypokinetic disease
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