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)

Nesiritide (human recombinant B-type natriuretic peptide) binds to receptors in the vasculature, kidney, and other organs to mimic the actions of endogenous natriuretic peptides. Intravenous infusion of nesiritide has been studied in more than 1,700 patients with acute decompensated heart failure (HF). Nesiritide causes potent, dose-related vasodilation that is rapid in onset and sustained for the duration of drug infusion. There is balanced arterial and venous dilation as reflected by decreases in systemic vascular resistance, systemic arterial pressure, pulmonary capillary wedge pressure, right atrial pressure, and mean pulmonary arterial pressure. Vasodilation occurs without a change in heart rate and is associated with increases in stroke volume and cardiac output. Nesiritide may promote diuresis because of a direct natriuretic action, increased cardiac output, and/or decreased aldosterone levels. In patients hospitalized for decompensated HF, nesiritide improves symptoms and is well tolerated. The major adverse effect is dose-related hypotension. Nesiritide is thus an attractive new vasodilator that should be valuable in the treatment of patients hospitalized for acute decompensated HF.
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PMID:Nesiritide for the treatment of decompensated heart failure. 1126 55

Long-lasting problem on the differentiation of adenohypophyseal cell, which prepares them for their specific tasks (somatotropic, lactotropic ect.), becomes elucidated after recognition of the differentiational effect of transcription factor Pit-1. Expression of that factor in somatotrops results in STH secretion, contrary to lactotrops producing prolactin. Subclinical hypothyreosis (increased TSH with normal T3 and T4) endangers vessel not because of hypercholesterolemia, but because of changes in the dynamics of the blood flow. The idea of cardiotropic effect of thyroidal hormones is supported by the finding that administration of trijodthyronine to children after the surgical correction of heart malformations (cardiopulmonary bypass) improves myocardial function--it elevates cardiac output and decreases requirements on the intensive care. Receptors for hormones in tissues are flexible, they can be "heterooligomers" for dopamine and somatostatin. Mutations of mineralocorticoid receptor may cause hypertension in pregnancy and progesterone receptors have several isoforms. Receptors can be also activated by short exposition to a hormone. Glucocorticoids have probably also membrane receptors. Diabetes mellitus "type I" needn't to be immunogenic and DM type II not only results from down-regulation of receptors and subsequent insulin resistance, but it can be also caused by defects in insulin secretion. Insulin has receptors in the brain and participates in the appetite regulation. The attempt to use "desensibilisation" by peroraly administered insulin in patients with immunogenic DM had no effect. Stress affects memory mechanisms, heavy emotional stress during gravidity can bring congenital malformations. The decrease of mental functions in aged women depends on the level of free estradiol (the fraction, which is not bound to plasma proteins). Activation of dopaminergic neurons can be achieved by neurotropic growth factors. Nesiritide is a recombinant brain natriuretic hormone successfully tested in heart failure. The role of leptin in the appetite regulation in man is still not clear, other signalling molecules may have also an effect, e.g., ghrelin, which primarily stimulates STH secretion and brings about weight gain. Sildenafil influences nitrergic neurons elsewhere than in penis, for example it has positive effects in patients with oesophageal achalasia.
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PMID:[Endocrinology 1999-2000]. 1128 21

In the July 1999 issue of this publication, we described the chemical properties, pharmacology and clinical trials involving nesiritide as a therapeutic agent for patients with decompensated heart failure (Exp. Opin. Invest. Drugs) (1999) 8(7):1063--1072). At the time of publication, the US Food and Drug Administration reviewed the clinical experience with the compound and did not approve the drug for clinical use. More data were requested regarding safety issues, comparison with nitroglycerine, onset of effects, need for invasive haemodynamic monitoring and symptomatic improvement. The VMAC Study was designed to address these issues. A dosing regimen, 0.2 microgram/kg bolus followed by 0.01 microg/kg/min continuous infusion, was chosen to provide rapid onset of actions and haemodynamic improvement without a high incidence of symptomatic hypotension. Nesiritide was superior to iv. nitroglycerine in its haemodynamic effects, easier to administer without the need for dose titration and better tolerated overall. The drug could be administered safely without the need for invasive haemodynamic monitoring. Symptomatic hypotension occurred in 4% of patients. Beneficial haemodynamic effects correlated with symptomatic improvement in heart failure patients. Nesiritide appears to be an ideal first-line agent for treatment of patients with acutely decompensated heart failure.
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PMID:An update on nesiritide for treatment of decompensated heart failure. 1132 67

