UMLS:C0018801 - FACTA Search

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The endothelins are synthesized in vascular endothelial and smooth muscle cells, as well as in neural, renal, pulmonal, and inflammatory cells. These peptides are converted by endothelin-converting enzymes (ECE-1 and -2) from 'big endothelins' originating from large preproendothelin peptides cleaved by endopeptidases. Endothelin (ET)-1 has major influence on the function and structure of the vasculature as it favors vasoconstriction and cell proliferation through activation of specific ET(A) and ET(B) receptors on vascular smooth muscle cells. In contrast, ET(B )receptors on endothelial cells cause vasodilation via release of nitric oxide (NO) and prostacyclin. Additionally, ET(B) receptors in the lung are a major pathway for the clearance of ET-1 from plasma. Indeed, ET-1 contributes to the pathogenesis of important disorders as arterial hypertension, atherosclerosis, and heart failure. In patients with atherosclerotic vascular disease (as well as in many other disease states), ET-1 levels are elevated and correlate with the number of involved sites. In patients with acute myocardial infarction, they correlate with 1-year prognosis. ET receptor antagonists have been widely studied in experimental models of cardiovascular disease. In arterial hypertension, they prevent vascular and myocardial hypertrophy. Experimentally, ET receptor blockade also prevents endothelial dysfunction and structural vascular changes in atherosclerosis due to hypercholesterolemia. In experimental myocardial ischemia, treatment with an ET receptor antagonist reduced infarct size and prevented left ventricular remodeling after myocardial infarction. Most impressively, treatment with the selective ET(A) receptor antagonist BQ123 significantly improved survival in an experimental model of heart failure. In many clinical conditions, such as congestive heart failure, both mixed ET(A/B )as well as selective ET(A) receptor antagonism ameliorates the clinical status of patients, i.e. symptoms and hemodynamics. A randomized clinical trial showed that a mixed ET(A/B) receptor antagonist effectively lowered arterial blood pressure in patients with arterial hypertension. In patients with primary pulmonary hypertension or pulmonary hypertension related to scleroderma, treatment with a mixed ET(A/B) receptor antagonist resulted in an improvement in exercise capacity. ET receptor blockers thus hold the potential to improve the outcome in patients with various cardiovascular disorders. Randomized clinical trials are under way to evaluate the effects of ET receptor antagonism on morbidity and mortality.
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PMID:Therapeutic potential for endothelin receptor antagonists in cardiovascular disorders. 1472 28

Pulmonary arterial hypertension is a life-threatening disorder that refers to a group of diseases characterized by an abnormal elevation of the blood pressure within the pulmonary circulation due to a vasculopathy of the pulmonary microcirculation (1). If left untreated, the overall prognosis of pulmonary arterial hypertension is poor, with a 5-year survival rate of 34%. The most common cause of death is progressive right-sided heart failure (2). There is no pharmacologic cure for pulmonary arterial hypertension, and a team approach is required for the proper care of these patients (3). Treatment is directed at improving clinical symptoms, increasing exercise tolerance and extending survival. Until just a few years ago, standard treatment options for the treatment of pulmonary arterial hypertension were limited and included coumarin derivatives, calcium channel blockers, diuretics, digoxin and oxygen supplementation (4). In the last decade, the therapeutic options for pulmonary arterial hypertension have made considerable advances. In at least three major randomized controlled trials, the continuous intravenous infusion of epoprostenol, a synthetic salt of prostacyclin with potent vasodilatory ability, has been shown to improve exercise tolerance, hemodynamics, survival and quality of life in patients with New York Heart Association (NYHA) functional classes III and IV with either primary pulmonary hypertension or pulmonary arterial hypertension associated with scleroderma (5-9). Epoprostenol has now become a mainstay therapy in the long-term treatment of primary pulmonary hypertension or pulmonary arterial hypertension associated with scleroderma. Nevertheless, epoprostenol is far from an ideal form of therapy. Issues such as the short half-life of the drug, need for continuous central intravenous access and significant side effects have led to the development of more stable prostacyclin analogues as alternative therapies for primary pulmonary hypertension. These alternative therapies include iloprost (inhaled delivery) and treprostinil (subcutaneous delivery). As a result, the Food and Drug Administration (FDA) recently approved treprostinil for the treatment of pulmonary arterial hypertension in patients with NYHA classes II-IV. This review will offer a discussion of the basic pharmacology of treprostinil, its similarities to and differences from epoprostenol, the animal studies as well as the initial investigational studies leading to its FDA approval, and clinical uses of the drug alone or in combination with newer therapies directed at pulmonary arterial hypertension developed over the last decade.
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PMID:Overview of treprostinil sodium for the treatment of pulmonary arterial hypertension. 1514 31

