Видання зареєстровані авторами шляхом самоархівування
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Item Histoultrastructural features of thymocytes due to t he impact of the experimental general dehydration of a mild degree(Aluna Publishing, 2023) Приходько, Ольга Олексіївна; Prykhodko, Olha Oleksiivna; Avilova, O.; Дмитрук, Сергій Миколайович; Dmytruk, Serhii Mykolaiovych; Понирко, Аліна Олексіївна; Ponyrko, Alina Oleksiivna; Гордієнко, Олена Володимирівна; Hordiienko, Olena Volodymyrivna; Prykhodko, E.ABSTRACT The aim: The objective of the current study was to reveal ultrastructural changes in rats’ thymocytes in experimental data in conditions of mild general dehydration. Materials and methods: The study was conducted on 20 non-linear adult male laboratory rats weighing 150-170 g. Histological and semi-thin slides of the thymus were prepared according to the required guidelines. Results: On average, in the cortical zone of the thymus, there was decreased cellularity by 13.4% (p<0.001), while in the medulla zone this indicator turned out to be unreliable - 5.5% (р=0.19), compared to the indicators in animals of the control group. The study showed that a slight degree of general dehydration of the body causes ultrastructural changes in the thymus and is accompanied by a cell-mediated response of the central link of immunogenesis and results in morphological changes in the thymus, which are atrophic in nature with a typical pattern of remodeling of the organ’s microstructure, which corresponds to cellular aging and the associated sign of accelerated involution. Conclusions: General dehydration of a mild degree in the experiment is accompanied by a cell-mediated response of the central link of immunogenesis and results in morphological changes in the thymus, which are atrophic in nature with a typical pattern of remodeling of the organ’s microstructure, which corresponds to cellular aging and the associated sign of accelerated involution.Item Morphological features of tubular bones reparative regeneration under the influence of antitumor chemotherapeutics(Aluna Publishing, 2022) Рябенко, Тетяна Василівна; Рябенко, Татьяна Васильевна; Riabenko, Tetiana Vasylivna; Кореньков, Олексій Володимирович; Кореньков, Алексей Владимирович; Korenkov, Oleksii Volodymyrovych; Дмитрук, Сергій Миколайович; Дмитрук, Сергей Николаевич; Dmytruk, Serhii Mykolaiovych; Ярмоленкo, Ольга Сергіївна; Ярмоленко, Ольга Сергеевна; Yarmolenkо, Olha Serhiivna; Понирко, Аліна Олексіївна; Понырко, Алина Алексеевна; Ponyrko, Alina Oleksiivna; Пернаков, Микола Станіславович; Пернаков, Николай Станиславович; Pernakov, Mykola Stanislavovych; Гула, Вікторія Іванівна; Гулая, Виктория Ивановна; Hula, Viktoriia IvanivnaThe aim: Determination of morphological features of reparative regeneration of diaphysis defect of long tubular bones under the influence of antitumor chemotherapeutics in a model experiment. Materials and methods: 96 white nonlinear rats after application of the perforated defect of the femur were administered the appropriate antitumor drug (doxorubicin, 5-fluorouracil, methotrexate) three times with an interval of 21 days. Morphological features of bone tissue formation and remodeling in the regenerate area were studied using histological and morphometric methods. Results: The inhibitory effect of antitumor chemotherapeutics on the formation of regenerate, expressed by slowing down the process of bone tissue differentiation was found. This is confirmed by a decrease in the area of reticulofibrous and lamellar bone tissue, chaotic arrangement and narrowing of bone trabeculae with uneven color, slow formation of bonding lines between the maternal bone and the regenerate. Conclusions: The revealed morphological features of reparative regeneration of the diaphysis defect of long tubular bones under the influence of antitumor chemotherapeutics doxorubicin, 5-fluorouracil and methotrexate in a model experiment indicate a slowing of reparative regeneration processes at all stages of recovery after injury.Item Changing the chemical composition of long tubular bones of rats with diabetes mellitus type I(Sumy State University, 2018) Понирко, Аліна Олексіївна; Понырко, Алина Алексеевна; Ponyrko, Alina OleksiivnaDiabetes mellitus (diabetes mellitus) is a group of metabolic diseases is determined by hyperglycemia, which is the result wrong insulin action, or two factors together. One of the chronic complications of diabetes is diabetic osteopathy, which pronounced from moderate osteoporosis to spontaneous fractures of the tubular bones. Metabolic changes that occurs in diabetes mellitus lead to a violation of the processes of remodeling of bone tissue. In condition shortage of insulin the activity of osteoblasts decreases, and the osteoclast activity, on the contrary, increases due to this bone reabsorption intensifies. With diabetes, the processes of