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)

In most patients with heart failure the underlying cause is coronary artery disease (CAD). They have a poor prognosis and die slowly from deteriorating cardiac function or suddenly from ventricular fibrillation or atheromatous plaque rupture. Two key aims of treatment, therefore, are to slow the progression of the underlying CAD and the resulting heart failure and to reduce the risk of sudden death. The impact of drugs on CAD and sudden death can be assessed most effectively in patients who have recovered from a myocardial infarction (post-MI patients). Beta-blockers have been studied in at least 25 trials in post-MI patients and their capacity to reduce mortality and re-infarction has been well documented. About 50% of those who die in post-MI trials die suddenly and beta-blockers particularly propranolol, timolol and metoprolol have been shown to reduce the risk of sudden death significantly. Further evidence that beta-blockers are cardioprotective in post-MI patients can be obtained from trials of other drugs by noting the mortality rates in those patients who were also on a beta-blocker. In three trials of antiarrhythmic drugs and two trials of ACE inhibitors, those on beta-blockers had a better prognosis. There is therefore good evidence that in a patient population known to have serious CAD, beta-blockers can effectively reduce the risk of major coronary events and are particularly effective in reducing the risk of sudden death.
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PMID:Clinical trial data on the cardioprotective effects of beta-blockade. 1119 48

Cytokines are the regulatory peptides produced, excreted and influencing function of many cells types in human including endothelium and cardiomyocytes. This is why their role in the etiopathology of cardiovascular diseases is so important and new discoveries confirm their contribution to it. Cytokines worsen the outcome of heart failure, intensify remodeling of vascular wall after PTCA and provoke instability of atherosclerotic plaque. On the other hand some of their properties like ability to force neovascularisation in the ischaemic parts of heart are already used in clinical trials. New discoveries considering cytokines are sure to bring us near to better understanding of their role in cardiovascular disease pathology and new ways of therapy.
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PMID:[The role of cytokines in cardiovascular diseases]. 1157 35

According to contemporary views, the endothelium is not only a barrier separating blood from surrounding tissues, but a dynamic, heterogeneous organ, which possesses many secretory, metabolic and immunologic functions. Endothelial cells produce mediators, which regulate blood flow, influence platelet adhesion and aggregation, coagulation and fibrinolysis and also immunological response. Endothelial dysfunction is defined as an imbalance between vascular relaxing and contracting factors, between procoagulant and anticoagulant mediators or growth-inhibiting and growth-promoting substances. The definition is often confined to dysfunction of the vessel wall tonus control. The endothelial dysfunction frequently proceeds structural changes in vessels, as e.g. atherosclerotic plaque formation, neointima formation and vessel wall remodelling. This dysfunction has been confirmed in systemic hypertension, atherosclerosis, cardiac syndrome X, heart failure, using various invasive and non-invasive techniques. There are pharmacologic and non-pharmacologic methods to modify endothelial functions. It is obligatory to reduce risk factors of atherosclerosis, which lead to endothelial cell damage, i.e. hypertension, hyperlipidemia, cigarette smoking, estrogen deficiency and elevated levels of homocysteine. The role of physical exercise, low-cholesterol diet, discontinuation of smoking is emphasised. Among drugs statins, angiotensin-converting enzyme inhibitors and hormone replacement therapy are considered particularly beneficial. The importance of angiotensin receptor antagonists, endothelin receptor antagonists, L-arginine, growth factors and calcium-channel blockers for the improvement of endothelial function is studied.
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PMID:[Vascular endothelium--function, disorders and clinical modification probes]. 1171 25

Atherosclerotic plaque rupture is a key event in the pathogenesis of acute coronary syndromes and during coronary interventions. Atherosclerotic plaque rupture does not always result in complete thrombotic occlusion of the entire epicardial coronary artery with subsequent acute myocardial infarction; however, in milder forms it may result in the embolization of atherosclerotic and thrombotic debris into the coronary microcirculation. The present report summarizes the available morphologic evidence for coronary microembolization in patients who died of coronary artery disease, especially sudden death. The report then goes on to address the experimental pathophysiology of coronary microembolization in animal models of acute coronary syndromes and heart failure. Finally, the report presents the available clinical evidence for coronary microembolization, highlights its key features--arrhythmias, contractile dysfunction, infarctlets and reduced coronary reserve--and addresses prevention by mechanical protection devices and glycoprotein IIb/IIIa antagonism.
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PMID:Coronary microembolization. 1172 79

