Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Dogs with experimental high-output heart failure (HOF) exhibit marked retention of salt and water secondary to hypersecretion of both renin and aldosterone. The present study was undertaken to evaluate the systemic and intrarenal arteriolar action of angiotensin II (AII) in dogs with HOF and to provide additional information about the role of AII in low-output states. The intravenous infusion of a specific AII antagonist, [Sar1, Ala8]AII (6 mug/kg min-1), into conscious dogs with HOF decreased the mean arterial pressure (AP) from 101 +/- 7 to 83 +/- 7 mmHg (P less than 0.01) after 45 min of infusion. Intrarenal arterial infusion of the AII antagonist (0.2 and 2.0 mug/kg min-1) into anesthetized dogs with HOF also decreased AP and produced a marked increase in renal blood flow (RBF) with no changes in either creatinine clearance or sodium excretion. Similar results were obtained during the intrarenal infusion of the antagonist into sodium-depleted dogs and dogs with thoracic vena caval constriction, but not in normal dogs. The data demonstrate an important role for AII in the regulation of AP and RBF in high- and low-output states.
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PMID:High-output heart failure in the dog: systemic and intrarenal role of angiotensin II. 116 74

In rats with unilateral renal artery stenosis, the malignant phase of hypertension is characterized by: systolic blood pressure above 180-190 mm Hg; sodium and water loss; polyuria and polydipsia; markedly activated renin-angiotensin-aldosterone system; impairment of renal function and malignant nephrosclerosis in the contralateral kidney; some rats exhibit signs of cerebral hemorrhage, heart failure, acute renal failure, and some rats die. After such a phase of malignant hypertension, a period of remission may occur, which is followed by another malignant phase, etc. When malignant hypertensive rats are offered, in addition to water, saline as drinking fluid, they compulsively drink the saline, BP falls transiently, and all signs of malignant hypertension nearly or completely disappear. These observations indicate that, at a critically high BP level, it is salt and water loss which, by activating the renin-angiotensin system, trigger the vicious circle of malignant renal hypertension in rats.
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PMID:Pathogenesis of malignant hypertension: experimental evidence from the renal hypertensive rat. 119 18

Treatment with angiotensin-converting enzyme (ACE) inhibitors can begin at any time when a left ventricular dysfunction has been diagnosed. In the absence of rare contra-indications (renal artery stenosis, connective tissue disease, severe renal failure), all patients with asymptomatic or, a fortiori, symptomatic chronic heart failure can benefit from ACE inhibitors, whatever the origin of the heart failure. Among the ACE inhibitors now available, the benefits of captopril (3 daily doses) and of enalapril (2 daily doses) on all the targets of cardiac failure treatment are now well established. The effects of lisinopril on mortality are not yet known, but the haemodynamic and symptomatic benefits of this drug are also well established (with the advantage of once daily administration). Other ACE inhibitors with less numerous and less convincing trial reports can be used or rejected depending on the physician's faith in the effects of this pharmaceutical class. With all ACE inhibitors the initial dose must be very low, to be gradually increased over several days or even weeks until the highest dose tolerated is reached. ACE inhibitors can be associated with the classical treatment of cardiac failure. A previous diuretic treatment with sodium depletion may increase the risks of first dose effect and renal intolerance due to the introduction of the ACE inhibitors. Theoretically, the combination of ACE inhibitors and spironolactone is to be avoided for fear of hyperkalaemia and renal deterioration. Yet, provided some precautions are taken this combination may improve the benefits of ACE inhibition when the renin-angiotensin-aldosterone system inhibition is not optimal. However, this has yet to be demonstrated by prospective clinical trials.
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PMID:[Management of the treatment with converting enzyme inhibitors in chronic heart failure]. 129 41

Atrial stretch causes the release of atriopeptin (AP, ANF) from preformed vesicular storage sites. The circulating hormone acts on unique receptor sites (containing guanylate cyclase) to release guanosine 3',5'-cyclic monophosphate (cGMP) that mediates the natriuresis and vasodilation and probably the suppression of renin, aldosterone, and vasopressin. The biological effects of atriopeptin are transient because of the rapid inactivation of the circulating hormone (by neutral endopeptidase or clearance receptors) or the second messenger (by cGMP-phosphodiesterase). Heart failure due to chronic cardiac volume overload [aortovenocaval (A-V) fistula] exhibits markedly elevated circulating AP blood levels and urinary cGMP levels, accompanied by induction of ventricular AP gene and protein expression and release. Pharmacological manipulation of endogenous AP, either by inhibiting cGMP phosphodiesterase (i.e., mediator prolongation) or neutral endopeptidase (i.e., prolongation of hormone half-life) in A-V fistula animals results in profound natriuresis and diuresis without hypotension. These pharmacological maneuvers bypass the suppressed renal response to exogenous AP seen in heart failure and provide a rational therapeutic strategy based on our understanding of the underlying physiological and pathological mechanisms.
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PMID:Effect of pharmacological manipulation of endogenous atriopeptin activity on renal function. 131 20

