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

Losartan, on orally active, nonpeptide angiotensin II receptor antagonist is being developed as a therapeutic agent for the treatment of hypertension and heart failure. Many patients requiring anticoagulant therapy with warfarin also may have hypertension or heart failure, and thus, are potential candidates for losartan therapy. This study was designed to investigate whether losartan at likely dosage levels would alter the anticoagulant response to warfarin. In a two-period, placebo-controlled, randomized, crossover study, ten healthy male subjects received a single oral dose of 30 mg warfarin sodium on the seventh day of a 13-day treatment with losartan, 100 mg daily by mouth, or placebo. Multiple plasma samples were collected over a 6-day period after both warfarin doses for the measurements of R- and S-warfarin concentrations and prothrombin times. The pharmacokinetics of R- and S-warfarin were comparable in the absence and presence of losartan (no significant effects of losartan on area under the curve, Cmax, or tmax). Losartan also had no significant effect on the anticoagulant effect of warfarin, as assessed by the area under the prothrombin time versus time curve and the maximum response for prothrombin time. The lack of pharmacokinetic or pharmacodynamic interaction between warfarin and losartan observed in this investigation suggests that a clinically important interaction between these drugs is unlikely to occur in patients requiring concomitant administration of both drugs.
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PMID:Losartan does not affect the pharmacokinetics and pharmacodynamics of warfarin. 856 8

Heart failure is a severe, disabling disease that portends a short life expectancy. This grave prognosis may be explained by growth-promoting effects of angiotensin II implicated in heart failure that mediate a genetic response called programmed cell death. The effects of angiotensin II are inhibited by angiotensin-converting enzyme (ACE) inhibitors, which improve exercise performance and quality of life, attenuate disease progression, and modestly lengthen survival. Unfortunately, mortality remains exceedingly high and may be partly attributable to augmented production of angiotensin II from a non-ACE chymase pathway. Angiotensin II production may therefore increase despite treatment with ACE inhibitors. The angiotensin II receptor antagonists are a new class of nonpeptide-reversible inhibitors that may offer clinical promise in heart failure through blockade of angiotensin II actions, whether produced from ACE or non-ACE chymase pathways.
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PMID:Angiotensin II receptor blockers: novel therapy for heart failure? 866 7

Chronic heart failure is a disabling and lethal disorder with high incidence and prevalence in Western societies. Treatment with angiotensin-converting enzyme (ACE) inhibitors and heart transplantations diminish both mortality and morbidity, although both still remain high. Increased understanding of some of the pathophysiologic mechanisms involved in the development of left ventricular dysfunction and the transition from asymptomatic systolic dysfunction to symptomatic heart failure has opened gates to new dimensions for the treatment of this disorder. The initial event in the pathophysiologic process is damage to the myocardium, most frequently a myocardial infarction. Almost simultaneously, activation of different neurohormonal systems occurs. The renin-angiotensin system and sympathetic nervous system are activated. Increased concentrations of hormones with counteractive activity have also been found, such as ANP and BNP. Interestingly, prolonged neurohormonal activation seems to occur only in patients with large infarcts or in patients with poor systolic function of the left ventricle. Moreover, available data from an echocardiographic study indicates that in patients with high concentrations of neurohormones in plasma a week after their infarction, left ventricular dilatation and systolic dysfunction of the left ventricle are highly likely to develop during long-term follow-up. Several studies have showed that ACE inhibitors are efficacious in chronic heart failure and among patients with reduced ejection fraction after myocardial infarction. What these patients have in common is prolonged neurohormonal activation, which theoretically may be harmful to myocardial cell structure and function. ACE inhibitors reduce the breakdown of angiotensin I to angiotensin II and increase the concentration of circulating bradykinins and prostaglandins. Further modulation of neurohormonal activity might be beneficial. Therefore, future treatment of chronic heart failure or asymptomatic left ventricular dysfunction might include beta-adrenergic blockers, neutral endopeptidase inhibitors, ANP, BNP, angiotensin II receptor antagonists, and modulators of sympathetic activity.
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PMID:The role of neurohormonal activation in chronic heart failure and postmyocardial infarction. 867 61

