Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calcium chloride is frequently administered to patients immediately after separation from cardiopulmonary bypass to improve the contractile state of the myocardium. Animal studies suggest that calcium chloride may produce increases in pulmonary vascular resistance, which can precipitate right ventricular failure. In an attempt to determine the effect of calcium chloride administration after cardiopulmonary bypass on right ventricular function, this study was designed to evaluate patients with normal and elevated pulmonary vascular resistance. Fifty patients scheduled for elective cardiac surgery were prospectively studied for changes in ionized calcium levels before and after bypass. The impact of calcium administration on right ventricular function was assessed by a pulmonary artery catheter modified for the measurement of right ventricular ejection fraction. In all patients the level of ionized calcium decreased during bypass from a mean of 4.91 to 4.29 mg.dl-1. However, the infusion of calcium chloride (10 mg.kg-1) after bypass resulted in increasing the ionized calcium levels to prebypass levels. Administration of calcium chloride after bypass to patients with normal right ventricular function resulted in a transient increase in both cardiac output and right ventricular ejection fraction without any change in pulmonary vascular resistance. Eight patients with both elevated pulmonary vascular resistance and depressed right ventricular function were evaluated to determine the effect of calcium chloride after bypass on pulmonary vascular resistance and right ventricular ejection fraction. Administration of calcium chloride (10 mg.dl-1) to these patients did not result in any significant increase in pulmonary vascular resistance or depression of right ventricular performance. More important, in these patients, right ventricular ejection fraction and cardiac output were significantly increased after calcium chloride administration. In summary, the results of this study fail to demonstrate any increase in pulmonary vascular resistance or deterioration of right ventricular function with the administration of calcium chloride (10 mg.kg-1) after bypass in patients with elevated pulmonary vascular resistance.
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PMID:The effect of calcium on pulmonary vascular resistance and right ventricular function. 149 94

The effects of calcium chloride administered at low infusion rates on the cardiovascular depression and the blood calcium balance were studied during a constant halothane anaesthesia in dorsally recumbent ventilated ponies. A pronounced cardiopulmonary depression characterized by decreases of all cardiac parameters and lowering of the mean arterial blood pressure was observed after the initial anaesthetic stabilization period of 30 minutes in the ponies. A significant decrease in the total calcium plasma concentration together with a constant ionized and complexed calcium fraction was present after the stabilization period. Calcium chloride administration at different infusion rates (0.1, 0.2 and 0.3 mg/kg/min) induced a dose-dependent increase in mean systemic blood pressure, probably due to the observed increase in total peripheral resistance. A dose-dependent gradual decrease in heart rate, probably mediated by the increased vagal activity, was observed after the calcium infusions. The stroke volume increased also in a dose-dependent way. Cardiac output, arterial blood gases or packed cell volume were not influenced by the exogenous calcium infusions. The observed increases in mean pulmonary artery pressure and total pulmonary resistance were probably time-related responses. Overall, only the effects of the exogenous calcium on the peripheral vasculature, namely a vasoconstriction leading to an increase in blood pressure, were present in this study. Although LV dP/dt max was not measured in this study, minor positive inotropic effects of the exogenous calcium infusions might nevertheless be possible since the observed increase in stroke volume could be an indication of an increase in the ventricular contractility function. The different fractions of the calcium in the plasma (total and ionized & complexed calcium) increased during the exogenous calcium infusions but the proportion of the fractions remained always constant.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cardiovascular effects of low dose calcium chloride infusions during halothane anaesthesia in dorsally recumbent ventilated ponies. 179 75

