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

Angiotensin-converting enzyme (ACE) inhibitors are widely used for treatment of heart failure after myocardial infarction (MI). The beneficial effects consist of a combination of hemodynamic effects and interference with cardiac structural alterations. These effects are believed to depend on inhibition of angiotensin II (AII) formation and thus diminished angiotensin receptor stimulation. We administered the angiotensin II-1 (AT-1) receptor antagonist losartan during and after completion of the repair phase of an MI to investigate involvement of the AT-1 receptor in the above described effects of captopril. MI reduced cardiac output (CO) (sham 94 +/- 4 ml/min, MI 78 +/- 5 ml/min) and maximal CO (sham 154 +/- 4, MI 107 +/- 5 ml/min, respectively). Losartan (15 mg/kg/day) resulted in a rightward shift of the AII pressor dose-response curve by a factor of 32-40. Neither CO nor COVL,max was affected by losartan treatment in either phase (late treatment CO = 78 +/- 5, COVL,max = 118 +/- 9 ml/min). Although early treatment with losartan reduced cardiac hypertrophy measured as heart weight, DNA synthesis was reduced only slightly. In contrast, collagen deposition was inhibited completely. The results suggest that the effects of captopril in rats after MI are not dependent on AT-1 receptor-mediated mechanisms.
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PMID:Angiotensin II receptor blockade after myocardial infarction in rats: effects on hemodynamics, myocardial DNA synthesis, and interstitial collagen content. 128 Jul 40

The hemodynamic, hormonal, and renal effects of angiotensin II-type 1 receptor antagonism (AT1A) have not been documented previously in heart failure (HF) or compared with angiotensin-converting-enzyme inhibition (ACEI). Accordingly, we investigated the acute (2-h) response to losartan (1 and 10 mg/kg iv) or vehicle (N saline) followed by captopril (12.5 mg) on separate days in an ovine model of HF induced by 7 days of rapid ventricular pacing. Losartan induced a significant rise in plasma renin activity (PRA) and plasma angiotensin II levels (P less than 0.01 and P less than 0.001, respectively), in association with a fall in the plasma aldosterone-to-PRA ratio (P less than 0.001) and plasma atrial natriuretic peptide (P less than 0.05). Mean arterial and left atrial pressure both fell significantly after losartan (P less than 0.001), whereas the rise in cardiac output was not sustained. The response to captopril was similar except for plasma angiotensin II, which declined (P less than 0.001). Glomerular filtration and urine sodium excretion were maintained despite a fall in renal perfusion pressure. In conclusion, the vasodilatation and renal effects of AT1A were similar to ACEI. Thus AT1A may be a useful therapeutic alternative to ACEI in HF.
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PMID:Angiotensin II receptor antagonism in ovine heart failure: acute hemodynamic, hormonal, and renal effects. 163 62

Losartan, a recently developed nonpeptide angiotensin II (AII) receptor antagonist, was orally administered for 14 days to mice with viral myocarditis, beginning 7 days after encephalomyocarditis virus inoculation. The angiotensin-converting enzyme inhibitors (ACEI) captopril and enalapril were also administered in the same manner to compare the therapeutic effects of these three drugs on the degree of myocarditis, acute heart failure, and left ventricular (LV) hypertrophy. Heart weight and the heart weight/body weight ratio were reduced by losartan (60 mg/kg/day) and captopril (7.5 mg/kg/day), but not by enalapril (1 mg/kg/day). LV wall thickness and cavity dimension were decreased in the losartan and captopril groups. Captopril reduced both myocardial necrosis and inflammation, whereas enalapril reduced myocardial necrosis but not inflammation. However, none of the studied losartan doses (1.2, 12, 60 mg/kg/day) influenced myocardial necrosis and inflammation resulting from viral infection. Thus, specific blockade of AII is beneficial in congestive heart failure (CHF) and LV hypertrophy but is not effective in viral-evoked inflammation and injury.
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PMID:Comparative effects of losartan, captopril, and enalapril on murine acute myocarditis due to encephalomyocarditis virus. 756 67