An 89-year-old man with diabetes mellitus was admitted to the hospital because of a low-grade fever and a disturbance in consciousness. He had been diagnosed as having diabetes mellitus at the age of 22 years and had been taking oral hypoglycemic drugs for 16 years at least. A few days before admission, a loss of appetite was noticed by his family; he developed a stupor on the day of admission. On physical examination, his lower extremities were pale and his skin temperature was low. Laboratory tests showed an increase in his white blood cell count and his blood culture was positive for Staphylococcus aureus. An MRI showed that the abdominal aorta was totally occluded beneath the renal arteries, and no significant collateral circulation was observed. He was given antibiotics and anticoagulants, but his general condition continued to worsen. Laboratory tests showed renal failure and liver dysfunction, indicating multi-organ failure. On the 24th day of admission, he died of respiratory and heart failure. An autopsy showed the aorta to be totally occluded beneath the renal arteries by an embolism; atherosclerotic changes were rather mild. Acute plaque change on the surface of the aorta may have induced the sudden development of emboli in the aorta.
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PMID:A patient with diabetes mellitus and severe arterial embolism. 1180 7

Treatment to prevent progression of heart failure has been targeted to reverse the consequences of heart failure and to a lesser extent the cause - the atherosclerotic plaque itself. Less than 50% of patients with heart failure are treated with lipid intervention. Heart failure (New York Heart Association [NYHA] functional classes I and II) is associated with an increase in low-density lipoproteins (LDL) and triglycerides while high-density lipoproteins (HDL) is lowered. In NYHA class IV, cholesterol is reduced due to depressed production in the liver. Although lipoproteins, especially LDL and HDL, may have some protective effect in binding and neutralising endotoxins released from the intestine during terminal heart failure, observational studies in patients with heart failure strongly suggest that lipid modification with statins may reduce progression of heart failure as well as reducing heart failure mortality.
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PMID:Debate: Statins should be used in patients with heart failure. 1180 12

The Heart Outcomes Prevention Evaluation (HOPE) study was designed to test the hypotheses that two preventive intervention strategies, namely angiotensin-converting enzyme (ACE) inhibition or vitamin E, would improve morbidity and mortality in patients at high risk of cardiovascular events compared with placebo. This review addresses the ACE inhibitor (ACE-I) (ramipril) arm of the study, both on the trial population as a whole, and on the large diabetic subgroup. Patients were included in the study who were considered to be at high risk of future fatal or non-fatal cardiovascular events, by virtue of their age (>55 years), existing or previous cardiovascular disease, or diabetes. Diabetics had at least one other risk factor, either known vascular disease or other factors such as cigarette smoking, high cholesterol or hypertension. Ramipril or placebo was added to concomitant medication, which included, in a substantial proportion of patients, antihypertensive drugs (excluding ACE-I), lipid-lowering agents or aspirin. As a result, despite a history of hypertension in nearly 50% of patients, blood pressure (BP) at baseline was normal and the reduction in BP attributable to ramipril modest (a fall of 3-4 mmHg systolic BP and 1-2 mmHg diastolic). The trial was stopped early on the advice of the Data Monitoring Committee because of convincing evidence of the benefit of ramipril treatment on the combined primary endpoint of cardiovascular death, non-fatal myocardial infarct (MI) and non-fatal stroke (14% vs. 17.8% on ramipril and placebo, respectively; relative risk reduction 22%, p<0.001). This comprised a risk reduction of 32% for stroke, 20% for MI, 26% for cardiovascular death and 16% for all-cause mortality, as well as a reduction in the risk of several other endpoints including heart failure and revascularisation procedures. The results among the 3577 diabetic subjects were even more striking, with a reduction of 25% in the combined primary endpoint. This reduction in the combined endpoint and in particular the reduction in MI far exceeded that which would be expected from the modest fall in BP. Furthermore, a multiple regression analysis of the diabetic subgroup showed similar relative risk reductions even after allowing for the effects of the fall in BP. Possible explanations for the non BP-mediated benefits of ramipril include reduction of angiotensin II-induced intimal and vascular smooth muscle proliferation and possible plaque stabilisation. The HOPE study results show that it is both safe and beneficial to lower BP that is already within the 'normal' range, particularly in patients with known vascular risk factors. This should greatly extend the use of ACE-I to a wider group of patients - not only those with left ventricular dysfunction, hypertension or diabetic microalbuminuria, but to the sort of high-risk patients who are currently given prophylactic treatment with aspirin.
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PMID:The HOPE Study (Heart Outcomes Prevention Evaluation). 1196 89