Angiotensin converting enzyme (ACE) inhibition undoubtedly has become the cornerstone of heart failure treatment. Useful in each stage, it should possibly be considered first-line treatment in many patients with mild heart failure in whom fluid retention is not clearly present. Careful consideration of the optimal dose for the individual is important. Until further data are available concerning the efficacy and tolerability of high and low doses, the clinician should consider the target doses used in large controlled heart failure trials. Even under optimal dosing conditions, it is likely that ACE inhibition may not suffice in completely modulating the extensive neurohormonal stimulation extant in heart failure. In part this may result from a breakthrough of the ACE inhibitor effect as well as from activation of hormones and peptides that may not be affected by ACE inhibition. Also, a substantial proportion of patients may not tolerate sufficient ACE inhibition. Alternative or additional therapy aimed at modulating neurohormonal activation concerns interference with other parts of the renin angiotensin system, such as angiotensin II receptor and aldosterone receptor antagonism. Sympathetic activity and catecholamine levels may decrease with dopaminergic D2 agonists and, possibly, beta-blockade; in the latter, this may be confined to patients with pre-existing sympathetic over-activation. Increasing circulating levels of atrial natriuretic peptide via neutral endopeptidase inhibition may offer an alternative way to increase diuresis and natriuresis without neuroendocrine stimulation. Novel possibilities that have not yet been tested sufficiently in patients with heart failure include endothelin receptor antagonism, arginine vasopressin antagonism, and renin inhibition. Finally, digitalis glycosides may be considered neurohormonal modulators in addition to being positive inotropes. Heart failure is a complex condition that involves many organs and systems besides the heart. Polypharmacy tailored to the individual is mandatory. It is thus necessary to investigate approaches to the modulation of neurohormonal activation beyond ACE inhibition.
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PMID:Neurohormonal modulation in heart failure: ACE inhibition and beyond. 868 65

Primary human hypertension is a polygenic disorder. It is the prevalent cause of cardiovascular disease leading to cardiac failure, stroke, chronic renal failure and, ultimately to death. Several genes are involved in cardiovascular control mechanisms and their genetics are complex. Experimental models which are well defined are needed to clarify the role of individual genes. The generation of the hypertensive transgenic rat line TGR (mREN2)27 bearing the murine Ren-2 gene cloned from the DBA/2J mouse strain provides a monogenic model of hypertension in which the genetic basis (the additional renin gene) is known. These rats develop severe hypertension, which reaches 200 mm Hg and higher at 8 weeks of age in the heterozygous animal. Homozygous rats develop even higher blood pressures than heterozygous animals, which is paralleled by a higher mortality rate in homozygous rats. Animals develop pathomorphologic alterations which are characteristic for systemic hypertension. The transgenic rats are characterized by unchanged or even suppressed concentrations of active renin, angiotensin I (ANG I), ANG II, and angiotensinogen compared to transgene-negative littermates. In contrast, plasma levels of inactive renin (prorenin) are much higher in TGR (mREN)27 rats than in control animals. In the kidneys, renin is suppressed, probably mediated through negative feedback inhibition, in other tissues, especially in the adrenal gland, murine Ren-2 mRNA is expressed at very high levels. The cascade of pathophysiologic events which finally lead to hypertension is not fully understood in this rat model. Treatment with ACE inhibitors or angiotensin II receptor antagonists such as losartan is extremely efficient, which could mean that hypertension in this model is mediated through ANG II. Since the the renin-angiotensin system (RAS) in the kidneys is suppressed, other ANG II generating sites must be considered. This favors the concept of extrarenal RASs in this model.
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PMID:The hypertensive Ren-2 transgenic rat TGR (mREN2)27 in hypertension research. Characteristics and functional aspects. 873 83

It is sobering to recall that, despite much basic research and many small and large clinical trials, we still do not know how angiotensin-converting enzyme inhibitors work. This is true both in terms of their fundamental mode of action at a cellular level as well as in the patient in the clinical setting. New pharmaceutical compounds such as renin inhibitors, angiotensin II receptor antagonists and aldosterone antagonists are bringing new insights not only into the importance of different components of the renin-angiotensin-aldosterone system in heart failure but also into the mode of action of angiotensin-converting enzyme inhibitors. This manuscript also provides a brief update on the organization of the renin-angiotensin-aldosterone system and other angiotensin-II-forming pathways with special relevance to heart failure. Data on the potential relevance of genetic polymorphisms of the renin-angiotensin-aldosterone system are discussed. Possibly the single most important observation in clinical cardiovascular medicine in 1995 was the reporting of a highly significant interaction between angiotensin-converting enzyme inhibitors and aspirin on mortality in patients with ventricular dysfunction with or without heart failure. This has called into question the safety of aspirin use in heart failure.
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PMID:Inhibition of the renin-angiotensin-aldosterone system in heart failure: new insights from basic clinical research. 883 67

In recent years, two key concepts having numerous interrelationships were advanced for the understanding of various cardiovascular diseases: the "endothelial dysfunction" and the "arterial remodelling". Both endothelial dysfunction and arterial remodelling occur in various pathologies including essential hypertension, heart failure, atherosclerosis, restenosis after angioplasty, and pulmonary hypertension, and have modified the therapeutic approach by offering new pharmacological targets: specific receptors not only at the site of the vascular smooth muscle cells but also on the endothelial cells, growth factors that stimulate proliferation of smooth muscle, and receptors and enzymes of the extra-cellular matrix. Among the various substances under research, the present review will discuss angiotensin II receptor antagonists, endothelin receptor antagonists, nitrates-NO donors, potassium channel activators, and substances interfering with proteoglycans and other components of the extra-cellular matrix.
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PMID:The arterial wall: a new pharmacological and therapeutic target. 883 98