Plasma levels of ANP and BNP increase in accordance with the severity of the heart failure. In severe cases, the amount of BNP secreted surpasses that of ANP. The main secretion site of BNP is the ventricles, and that of ANP is the atria. However, ANP is also secreted from the ventricles as heart failure advances, and thus the ventricles are important sites for both BNP and ANP. It is well known that myocardial stretch is a key factor in the stimulation of the secretion of ANP and BNP, although neurohumoral factors also play a role in the secretion mechanism. The major physiological effects of ANP and BNP are vasodilation, natriuresis, and inhibition of the renin-angiotensin-aldosterone (RAA) and the sympathetic nervous systems; all of which are supposed to suppress the progression of heart failure. The inhibitory action of ANP and BNP on the RAA system has been considered to be an extra-cardiac effect. We recently reported the activation of an angiotensin-converting enzyme and aldosterone production in failing human hearts. ANP and BNP, however, would inhibit aldosterone production, not only in the adrenal cortex but also in cardiac tissue. ANP, and especially BNP, are useful markers of the heart's status during treatment for heart failure. The infusion of synthetic ANP (hANP) or BNP (Nesiritide) is effective in the treatment of acute heart failure. In Japan, BNP occupies an important position in the diagnosis of chronic heart failure, as ANP does in the treatment of acute heart failure.
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PMID:Pathophysiological significance and clinical application of ANP and BNP in patients with heart failure. 1155 82

Nesiritide (Natrecor), a synthetic formulation of B-type natriuretic peptide (BNP), is the first new parenteral agent to be approved for treating heart failure in more than a decade. In patients hospitalized with decompensated congestive heart failure, nesiritide promptly reduces pulmonary capillary wedge pressure, pulmonary arterial pressure, right atrial pressure, and systemic vascular resistance, resulting in clinical improvement.
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PMID:How to use nesiritide in treating decompensated heart failure. 1189 Feb 16

Nesiritide mimics the actions of endogenous B-type natriuretic peptides. Clinical studies on patients who had acute decompensated heart failure demonstrated rapid-onset dose-related vasodilatory effects. Nesiritide reduces pulmonary capillary wedge pressure and improves dypsnea. These effects compared favorably to standard treatments. It decreases preload and afterload and suppresses the renin-angiotensin-aldosterone axis and the release of norepinephrine. Nesiritide also promotes diuresis and has no proarrhythmic effects. Nesiritide is a valuable therapeutic option in the treatment of patients hospitalized for decompensated heart failure. On-going studies target the examination of its long-term effects on mortality and morbidity and its pharmacoeconomic benefits to the healthcare system.
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PMID:Nesiritide: review of clinical pharmacology and role in heart failure management. 1202 6

Over the last decade brain natriuretic peptide (BNP) emerged as a cardiac hormone of clinical interest in diagnosis, prognosis and treatment of patients with Heart Failure (HF). The diagnostic potential of BNP is now well established both in patients with suspected HF as well as in patients with asymptomatic left ventricular systolic dysfunction. The prognostic information obtained from BNP levels in HF and acute myocardial infarction patients seems even more promising. Nesiritide is a synthetic peptide, homologous to endogenous BNP. It is a balanced vasodilator with diuretic and natriuretic properties. It decreases the elevated levels of neurohormones resulting from activation of the sympathetic and renin-aldosterone systems in HF. The results of clinical trials involving more than 2000 patients with decompensated HF are now available. In these trials nesiritide was administered by single or repeated bolus injections, as well as by sustained infusions. Nesiritide has been shown to produce a potent, dose-related vasodilator effect that is rapid in onset and sustained during infusion. Balanced vasodilation is reflected by decreases in systemic vascular resistance, pulmonary artery wedge pressure and right atrial pressure. No tachyphylaxis has been observed in these trials. Efficacy of nesiritide in the treatment of decompensated HF has been demonstrated. Trials comparing nesiritide with conventional treatment of decompensated HF showed that nesiritide compares favorably to standard agents. The safety profile has been excellent with a dose-dependent hypotension as the major side effect. Ventricular arrhythmia was not more frequent in patients treated with nesiritide than with placebo. Thus, nesiritide appears to be useful as a first-line agent in the treatment of patients with decompensated HF.
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PMID:Brain natriuretic peptide (nesiritide) in the treatment of heart failure. 1207 May 32

