[Relationship of visceral obesity and coronary calcinosis in ischemic heart disease].

AIM: To assess the relationship between the prevalence of visceral obesity (VO) and the severity of coronary calcification (CC) in patients with verified coronary artery disease (CAD). MATERIALS AND METHODS: 125 patients with CAD were examined. Assessment of the morphometric characteristics of visceral adipose tissue (VAT) and CC was perform using multislice computed tomography (MSCT). The calcium index (CI) of the coronary arteries (CA) was determine by the Agatston method. Statistical analysis was perform using Statistica 10.0. RESULTS: VO was detect in 82 (65.6%) patients with CAD. In the presence of VO, higher CC values were observed in the projection of the envelope (p=0.00014), right coronary (p=0.00002) arteries, total CI (p=0.0003), and the prevalence of massive CC. Correlation analysis showed the relationship between the area of VAT and the CC of all the studied localizations. According to the ROC analysis, VO is a significant predictor of massive CC (area under the ROC curve AUC 0.72, 95% CI 0.560.89), in contrast to body mass index BMI (AUC 0.56, 95% CI 0.310.82). CONCLUSION: The index of the ratio of VAT to subcutaneous adipose tissue (VAT/SAT), but not BMI, had a direct correlation with CC. Morphology of VAT may be a significant diagnostic sign of massive CC in patients with CAD, as a factor affecting treatment and prognosis.

[Adiponectin gene expression in local fat depots in patients with coronary heart disease depending on the degree of coronary lesion].

AIM: To determine the dependence of adiponectin gene expression by subcutaneous, epicardial and perivascular adipocytes on the degree of coronary lesion in coronary heart disease. MATERIALS AND METHODS: 84 patients with coronary artery disease were examined. Of these, 39 people showed a moderate degree of atherosclerotic lesion of the coronary bed (less than or equal to 22 points) on the SYNTAX Score scale, 20 severe (2231 points), and 25 extremely severe (more than 32 points). Upon admission to the hospital, all patients underwent an echocardiographic study (Echocardiography, Acuson, Germany) with the calculation of the ejection fraction (EF) of the left ventricle (LV) to assess its systolic function. During a planned surgical intervention (coronary bypass surgery, CABG), adipocytes of subcutaneous, epicardial (EAT) and perivascular adipose tissue (PVAT) were taken. Adiponectin gene expression was evaluated by polymerase chain reaction (real-time PCR) using TaqMan probes. Statistical analysis was performed using Statistica 9.0. RESULTS: The maximum level of adiponectin expression was detected in adipocytes of PVAT, and the minimum EAT. With an increase in the degree of atherosclerotic lesion of the coronary bed, the expression of the adiponectin gene in adipocytes of local depots significantly decreases r=-0.82; p=0.023. Moreover, the low level of gene expression in EAT correlated with a decrease in LV EF by r=0.73; p=0.03. In adipocytes of subcutaneous and especially PVAT, gene expression was the highest in patients with a moderate degree of coronary lesion. CONCLUSIONS: Low adiponectin gene expression in EAT is associated with an increase in the degree of atherosclerotic lesion of the coronary bed and a decrease in LV EF.

The relationship of the epicardial fat and adipo-fibrokines in myocardial infarction.

Analysis of the relationship between the epicardial fat with adipokine and system ST2/IL-33 in-hospital period, and also with the extent of fibrosis of the atrial myocardium through the year after myocardial infarction in patients with visceral obesity. Examined 88 patients with myocardial infarction (MI). Visceral obesity (VO) is established by computed tomography. In fact the presence VO the patients divided into two groups. Determined the concentration of leptin, adiponectin, stimulating growth factor (ST-2) and interlekin-33 (IL-33) in serum on 1st, 12-day in-hospital period and 1 year after MI. Thickness epicardial adipose tissue (EAT) and the percentage of cardiovirus of the myocardium was measured by the method MRI, respectively, on the 12th day of hospitalization and a year after MI. The control group consisted of 30 people. Statistical analysis of data was performed using nonparametric tests. Patients with MI is associated with an increase in the thickness of EAT, imbalance of adipokines with increased leptin, decreased adiponectin in early in-hospital period and development of cardiovirus. Higher values of IL-33 and ЅT2 in the early in-hospital period MI patients with no accompanied by a lower prevalence of cardiovirus in the post-hospital period. The thickness of epicardial fat is directly dependent on the prevalence of myocardial fibrosis, the concentrations of IL-33 and in inverse proportion to the concentration of ЅT2. The degree of cardiovirus is in inverse proportion to the concentration of IL-33 and directly dependent on the concentration of ST2. The increase in EAT closely linked to the development of fibrosis of the atrial myocardium after year. The thickness of EAT more patients MI, which is most pronounced imbalance of adipokines. The metabolic activity of EAT correlated with increased IL-33 and ST2 decrease.

