Yuriy Kharkevych scite author profile

Yuriy Kharkevych

5Publications

7Citation Statements Received

62Citation Statements Given

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Affiliations

National University of Life and Environmental Sciences of Ukraine

Publications

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Effectiveness of Mesenchymal Stem Cells in Uveitis in Dogs, Depending on the Method of Their Administration

Shupyk

Bokotko

Savchuk

et al. 2020

SCIVP

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The article highlights the results of studies on spontaneous clinical cases of bacterial uveitis in dogs, using a slit lamp, sonographic and visual research methods, and after the introduction of mesenchymal stem cells in various ways. These research results make it possible to analyze and further study the effect of mesenchymal stem cells, when administered in various ways in total uveitis, and determine the most effective method in clinical cases in dogs. Chronic total uveitis is an extremely severe late complication of ophthalmic surgery, and leads to slow functional and anatomical death of the eye. The use of antibacterial drugs for the Prevention of infectious complications often smooths out the clinical picture of progressive intraocular inflammation, contributing to an increase in its latent period. All this with particular relevance indicates the need for research as early as possible, and the specifics of the use of stem cells in eye diseases in dogs. Our research on the restoration of eye tissues depends on many factors, on the balance between inflammatory mediators and their antagonists, which activate the synthesis of anti-inflammatory mediators. Also, it depends on the number of mesenchymal stem cells that act as a regulator of proliferation in damaged eye tissues and cause cyto-differentiation during cell regeneration and enhance their own antioxidant properties. It was found that microbial contamination significantly deepens the consequences of damage to tissues and structures of the eye, which lead to acidosis of tissues, changes microcirculation and exit and destruction of cell membranes and prolongation of the inflammatory phase, namely, it determines the course and results of the reparative process. At the same time, we can talk not only about the recovery function of damaged tissue structures with the help of mesenchymal stem cells, but also the effect on the intensity of the inflammatory process, which significantly reduces the time of repair of eye tissues at the level of cells and tissues. The data obtained can be used for new modern methods of treating many pathologies associated with eye tissue damage and the use of mesenchymal stem cells in reparative ophthalmology.

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Immunophenotypic characterisation and cytogenetic analysis of mesenchymal stem cells from equine bone marrow and foal umbilical cords during in vitro culture

Mazurkevych

Malyuk

Bezdieniezhnykh

et al. 2016

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Introduction: The objective of the study was immunophenotypic and cytogenetic analysis of mesenchymal stem cells from equine bone marrow and foal umbilical cords during in vitro culture. Material and Methods: The mesenchymal stem cells were obtained from equine bone marrow of three horses and from foal umbilical cords of six foals. The cells were cultured in CO2 incubators by standard procedure. Quantitative abnormalities of chromosomes, i.e. aneuploidy and polyploidy, and structural aberrations, i.e. breaks in chromosomes and chromatid, were taken into account during the study. Results: The results of cytogenetic analysis of equine bone marrow mesenchymal stem cells at the third and fourth passages indicated that the level of karyotype variability of these cells corresponded to the spontaneous level of karyotype variability typical of the peripheral blood lymphocytes of this species. Equine bone marrow contained several clones of stem cells that differed in the expression of specific nuclear markers characteristic of proliferating cells. Conclusion: Mesenchymal stem cells from foal umbilical cords during in vitro cultivation are characterised by quantitative abnormalities of the chromosomal apparatus.

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The effect of a fibroblast growth factor, insulin-like growth factor, growth hormone, and Biolaminin 521 LN on the proliferative activity of cat stem cells

et al. 2021

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The wide use of cell technologies in clinical practice requires a large amount of cell material, which has led to improvement in culture conditions, making it possible to obtain more cell material in a shorter period of time. Thus, the purpose of our paper was to study the effects of different concentrations of an insulin-like growth factor (IGF-1), a fibroblast growth factor (FGF-2),| a growth hormone (rhGH), and Biolaminin 521 LN (LN 521) on the proliferative activity and genetic stability of stem cell cultures derived from the cat bone marrow, adipose tissue, and myocardium. Cell cultures for the experiment were obtained from the adipose tissue, bone marrow, and myocardium of a cat. Differences were found in the effects of the various growth promoters on the proliferative activity of cells in the culture. The IGF-1 demonstrated a positive effect on the proliferative activity of all cultures. The addition of the rhGH to the bone marrow-derived cell culture increased the size of the cells and decreased the proliferation index relative to the control group. The addition of the growth factors to the culture medium did not significantly increase the number of cells with altered karyotype in any of the cultures relative to the control group.

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The effect of mesenchymal stem cells and platelet-rich plasma on the course of chronic laminitis in horse: a clinical case

Malyuk¹,

Kharkevych²,

Brusko³

et al. 2021

VVTP

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Laminitis or rheumatic inflammation of the hooves is inflammation of the hoof lamina, in which the connection between the coffin bone and the horny shoe is disrupted as a result of the destruction of the connection between the leaves of the horny wall with the leaves of the base of the hoof skin. The pathogenesis of this disease is quite complex and contradictory. Some authors associate it with the accumulation of biogenic amines in the hoof tissues, while others point to the violation of lamellar microcirculation and the effect of tissue metalloproteinases on the leaves of the horny wall and the base of the hoof skin. Treating horses with laminitis is not an easy task, due to the complex pathogenesis of the disease. Thus, the search for modern treatments of horses with laminitis is an urgent and timely task. The aim of our study was to investigate the effect of adipose-derived mesenchymal stem cells and platelet-rich plasma on the course of chronic laminitis in horses. The object of the study was a castrated stallion of a Ukrainian riding breed, 8 years old, with a clinical manifestation of chronic laminitis with detachment of the hoof wall along the border line on the left forelimb. Materials and methods. Autologous mesenchymal stem cells were obtained from adipose tissue. A culture of mesenchymal stem cells of adipose tissue in the amount of 12 million cells was injected into the palmar medial digital artery of the injured limb. The introduction was repeated three times, while the cells were suspended in 3 cm3 of phosphate-buffered saline. The third injection of cells was performed in combination with autologous platelet-rich plasma. Results: Active recovery of the hoof wall was observed on the injured forelimb. Coronary fistulas and damage of the hoof joint capsule were healed. The shape of the hoof wall and sole began to normalize. The pulsation of the arteries of the toes has become less pronounced. No corona edema was observed in the area. Conclusion. Under the influence of transplanted mesenchymal stem cells and platelet-rich blood plasma, tissue structures of the injured hoof had restored as the clinical and functional state of the injured limb; at the same time, the x-ray picture of the hoof worsens, which is accompanied by irreversible processes in the hoof tissues and its deformation.

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Polish Journal of Veterinary Sciences

Mazurkevych

Malyuk

Kovpak

et al. 2018

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Cell culture transplantation is very promising in the treatment of various diseases. Cells obtained from a number of sources have been analysed to provide a basis for further studies in the area of regenerative medicine. The objective of the study was to compare morphological and phenotypic changes in cat adipose tissue and bone marrow cell cultures from the first to fifth passages. Adipose tissue and bone marrow were used to obtain cell cultures (coming from 3 cats) using standard methods with own modification. Phenotype changes were monitored by CD-marker identification and CD pan-keratin. The cytogenetic analysis was performed on 50 metaphase plates of cell cultures from the first to fifth passage. Cytogenetic assays showed that the adipose tissue cell culture (ATCC) at all passages was more stable than the bone marrow cell culture (BMCC).

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