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)

Antidiuretic hormone, also known as arginine vasopressin, is a hormone with a multitude of physiologic activities including the control of urinary free water excretion. Antidiuretic hormone also plays a role in vasoconstriction and has 3 receptors that have been identified. Vasopressin analogs and antagonists have been extensively studied in animal models as well as in humans. Because heart failure is associated with a state of water retention, several vasopressin antagonists have been evaluated for their potential aquaretic effect. Diuretics remain the mainstay of treatment in acute and chronic volume overload but are not shown to improve survival. In fact, they are associated with numerous side effects including hypotension, electrolyte abnormalities, worsening renal function, and activation of renin-angiotensin-aldosternone system. Tolvaptan, conivaptan, and lixivaptan are some of the vasopressin antagonists that have been studied in heart failure. The results were initially encouraging with alleviation of symptoms and effective aquaresis without worsening of hyponatremia or renal function, but yet failed to show any effect on mortality in heart failure. With an increasing number of more selective orally active vasopressin antagonists, further studies are underway to establish the role of "Vaptans" in the treatment of heart failure and other disease states with volume overload and hyponatremia.
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PMID:Vasopressin and vasopressin receptor antagonists in heart failure. 1909 65

Neurogenic stress causes sudden acceleration of heart rate and elevation of arterial blood pressure. that may markedly increase the work load of the heart. Several recent clinical studies document significant role of stress in evoking sudden cardiovascular complications. It has been also shown that the cardiovascular responses to stress are significantly exaggerated during the post-infarct cardiac failure. This review emphasises important neuromodulatory role of some neuropeptides in regulation of the cardiovascular system during stress. A number of experimental data provide evidence that intensity of the cardiovascular responses to stress is regulated by neuropeptides. Vasopressin, angiotensin II and interleukin-1beta (IL-1beta) appear to be responsible for exaggeration of the cardiovascular responses to stress whereas oxytocin seems to act in the opposite way. Recent studies performed in our Department provide evidence for differential involvement of angiotensin II AT(1), vasopressin V(1a), IL-1 and oxytocin receptors in regulation of the cardiovascular responses to the alarming stress. Current evidence suggests that the enhanced stimulation of central AT(1) and V(1) receptors as well as the attenuated stimulation of oxytocin receptors account for exaggeration of the cardiovascular responses to the sudden alarming stress during the post-infarct state. Growing number of data indicate that angiotensin II significantly interacts with vasopressin, interleukin-1 and TNF-alpha systems in the central cardiovascular control under resting conditions. Some of the neuropeptides interact also during stress.
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PMID:Role of neuropeptides in central control of cardiovascular responses to stress. 1925 65

Arginine vasopressin, also known as antidiuretic hormone, is a neuropeptide that functions in the maintenance of body water homeostasis. Inappropriate secretion of vasopressin has been implicated in the pathophysiology of multiple diseases, including polycystic kidney disease, syndrome of inappropriate antidiuretic hormone (SIADH) secretion, and the hyponatremia commonly associated with cirrhosis and congestive heart failure. Vasopressin receptor antagonists are novel agents that block the physiologic actions of vasopressin. Lixivaptan is a vasopressin receptor antagonist with high V2 receptor affinity and is now undergoing Phase III clinical trials. Studies so far have demonstrated that lixivaptan is efficacious in the correction of hyponatremia in SIADH, heart failure and liver cirrhosis with ascites, and few adverse effects have been noted. Thus, lixivaptan remains a promising therapeutic modality for the treatment of multiple diseases and prevention of the associated morbidity and mortality associated with hyponatremia.
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PMID:Lixivaptan: a novel vasopressin receptor antagonist. 1937 24