The systemic hemodynamic, hormonal, and renal effects of chronic angiotensin-converting enzyme inhibition (CEI) with captopril and the responses to synthetic atrial natriuretic factor (ANF) infusions in the presence and absence of captopril were examined in normal dogs (n = 6) and in dogs with an arteriovenous (AV) fistula and compensated high-output heart failure (n = 6). This experimental model is characterized by normalization of the circulating renin-angiotensin-aldosterone system (RAAS) and persistent elevations in central filling pressures and plasma ANF. In both normal and AV-fistula dogs, oral captopril for 1 wk at 35 mg.kg-1.day-1 in three divided doses produced progressive reductions in arterial and atrial pressures (P less than 0.05), plasma ANF (P less than 0.05), and aldosterone (P less than 0.05). After 1-2 days of a modest increase in urinary sodium excretion (UNaV) (P less than 0.05), all of the dogs regained and maintained sodium balance during captopril administration. On the 8th day of the captopril regimen, synthetic ANF was infused at 15 and 30 ng.kg-1.min-1 for 75-min periods each. Control infusion experiments were performed in the same animals before captopril administration. The normal dogs exhibited dose-related elevations in UNaV (P less than 0.05) that were not augmented with captopril (P greater than 0.05). In contrast, in the AV-fistula dogs the observed renal unresponsiveness to synthetic ANF in the control experiments was reversed with chronic CEI, and ANF-induced UNaV achieved levels comparable to those obtained in the normal animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Captopril enhances renal responsiveness to ANF in dogs with compensated high-output heart failure. 131 53

The original observation by de Bold et al. (1981) of a rapid, massive, and short-lasting diuretic and natriuretic effect following injection of rat atrial extracts into intact rats, led to the identification, isolation and purification of the atrial natriuretic factor (ANF). ANF is stored in atrial myocytes and released into the blood stream by atrial distension. Available data suggest that the mechanism of ANF-induced natriuresis involves either renal hemodynamic effects, such as the increase in glomerular filtration rate and reduction of medullary tonicity, or direct effect on sodium transport in the medullary collecting ducts. ANF induces relaxation of vascular smooth muscle, decreases blood pressure and cardiac output. All these effects displayed by ANF are associated to the an inhibition of aldosterone, renin and vasopressin release. Most of these actions are mediated by specific high affinity receptors, which are coupled to a particulate guanylate cyclase. Although ANF levels are increased in some disorders, such as severe heart failure, hypertension, chronic renal failure, the role of the peptide is uncertain. To better define the potential physiopathological role and the possible therapeutic implications of this new hormonal system in conditions of disturbed body fluid and sodium homeostasis, further experimental and clinical data must be awaited.
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PMID:[The physiopathological aspects of the atrial natriuretic factor]. 131 27

Growth or altered metabolism of nonmyocyte cells (cardiac fibroblasts, vascular smooth muscle and endothelial cells) alters myocardial and vascular structure (remodeling) and function. However, the precise roles of circulating and locally generated factors such as angiotensin II, aldosterone and endothelin that regulate growth and metabolism of nonmyocyte cells have yet to be fully elucidated. Trials of pharmacologic therapy aimed at preventing structural remodeling and repairing altered myocardial structure to or toward normal in the setting of hypertension, heart failure and diabetes are reviewed. It is proposed that these are therapeutic goals that may reduce cardiovascular morbidity and mortality. Although this hypothesis remains unproved the primary goal of therapy should be to preserve or restore tissue structure and function.
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PMID:Remodeling and reparation of the cardiovascular system. 131 86

