Матвеева Вера Геннадьевна scite author profile

Матвеева Вера Геннадьевна

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Adipokine-cytokine profile of adipocytes of epicardial adipose tissue in ischemic heart disease complicated by visceral obesity

et al. 2017

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Introduction. To date, cardiovascular diseases (CVD) remain the main cause of disability and mortality in population. The majority of ectopic fat deposits demonstrated a reliable association with cardiometabolic risks and clinical manifestations of most CVD. The elucidation of the metabolic features of adipocytes of epicardial adipose tissue localized in the immediate vicinity of the lesion in ischemic heart disease (IHD) can have both theoretical and practical significance for pathophysiology and cardiology. Aim. To study the adipokine-cytokine profile of epicardial adipocytes (EA) and subcutaneous adipose tissue (SCAT), blood serum in relation to the area of visceral adipose tissue (AVAT), biochemical and rhelinic characteristics of IHD patients. Methods. 84 patients (70 men and 14 women) with IHD were examined. In the presence of visceral obesity (VO), patients were divided into two groups. In patients with VO, adipocyte EA and SCAT were sampled, followed by cultivation and evaluation of adipokine and proinflammatory activity. The parameters of carbohydrate and lipid metabolism, adipokine and proinflammatory status in blood serum were determined. Results. It has been established that the adipokine-cytokine profile of the adipocytes EA and SCAT differ. Adipocytes of EA in IHD on the background of VO are characterized by an increase in IL-1, TNF-, leptin-adiponectin ratio and a decrease in the protective factors: adiponectin and anti-inflammatory cytokine IL-10. While adipocytes of SCAT were characterized by a decrease in the concentration of the soluble receptor to leptin and a more pronounced leptin resistance, and the increase in inflammatory cytokines was compensated by an increase in the concentration of IL-10, the presence of VO was associated with multivessel coronary disease, multifocal atherosclerosis, insulin resistance, atherogenic dyslipidemia, adipokine imbalance, and markers of inflammation. Thus, the value of the area of VO determined higher values of leptin concentration, TNF- in adipocytes and serum, lipid and carbohydrate metabolism and a lower soluble receptor for leptin content. The conclusion. Thus, in IHD with VO the state of adipocytes, EA is characterized as "metabolic inflammation" and may indicate the direct involvement of adipocytes in the pathogenesis of IHD due to the formation of adipokine imbalance and the activation of proinflammatory reactions.

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Influence of different concentrations of fibrinogen on the properties of a fibrin matrix for vascular tissue engineering

Матвеева

Геннадьевна²,

Khanova

et al. 2021

I.P. Pavlov Russian Medical Biological Herald

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Aim. To evaluate the potential utility of fibrin matrices containing 10, 20, and 25 mg/ml of fibrinogen (fibrin-10, fibrin-20, and fibrin-30, respectively) in vascular tissue engineering (VTE). Materials and Methods. Fibrinogen was isolated using the method of ethanol cryoprecipitation and polymerized using a solution of thrombin and CaCl2. The fibrin structure was studied in a scanning electron microscope, and the physical and mechanical properties of the material were tested on a Zwick/Roell test machine. The metabolic activity of endothelial cells (EC) on the fibrin surface was evaluated by the MTT assay, and the viability of fibroblasts in the thickness of fibrin and possibility for migration by in fluorescent and light microscopy. Percent of fibrin shrinkage was determined from the difference in the sample volumes before and after removal of moisture. Results. The fiber diameter did not differ among all fibrin samples, but the pore diameter in fibrin-30 was smaller than those in fibrin-10 and fibrin-20. A possibility for migration of fibroblasts into the depth of the fibrin matrix and preservation of 97-100% viability of cells at a depth 5 mm was confirmed. The metabolic activity of EC on the surface of fibrin-20 and fibrin-30 exceeded that on collagen, fibronectin, and fibrin-10. All fibrin samples shrank in volume to 95.5-99.5%, and the highest shrinkage was seen in fibrin-10. The physical and mechanical properties of fibrin were inferior to those of human A. mammaria by a factor of 10. Conclusion. Fibrin with fibrinogen concentrations of 20 and 30 mg/ml maintains a high metabolic and proliferative activity of EC on the surface and also a high viability of fibroblasts in the matrix. Its availability, ease of preparation, and a number of other favorable properties make fibrin a promising material for VTE. However, the problem of insufficient strength requires further investigations.

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