Hydroxymethylglutaryl-coenzyme A reductase inhibitors (statins) are of proven clinical benefit in coronary heart disease, at least in those patients who do not have overt chronic heart failure (CHF). However, as there have been no prospective clinical trials of statins in CHF patients, the question arises as to whether the benefits observed in the absence of CHF can be necessarily inferred in those patients in whom CHF is established. In this review, the evidence base stating support of the use of statins in CHF is presented, as well as theoretical considerations as to why these agents may not necessarily be of benefit in this setting. The beneficial potential of statins clearly relates to their plaque stabilization properties and associated improvements in endothelial function, which together should reduce the risk of further infarction and, perhaps, the ischemic burden on the failing ventricle. Furthermore, these agents may have beneficial effects independent of lipid lowering. These include actions on neoangiogenesis, downregulation of AT(1) receptors, inhibition of proinflammatory cytokine activity and favorable modulation of the autonomic nervous system. The potential adverse effects of statins in CHF include reduction in levels of coenzyme Q10 (which may further exacerbate oxidative stress in CHF) and loss of the protection that lipoproteins may provide through binding and detoxifying endotoxins entering the circulation via the gut. In support of these possibilities are epidemiologic data linking a lower serum cholesterol with a poorer prognosis in CHF. These uncertainties indicate the need for a definitive outcome trial to assess the efficacy and safety of statins in CHF, despite their current widespread, non-evidence based use in this population.
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PMID:Statins and chronic heart failure: do we need a large-scale outcome trial? 1202 Apr 81

Matrix metalloproteinases (MMPs) and their inhibitors are important in connective tissue re-modelling in diseases of the cardiovascular system, such as atherosclerosis. Various members of the MMP family have been shown to be expressed in atherosclerotic lesions, but MMP9 is consistently seen in inflammatory atherosclerotic lesions. MMP9 over-expression is implicated in the vascular re-modelling events preceding plaque rupture (the most common cause of acute myocardial infarction). Reduced MMP9 activity, either by genetic manipulation or through pharmacological intervention, has an impact on ventricular re-modelling following infarction. MMP9 activity may therefore represent a key mechanism in the pathogenesis of heart failure. We have determined the crystal structure, at 2.3 A resolution, of the catalytic domain of human MMP9 bound to a peptidic reverse hydroxamate inhibitor as well as the complex of the same inhibitor bound to an active-site mutant (E402Q) at 2.1 A resolution. MMP9 adopts the typical MMP fold. The catalytic centre is composed of the active-site zinc ion, co-ordinated by three histidine residues (401, 405 and 411) and the essential glutamic acid residue (402). The main differences between the catalytic domains of various MMPs occur in the S1' subsite or selectivity pocket. The S1' specificity site in MMP9 is perhaps best described as a tunnel leading toward solvent, as in MMP2 and MMP13, as opposed to the smaller pocket found in fibroblast collagenase and matrilysin. The present structure enables us to aid the design of potent and specific inhibitors for this important cardiovascular disease target.
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PMID:Crystal structure of human MMP9 in complex with a reverse hydroxamate inhibitor. 1205 44

There are several clinical challenges for the treatment of intractable cardiovascular diseases, including restenosis, atherosclerotic complications resulting from plaque rupture, severe tissue ischemia, and heart failure. Emerging evidence suggests that an inflammatory process is involved in the pathogenesis of such intractable diseases. In particular, inflammatory responses to arterial injury, which cause continuous recruitment and activation of monocytes mainly through activation of the monocyte chemoattractant protein-1 (MCP-1) pathway, have a central role in restenosis and atherogenesis. We recently devised a new strategy for anti-MCP-1 therapy by transfecting an N-terminal deletion mutant of the MCP-1 gene into skeletal muscles. This mutant MCP-1 lacks the N-terminal amino acids 2 to 8, called 7ND, and works as a dominant-negative inhibitor of MCP-1. We demonstrated that 7ND gene transfer suppresses monocyte infiltration/activation after arterial injury and markedly inhibits experimental restenosis in animals after balloon injury or stent placement. Furthermore, 7ND gene transfer not only attenuated the development of early atherosclerotic lesions but also limited progression of preexisting atherosclerotic lesions and changed the lesion composition into a more stable phenotype in hypercholesterolemic mice. Vascular inflammation mediated by MCP-1 might create a positive feedback loop to enhance restenotic and atherosclerotic changes through activating lesional monocytes. Therefore, vascular inflammation mediated by MCP-1 has a central role in the development of experimental restenosis, atherosclerosis, and plaque destabilization, leading to acute coronary syndrome. This strategy for gene therapy might be useful against human restenosis, thereby opening a new therapeutic window for antirestenosis and antiatherosclerosis paradigms.
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PMID:Molecular mechanisms mediating inflammation in vascular disease: special reference to monocyte chemoattractant protein-1. 1262 5

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