Pulmonary hypertension is a condition characterized by elevation of the mean blood pressure in pulmonary artery above 25 mm Hg at rest or above 30 mm Hg during exercise. Pulmonary hypertension signs are not specific. They are frequently camouflaged by signs of a primary disease causing pulmonary hypertension. That causes difficulties with diagnosing and often doesn't lead to recognition of pulmonary hypertension till pressure in pulmonary artery is difficult to manage therapeutically. Treatment of secondary pulmonary hypertension tries to affect primary disease. In patients with pulmonary artery hypertension with preserved vasoreactivity so called conventional treatment is still recommended (vasodilatation treatment with calcium channels blockers, anticoagulation, oxygentherapy, treatment of heart failure). New ways of pharmacotherapy represent administration of prostacyclin, antagonists of endothelin receptors, and phosphodiesterase inhibitors. Nonpharmacology treatment of pulmonary hypertension includes balloon atrial septostomy, lung transplantation, and in chronic thromboembolic pulmonary hypertension pulmonary endarterectomy. Current recommendations for pulmonary hypertension treatment concentrate especially on patients in functional classes NYHA III and IV. In less symptomatic patients there is usually lack of unambiguous clinical data needed for treatment. Owning to seriousness of the disease, its difficult diagnosing and frequently difficult treatment the global trend is to concentrate care of patients with pulmonary hypertension in specialised centers. This problem systematically addresses a center at the 2nd Clinic of Internal Medicine of the 1st Medical Faculty of the Charles University and the General Teaching Hospital in Prague in close cooperation with the Clinic of Cardiovascular Surgery at the General Teaching Hospital in Prague, and the transplantation center at the 3rd Surgical Clinic of the Teaching Hospital Motol in Prague, the Czech Republic.
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PMID:[Present ways of diagnosing and treatment of pulmonary hypertension in the Czech Republic]. 1558 Sep 4

Owing to the selective inhibition of PGI2 synthesis, treatment with COX-2 inhibitors constitutes a potential risk for the increased occurrence of thrombotic cardiovascular incidents and of the first-time occurrence or a deterioration in pre-existing heart failure. Elderly patients, particularly those with a history of ischemic heart disease, hypertension or heart failure, are at risk. One key indication for selective COX-2 inhibitors is the chronic treatment of patients suffering from rheumatoid arthritis or osteoarthritis. However, these patients have an excess cardiovascular mortality, which relates particularly to cardiovascular incidents or heart failure. The use of nonselective antiphlogistic drugs and COX-2 inhibitors is associated with a higher potential risk in these patient groups. In essence, more than 80 million patients worldwide were treated with rofecoxib up to its voluntary withdrawal. The high number of patients who are still being treated with COX-2 inhibitors or for whom the use of COX-2 inhibitors is planned justifies the use of a biochemical marker which, as a screening instrument, is initially designed to recognize the patients who are "ill" despite the lack of symptoms. In asymptomatic patients with NT-proBNP levels below the cut-off, high-risk patients require further work-up. Recognition of these risk factors is easily accomplished considering the case history and the results of an established cardiovascular risk score (e.g. PROCAM score). These risk patients should then also be referred for intensive diagnostic work-up. On the other hand, symptomatic patients or those with high NT-proBNP levels should primarily be referred for more extensive cardiovascular diagnosis before a decision is taken concerning the use of COX-2 inhibitors. As an integral part of this extensive work-up the determination of NT-proBNP can help to improve the accuracy of diagnosis and prognostic assessment. With the exception of patients showing symptoms of an unstable coronary heart disease, imminent cerebral ischemia, uncontrolled arterial hypertension or decompensated heart failure, the use of a COX-2 inhibitor is possible provided special caution is exercised. Termination of treatment is advisable if there is a clinical deterioration of specific symptoms or signs in those patients (product information). Follow-up with NT-proBNP (monitoring) can be helpful in detecting imminent cardiac decompensation at an earlier stage in order to take suitable countermeasures.
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PMID:Rationale for testing the cardiovascular risk for patients with COX-2 inhibitors on the basis of biomarker NT-proBNP. 1571 8