Tolvaptan is an oral, once-daily nonpeptide arginine vasopressin V(2)-receptor antagonist under development for the treatment of hyponatremia and congestive heart failure. In Phase II clinical trials, tolvaptan, in addition to standard therapy, increased fluid loss, resulting in decreased body weight and improved edema and serum sodium without affecting blood pressure, heart rate or renal function in patients with heart failure. The compound appeared to be well tolerated and dose-dependent adverse events were generally realated to its pharmacological activity, such as thirst and dry mouth. In patients with hyponatremia, tolvaptan appears to be more effective than fluid restriction at improving sodium levels without an increase in adverse events. An international Phase III outcome study; Efficacy of Vasopressin antagonism in hEaRt failurE outcome Study with Tolvaptan (EVEREST), evaluating the long-term efficacy and safety of tolvaptan in patients hospitalized with worsening heart failure, is currently ongoing.
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PMID:Tolvaptan for the treatment of hyponatremia and congestive heart failure. 1980 53

Hyponatremia is one of the newer and emerging risk factors for an adverse prognosis in chronic heart failure. Why decreased serum sodium is associated with worse prognosis remains unclear. It may reflect worsening heart failure and the deleterious effects of activation of neurohormones. The mechanism of hyponatremia in heart failure also remains unclear. A relatively greater degree of free-water retention compared to sodium retention is probably the major mechanism. The treatment of significant hyponatremia in heart failure is difficult. The conventional treatments such as fluid restriction, infusion of hypertonic saline, and aggressive diuretic therapies are not usually effective. Vasopressin receptor antagonists have been shown to enhance aquaresis and correct hyponatremia. However, long-term beneficial effects of such treatments in chronic heart failure have not been documented.
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PMID:Hyponatremia in heart failure. 1985 May 60

Vasopressin plays a physiological role in regulation of blood pressure, fluid volume, and serum osmolality. In heart failure inadequate release of vasopressin may result in excess fluid retention and hyponatremia. Vasopressin receptor antagonists are a new class of orally active drugs targeted to inhibit one or more of three distinct vasopressin receptors, namely V1a- (-->vasoconstriction), V1b- (-->release of ACTH) und V2-receptors (-->inhibition of free water reabsorption in the kidney). In cardiac decompensation with fluid overload selective V2- (Lixivaptan, satavaptan and tolvaptan) and non-selective V1a/V2-receptor blockers (Conivaptan) have been shown to be superior to standard therapy, as they allow for a faster weight loss and a more rapid symptomatic improvement (i.e. reduction in dyspnea). Inhibiting free water reabsorption without affecting renal sodium excretion vasopressin receptor antagonists allow for a controlled normalisation of serum natrium in euvolemic and hypervolemic hyponatremia. Vasopressin antagonists are well tolerated and have--in contrast to diuretics--no negative influence on renal function and serum potassium. Heart rate and blood pressure are not affected by vasopressin receptor antagonists. However, despite its excellent acute clinical effects long-term treatment with tolvaptan did not result in a reduced mortality and morbidity in heart failure patients over a mean follow-up of 9.9 months in the EVEREST trial.
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PMID:[Vasopressin receptor antagonists and heart failure]. 1988 90

Vasopressin antagonists increase the serum sodium concentration in patients who have euvolemia and hypervolemia with hyponatremia in the short term (</=30 days), but their safety and efficacy with longer term administration is unknown. SALTWATER was a multicenter, open-label extension of the Study of Ascending Levels of Tolvaptan in Hyponatremia (SALT-1 and SALT-2). In total, 111 patients with hyponatremia received oral tolvaptan for a mean follow-up of 701 days, providing 77,369 patient-days of exposure. All patients had hyponatremia at randomization in SALT-1 and SALT-2, and 85% continued to have hyponatremia at entry in SALTWATER. The most common adverse effects attributed to tolvaptan were pollakiuria, thirst, fatigue, dry mouth, polydipsia, and polyuria. Six drug-related adverse effects led to study discontinuation. The increase in serum sodium exceeded the desired 1 mmol/L per h at initiation in five patients. Hypernatremia (>145 mmol/L) led to discontinuation in one patient. Mean serum sodium increased from 130.8 mmol/L at baseline to >135 mmol/L throughout the observation period (P < 0.001 versus baseline at most points). Responses were comparable between patients with euvolemia and those with heart failure but more modest in patients with cirrhosis. In conclusion, prolonged administration of tolvaptan maintains an increased serum sodium with an acceptable margin of safety.
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PMID:Oral tolvaptan is safe and effective in chronic hyponatremia. 2050 68

