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

Fenoldopam (FE), a dopamine DA1-receptor agonist, has been introduced for treatment of arterial hypertension and heart failure and for preservation of renal function. Vasodilators are generally assumed to affect all vascular beds including the cerebral circulation. We have evaluated effects of FE-induced (4 micrograms.kg-1.min-1) arterial hypotension on intracranial pressure (ICP) and intraocular pressure (IOP) under conditions of normal and increased intracranial elastance. ICP and IOP responses to hypertension were tested by infusion of angiotensin II (15 micrograms.kg-1.min-1), and the response to hypercapnia was tested by elimination and reintegration of soda lime canisters in the breathing circuit. Intracranial elastance was increased by infusing mock cerebrospinal fluid (CSF) into the lateral ventricle (20 +/- 3 ml.h-1). Arterial hypotension induced with FE did not increase ICP. With increased intracranial elastance, the infusion rate of mock CSF had to be reduced while administering FE to avoid a rise in ICP (p < 0.05 compared with preinfusion value); this indicates a shift on the volume-pressure curve to the right. There were no indicators that cerebral autoregulation or CO2 reactivity of the cerebral vasculature were affected by FE in this anesthetized porcine model, as speculated from analysis of the time course of delta ICP. There are, however, indicators of increased intracranial elastance, most likely caused by vasodilation. Caution should hence be exercised when FE is administered to patients with increased intracranial elastance.
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PMID:Effects of fenoldopam on intracranial pressure and hemodynamic variables at normal and elevated intracranial pressure in anesthetized pigs. 791 22

Fenoldopam, a selective DA1-receptor agonist, infused intravenously for 24 hours (0.6 +/- 0.3 microgram/kg/min, range 0.1-1.5) in 25 patients with NYHA functional class III or IV heart failure, produced a prompt and sustained hemodynamic response. Cardiac index rose from an average preinfusion baseline value of 1.8 to 2.6/l min. Stroke volume index increased from 19 to 26 ml/m2 and stroke work index increased from 18 to 25 g M/m2. These changes were accompanied by a reduction in systemic vascular resistance from an average of 2400 to 1500 dynes sec/cm5. There was no change in the heart rate or right atrial pressure. There was a transient reduction in the left ventricular filling pressure from 25 to 20 mmHg. Urinary sodium excretion did not change significantly. Transient asymptomatic thrombocytopenia developed in four patients. The drug was well tolerated by all patients. These results suggest that continuous intravenous infusion of fenoldopam is safe and produces favorable hemodynamic responses in severe heart failure. However, unlike its effects in patients with hypertension, it failed to produce sustained natriuresis in these patients.
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PMID:Intravenous fenoldopam infusion in severe heart failure. 809 27

Catecholamines bind to cardiac beta-adrenoceptor to introduce positive inotropic, chronotropic, dromotropic and lucinotropic effects of the heart. Therapeutic catecholamines causes less effects to failing myocardium in comparison to normal myocardium. Down-regulation of cardiac beta-adrenoceptor (decrease in receptor number) and uncoupling of beta-adrenoceptor to G protein (increase in Gi alpha) have been demonstrated in failing human myocardium. Rapid improvement can be obtained in cardiac function by intravenous catecholamines, usually with dopamine and/or dobutamine in patients with acute heart failure. But, tachyphylaxis occurs in 72 hours which limits usefulness of the drugs. Dopamine has DA1-receptor activity which increases renal blood flow and natriuresis. Dobutamine is superior to dopamine in positive lucinotropic effects in reducing PCWP in patients with heart failure. Mechanisms of beta blocker therapy with special reference to molecular mechanisms are discussed.
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PMID:[Catecholamines and beta-blockers for the treatment of heart failure]. 810 Dec 36

Although systemic hypertension is a common clinical disorder, hypertensive emergencies are unusual in clinical practice. Situations that qualify as hypertensive emergencies include accelerated or malignant hypertension, hypertensive encephalopathy, acute left ventricular failure, acute aortic dissection, pheochromocytoma crisis, interaction between tyramine-containing foods or drugs and monoamine oxidase inhibitors, eclampsia, drug-induced hypertension and possibly intracranial hemorrhage. It is important to recognize these conditions since immediate lowering of systemic blood pressure is indicated. The diagnosis of hypertensive emergencies depends on the clinical manifestations rather than on the absolute level of the blood pressure. Depending on the target organ that is affected, the manifestations of hypertensive emergencies can be quite expressive, yet variable. Thus, the physician has to make the clinical diagnosis urgently in order to render appropriate therapy. Several parenteral drugs can quickly and effectively lower the blood pressure in hypertensive emergencies. Intravenous fenoldopam, a selective dopamine (DA1) receptor agonist, offers the advantage of improving renal blood flow and causing natriuresis. Intravenous nicardipine may be beneficial in reserving tissue perfusion in patients with ischemic disorders. Whereas trimethaphan camsilate is the drug of choice for managing acute aortic dissection, hydralazine remains the drug of choice for the treatment of eclampsia. The alpha-adrenoceptor, phentolamine, is useful in patients with pheochromocytoma crisis. Enalaprilat is the only ACE inhibitor available for parenteral use and may be particularly useful in treating hypertensive emergencies in patients with heart failure. However, ACE inhibitors may cause a precipitous fall in blood pressure in patients who are hypovolemic. Although useful as adjunctive therapy in hypertensive crises, diuretics should be used with caution in these patients because prior volume depletion may be present in some conditions such as malignant hypertension. The treating physician should be familiar with the pharmacological and clinical actions of drugs which are indicated for and useful in the treatment of hypertensive emergencies. Once the patient's situation has stabilized, the patient may be switched to an oral medication and the physician should discuss long term follow up plans. With appropriate clinical diagnosis, hypertensive emergencies can be successfully treated and the complications can be prevented with timely intervention.
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PMID:Hypertensive emergencies. Etiology and management. 1472 43


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