The renin-angiotensin system is critical for regulating extracellular fluid volume and blood pressure. Angiotensin II, the active peptide hormone produced by the renin enzymatic cascade, sustains vascular volume and blood pressure by constricting vessels, stimulating adrenal aldosterone secretion, increasing renal tubular sodium absorption, activating the sympathetic nervous system, and increasing cardiac contractility. These actions are a disability in the pathophysiologic states of hypertension and congestive heart failure (CHF), however, since reactive increases in renal renin and angiotensin II stimulate sympathetic activity and renal sodium retention, leading consequently to circulatory volume over-load. The actions of angiotensin II are mediated by its interactions with specific cell-surface angiotensin II receptors, namely, AT1 and AT2; most cardiovascular actions of angiotensin II come from its interaction with the AT1 receptor. Angiotensin-converting enzyme (ACE) inhibitors and angiotensin-II-receptor blockers antagonize the actions of the renin-angiotensin axis, neutralizing its effects on hypertension and heart failure. Losartan is the first oral, nonpeptide, selective AT1-receptor blocker to be approved. Clinical trials show it to be effective and well tolerated as therapy for hypertension and CHF. Data obtained thus far suggest ACE inhibitors and AT1-receptor blockers have similar efficacy for treating these conditions, but the receptor blockers appear to produce fewer adverse effects. Whether the sustained increase in angiotensin II concentrations after AT1-receptor antagonism produces deleterious effects is not known. The concern is that these high levels may stimulate unblocked AT2 receptor; the effect of that stimulation may not be important, however.
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PMID:Angiotensin receptors: physiology and pharmacology. 763 61

A-II exerts its activity on various target tissues by binding to its receptors. The discovery of local RASs and A-II receptors within various tissues has generated interest in the clinical usefulness of RAS inhibition by directly blocking the action of A-II at the receptor level. Different A-II receptor subtypes have been identified and subsequently termed AT1 and AT2. AT1-receptor subtypes are the predominant receptor subtypes existing in most organs and, by coupling to a transmembrane G protein, seem to be the main subtypes participating in the vasoactive responses of A-II. Saralasin, a peptide with specific A-II receptor-antagonistic activity, had limited practical long-term usefulness as a result of its short half-life, significant agonistic properties, and lack of oral bioavailability. The discovery of simple benzyl-substituted imidazoles, which possess weak but highly selective A-II receptor antagonistic properties, led to the development of losartan (DuP 753). Losartan is a potent, orally active, specific, competitive nonpeptide A-II receptor antagonist that appears to be an effective antihypertensive agent both in animal studies and in preliminary clinical trials. The therapeutic usefulness of losartan, however, is not limited to its antihypertensive effects. The potential benefits of A-II receptor antagonists include roles in postmyocardial infarction therapy, slowing A-II-induced cardiac hypertrophy, 154, 155 slowing the progression of heart failure, preventing postangioplasty restenosis, and in slowing the progression of renal disease. Furthermore, losartan, a selective A-II type 1 (AT1) receptor antagonist, has also been a valuable pharmacologic probe for studying the mechanism of A-II stimulation of its receptors. A-II receptor antagonism appears to be as effective as ACE inhibition in the treatment of hypertension and other pathologic processes that involve the RAS and may offer an alternative to those patients who cannot tolerate ACE inhibitors because of their side effects.
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PMID:Angiotensin II receptor antagonists: a new approach to blockade of the renin-angiotensin system. 817 70

The renin-angiotensin system plays an important role in the regulation of blood pressure and fluid and electrolyte homeostasis. Components of this system, renin, angiotensin converting enzyme (ACE) angiotensinogen, angiotensin II and angiotensin II receptors have been found in many tissues including kidney, adrenal, blood vessels and in discrete brain regions. This suggests that in addition to circulating angiotensin II, endogenous tissue renin-angiotensin system may also be important in cardiovascular control and maintaining fluid balance. Inhibitors for ACE are used successfully in the treatment of hypertension and chronic heart failure. In experimental animals, these inhibitors are found to block ACE in the kidney, lung, adrenal, blood vessels and the forebrain circumventricular organs after oral administration. The time course of tissue ACE inhibition correlated closely with the blood pressure lowering effect of these drugs. Most ACE inhibitors are unable to penetrate the blood-brain and blood-testis barriers. However, the more lipophilic drugs do penetrate the blood brain barrier, especially after chronic administration. The potential use of inhibitors for renin and angiotensin II receptors for the treatment of hypertension are being explored. An inhibitor for the AT1 angiotensin receptor, losartan (CAS 124750-99-8), which has potent antihypertensive effect, demonstrated dose and time dependent inhibition of AT1 receptors in the kidney and adrenal. Losartan also crossed the blood-brain barrier after acute peripheral administration suggesting additional possible central sites of action.
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PMID:Localization of components of the renin-angiotensin system and site of action of inhibitors. 849 67