demineralization of bones are clearly expressed. At the diabetes, the processes of demineralization of bones are clearly expressed. Aim: The purpose:to explore the changes in the chemical composition of long tubular bones in aloxans-induced rats in native diabetic ranges.Item Structural changes of long tubular bones of mature rats under the hyperglycemia(ALUNA Publishing House, 2021) Понирко, Аліна Олексіївна; Понырко, Алина Алексеевна; Ponyrko, Alina Oleksiivna; Бумейстер, Валентина Іванівна; Бумейстер, Валентина Ивановна; Bumeister, Valentyna Ivanivna; Дмитрук, Сергій Миколайович; Дмитрук, Сергей Николаевич; Dmytruk, Serhii Mykolaiovych; Ярмоленкo, Ольга Сергіївна; Ярмоленко, Ольга Сергеевна; Yarmolenkо, Olha Serhiivna; Теслик, Тетяна Петрівна; Теслик, Татьяна Петровна; Teslyk, Tetiana Petrivna; Рябенко, Тетяна Василівна; Рябенко, Татьяна Васильевна; Riabenko, Tetiana Vasylivna; Школьна, Ірина Іванівна; Школьная, Ирина Ивановна; Shkolna, Iryna IvanivnaThe aim: To evaluate morphological changes in long tubular bones of mature rats under the influence of experimental hyperglycemia. Materials and methods: The study was conducted on 140 nonlinear white male rats divided into two groups. The experimental group included rats that were introduced into a state of hyperglycemia by a single intraperitoneal injection of an alloxan dihydrate solution at a dose of 150 mg / kg body weight in 0.9% sodium chloride. The control group included rats that were injected with a similar volume of 0.9% sodium chloride one time intraperitoneally. The animals were taken out of the experiment on the 2nd, 30th, 60th, 90th, 120th, 150th and 180th day. Right and left femur and humerus were studied by morphometric and histological methods. Results: Under conditions of prolonged uncontrolled hyperglycemia in mature rats, there is a slowdown in the growth rate of length and thickness of femur and humerus. This is indicated by a significant decrease in the length of bone and its diaphyses, as well as by a decrease in the cross-sectional area of the diaphysis, the width of the proximal and distal epiphyses, starting from 120 and 90 days of the experiment, respectively. The relative area of trabecular tissue, thickness of trabeculae and epiphyseal cartilage decreases in comparison with animals of the control group. The diameter of osteons and their channels increases in cortical tissue. Changes in the microarchitecture of the trabecular and cortical compartments of femur and humerus under conditions of hyperglycemia are similar and are characterized by a reduced bone mass, bone disorder progression and remodeling disorders. Conclusions: Prolonged uncontrolled experimental hyperglycemia leads to slow growth of femur and humerus in mature rats, which is accompanied by an increase in microarchitecture disorder of the trabecular and cortical compartments, causing miniaturization of bones and, consequently, violation of their biomechanical properties and increased risk of fractures.Item Biomechanical properties and macroelement element composition of long tubular bone of rats under experimental hyperglycaemia(Poltava State Medical university and Ukrainian public organization Scientific Society of Anatomists, Histologists, Embryologists and Topographoanatomists of Ukraine, 2021) Понирко, Аліна Олексіївна; Понырко, Алина Алексеевна; Ponyrko, Alina Oleksiivna; Дмитрук, Сергій Миколайович; Дмитрук, Сергей Николаевич; Dmytruk, Serhii Mykolaiovych; Бумейстер, Валентина Іванівна; Бумейстер, Валентина Ивановна; Bumeister, Valentyna IvanivnaThe pathomorphological basis for the development of diabetic disorders in various bones is a relevant subject of modern experimental research on the modeling of diabetes–associated destructive processes in the skeletal system. They are characterized by reduced bone density, which leads to an increased risk of fractures. Bone strength mainly depends on the interaction and concentration of chemical elements such as Ca, P, Mg, and K. Therefore, the purpose of our study was to determine the interdependence of changes in biomechanical parameters depending on the concentration of chemical elements in long tubular bones of rats under chronic hyperglycemia. The study was performed on 72 adult white laboratory rats lasting 180 days. It was found that starting from 30 days of uncontrolled chronic hyperglycemia, the bone mineral density in rats of the experimental group gradually decreased in comparison with the dynamics of the corresponding indexs in animals of the control group. These changes were accompanied by pronounced demineralization of both bones, as evidenced by significant losses of macronutrients (Ca, P, Mg and K). As a result, in chronic hyperglycemia gradually formed a complex violation of the structure and biomechanical properties of long tubular bones, which is a pathomorphological basis in the corresponding loci of the skeletal system.