Vasopressin plays a central role in regulating body fluid homeostasis, serum osmolality and vascular tone. In response to elevated serum osmolality, vasopressin acts on V2 renal receptors increasing water reabsorption and causing serum sodium to decrease. Pathological conditions characterized by abnormally elevated vasopressin levels such as heart failure (HF) or syndrome of inappropriate antidiuretic hormone (SIADH) can result in hyponatremia. Tolvaptan is a new selective nonpeptide vasopressin V2 receptor antagonist that has shown to rapidly normalize serum sodium concentrations in hyponatremic patients. In patients with congestive heart failure (CHF) and symptoms of volume overload, tolvaptan prompted rapid free water elimination and improved short-term signs and symptoms of HF, although no effect on long-term mortality or HF-related morbidity was observed. Data from phase III studies including over 5,000 patients have demonstrated that tolvaptan is a safe and well tolerated vasopressin receptor antagonist, whose long-term use is not associated with adverse outcomes. Tolvaptan has been recently approved for the treatment of hyponatremia and a marketing authorization application has been filed for the treatment of CHF.
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PMID:Tolvaptan for the treatment of hyponatremia and congestive heart failure. 2046 90

Current treatment of acute decompensated heart failure (ADHF) has not reduced the significant morbidity or mortality associated with this disease, and has promoted drug development aimed at neurohormonal targets. Hypervolemic hyponatremia, which is linked to the nonosmotic release of arginine vasopressin, is associated with a poor prognosis in patients with heart failure (HF). Vasopressin acts on V(2) and V(1a) receptors to cause water retention and vasoconstriction, respectively. Clinical trials have demonstrated that vasopressin receptor antagonists (VRAs) are effective in treating hypervolemic hyponatremia in ADHF without a negative impact on renal function. The small hemodynamic benefit seen with VRA use appeared to result from V(2)-receptor antagonist-induced increase in urine output rather than from a vasodilatory drug effect. VRA use in ADHF trials was associated with minimal symptomatic improvement and no impact on morbidity or mortality. At present, clinical trial evidence does not support the routine use of VRAs in ADHF. Given the favorable renal profile of VRAs, studies on the possible benefit of VRAs in ADHF patients with renal insufficiency and diuretic resistance appear warranted.
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PMID:Targeting hyponatremia and hemodynamics in acute decompensated heart failure: is there a role for vasopressin antagonists? 2104 92

Arginine vasopressin (AVP), also known as vasopressin or anti-diuretic hormone, is a neuropeptide produced in the hypothalamus. It is primarily responsible for osmoregulation and thus maintains body fluid homeostasis. It is also a potent vasoconstrictor, may have a role in higher cognitive functions and affects metabolism. All the biological and cellular effects of vasopressin are mediated by the interaction of this hormone with three G-protein-coupled receptors - V(1a), V(1b) and V(2).Urological applications are based on the rationale that V(2) receptors mediate water conservation and increase urine osmolality. Due to their anti-diuretic properties mediated by the V(2) receptors, synthetic vasopressin agonists, such as desmopressin, are now commonly used for the treatment of nocturnal polyuria, central diabetes insipidus and nocturnal enuresis and potentially in urinary incontinence. Desmopressin has been licenced worldwide for haematological indications of haemophilia and von Willebrand disease. Vasopressin receptor antagonists correct hyponatremia by blocking the activation of the V(2) receptor and induce a free water diuresis without an accompanying natriuresis or kaliuresis; an effect termed 'aquaresis'. Interfering with vasopressin signalling by administering vasopressin antagonists may have clinical benefits in acute and chronic heart failure.
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PMID:Vasopressin receptors in voiding dysfunction. 2129 Feb 39


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