Your search keyword '"Chebodaeva, Valentina V."' showing total 4 results

1. Influence of thermal treatment on structure and properties of RF-Magnetron calcium phosphate coatings deposited on Mg-based alloy.

Author

Prosolov, Konstantin A., Khimich, Margarita A., Bolat-ool, Anna A., Belyavskaya, Olga A., Lastovka, Vladimir V., Tolmachev, Alexey I., Uvarkin, Pavel V., Chebodaeva, Valentina V., Chaikina, Marina V., Sharkeev, Yurii P., Panin, Victor E, and Fomin, Vasily M

Subjects

PHOSPHATE coating, CALCIUM phosphate, RADIOFREQUENCY sputtering, MAGNETRON sputtering, ALLOYS, ATMOSPHERIC nitrogen

Abstract

Mg-based alloys became a material of interest for biomedical applications. The major difficulty in the Mg-based alloy application is its rapid corrosion rate. Various coating methods are used to form a barrier layer onto Mg-based materials. In this work, a thin film of calcium phosphate was deposited on an Mg–0.8 at % Ca alloy using RF magnetron sputtering. As-deposited coatings were in an X-ray amorphous state. Post-deposition heat treatment resulted in the coating crystallization, exhibiting the pure HA phase. Heat-treatment at 450°C for 3 hours did not significantly change the coating integrity and adhesion strength to the Mg–0.8 at % Ca substrate. The Ca/P ratio, however, was changed from 1.85 for as-deposited to 2.00 for heat-treated samples. Both coating and substrate material after heat treatment exhibit preferential crystallographic growth in (002) direction with Tc(002) = 2.86 and 5.79, correspondingly. [ABSTRACT FROM AUTHOR]

Published

2020

2. Amorphous–Crystalline Calcium Phosphate Coating Promotes In Vitro Growth of Tumor-Derived Jurkat T Cells Activated by Anti-CD2/CD3/CD28 Antibodies.

Author

Sharkeev, Yurii P., Komarova, Ekaterina G., Chebodaeva, Valentina V., Sedelnikova, Mariya B., Zakharenko, Aleksandr M., Golokhvast, Kirill S., Litvinova, Larisa S., Khaziakhmatova, Olga G., Malashchenko, Vladimir V., Yurova, Kristina A., Gazatova, Natalia D., Kozlov, Ivan G., Khlusova, Marina Y., Zaitsev, Konstantin V., and Khlusov, Igor A.

Subjects

PHOSPHATE coating, T cells, CALCIUM phosphate, ZETA potential, MORPHOLOGY

Abstract

A modern trend in traumatology, orthopedics, and implantology is the development of materials and coatings with an amorphous–crystalline structure that exhibits excellent biocopatibility. The structure and physico–chemical and biological properties of calcium phosphate (CaP) coatings deposited on Ti plates using the micro-arc oxidation (MAO) method under different voltages (200, 250, and 300 V) were studied. Amorphous, nanocrystalline, and microcrystalline statesof CaHPO4 and β-Ca2P2O7 were observed in the coatings using TEM and XRD. The increase in MAO voltage resulted in augmentation of the surface roughness Ra from 2.5 to 6.5 µm, mass from 10 to 25 mg, thickness from 50 to 105 µm, and Ca/P ratio from 0.3 to 0.6. The electrical potential (EP) of the CaP coatings changed from −456 to −535 mV, while the zeta potential (ZP) decreased from −53 to −40 mV following an increase in the values of the MAO voltage. Numerous correlations of physical and chemical indices of CaP coatings were estimated. A decrease in the ZP magnitudes of CaP coatings deposited at 200–250 V was strongly associated with elevated hTERT expression in tumor-derived Jurkat T cells preliminarily activated with anti-CD2/CD3/CD28 antibodies and then contacted in vitro with CaP-coated samples for 14 days. In turn, in vitro survival of CD4+ subsets was enhanced, with proinflammatory cytokine secretion of activated Jurkat T cells. Thus, the applied MAO voltage allowed the regulation of the physicochemical properties of amorphous–crystalline CaP-coatings on Ti substrates to a certain extent. This method may be used as a technological mechanism to trigger the behavior of cells through contact with micro-arc CaP coatings. The possible role of negative ZP and Ca2+ as effectors of the biological effects of amorphous–crystalline CaP coatings is discussed. Micro-arc CaP coatings should be carefully tested to determine their suitability for use in patients with chronic lymphoid malignancies. [ABSTRACT FROM AUTHOR]

Published

2021

3. Calcium Phosphate Coating Prepared by Microarc Oxidation Affects hTERT Expression, Molecular Presentation, and Cytokine Secretion in Tumor-Derived Jurkat T Cells.