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

Angiotensin-converting enzyme inhibitors (ACE-I) have been proven to be effective in reducing morbidity and mortality in patients with heart failure or post-myocardial infarction left ventricular dysfunction. Despite evidence from several large-scale randomized trials, the use of ACE-I in patients with heart failure remains relatively low. In part, the failure to achieve more widespread use of ACE-I in patients with heart failure may be due to physician's perceptions of the side effects associated with ACE-I, such as angioedema, renal dysfunction, cough, and hypotension. Many of these side effects are thought to be due to ACE-I-induced bradykinin accumulation. It is possible to inhibit the effect of angiotensin II without increasing bradykinin levels using an angiotensin II type I blocking agent such as losartan. How effective losartan is compared with an ACE-I is uncertain, however. Some of the beneficial effects of ACE-I have been attributed to bradykinin accumulation, and therefore ACE-I might have an advantage compared with an angiotensin II type I receptor antagonist such as losartan. On the other hand, angiotensin II may be produced by non-ACE-I-dependent mechanisms, which would suggest that an angiotensin II type I receptor blocking agent would be advantageous. To determine the relative safety and efficacy of an ACE-I, which results in bradykinin accumulation and inhibitors of angiotensin II, versus an angiotensin II type I receptor blocking agent, which does not result in bradykinin accumulation, we have begun the Evaluation of Losartan In The Elderly (ELITE) trial, which will compare the safety and efficacy of captopril and losartan in elderly patients with heart failure.
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PMID:Angiotensin II receptor antagonists in heart failure: rationale and design of the evaluation of losartan in the elderly (ELITE) trial. 857 52

The 'discovery' of losartan represents three separate discoveries: (1) losartan as the unique biphenyltetrazole molecule and the first of a new chemical class; (2) losartan as a tool to identify AT1-subtype receptors; and (3) losartan as a specific probe for exploring the multiple roles of angiotensin II (Ang II) in normal physiology and pathologic states. Losartan is the first nonpeptide orally active Ang II receptor antagonist to reach clinical trials. Losartan was selected for its affinity for Ang II receptors, functional antagonism of Ang II, lack of agonist properties, and oral anti-hypertensive effects. Losartan has been widely used to define the distribution and function of AT receptor subtypes. Although possible roles of the AT2 subtype have been reported, virtually all of the known effects of Ang II are blocked by losartan. Specific AT1 receptor blockade has been broadly compared with ACE inhibition. Possible differences on the basis of AT1 selectivity, bradykinin potentiating effects and Ang II formed by non-ACE pathways are discussed. Losartan blocks the vascular constrictor effect of Ang II, the Ang II-induced aldosterone synthesis and/or release, and the Ang II-induced cardiovascular 'growth' in vitro and in vivo. In various models of experimental hypertension, losartan prevents or reverses the elevated blood pressure and the associated cardiovascular hypertrophy similar to ACE inhibitors. Likewise, in models of renal failure (for example reduced renal mass, puromycin, ochratoxin), losartan, like ACE inhibition, markedly reduced the elevation in blood pressure, proteinuria or sclerosis. In aortocaval shunt, coronary ligation and ventricular pacing models of heart failure, losartan demonstrated a pathological role for Ang II by reversing the associated haemodynamic findings. In SHR-stroke prone, losartan dramatically increased survival while having a limited effect on blood pressure, suggesting a non-pressure dependent effect of Ang II. These collective data show that Ang II exerts complex pathological effects in experimental models of vascular, cardiac, renal and cerebral disease. The effectiveness of losartan in experimental models of heart failure supports its evaluation in clinical trials with patients with heart failure.
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PMID:Discovery of losartan, the first angiotensin II receptor antagonist. 858 79

Fibrosis makes an important contribution to the pathophysiological events leading to the development of heart failure in ischemic and hypertensive heart disease. Since cardiac fibroblasts are mainly responsible for the synthesis and deposition of the extracellular matrix, we have established a method for isolating and cultivating human cardiac fibroblasts from explanted human hearts. The cell yield was 2.14+/-0.25x10(6 )cells in five independent isolations and the cell purity was 95-97%, contaminating cells being vascular smooth muscle cells and pericytes. Cultured cells were studied with respect to growth properties, morphology and deposition of components of the extracellular matrix. Isolated cells displayed a differentiated phenotype, including the second passage in culture; they synthesised collagen I, III, IV, fibronectin, vitronectin, tenascin and chondroitin sulphate and expressed an atypical angiotensin receptor. This atypical angiotensin receptor internalised angiotensins II and III but not angiotensin IV in a time-dependent manner. Stimulation of the cells with angiotensins II and III but not with angiotensin IV resulted in a dose-dependent stimulation of DNA synthesis. Co-incubation with the subtype-specific receptor antagonists Losartan and PD 123317 did not prevent the stimulation of DNA synthesis. The further characterisation of this receptor should provide insights into the pathobiochemical events leading to heart failure in hypertension and ischemic heart disease.
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PMID:Isolation and characterisation of human cardiac fibroblasts from explanted adult hearts. 878 Dec 21


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