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Query: UMLS:C0042963 (
vomiting
)
31,883
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. FPL 63012AR is a D1-receptor agonist in the dog kidney, 10 times as potent as dopamine, reducing renal vascular resistance by 20% with an intra-arterial dose of 0.42 nmol kg-1. 2. No prejunctional inhibitory D2-receptor agonist activity was detected in either the isolated ear artery of the rabbit or in the conscious dog as D2-receptor-mediated
emesis
. 3. Unlike dopamine, FPL 63012AR had no significant agonist activity at alpha 1-, alpha 2-,
beta 1
- or beta 2-adrenoceptors. 4. FPL 63012AR is a potent inhibitor of [3H]-noradrenaline uptake (Uptake1) into brain synaptosomes, with an IC50 of 29.5 nM, i.e. 9.2 times more potent than dopamine. 5. The ability to block Uptake1, in the anaesthetised dog was confirmed by inhibition of the tyramine-induced pressor and inotropic responses. 6. Intravenous infusion of FPL 63012AR in anaesthetized and conscious dogs (0.3 to 3 nmol kg-1 min-1) reduced vascular resistance and increased blood flow to the kidney which was accompanied by hypotension and tachycardia. 7. It is concluded that FPL 63012AR is an example of a novel class of potent agonists at the D-receptor. Such compounds may have the potential for use clinically in improving renal perfusion and reducing afterload.
...
PMID:FPL 63012AR: a potent D1-receptor agonist. 197 59
Experiments were performed on 5 resting conscious dogs supplied with an electromagnetic flow probe on the ascending aorta and a chronic aortic catheter for pressure recording. The animals were used repeatedly in four different types of experiment involving i.v. administration of 1. saline (controls), 2. prenalterol 45 nmol/kg (approximately 10 micrograms/kg) followed by an additional dose of 135 nmol/kg 20 min later, 3. ouabain 50 nmol/kg (approximately 30 micrograms/kg) and 4. a combination of protocols 2. and 3. Ouabain and the low dose of prenalterol exerted clear-cut positive inotropic effects as reflected in increased stroke volume and max dF/dt without significant changes in heart rate or arterial pressure. The PQ interval increased with ouabain but decreased with prenalterol. The higher dose of prenalterol caused a further rise in max dF/dt, a further shortening of the PQ time, increased heart rate and reduction in systemic vascular resistance. Higher doses of ouabain could not be given due to side-effects (
vomiting
). The combined treatment with ouabain and prenalterol showed their inotropic responses to be additive. Arrhythmias did not occur in any of the animals at the applied dose levels of the drugs. The experiments show that prenalterol through its
beta 1
-adrenoceptor stimulating action exerts a positive inotropic effect which surpasses that of emetic doses of ouabain. The inotropic response at moderate doses occurs without a change in heart rate. This fact and the apparent lack of influence of prenalterol on vascular alpha- and beta 2-adrenoceptors make the substance potentially useful clinically as an inotropic agent in cardiac failure, particularly in view of its relatively long duration of action.
...
PMID:The haemodynamic effects of intravenous prenalterol and ouabain in conscious dogs. 612 99
The endogenous catecholamine dopamine lowers blood pressure by acting on two receptor subtypes: dopamine 1 and dopamine 2. Dopamine 1 receptors subserve vasodilation, especially in the renal, coronary, mesenteric, and cerebral vascular beds. Dopamine 2 receptors have been located at the endings of postganglionic sympathetic nerves and, when activated, inhibit norepinephrine release. Inhibition of
emesis
and inhibition of prolactin release also appear to be dopamine 2-mediated phenomena. The receptor subtypes have been classified by differences in chemical structure of agonists and by specific antagonists. Dopamine also acts on
beta 1
receptors to stimulate the heart and alpha 1 and alpha 2 receptors to cause vasoconstriction. Alpha adrenergic activity and lack of oral availability limit the use of dopamine in the treatment of hypertension. However, studies with the selective dopamine 1 agonist, fenoldopam, and dopamine 2 agonists such as LY 141865 and bromocriptine, indicate that agonists of both receptor subtypes can lower blood pressure in experimental animals and in hypertensive patients. Initial use of dopamine agonists in the treatment of hypertension and its possible involvement in the etiology and maintenance of hypertension are discussed.
...
PMID:Dopamine receptors and hypertension. Physiologic and pharmacologic implications. 614 92
