V. V. Zar scite author profile

The coating formation technique for artificial knee ligaments was proposed, which provided tight fixation of ligaments of polyethylene terephthalate (PET) fibers as a result of the healing of the bone channel in the short-term period after implantation. The coating is a frame structure of single-walled carbon nanotubes (SWCNT) in a collagen matrix, which is formed by layer-by-layer solidification of an aqueous dispersion of SWCNT with collagen during spin coating and controlled irradiation with IR radiation. Quantum mechanical method SCC DFTB, with a self-consistent charge, was used. It is based on the density functional theory and the tight-binding approximation. The method established the optimal temperature and time for the formation of the equilibrium configurations of the SWCNT/collagen type II complexes to ensure maximum binding energies between the nanotube and the collagen. The highest binding energies were observed in complexes with SWCNT nanometer diameter in comparison with subnanometer SWCNT. The coating had a porous structure—pore size was 0.5—6 μm. The process of reducing the mass and volume of the coating with the initial biodegradation of collagen after contact with blood plasma was demonstrated. This is proved by exceeding the intensity of the SWCNT peaks G and D after contact with the blood serum in the Raman spectrum and by decreasing the intensity of the main collagen bands in the SWCNT/collagen complex frame coating. The number of pores and their size increased to 20 μm. The modification of the PET tape with the SWCNT/collagen coating allowed to increase its hydrophilicity by 1.7 times compared to the original PET fibers and by 1.3 times compared to the collagen coating. A reduced hemolysis level of the PET tape coated with SWCNT/collagen was achieved. The SWCNT/collagen coating provided 2.2 times less hemolysis than an uncoated PET implant. MicroCT showed the effective formation of new bone and dense connective tissue around the implant. A decrease in channel diameter from 2.5 to 1.7 mm was detected at three and, especially, six months after implantation of a PET tape with SWCNT/collagen coating. MicroCT allowed us to identify areas for histological sections, which demonstrated the favorable interaction of the PET tape with the surrounding tissues. In the case of using the PET tape coated with SWCNT/collagen, more active growth of connective tissue with mature collagen fibers in the area of implantation was observed than in the case of only collagen coating. The stimulating effect of SWCNT/collagen on the formation of bone trabeculae around and inside the PET tape was evident in three and six months after implantation. Thus, a PET tape with SWCNT/collagen coating has osteoconductivity as well as a high level of hydrophilicity and hemocompatibility.

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Knee Joint Ligament Implants with Composite Nanocoatings

Gerasimenko

Zhurbina

Kurilova

et al. 2016

Biomed Eng

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Tissue and Cell Reaction of the Synovial Media to Intraarticular Injection of Polymer Viscoprosthesis “Noltrex” in Experimental Conditions

Shekhter¹,

Zar²,

Волошин³

et al. 2016

Alʹm. klin. med.

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ЗАО Научный центр «Биоформ», МоскваИзучена реакция синовиальной оболочки и хряща 20 кроликов на введение 1 мл полимерного геля «Нол-трекс» в полость скакательного сустава. Сделан вывод о биологической инертности и безопасности нолтрекса при его введении в полость сустава.Ключевые слова: остеоартрит, остеоартроз, синовиальная жидкость, полиакриламидный гель, нолтрекс. Reaction of synovial membrane and cartilage on 1 ml of polymer gel «NOLTREX» injected into the cavity of jumping joint of 20 rabbits was investigated. Biological inertness and safety of noltrex injected into the joint cavity was established. TISSUE AND CELL REACTION OF THE SYNOVIAL MEDIA TO INTRAARTICULAR INJECTION OF POLYMER VISCOPROSTHESIS "NOLTREX" IN EXPERIMENTAL CONDITIONS A.B. Shekhter

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Research of dependence of the laser weld tensile strength on the protein denaturation temperature, which is part of the solder

Ryabkin

Rimshan

Gerasimenko

et al. 2017

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Serum markers for immunological response to metal alloys of endoprostheses

Shatokhina

Zar

et al. 2020

Priorov J. of Traum. & Orthoped.

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A study of solid-phase structures of blood serum using wedge-shaped and marginal dehydration methods (Litos system technology) was conducted in order to find out the causes of an inflammatory reaction followed by fibrosis in the second operated joint in a patient with bilateral knee arthritis. The study was aimed at identifying specific morphological markers that characterize the bodys response to the endoprosthesis material. Its solid-phase structures indicated the activation of a hyperergic reaction with daily incubation of blood serum with an alloy of titanium, aluminum, and vanadium. On the contrary, the immunological activity of blood serum can be suppressed and the structures present in it can be transformed into amorphous detritus with the incubation of an alloy of cobalt, chromium, and molybdenum. It was observed from the study that the nature of the immunological reaction of a sensitized organism depends on the type of metals that are part of the endoprosthesis. The immune response causes inflammation of the periarticular tissue, followed by its fibrosation and the formation of a scar demarcation shell that separates the periarticular tissue from the endoprosthesis and performs the function of an immunological barrier on the alloy of titanium, aluminum, and vanadium. On the other hand, an immunological reaction causes the destruction of inflamed periarticular tissue, followed by gradual destruction of the articular bag on the alloy of cobalt, chromium, and molybdenum.

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V. V. Zar

Frame Coating of Single-Walled Carbon Nanotubes in Collagen on PET Fibers for Artificial Joint Ligaments

Knee Joint Ligament Implants with Composite Nanocoatings

Tissue and Cell Reaction of the Synovial Media to Intraarticular Injection of Polymer Viscoprosthesis “Noltrex” in Experimental Conditions

Research of dependence of the laser weld tensile strength on the protein denaturation temperature, which is part of the solder

Serum markers for immunological response to metal alloys of endoprostheses

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