Author

Litvinova, Larisa S., Khaziakhmatova, Olga G., Shupletsova, Valeria V., Yurova, Kristina A., Malashchenko, Vladimir V., Shunkin, Egor O., Ivanov, Pavel A., Komarova, Ekaterina G., Chebodaeva, Valentina V., Porokhova, Ekaterina D., Gereng, Elena A., and Khlusov, Igor A.

Subjects

PHOSPHATE coating, T cells, CALCIUM phosphate, VASCULAR endothelial growth factors, CD25 antigen

Abstract

Calcium phosphate (CaP) materials are among the best bone graft substitutes, but their use in the repair of damaged bone in tumor patients is still unclear. The human Jurkat T lymphoblast leukemia-derived cell line (Jurkat T cells) was exposed in vitro to a titanium (Ti) substrate (10 × 10 × 1 mm3) with a bilateral rough (average roughness index (Ra) = 2–5 μm) CaP coating applied via the microarc oxidation (MAO) technique, and the morphofunctional response of the cells was studied. Scanning electron microscopy (SEM), X-ray diffraction (XRD), and energy dispersive X-ray spectroscope (EDX) analyses showed voltage-dependent (150–300 V) growth of structural (Ra index, mass, and thickness) and morphological surface and volume elements, a low Ca/PaT ratio (0.3–0.6), and the appearance of crystalline phases of CaHPO4 (monetite) and β-Ca2P2O7 (calcium pyrophosphate). Cell and molecular reactions in 2-day and 14-day cultures differed strongly and correlated with the Ra values. There was significant upregulation of hTERT expression (1.7-fold), IL-17 secretion, the presentation of the activation antigens CD25 (by 2.7%) and CD95 (by 5.15%) on CD4+ cells, and 1.5–2-fold increased cell apoptosis and necrosis after two days of culture. Hyperactivation-dependent death of CD4+ cells triggered by the surface roughness of the CaP coating was proposed. Conversely, a 3.2-fold downregulation in hTERT expression increased the percentages of CD4+ cells and their CD95+ subset (by 15.5% and 22.9%, respectively) and inhibited the secretion of 17 of 27 test cytokines/chemokines without a reduction in Jurkat T cell survival after 14 days of coculture. Thereafter, cell hypoergy and the selection of an hTERT-independent viable CD4+ subset of tumor cells were proposed. The possible role of negative zeta potentials and Ca2+ as effectors of CaP roughness was discussed. The continuous (2–14 days) 1.5–6-fold reductions in the secretion of vascular endothelial growth factor (VEGF) by tumor cells correlated with the Ra values of microarc CaP-coated Ti substrates seems to limit surgical stress-induced metastasis of lymphoid malignancies. [ABSTRACT FROM AUTHOR]

Published

2020

4. Effect of the Porosity, Roughness, Wettability, and Charge of Micro-Arc Coatings on the Efficiency of Doxorubicin Delivery and Suppression of Cancer Cells.

Author

Sedelnikova, Mariya Borisovna, Komarova, Ekaterina G., Sharkeev, Yurii P., Chebodaeva, Valentina V., Tolkacheva, Tatiana V., Kondranova, Anastasia M., Zakharenko, Alexander M., and Bakina, Olga V.

Subjects

WETTING, CONTROLLED release drugs, PHOSPHATE coating, CANCER cells, ANTHRACYCLINES, POROSITY, SURFACE coatings, DOXORUBICIN

Abstract

Porous calcium phosphate coatings were formed by the micro-arc oxidation method on the surface of titanium for the loading and controlled release of the anticancer drug doxorubicin. The coatings' morphology and microstructure were examined by scanning electron microscopy. The phase composition was determined with the help of X-ray diffraction analysis. Studies of the hydrophilic properties of the coatings and their zeta potential were carried out. Data on the kinetics of doxorubicin adsorption-desorption were obtained. In addition, the effect of calcium phosphate coatings impregnated with doxorubicin on the viability of the Neuro-2a cell line was revealed. The coating formed at low voltages of 200–250 V contained a greater number of branched communicating pores, and therefore they were able to adsorb a greater amount of doxorubicin. The surface charge also contributes to the process of the adsorption-desorption of doxorubicin, but this effect is not fully understood and further studies are required to identify it. [ABSTRACT FROM AUTHOR]

Published

2020