Recent large clinical trials have shown that angiotensin II type I receptor blockers (ARBs) reduce cardiovascular morbidity and mortality in patients with heart failure, acute myocardial infarction, and hypertension. However, the mechanism underlying antiatherogenic effects of ARBs remains unclear. The vascular endothelium is involved in the release of various vasodilators, including nitric oxide (NO), prostacyclin, and endothelium-derived hyperpolarizing factor as well as vasoconstrictors. NO plays an important role in the regulation of vascular tone, the inhibition of platelet aggregation, and the suppression of smooth muscle cell proliferation. Several investigators have reported impairment in endothelium-dependent vasodilation in the forearm, coronary, and renal vasculature in cardiovascular diseases, including hypertensive patients. Cardiovascular diseases are associated with alteration in endothelial function. Endothelial dysfunction is the initial step in the pathogenesis of atherosclerosis. Anti-renin-angiotensin system agents, angiotensin-converting enzyme (ACE) inhibitors improve endothelial function in patients with hypertension, diabetes mellitus, and coronary artery disease. It is well known that ACE inhibitors augment endothelium-dependent vasodilation through an increase in NO bioavailability, by an increase in NO production and a decrease in NO inactivation. ARBs are also thought to prevent cardiovascular complications through an augmentation of endothelial function. In this review, we focus on recent findings and putative mechanisms of the beneficial effects of ARBs on endothelial function.
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PMID:Angiotensin II type I receptor blocker and endothelial function in humans: role of nitric oxide and oxidative stress. 1585

Since, their introduction, COX (cyclooxygenase enzyme)-2 specific inhibitors have become a rapidly growing segment of the prescription drug market. Researchers have recently focused on the potentially lethal side effects associated with their. FDA has banned the use of nimesulide (hepatotoxic) in pediatric patients and rofecoxib (cardiovascular complications) in both adults and children. COX-2 inhibitors may decrease vascular prostacyclin production and may tip the balance in favour of prothrombotic eicosanoids (thromboxane A2) and lead to increased cardiovascular thrombotic events. COX-2 inhibitors can also result into increase blood pressure, macular eruptions, urticaria, pseudoporphyria, erythema multiforme, oedema, worsening of heart failure, fatal allergic vasculitis and aggravation of doxorubicin-mediated cardiac injury. The COX-2 enzyme is also involved in the development of many organ systems, and its inhibition may lead to various congenital defects in neonates. It has been reported that COX-2 inhibitors also interfere with implantation, hence their use should be avoided in sexually active women at risk of pregnancy. However, presently the choice of COX-2 selective inhibitors for a particular patient should be based upon their relative efficacy, toxicity, concomitant drug use, concurrent disease states, hepatic and renal function and relative cost.
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PMID:COX-2 selective nonsteroidal anti-inflammatory drugs: current status. 1592 4

Non-steroidal anti-inflammatory drugs (NSAIDs) represent a clinically important class of agents. NSAIDs are commonly used in treatment of conditions such as headache, fever, inflammation and joint pain. Complications often arise from chronic use of NSAIDs. Gastrointestinal (GI) toxicity in the form of gastritis, peptic erosions and ulcerations and GI bleeds limit usage of NSAIDs. These toxicities are thought to be due to cyclooxygenase (COX)-1 blockade. COX-1 generates cytoprotective prostanoids such as prostaglandin (PG) E2 and prostacyclin (PGI2). COX-2 inhibitors, commonly referred to as coxibs, were developed to inhibit inflammatory prostanoids without interfering with production of COX-1 prostanoids. Concerns over cardiovascular safety, however, have evolved based on the concept of inhibition of COX-2-derived endothelial prostanoids without inhibition of platelet thromboxane A2, leading to increased cardiovascular risk. The Celecoxib Long-Term Arthritis Safety Study (CLASS) trial did not show a significant increase in cardiovascular risk for celecoxib (Celebrex), but results of the Vioxx Gastrointestinal Outcomes Research (VIGOR) study showed an increased cardiovascular risk with long-term daily usage of rofecoxib in patients with rheumatoid arthritis. The Adenomatous Poly Prevention on Vioxx (APPROVe) trial further evaluated cardiovascular effects of rofecoxib and recently led to removal of this drug from the marketplace. Coxibs affect renal function via blockade of normal COX-2 functions. COX-2 expression increases in high renin states and in response to a high-sodium diet or water deprivation. PGI2 and PGE2 are the most important renal prostanoids. PGI2 inhibition results in hyperkalemia. PGE2 inhibition results in sodium retention, which leads to hypertension, peripheral edema and potentially exacerbation of heart failure. This review article discusses beneficial and deleterious effects associated with prostanoids produced by COX-1 and COX-2 in various organs and how blockade of these products translates into clinical medicine.
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PMID:Cyclooxygenase-2 inhibitors: a painful lesson. 1678 94