Nesiritide, a recombinant human B-type natriuretic peptide, is the first in a new drug class for the treatment of decompensated heart failure. The drug binds to receptors in the vasculature, kidney, adrenal gland, and brain, and overcomes resistance to endogenous BNP present in patients with CHF. Nesiritide administration leads to a rapid and balanced vasodilatory effect, which results in a significant decrease in right and left ventricular filling pressures and systemic vascular resistance and at the same time in an increase in stroke volume and cardiac output without a change in heart rate. These early hemodynamic changes result in a rapid improvement in symptoms of heart failure. In addition, nesiritide lowers aldosterone, catecholamines, and endothelin-1 levels and its effect on the kidney leads to an increased natriuresis and diuresis without effect on serum potassium or renal function. Prior to its approval for clinical use, nesiritide was studied in 10 different clinical trials involving 941 patients with moderate and severe CHF, including elderly patients, patients with both systolic and diastolic dysfunction, and patients with arrhythmias, renal insufficiency, and acute ischemic syndrome. In comparative studies with available vasoactive therapies frequently used for treatment of patients with decompensated heart failure, nesiritide was proven comparable in efficacy to inotropic drugs such as dobutamine, but superior in safety. In a recent study, nesiritide was found to be more effective and better tolerated than the vasodilator, nitroglycerin. The most common side effects expected with the use of nesiritide are headaches and decrease in blood pressure. At the recommended dose of nesiritide, headache was reported during the first 24 hours of treatment in 8% of patients and symptomatic hypotension in 4% of patients, compared to 20% and 5% in nitroglycerin-treated patients.
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PMID:Nesiritide: a new drug for the treatment of decompensated heart failure. 1223 67

B-type natriuretic peptide, or nesiritide, recently gained US Food and Drug Administration approval as the first new parenteral agent approved for heart failure therapy in more than a decade. Nesiritide refers to a peptide identical to endogenous B-type natriuretic peptide, currently manufactured by recombinant DNA technology. Nesiritide has been evaluated in clinical trials involving more than 700 subjects. The drug produces a prompt fall in systemic vascular resistance and pulmonary capillary wedge pressure, associated with rapid clinical improvement in decompensated heart failure. Nesiritide represents an attractive choice for first-line therapy of acutely decompensated heart failure patients. In this review, the authors summarize the currently available data regarding the use of nesiritide, and offer recommendations for its use based on our experience with the compound in clinical trials.
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PMID:"BNP" for heart failure: role of nesiritide in cardiovascular therapeutics. 1236 90

Nesiritide is the generic name for recombinant human B-type natriuretic peptide. This drug represents the first of a new class of agents for the treatment of decompensated congestive heart failure. The properties of B-type natriuretic peptide include a balanced arterial and venous vasodilatation and a marked natriuresis and diuresis, making it an excellent drug for the management of heart failure. We review the physiology and pathophysiology of the natriuretic peptides and the clinical data for nesiritide. In addition, the hemodynamic effects of the drug as well as its efficacy and safety in the treatment of heart failure are critiqued. Nesiritide is a new class of therapeutic peptide for the treatment of heart failure that appears to offer unique and safe hemodynamic properties.
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PMID:Nesiritide: a unique therapeutic cardiac peptide. 1243 59


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