[Ghrelin Physiology and Pathophysiology: Focus on the Cardiovascular System].

Ghrelin is a multifunctional peptide hormone, mainly synthesized by P / D1 cells of the stomach fundus mucosa. Its basic effect, which is realized via GHS-R1 α receptor in the arcuate and the ventromedial nucleuses of hypothalamus, is stimulation of the synthesis of pituitary hormones. Ghrelin is involved in control of appetite and energy balance, regulation of carbohydrate and lipid metabolism, cell proliferation and apoptosis, as well as modulation of functioning of gastrointestinal, cardiovascular, pulmonary and immune systems. It was found that cardiomyocytes are able to synthesize ghrelin. High concentrations of GHS-R1α in the heart and major blood vessels evidence for its possible participation in functioning of cardiovascular system. Ghrelin inhibits apoptosis of cardiomyocytes and endothelial cells, and improves the functioning of the left ventricle (LV) after injury of ischemia-reperfusion mechanism. In rats with heart failure (HF) ghrelin improves LV function and attenuates development of cardiac cachexia. In addition, ghrelin exerts vasodilatory effects in humans, improves cardiac function and reduces peripheral vascular resistance in patients with chronic HF. The review contains of the predictive value of ghrelin in the development and prevention of cardiovascular disease.

The role of perivascular adipose tissue in the development of cardiovascular diseases. The importance of diagnosis for assessing the risk stratification of cardiovascular diseases.

Obesity is closely associated with metabolic and cardiovascular diseases, including dyslipidemia, coronary artery disease, hypertension, and heart failure. Adipose tissue (AT) is identified as a complex endocrine organ, with a wide range of regulatory functions at the cellular, tissue and systemic levels. Various terms, including paracardiac, epicardial and pericardial, are used to describe the fatty deposits surrounding the heart. Among all the fat depots, perivascular AT (PVAT) is of great biological significance for the cardiovascular system due to its anatomical proximity to the vessels. Recent studies have shown the presence of a complex, bidirectional paracrine and vasocardial signaling system between the vascular wall and PVAT. In the review, we will discuss the biological role of PVAT in both the physiological state and cardiovascular pathology, emphasizing its dual proatherogenic and antiatherogenic role. Let us consider PVAT as a target for various therapeutic agents in cardiovascular diseases. We will also analyze data on the role of non-invasive techniques as a diagnostic tool for assessing coronary artery inflammation.

Influence of visceral obesity on the secretion of adipokines with epicardial adipocytes in patients with coronary heart disease.

AIM: To study adipokine-cytokine profile of epicardial adipocytes (EAT) and subcutaneous adipose tissue (SAT) in conjunction with the area of visceral adipose tissue (VAT), biochemical and clinical characteristics of patients with coronary heart disease. MATERIALS AND METHODS: Examined 84 patients (70 men and 14 women) with coronary artery disease. In fact the presence of visceral obesity (VO) the patients were divided into two groups. Patients VO the sampling of adipocytes of EAT and SAT, with subsequent cultivation and evaluation of adipokine and provospalitelna activity. Carried out the determination of carbohydrate and lipid metabolism, adipokine and pro-inflammatory status in the blood serum. RESULTS: It was found that adipokine-cytokine profile of adipocytes of EAT and SAT differ. Adipocytes art of the disease on the background characterized by an increase IL-1, TNF-α, leptin-adiponectin relationships and a decrease in the content of protective factors: adiponectin and anti-inflammatory cytokine IL-10. While the SAT adipocytes was characterized by a decrease in the concentration of soluble receptor for leptin and the more pronounced leptinresistance, and the increase in proinflammatory cytokines was offset by the increase in the concentration of IL-10. The presence associated with multi-vessel coronary bed lesion, multifocal atherosclerosis, insulin resistance, atherogenic dyslipidemia, an imbalance of adipokines and markers of inflammation. So the value of the square VAT determined higher concentrations of leptin, TNF-α in adipocytes and serum, lipid and carbohydrate metabolism and a lower content of soluble receptor for leptin. CONCLUSION: Thus, the disease on the background of the status of the adipocytes of EAT characterized as a "metabolic inflammation", and may indicate the direct involvement of adipocytes in the pathogenesis of coronary artery disease, due to the formation of adipokine imbalance and the activation of proinflammatory reactions.