An 18-year-old female Japanese patient who suffered from heart failure and severe pulmonary hypertension was referred to our clinic. The etiology of her cardiomyopathy was unclear. Inhaled prostacyclin therapy resulted in an improvement of pulmonary arterial pressure and allowed us to avoid lung transplantation. Heart transplantation resulted in a complete remission of her respiratory function. Autopsies of the explanted heart revealed massive endomyocardial fibroelastosis. We concluded that endomyocardial fibroelastosis has to be considered a cause of heart failure in young adults with unclear cardiomyopathy.
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PMID:Unusual case of an 18-year-old heart transplant recipient with endocardial fibroelastosis. 1679 45

Cardiovascular disease (CVD) is a human health crisis that remains the leading cause of death worldwide. The cytochrome P450 (CYP) class of enzymes are key metabolizers of both xenobiotics and endobiotics. Many CYP enzyme families have been identified in the heart, endothelium and smooth muscle of blood vessels. Furthermore, mounting evidence points to the role of endogenous CYP metabolites, such as epoxyeicosatrienoic acids (EETs), hydroxyeicosatetraenoic acids (HETEs), prostacyclin (PGI(2)), aldosterone, and sex hormones, in the maintenance of cardiovascular health. Emerging science and the development of genetic screening have provided us with information on the differences in CYP expression among populations and groups of individuals. With this information, a link between CYP expression and activity and CVD, such as hypertension, coronary artery disease (CAD), myocardial infarction, heart failure, stroke, and cardiomyopathy and arrhythmias, has been established. In fact many currently used therapeutic modalities in CVD owe their therapeutic efficacy to their effect on CYP metabolites. Thus, the evidence for the involvement of CYP in CVD is numerous. Concentrating on treatment modalities that target the CYP pathway makes ethical sense for the affected individuals and decreases the socioeconomic burden of this disease. However, more research is needed to allow the integration of this information into a clinical setting.
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PMID:Cytochrome P450 enzymes: central players in cardiovascular health and disease. 1682 12

Endothelin-1 (ET-1) exerts multiple biological effects, including vasoconstriction and the stimulation of cell proliferation in tissues both within and outside of the cardiovascular system. ET-1 is synthesized by ET-converting enzymes (ECE), chymases (CMAs), and non-ECE metalloproteases through a process regulated in an autocrine fashion in vascular and nonvascular cells. ET-1 acts through the activation of G(i)protein-coupled receptors. ET(A) receptors mediate vasoconstriction and cell proliferation, whereas ET(B) receptors are important for aldosterone secretion, endothelial cell (EC) migration, the release of nitric oxide (NO) and prostacyclin, the clearance of ET-1, and the inhibition of ECE-1. ET is activated in scleroderma, hypertension, atherosclerosis, restenosis, heart failure, idiopathic cardiomyopathy, and renal failure. Tissue concentrations more reliably reflect the activation of the ET system because of the predominantly abluminal secretion of the peptide. Experimental studies and clinical trials have demonstrated that ET-1 plays a major role in normal cardiovascular homeostasis and in the functional and structural changes observed in arterial and pulmonary hypertension, glomerulosclerosis, atherosclerosis, and heart failure. Accordingly, ET antagonists are promising new agents in the treatment of cardiovascular diseases. Single nucleotide polymorphisms (SNPs) of the genes of preproET-1, ECE-1, CMA, ET(A) and ET(B) receptors have been identified and can be important for their functional regulation. However, for most of them the association with disease conditions and the evidence for a functional role remain controversial. Thus, even though ET antagonists are being used for the treatment of pulmonary hypertension, there is no convincing evidence for a role of SNPs in affecting the therapeutic strategies.
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PMID:Genetic variation in the endothelin system: do polymorphisms affect the therapeutic strategies? 1685 33

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