Ultrafiltration improves the clinical condition of patients with congestive heart failure (CHF) through a reduction of excessive body water. We investigated the relationships among intra and extravascular fluids, hemodynamics and neurohumoral pattern following plasma water subtraction. In 55 patients with CHF (35 in NYHA class IV, Group A, and 20 in NYHA class II-III, Group B), removal of 3242 +/- 201 ml and 1741 +/- 119 ml of plasma water acutely reduced plasma volume (calculated from hematocrit changes) by -20.7% and -12.9% in Group A and in Group B, respectively. Plasma volume returned to baseline values within 48 hours. Body weight and ventricular filling pressures also lowered and remained so for 2 days. After ultrafiltration urinary output increased and norepinephrine, renin activity and aldosterone plasma levels decreased in Group A, while a fall of diuresis and a rapid rise of plasma levels of the 3 hormones were observed in Group B. Two days after ultrafiltration the persistence of reduced body weight with recovery of plasma volume indicates a shift of fluid from the extravascular to the intravascular compartment. The different behaviour of hemodynamics, urinary output and neurohumoral pattern changes observed in the 2 groups after ultrafiltration, suggest that in severe heart failure (Group A) the physiological responses to intravascular volume depletion are unsettled while are preserved in less severe stages of the disease (Group B).
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PMID:[Interrelation of plasma volume, fluid metabolism and neurohormonal activation after ultrafiltration in congestive heart failure]. 136 83

The major risk factor associated with the appearance of adverse cardiovascular events and outcome attributable to cardiovascular disease is left ventricular hypertrophy (LVH). Why this should be so resides not in the increase in myocardial mass per se, but in the disruption of myocardial structure. An abnormal accumulation of fibrillar collagen within the adventitia of intramyocardial coronary arteries and neighboring interstitial spaces represents such a distortion in structure. Furthermore, this fibrosis disrupts the electrical and mechanical behavior of the hypertrophied myocardium. Mechanisms responsible for fibrillar collagen accumulation have been examined in intact animals and cultured cardiac fibroblasts. In vivo studies indicate that myocardial fibrosis is associated with the presence of chronic mineralocorticoid excess, relative to sodium intake and excretion, not hemodynamic workload. Accordingly, fibrosis can appear in both the hypertensive, hypertrophied and nonhypertensive, nonhypertrophied ventricles. In both primary and secondary hyperaldosteronism it was possible to prevent myocardial fibrosis with an aldosterone receptor antagonist, while in unilateral renal ischemia angiotensin converting enzyme (ACE) inhibition was similarly cardioprotective. A regression in fibrous tissue and normalization of diastolic stiffness has also been possible using ACE inhibition, bringing forward the concept of cardioreparation and the notion that heart failure due to fibrosis may be reversible. In vitro studies indicate that effector hormones of the renin-angiotensin-aldosterone system stimulate fibroblast collagen synthesis. Aldosterone, in pathophysiologic concentrations, and angiotensin II, in much larger concentrations, each enhance collagen synthesis without altering the mitogenic potential of these cells. Thus, elevations in circulating aldosterone and angiotensin II, relative to sodium intake, have the potential to not only alter sodium homeostasis and vascular tonicity, but also the structure of cardiovascular tissue. Thus, myocardial fibrosis represents a structural basis for pathologic hypertrophy and ultimately accounts for the appearance of adverse cardiovascular events and outcomes.
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PMID:Pathologic hypertrophy with fibrosis: the structural basis for myocardial failure. 136 63

The acute hemodynamic and hormonal effects of incremental doses of a specific ovine renin inhibitor (RI: EMD 52 297) and captopril were compared in an ovine model of heart failure. Both RI and captopril inhibited the renin-angiotensin II (ANG II) system, although the decrease in plasma aldosterone (ALDO) was significant only during captopril infusion. Both agents exhibited strong vasodilator properties with similar decreases in mean arterial pressure (MAP, maximum decrease: RI = -20.5 +/- 2.2 mm Hg, p less than 0.001; captopril = -19.8 +/- 1.7 mm Hg, p less than 0.001) and left atrial pressure (LAP, maximum, decrease: RI = -6.8 +/- 1.5 mm Hg, p less than 0.01; captopril = -6.9 +/- 0.4 mm Hg, p less than 0.01) along with a slight increase in cardiac output (CO, maximum increase: RI = 0.54 +/- 0.11 L/min; captopril = 0.79 +/- 0.26 L/min). The slope of the response between MAP and LAP was similar in all animals, indicating that the agents have a similar effect on cardiac preload and afterload. The similar hemodynamic actions of RI and captopril in this model of congestive heart failure suggest that beneficial effects are due to inhibition of ANG II. Thus, orally active renin inhibitors may offer a useful therapeutic alternative when side effects preclude use of angiotensin-converting enzyme (ACE) inhibitors.
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PMID:Comparison of the effect of renin inhibition and angiotensin-converting enzyme inhibition in ovine heart failure. 137 84


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