[The perspectives of application of retinol-binding protein as a biomarker of risk of cardiovascular pathology.]

The fatty tissue is an endocrine organ secreting biologically active factors called adipokines that have systemic and local features. The adipokines play an important role in development of complications caused by obesity. nowadays, retinol-binding protein 4 (RBP4), one of adipokines identified recently, is considered as a connecting link between obesity and its complications. Adipokine participates in development of resistance to insulin and correlated with cardio-metabolic markers at chronic inflammatory diseases, including diabetes mellitus type II, metabolic syndrome and cardio-vascular diseases. It is considered that inflammation, produced by RBP4, induces resistance to insulin and cardio-vascular diseases. It seems that RBP4 is an adipokine that both induces resistance to insulin and participates in pathogenesis of other metabolic complications of obesity. This is confirmed by a tight relationship between RBP4 and atherogenic lipoproteins, atherosclerotic affection of vessels and cardio-vascular diseases. However, an important restriction in certain studies related to RBP4 is that they included patients who received medicinal therapy (sugar lowering and hypo-lipidemic pharmaceuticals) or had renal and hepatic insufficiency. The mentioned factors impact concentration of RBP4 in blood and hence can distort the results. In spite of that, the established potential metabolic role of RBP4 requires a further investigation. Besides further carefully planned studies are required focusing on establishing is RBP4 a molecular participator of molecular alterations or it is only a dynamically volatile "witness". The present review summarizes actual knowledge concerning the role of RBP4 under obesity, in development of dyslipidemia, insulin resistance and cardio-vascular diseases. The purpose of the study is to summarize data of studying of inflammatory and immune effects of RBP4 especially in case of cardio-vascular diseases and also establishment of perspective of applying retinol-binding protein as a potential biomarker of cardiovascular risk.

[THE SYSTEM OF SOLUBLE LEPTIN RECEPTORS AND PROINFLAMMATORY FACTORS IN MYOCARDIAL INFARCTION].

The present study was motivated by the lack of data on the role ofvariations in the levels of leptin and its soluble receptors and their interaction with proinflammatory factors in the development of acute coronary syndrome. The study included patients suffering myocardial infarction with and without type 2 diabetes mellitus. Hyperleptinemia and its relationship with myocardial necrosis markers (creatine phosphokinase, creatine phosphokinase-MB, troponin) give reason to suggest the important role of leptin in the development of inflammatory process associated with myocardial infarction in patients with and without diabetes mellitus. The results of the study provide a basis for the elaboration of a new therapeutic strategy for the correction of metabolic disorders in patients with acute coronary syndrome.

[Biochemical characteristics associated with diabetes mellitus one year after myocardial infarction].

AIM: To evaluate the most informative parameters of adipokine, anti-inflammatory, and prothrombogenic status associated with diabetes mellitus. MATERIALS AND METHODS: The study included 200 patients with myocardial infarction (MI) in whom markers of adipokine status, grelin, anti-inflammatory factors, CRP and plasminogen activator inhibitor were measured by biochemical methods on days 1 and 12 after admission. RESULTS: In the period of acute MI, the adipokine status was disturbed, FFA and grelin levels decreased, pro-inflammatory and thrombotic potential increased. Patients who developed diabetes within 1 year after MI were characterized by more pronounced changes of the parameters of interest. CONCLUSION: Adiponectin, retinol-binding protein, grelin, TNF-α, and plasminogen activator inhibitor are the most informative biochemical parameters associated with diabetes mellitus developing 1 year after MI.

[The markers of lipid transport system of blood and annual prognosis of cardiac infarction].

