Dobutamine: development of a new catecholamine to selectively increase cardiac contractility.
We systematically modified isoproterenol's chemical structure to reduce chronotropic, arrhythmogenic, and vascular side effects. Experiments on dogs showed that the resulting drug, dobutamine, had an inotropic efficacy as great as that of epinephrine due to a direct action on /?, cardiac receptors. However, unlike epinephrine, dobutamine's effect on a and ft, vascular receptors was slight. At equivalent inotropic doses, dobutamine had less than a fourth of the chronotropic effect of isoproterenol. Desmethylimipramine (DMI), which blocks the sympathetic nerve fiber uptake mechanism, had no effect on dobutamine's actions. In contrast, DMI antagonized dopamine's inotropic effect, and marked chronotropic and pressor responses occurred when we used doses of dopamine large enough to elicit a direct inotropic effect. Dobutamine increased the contractility of isolated cat papillary muscles more but the automaticity less than did isoproterenol. In ischemic dog hearts, dobutamine lacked significant arrhythmic activity, whereas dopamine, norepinephrine, and isoproterenol caused severe ectopic activity. In dogs with experimentally induced low cardiac contractility, low cardiac output, and hypotension, dobutamine produced dose-related increases in cardiac contractility and output, restored arterial blood pressure, and reduced total peripheral resistance slightly. In contrast, isoproterenol failed to restore blood pressure, had only a meager effect on cardiac contractility and output, caused extreme tachycardia, and lowered peripheral resistance more than did dobutamine. Norepinephrine, which did not increase cardiac contractility or output as much as dobutamine, excessively elevated peripheral resistance and arterial blood pressure. KEY WORDSadrenergic receptors arrhythmias dopamine cardiogenic shock isoproterenol myocardial infarction norepinephrine cat papillary muscles dogs• Isoproterenol has great inotropic efficacy; moreover, it does not cause the vasoconstriction and the rise in arterial blood pressure associated with the naturally occurring catecholamines, norepinephrine, epinephrine (1) and dopamine, if a narrow dose range is exceeded (2-6). However, the therapeutic value of isoproterenol for the treatment of acutely depressed cardiac contractility is limited by its chronotropic activity. Isoproterenol administration like that of the naturally occurring catecholamines involves a considerable risk of arrhythmia (7). Moreover, the strong activity of isoproterenol on the f3 2 receptors (1) of the peripheral vasculature is disadvantageous because these receptors predominate in skeletal muscles, which constitute nearly half of the body's mass. Consequently, vig- Circulation Research, Vol. 36, January 1975 orous stimulation of y3 2 receptors wastefully diverts a large portion of the cardiac output to skeletal muscle, lowers peripheral resistance to the point of reducing diastolic pressure, and hence lowers effective coronary perfusion pressure (8).To attenuate these undesirable features, we systematically modifi...
In a placebo-controlled, double-blind study we evaluated the safety and kinetics of a new narcotic antagonist, nalmefene, after 2, 6, 12, and 24 mg intravenous doses to healthy men. At each dose level four subjects received active drug and two received placebo. The drug was well tolerated at all dose levels with only mild and transient side effects, the most common of which was lightheadedness. The plasma concentration-time data were best fit with a triexponential equation, and the terminal elimination phase had a harmonic mean t1/2 of 8 to 9 hours. Only about 5% of the dose was excreted in the urine as intact nalmefene, with up to 60% excreted as nalmefene glucuronide. Although intersubject differences were noted, mean or dose-normalized mean kinetic parameters such as clearance, steady-state volume of distribution, terminal t1/2, and AUC showed no consistent trends related to increasing doses, indicating that nalmefene has linear pharmacokinetics.
The role of endogenous opioids in congestive heart failure: effects of nalmefene on systemic and regional hemodynamics in dogs.
We studied the role of endogenous opiates and their interrelationships with the sympathetic nervous system in an experimental preparation of right-sided congestive heart failure (CHF) produced by surgical tricuspid avulsion and progressive pulmonary arterial constriction. Three groups of dogs with CHF and one group of sham-operated dogs were studied. One group of dogs with CHF was given normal saline as pretreatment, while the other two groups were pretreated with either propranolol alone ((3-blockade) or propranolol plus prazosin (a-plus /3-blockade). CHF was characterized by weight gain, ascites, elevated right atrial pressure, tachycardia, and reduced cardiac output. Compared with sham-operated animals, animals with CHF exhibited significantly higher baseline levels of plasma /3-endorphin and cortisol. Furthermore, only the animals with CHF responded to the opiate receptorantagonist nalmefene with significant increases in plasma /3-endorphin, cortisol, and adrenocorticotropic hormone. Administration of nalmefene increased aortic blood pressure, cardiac output, left ventricular dP/dt and dP/dtIP, and blood flow to the myocardium, skeletal muscle, and kidneys in dogs with CHF, but had no appreciable effects in sham-operated dogs. 13-Receptor blockade abolished the increase in cardiac output, left ventricular performance, and blood flow produced by nalmefene, but had no effect on the pressor response to nalmefene. The increase in mean aortic pressure in the ,3-blockade group was accompanied by an increase in skeletal muscle vascular resistance. Addition of prazosin in the a-plus 13-blockade group abolished the increases in mean aortic pressure and skeletal muscle vascular resistance, suggesting that the changes after propranolol probably resulted from unmasking of a-receptor-mediated vasoconstriction. Our present study indicates that the heightened opiate system accompanying CHF limits sympathetic activation, and that the beneficial effects of opiate-receptor inhibition are mediated, at least in part, via stimulation of the sympathetic nervous system.
A B S T R A C T We studied the conditioning effects ofchronic infusion of dobutamine and exercise training in three groups of chronically instrumented dogs. One group was infused with normal saline, a second group was infused with dobutamine (40 ,ug/kg per min), and the third group was exercised on a treadmill at 4 mph, up a 100 incline. Each group was either infused or exercised for 2 h a day, 5 d a week for 5 consecutive wk. Resting heart rate and arterial blood lactate concentration, measured at weekly intervals, decreased progressively in the dobutamine and exercise groups, but not in the group that received normal saline infusion. Cardiovascular responses to submaximal treadmill exercise were not changed by 5 wk of normal saline infusion. However, the increases in heart rate, cardiac output, mean aortic blood pressure, arterial blood lactate, plasma renin activity, and norepinephrine concentration during exercise were significantly smaller after 5 wk of conditioning with either dobutamine or exercise training. After conditioning, the increases in arteriovenous oxygen difference during exercise were larger in the latter two groups, but the increases in total body oxygen consumption did not differ before and after conditioning.To assess ventricular function, we intravenously infused methoxamine both before and after conditioning. The slope of the line that related systolic aortic blood pressure and mean left atrial pressure increased in the animals conditioned with either dobutamine or exercise, indicating enhanced myocardial contractility. Left ventricular blood flow was lower in these two groups of animals than it was in the normal saline group. Left ventricular weight did not differ among the three groups.Our results show that chronic infusion of dobutamine produced cardiovascular and metabolic conditioning effects like those produced by exercise training, and further suggest that sympathetic stimulation during exercise plays a role in physical conditioning.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
