Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study's objective is to evaluate the ability of glucagon and amrinone to reverse propranolol induced cardiovascular depression in a canine model, compared to a control of normal saline. The study design included 18 animals which received intravenous propranolol (10 mg/kg) resulting in significant depression in heart rate, cardiac output, mean arterial pressure, maximal ventricular dP/dt and stroke volume. Each canine was randomly assigned to one of three treatment groups; controls (normal saline only), glucagon (20 micrograms/kg bolus) and amrinone (4 mg/kg bolus). Cardiovascular parameters were monitored at 1, 6, 11, 21 and 31 min after treatment was rendered. Multiple comparison procedures at each time period controlled the overall alpha-level at .05. Compared to control animals, both amrinone and glucagon were effective in reversing propranolol-induced depression of dP/dtmax at 6 and 11 min for glucagon and 11 min for amrinone and cardiac output at 1, 6 and 11 min for glucagon and 1 min for amrinone. Amrinone and glucagon significantly increased stroke volume over control values at 1 min and tended to do so at the remaining time periods. The two days caused a similar degree of arteriolar vasodilation which was significantly greater than that seen in control animals at 1 and 6 min. Beta blocker induced bradycardia did not respond significantly to amrinone while glucagon induced a tachycardia which is unique to canines. It is concluded that in this canine model, amrinone appears to be an effective therapeutic alternative to glucagon for reversing depressed dP/dtmax, cardiac output and stoke volume induced by propranolol toxicity. Unlike glucagon, amrinone appears to lack positive chronotropic activity which may limit its clinical utility in the treatment of beta blocker overdose.
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PMID:A comparison of amrinone and glucagon therapy for cardiovascular depression associated with propranolol toxicity in a canine model. 151 13

Hypotension resulting from calcium channel blocker ingestion often is refractory to standard therapeutic modalities. Amrinone and glucagon have been used separately and in combination with other agents in the treatment of calcium channel blocker overdose. We report the successful use of both amrinone and glucagon in the treatment of a 30-year-old woman who ingested 3.6 g of verapamil and presented with refractory hypotension. The use of the two agents together may provide improved inotropic support with minimal increases in myocardial oxygen consumption. In this case, the combination of amrinone and glucagon was safe and effective in the management of the hemodynamic instability associated with calcium channel blocker overdose.
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PMID:Use of amrinone and glucagon in a case of calcium channel blocker overdose. 851 79

1. We measured the ability of glucagon and amrinone, used alone and in combination, to improve the myocardial function in a rat isolated heart model of calcium channel blocker (CCB) cardiotoxicity. 2. Verapamil 10(-4) mol consistently decreased heart rate and cardiac contractile force in our Langendorff rat isolated heart preparations. Glucagon increased the heart rate in a dose-dependent fashion. Amrinone increased the heart rate only at the 1 x 10(-1) mol concentration, and had no significant effect on cardiac contractility. 3. A positive linear correlation was found between the glucagon concentration and the percent recovery of baseline contractile force. 4. Although complete reversal of verapamil-induced myocardial depression occurred at glucagon concentrations of > 3 x 10(-6) mol, amrinone produced only 23.8 +/- 3.6% recovery from baseline at its highest concentration (4 x 10(-3) mol). 5. When glucagon and amrinone were administered together, there was no additional increase over glucagon alone in the increase in contractile force. 6. Glucagon, and not amrinone, is an appropriate agent, capable of reversing verapamil-induced myocardial toxicity in this rat isolated heart model. In vivo studies should be performed to assess whether this may be a reliable therapy in clinical cases.
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PMID:The effects of amrinone and glucagon on verapamil-induced myocardial depression in a rat isolated heart model. 918 18