Search Results - "V.I. Sevastianov"

Chondrogeneic Potential of MSC from Different Sources in Spheroid Culture by Tsvetkova, A. V., Vakhrushev, I. V., Basok, Yu. B., Grigor’ev, A. M., Kirsanova, L. A., Lupatov, A. Yu, Sevastianov, V. I., Yarygin, K. N.

“…We performed a comparative study of the proliferative potential of human mesenchymal stromal cells (MSC) from three sources (tooth pulp, adipose tissue, and…”
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The Combined Use of Synthetic and Biological Test Systems in the Development of Transdermal Therapeutic Systems by Kuznetsova, E. G., Kuryleva, O. M., Salomatina, L. A., Sevastianov, V. I.

“…There are several approaches to modeling percutaneous diffusion of drugs and predicting its efficiency in the development of new transdermal therapeutic…”
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Creating a Tissue-Specific Microdispersed Matrix from a Decellularized Porcine Liver by Kirillova, A. D., Basok, Yu. B., Lazhko, A. E., Grigoryev, A. M., Kirsanova, L. A., Nemets, E. A., Sevastianov, V. I.

“…The main problem with decellularization of liver tissue as a tissue-specific matrix/scaffold in liver bioengineered structures is the need to maximize the…”
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Formation of Tissue-Engineered Construct of Human Cartilage Tissue in a Flow-Through Bioreactor by Sevastianov, V. I., Basok, Yu. B., Grigor’ev, A. M., Kirsanova, L. A., Vasilets, V. N.

“…We performed culturing of a cell-engineered construct of human cartilage tissue consisting of biopolymer microstructured collagen-containing hydrogel, human…”
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Fabrication of Microdispersed Tissue-Specific Decellularized Matrix from Porcine Articular Cartilage by Basok, Yu. B., Kirillova, A. D., Grigoryev, A. M., Kirsanova, L. A., Nemets, E. A., Sevastianov, V. I.

“…A method for obtaining a microdispersed tissue-specific matrix from decellularized porcine articular cartilage while maintaining morphological and functional…”
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Methods for Regulation of Physicochemical and Biological Properties of the Surface of Poly(hydroxybutyrate-co-hydroxyvalerate) Film Specimens by Nemets, E. A., Surguchenko, V. A., Pankina, A. P., Metelsky, S. T., Sevastianov, V. I.

“…One of the main disadvantages of polymers widely used for the manufacture of implants, including prosthetic vascular grafts, as well as resorbable matrices for…”
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Clinical use of scaffold-technology to manage extensive bone defects by Kryukov, E.V., Brizhan', L.K., Khominets, V.V., Davydov, D.V., Chirva, Yu.V., Sevastianov, V.I., Perova, N.V., Babich, M.I.

“…Introduction Practical application of regenerative medicine to restore structural and functional properties of damaged tissues and organs using bioactive…”
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Comparative analysis of methods for increasing the biostability of collagen films by Nemets, E. A., Pankina, A. P., Sevastianov, V. I.

“…Most often, glutaraldehyde (GA) is used to increase the biostability of biological materials intended for the manufacture of implantable products or matrices…”
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Composite Porous Tubular Biopolymer Matrix of Small Diameter by Nemets, E. A., Belov, V. Yu, Ilina, T. S., Surguchenko, V. A., Pankina, A. P., Sevastianov, V. I.

“…One of the main problems in cardiovascular surgery is the lack of functionally reliable small-diameter (no more than 4 mm) vascular grafts required for…”
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A Perfusion Bioreactor for Making Tissue-Engineered Constructs by Sevastianov, V. I., Basok, Yu. B., Grigoryev, A. M., Kirsanova, L. A., Vasilets, V. N.

“…Experiments were performed to develop a design for a flow bioreactor. A system was constructed consisting of a small-scale bioreactor placed in a CO2…”
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Biodegradable porous scaffolds for the bone tissue regeneration by Agapova, O. I., Druzhinina, T. V., Trofimov, K. V., Sevastianov, V. I., Agapov, I. I.

“…Scaffolds made of recombinant spidroin and fibroin of Bombix mori silk were produced by the salt leaching technique. The regenerative properties of scaffold…”
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Plasma and vacuum ultrviolet assisted engineering of medical polymers by Vasilets, V.N., Sevastianov, V.I.

“…The mechanisms of the interaction of a gas-discharge plasma and vacuum ultraviolet (VUV) radiation with medical polymers were considered. Various techniques…”
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Production of purified polyhydroxyalkanoates (PHAs) for applications in contact with blood by Sevastianov, V.I., Perova, N.V., Shishatskaya, E.I., Kalacheva, G.S., Volova, T.G.

“…Samples of olyhydroxyalkanoates (PHAs), polyhydroxybutyrate (PHB) and copolymers poly(hydroxybutyrate-co-hydroxyvalerate) (PHBV) with 4 and 18 mol%…”
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SPECIFIC ASPECTS OF INTERACTION OF PLATELETS WITH THE HEPARINIZED MATERIALS by E.A. Nemets, V.I. Sevastianov, S.P. Uvarov, O.V. Romanov

“…Comparative analysis of anticoagulant nature on medical materials testing was done. It was found that change of citrate by heparin is accompanied by…”
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CHARACTERISTICS OF ADHESION AND PROLIFERATION OF MOUSE NIH/3T3 FIBROBLASTS ON THE POLY(3-HYDROXYBUTYRATE-CO-3-HYDROXYVALERATE) FILMS WITH DIFFERENT SURFACE ROUGHNESS VALUES by V.А. Surguchenko, А.S. Ponomareva, А.Е. Efimov, Е.А. Nemets, I.I. Agapov, V.I. Sevastianov

“…Adhesion and proliferation of NIH/3Т3 mouse fibroblasts on the surfaces of bacterial copolymer poly(3-hydroxy- butyrate-co-3-hydroxyvalerate) films with…”
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