The sampling included 133 patients with diagnosis of cardiac infarction with peak of segment ST. After a year after old cardiac infarction, in 38 patients were established such unfavorable outcomes of disease as progressive stenocardia, decompensation of cardiac failure, repeated cardiac infarction and lethal outcome. It is established that among all indicators of lipid profile detected at hospital period of cardiac infarction only three indicators are prognostically significant in groups of patients with different outcomes--levels of free fatty acids, oxidized modified lipoproteins of low density and antibodies to them. During hospital period, augmentation of concentration of free fatty acids, oxidized modified lipoproteins of low density and antibodies to them increases risk of development of distant complications of cardiac infarction. The mathematical model is proposed comprising as predictors free fatty acids and antibodies to oxidized modified lipoproteins of low density. This model makes it possible on the basis of biochemical data obtained during hospital period, to calculate individual cumulative risk and to develop long-term prognosis of probable outcome of cardiac infarction.

[Lipid, adipokine and ghrelin concentrations in myocardial infarction patients with insulin resistance].

AIM: The estimate insulin resistance in myocardial infarction. PATIENTS AND METHODS: The study involved 200 patients with myocardial infarction, in which on the 1st and 12th day of hospitalization measured glucose, insulin, insulin resistance index (IR), lipid profile, the concentration of adipokines and ghrelin. RESULTS: IR was detected in 77% of patients and was associated with a history of factors of cardiovascular risk, adverse clinical course of the disease, lipid disorders. The most important marker was the level of free fatty acids. High risk associated with increased in 9 times the concentration of free fatty acids in blood plasma. Patients with IR observed increased concentrations of leptin, resistin, and reduced the protective effect of adiponectin. The high specificity and sensitivity characteristic of the concentration of ghrelin: its reduction by 4 times in the acute phase of myocardial infarction increases the risk of MI by 78%. CONCLUSIONS: Significant risk factors for MI myocardial infarction, along with insulinemia and glycemia, is to increase the concentration of free fatty acids and the disbalance in the system adipokines against deficiency of ghrelin in acute and early recovery periods of the disease. Free fatty acids and ghrelin are promising markers to stratify the risk of insulin myocardial infarction. resistance in patients with myocardial infarction.

[The detection of leptin and metabolic markers of insulin resistance in patients with myocardial infarction].

The shortage of data concerning the character of changes of leptin concentration and its role information of insulin resistance under development of acute coronary events determined the appropriateness of the present study. The cardiac infarction patients with and without diabetes type II were examined. The identified hyperleptinemia, its relationship with basal and post-prandial hyperglycemia and with increase of C-peptide concentration and free fatty acids made possible to consider leptin both as one of the important components in the series of carbohydrate and lipid metabolism disorders and the additional marker of development of insulin resistance under cardiac infarction. These study results can be applied to patients with diabetes anamnesis and to patients without this concomitant pathology. The study results can be used as a foundation for new diagnostic and therapy tactics of metabolic disorders correction in patients with acute coronary vascular pathology.

[Expression of gene and content of adiponectin in fatty tissue in patients with ischemic heart disease]. / Ékspressiia gena i soderzhanie adiponektina v zhirovoi tkani u patsientov s ishemicheskoi bolezn'iu serdtsa.

The purpose of the study was to investigate the features of expression and adiponectin content in the adipocyte culture of subcutaneous, epicardial, and perivascular adipose tissue and the effect of various doses of rosuvastatin on these processes. 29 patients with coronary artery disease were examined. Adipocytes were isolated from the samples of SAT, EAT and PVAT which were taken during coronary artery bypass surgery, followed by cultivation in the presence of rosuvastatin and evaluation of gene expression and adiponectin concentration. Adipocytes SAT, EAT and PVAT differed in the level of adiponectin secretion and expression of its gene. On day 1 of cultivation the expression of the adiponectin gene in the EAT was 2.3 times lower than in the PVAT. On day 2 of cultivation the expression of the adiponectin gene was reduced both in the EAT and the PVAT as compared to the SAT. When rosuvastatin was added at a concentration of 1 mmol/L, adiponectin gene expression in PVAT was higher than when rosuvastatin was added at a concentration of 5 mmol/L, in the adipocyte culture of SAT effect was opposite. Thus, the adipocytes of EZhT and, to a greater extent, PAS, can be a therapeutic target for statins in the case of the pathological activation of adipose tissue.

[Circadian fluctuations of the plasma corticosterone level and locomotion in rats subjected local hippocampectomy]. / Sutochnnye kolebaniia kontsentratsii kortikosterona v plazme i lokomotsii u krys pri lokal'nom razrushenii gippokampa.

After bilateral lesion of dorsal hippocampus increase of the level of corticosterone and motility in night and decrease in daytime were observed.