The physiologic trophic factors growth hormone (GH) and insulin-like growth factor 1 (IGF-1) generally increase body weight and cardiac mass proportionately, and several studies suggest that both growth factors cause vasodilation and increased myocardial contractility. Established clinical benefits of ACE inhibitors can be explained, at least in part, by inhibition of cell hypertrophy, lowered systemic vascular resistance (SVR) and afterload, leading to reduction of progressive left-ventricular (LV) enlargement. An alternative approach would be to administer IGF-1 or GH to stimulate compensatory hypertrophy and reduce afterload by their vasodilator action, as well as through potential favorable effects on myocardial contractility. In our initial study in the rat myocardial infarction (MI) model, when IGF-1 was administered early (at 2 days) post-MI and continued for 2 weeks, body weight (BW) increased and LV weight/BW remained unchanged, the LV end-diastolic volume (EDV) and stroke volume increased (but not when normalized to BW), and the LV ejection fraction increased in rats with large infarctions. These findings suggested a beneficial rather than detrimental effect of such treatment, and we then studied the action of combined IGF-1 and GH starting after infarct healing at 4-weeks' post-MI. BW increased substantially and LVEDV/BW was lower in treated rats than in control rats, suggesting relatively less LV dilation with little remodeling in this setting; IGF-1/GH increased the cardiac output by 46%, systemic vascular resistance (SVR) fell and the cardiac index (CI) was significantly elevated in treated rats with a large MI. Recently, others have used the rat MI model to study the effects of 2-weeks' of GH started at 4-weeks' post-MI, as well as IGF/GH for 2-weeks in rats treated with an ACE inhibitor for 3-month's post-MI. In both studies, in conscious treated rats the BW increased, LV/BW was not different compared to the control rats, but the CI increased, SVR fell, and estimated LV dP/dtmax was significantly augmented. Preliminary data in our laboratory suggest that beneficial effects may also occur with GH administration in the setting of chronic angiotensin II receptor blockade (losartan) after MI in the rat. Thus, growth factor therapy appears to have favorable effects in heart failure early and late after MI in the rat. Additional cardiac hypertrophy occurs early after MI, but the later beneficial effects appear to relate primarily to systemic vasodilation, improved cardiac output, and enhanced myocardial contractility.
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PMID:The role of hypertrophy and growth factors in heart failure. 895 69

A review of recent studies suggests that the use of angiotensin-converting enzyme (ACE) inhibitors may be preferred (usually along with a diuretic drug) as initial therapy in several subsets of hypertensive patients (i.e., those with diabetes and nephropathy or with diminished left ventricular function with or without symptoms of heart failure). Limited long-term data are available for the angiotensin II receptor antagonists. The use of nondihydropyridine calcium channel blocking agents (CCBs) appears to reduce reinfarction in patients with ischemic heart disease (however, mortality is not reduced). Long-acting formulas of CCBs appear to decrease congestive heart failure in patients with dilated, but not ischemic, cardiomyopathy and to decrease strokes and arrhythmias in hypertensive subjects. Short-acting agents (primarily those that increase heart rate) may increase coronary heart disease events in hypertensive patients. There is little evidence at present that CCBs offer a major advantage over other antihypertensive agents or that they should be recommended as initial therapy, except in special situations.
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PMID:Angiotensin-converting enzyme inhibitors, angiotensin II receptor antagonists and calcium channel blocking agents: a review of potential benefits and possible adverse reactions. 918 98

ACE inhibitors have been shown to be effective in reducing the morbidity and mortality of patients with left ventricular systolic dysfunction, but their application to clinical practice in this situation is still limited. In part, the failure to prescribe an ACE inhibitor to a patient with left ventricular systolic dysfunction is due to perceptions regarding their side effects, such as cough and renal dysfunction. Relatively few patients with left ventricular systolic dysfunction and a serum creatinine > or = 2 mg/dl receive an ACE inhibitor in clinical practice. In this situation one should consider an agent such as fosinopril, which is metabolized by the liver as well as secreted by the kidney. In patients with moderate renal dysfunction, fosinopril has been well tolerated without an increase in serum creatinine. In patients who develop cough due to an ACE inhibitor, consideration should be given to an angiotensin II type 1 receptor blocking agent, such as losartan. The relative safety and efficacy of an ACE inhibitor compared with an angiotensin II type 1 receptor blocking agent is being explored in a prospective randomized trial (Evaluation of Losartan In The Elderly [ELITE]), as well as the safety and pharmacological effectiveness of adding an angiotensin II receptor antagonist to an ACE inhibitor (Randomized Angiotensin receptor antagonists-ACE-inhibitor Study [RAAS]). There may also be a role for the combination of an aldosterone receptor antagonists and an ACE inhibitor in patients with left ventricular systolic dysfunction. Once an ACE inhibitor is administered to a patient with left ventricular systolic dysfunction it should be continued indefinitely. ACE inhibitors may be of value not only in preventing the progression of heart failure but also in reversing endothelial dysfunction and preventing the development of atherosclerosis and its consequences, such as myocardial infarction.
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PMID:ACE inhibitors in heart failure: prospects and limitations. 921 Oct 22


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