The efficiency of transferring the total energy generated by ventricular contraction (pressure-volume area, PVA) to external work (EW) and internal work (IW) and the myocardial oxygen consumption (MVO2) at zero PVA were determined during volume loading on right heart bypass before and after a 50% augmentation (CaCl2, 0.03 mEq/kg/min, n = 7) or depression (20 minutes of 37 degrees C ischemia with 30 minutes of reperfusion, n = 7) of the contractile state. An increased EW efficiency (64% +/- 7% vs. 81% +/- 6%, p less than 0.01) with reciprocally decreased IW efficiency (36% +/- 7% vs. 19% +/- 6%, p less than 0.01) occurs with calcium chloride-augmented contractility. A reversible ischemia and reperfusion insult has the converse effect on these relative efficiencies (EW, 73% +/- 4% vs. 49% +/- 4%; IW, 27% +/- 4% vs. 51% +/- 4%; each p less than 0.01). Calcium chloride increases the oxygen requirements of both basal metabolism (28 +/- 2 vs. 67 +/- 9 ml O2/beat/100 gm LV, p less than 0.01) and fiber shortening (11 +/- 5 vs. 62 +/- 11 ml O2/beat/100 gm LV, p less than 0.01). The postischemic heart has a decreased oxygen need for shortening (20 +/- 2 vs. 3 +/- 4 ml O2/beat/100 gm LV, p less than 0.01), paralleling the depressed inotropic state. This new model of compartmentalized chemomechanical transduction may allow specific modulation of the energetic derangements attendant to the surgically treated heart.
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PMID:Compartmentalizing chemomechanical transduction in the ejecting heart. 276 28

In order to evaluate the effects of the combination of halothane and verapamil on left ventricular function and coronary blood flow (CBF), six sheep were anaesthetized with halothane (1.2% inspired) and given increasing cumulative doses of intravenous verapamil. Regional myocardial function was assessed by sonomicrometry in the areas supplied by the left anterior descending coronary artery (LAD) and the left circumflex coronary artery (LC). Changes in global haemodynamics, atrioventricular conduction, LV relaxation and systolic shortening after 0.32 mg X kg-1 intravenous verapamil indicated impaired left ventricular function. Significant myocardial dysfunction (post-systolic shortening) occurred in the LAD territory, accompanied by a 64% decrease (42 +/- 6 to 15 +/- 3, P less than 0.01) in coronary perfusion pressure (CPP). Coronary blood flow in the LC segment decreased 83% (102 +/- 15 to 17 +/- 13, P less than 0.01) as coronary reserve was exhausted with the decrease in CPP. Calcium chloride reversed the impairment of global and regional myocardial function observed with verapamil, improved the impaired left ventricular relaxation, but did not significantly alter atrioventricular conduction. Thus the combination halothane-verapamil can cause significant left ventricular depression and myocardial dysfunction, possibly by inducing subendocardial ischaemia or by direct pharmacologic effect. Calcium chloride reverses this regional myocardial dysfunction as well as the deleterious global haemodynamic changes caused by halothane-verapamil; however, the changes in atrioventricular conduction are not corrected by calcium.
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PMID:Calcium reverses global and regional myocardial dysfunction caused by the combination of verapamil and halothane. 363 May 88

To investigate the potential risk of regional anaesthesia in a verapamil-treated patient, the cardiovascular effects of a combined intravenous infusion of bupivacaine and verapamil were studied in seven conscious and chronically instrumented dogs and were compared to those obtained when each drug was infused separately in the same animals. During verapamil infusion, the decrease in arterial pressure and myocardial contractile force, and the increase in heart rate were constant during the infusion. The lengthening of PR interval correlated with the plasma level of verapamil. During infusion of bupivacaine alone, there was an increase in heart rate and arterial pressure at the end of infusion, whereas the initial depression of myocardial contractile force was compensated. PR interval remained unchanged throughout the infusion of bupivacaine. During combined infusion of bupivacaine and verapamil, there was a time-dependent decrease in heart rate, arterial pressure and myocardial contractile force. A further increase in PR interval correlated with verapamil plasma concentrations which were higher than when verapamil was infused alone; bupivacaine plasma levels were in the same range as during bupivacaine infusion alone. Short periods of second-degree atrioventricular block developed in three out of the seven dogs but no relation was found between QT interval and heart rate in the whole group. Calcium chloride during bupivacaine-verapamil returned heart rate, arterial pressure and myocardial contractile force to their control values within 5 min. Atrioventricular block disappeared and PR interval was shortened following administration of calcium. Bupivacaine and verapamil have additive cardiovascular effects which lead to atrioventricular conduction dysfunction. The effects, at these doses, are reversed by calcium chloride.
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PMID:Bupivacaine accentuates the cardiovascular depressant effects of verapamil in conscious dogs. 365 84

