It is well known that cardiovascular disease is the leading cause of mortality in the western societies. A number of risk factors such as family history, diabetes, hypertension, obesity, diabetes, smoking and physical inactivity are responsible for a significant proportion of the overall cardiovascular risk. Interestingly, recent data suggest there is a gradient in the incidence, morbidity and mortality of cardiovascular disease across the spectrum of socioeconomic status, as this is defined by educational level, occupation or income. Additionally, dietary mediators seem to play significant role in the pathogenesis of cardiovascular disease, mediating some of the discrepancies in atherosclerosis among different socioeconomic layers. Therefore, in the present article, we aim to review the association between socioeconomic status and cardiovascular disease risk factors and the role of different dietary mediators.
Cystatin C (cys-C) is a small protein molecule (120 amino acid peptide chain, approximately 13kDa) produced by virtually all nucleated cells in the human body. It belongs to the family of papain-like cysteine proteases and its main biological role is the extracellular inhibition of cathepsins. It's near constant production rate, the fact that it is freely filtered from the glomerular membrane and then completely reabsorbed without being secreted from the proximal tubular cells, made it an almost perfect candidate for estimating renal function. The strong correlation between chronic kidney disease (CKD) and cardiovascular disease (CVD) along with the growing understanding of the role of cysteinyl cathepsins in the pathophysiology of CVD inspired researchers to explore the potential association of cys-C with CVD. Throughout the spectrum of CVD (peripheral arterial disease, stroke, abdominal aortic aneurysm, heart failure, coronary artery disease) adverse outcomes and risk stratification have been associated with high plasma levels of cys-C. The exact mechanisms behind the observed correlations have not been comprehensively clarified. Plausible links between high cys-C levels and poor cardiovascular outcome could be impaired renal function, atherogenesis and inflammatory mediators, remodeling of myocardial tissue and others (genetic factors, aging and social habits). The scope of the present article is to systematically review the current knowledge about cys-C biochemistry, metabolism, methods of detection and quantification and pathophysiological associations with different aspects of CVD.
Heart failure (HF) is a complex heterogeneous syndrome with immune, metabolic and neurohumoral mechanisms interacting and leading to gradual heart contractility impairment. From the first study-to correlate inflammation with HF, inflammation biomarkers have been the subject of intense inquiry in patients with various forms of HF. Chronic HF (CHF) is strongly associated with inflammation in terms of pathogenesis, progression, severity and prognosis. Inflammatory mediators participate in CHF pathophysiology in various ways like exerting direct impact on cardiac myocytes, fibroblasts and β-adrenergic receptors leading to hypertrophy, fibrosis and impaired cardiac contractility, respectively, or inducing apoptosis by stimulation of the proper genes. The anti-inflammatory effects of classical heart failure therapeutic strategies such as ACEI and b-blockers are rather conflicting. Whether novel immunomodulating and anti-inflammatory therapeutic approaches should be added to existing therapies in order to ensure additional benefit to HF patients is under investigation. In this review, we summarize the pathophysiological link between inflammatory processes and CHF, focusing on the role of novel and traditional inflammatory biomarkers and highlighting novel anti-inflammatory therapeutic strategies.
Coronary artery disease (CAD) is the leading cause of mortality in Western Societies and several developing countries. Recent evidence suggests that most detrimental clinical manifestations of CAD, such as acute coronary syndromes (ACS), are the outcome of inflammatory processes that lead to plaque formation and rupture and eventually to ischemia and potentially myocardial necrosis. Neither of the traditionally used biomarkers is thought to be the gold standard in detection of myocardial ischemia or necrosis. A biomarker that could detect quite early the ischemic myocardium as well as define the risk of a future event with high sensitivity and specificity is still lacking. Several biomarkers, implicated in the pathogenesis and clinical evolution of atherosclerosis, have emerged as potent biomarkers for early detection of myocardial ischemia. In the current review, we summarize recent evidence of the most promising biomarkers and discuss their potential role in clinical practice in patients suffering from ACSs.
Atorvastatin treatment for 4 weeks in subjects with SCR significantly improved endothelial function and suppressed systemic inflammatory status by decreasing circulating levels of IL-1b and sVCAM-1.
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