Rats anesthetized with pentobarbital and ventilated artificially were intoxicated with 1 mg/kg X min propranolol i.v. After 30 min heart rate, mean arterial blood pressure and peripheral resistance had dropped by about 50% and cardiac output by about 25% and were stable for up to 120 min. Isoprenaline proved to be the best antidote for the treatment of propranolol intoxication antagonizing the bradycardia by 76% and the hypotension completely. The antagonistic activities of orciprenaline and prenalterol were lower than those of isoprenaline. Dopamine, adrenaline and noradrenaline antagonized propranolol-induced hypotension but did not considerably influence the bradycardia whereas dobutamine was nearly ineffective in both respects. Glucagon and aminophylline displayed some chronotropic activity without influencing propranolol-induced hypotension. Calcium chloride, on the other hand, produced a moderate elevation of blood pressure but only a small chronotropic activity, and atropine was inactive in both respects. Isoprenaline also restored the cardiac function of propranolol-poisoned rats if administered by infusion and, furthermore, increased the lethal dose of propranolol from 77 to 165 mg/kg. The strong antagonistic activity of isoprenaline against propranolol-induced cardiovascular depression was also confirmed by experiments in pigs. In conclusion, isoprenaline is the most active antidote for the treatment of propranolol intoxication in the rat though the administration of massive doses are required. The vasodilatory effect of isoprenaline can be overcome by the additional administration of a vasoconstricting agent like dopamine.
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PMID:Evaluation of antidotes against the acute cardiovascular toxicity of propranolol. 674 Jul 1

Dantrolene sodium, a muscle relaxant, does not have a clinically useful antagonist. The present study was undertaken to test the efficacies of germine monoacetate, 4-aminopyridine, neostigmine, and calcium chloride as possible agents for the reversal of the direct skeletal muscle depression produced by dantrolene sodium in the cat anesthetized with alpha-chloralose. Depression of the indirectly elicited twitch responses (0.1 Hz) of the tibialis anterior muscle by 25, 50, 75 and 84 per cent was produced by dantrolene, 0.16, 0.36, 0.88 and 1.13 mg/kg respectively; spontaneous recovery of twitch tension during the subsequent 30 min was negligible. After the 30-min observation period had elapsed, one of the reversal agents under study was given (iv) in divided doses at intervals of 10 min (five cats for each agent). Germine monoacetate (2 X 0.5 mg/kg) immediately reversed the dantrolene-induced twitch depression, with an over-shoot that persisted for an hour. 4-Aminopyridine (4 X 0.5 mg/kg) caused a steady but incomplete reversal to 17 per cent depression, 30 min after the last dose. Neostigmine (4 X 0.04 mg/kg) caused an immediate, but transient, reversal of the twitch depression, with overshoot. Calcium chloride (4 X 10 mg/kg) was without effect. It is concluded that germine monoacetate is the drug of choice for reversal of the muscle depression produced by dantrolene sodium in the cat.
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PMID:Reversal of dantrolene sodium-induced depression of skeletal muscle in the cat. 745 84

Intravenous diltiazem can be used to treat myocardial ischemia, hypertension, and supraventricular dysrhythmias, but significant adverse effects including atrioventricular block and hypotension have been reported. At the present time, there is controversy as to which drug is most effective in reversing these sequelae. This study was designed to assess the effectiveness of calcium chloride v epinephrine in reversing these side effects. The hemodynamic and electrophysiologic effects of diltiazem infusion were investigated in eight dogs anesthetized with fentanyl and nitrous oxide/oxygen. This study confirmed that diltiazem infusions in high concentrations produced predominantly atrioventricular conduction depression followed by profound hypotension. Epinephrine infusion proved to be most effective in attenuating and eliminating each of these deleterious side effects. In contrast, calcium chloride did not significantly increase heart rate or blood pressure or reverse atrioventricular block. In two instances calcium chloride produced further depression of atrioventricular conduction, leading to severe bradycardia and sinus arrest. Although calcium chloride increased left ventricular contractile force (LV dP/ dt) and cardiac index (CI), mean arterial pressure was not affected and SVR was further decreased. This study indicates that calcium chloride should not be given to reverse the side effects of diltiazem in the presence of atrioventricular conduction block or profound hypotension. Calcium chloride is indicated only when isolated myocardial depression is present and after the calcium channels have been reopened by epinephrine.
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PMID:Reversal of the adverse cardiovascular effects of intravenous diltiazem in anesthetized dogs. 1717 30