UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Global myocardial ischaemia improves intracardiac operating conditions but damages the myocardium. Propranolol should reduce this damage but may impair postoperative myocardial contractility. An assessment of its protective effect during 90 minutes of normothermic ischaemia in canine hearts has been made. The early and late changes of contractility caused by low-dose propranolol were also recorded. A comparison of cardiac isovolumic contractile force, velocity, and compliance was made in three groups of dogs given 30 microgram/kg of propranolol with or without 90 minutes of cardiac ischaemia, or cardiac ischaemia without propranolol. Contractile force and velocity were significantly reduced by the propranolol, but recovered fully after 90 minutes. Ischaemia without propranolol reduced force and velocity of contraction significantly more than ischaemia with propranolol. Propranolol thus reduces operative ischaemic damage without itself impairing postoperative function.
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PMID:Low-dose propranolol for the protection of the left ventricle from ischaemic damage. 733 Aug 3

The antiarrhythmic and proarrhythmic effects of flecainide were assessed in 21 anesthetized cats. Ventricular arrhythmias can be reproducibly induced in cats by the combination of acute myocardial ischemia and sympathetic stimulation. Premature ventricular contractions (PVCs), sustained (sVT) and nonsustained (nsVT) ventricular tachycardia (VT), or ventricular fibrillation (VF) may be induced by a 1-minute left stellate ganglion stimulation during a 3-minute coronary artery occlusion. After three trials yielding consistent results, flecainide (2 mg/kg intravenous bolus plus 2 mg.kg-1.hr-1 intravenous infusion) was injected and two additional trials performed. Eight cats also underwent two trials after propranolol (0.2 mg/kg) administered while flecainide infusion was maintained. Flecainide decreased heart rate and blood pressure and slightly prolonged JTc (9%, p < 0.05). It markedly augmented QRS duration (61%, p < 0.0001), which was increased by an additional 61% (p < 0.0001) during sympathetic stimulation. VF was observed in 8 animals and never after flecainide (p < 0.05). However, after drug administration all cats had VT (2 nsVT and 6 sVT), and 5 required cardiac massage. Flecainide did not prevent the occurrence of nsVT in 6 cats, and it worsened arrhythmias by inducing VT (4 nsVT and 2 sVT) in 6 cats with only PVCs or without arrhythmias in the control trials. Propranolol, administered while flecainide infusion was maintained, prevented the increase in heart rate and the marked QRS prolongation during sympathetic stimulation (4 +/- 3 vs 52 +/- 16 msec, p < 0.05) and abolished the proarrhythmic effect of flecainide in 4 of 5 animals. Thus flecainide, despite an antifibrillatory effect, does not prevent and actually may favor the occurrence of sVT during acute myocardial ischemia and enhanced sympathetic activity. Propranolol, by countering the increase in heart rate during sympathetic stimulation, prevented the rate-dependent conduction delay and abolished the proarrhythmic effect of flecainide. The exacerbation, whenever a transient ischemic episode is accompanied by elevated sympathetic activity, of the ischemia-induced conduction delay caused by flecainide may in part explain the mortality data in the Cardiac Arrhythmia Suppression Trial.
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PMID:Malignant arrhythmias and acute myocardial ischemia: interaction between flecainide and the autonomic nervous system. 752 95

The ability of dobutamine to precondition the isolated rat heart against postischemic contractile dysfunction was assessed. Hearts were perfused with varying concentrations of dobutamine for 5 min followed by a 5 min "washout" period and 30 min of global ischemia. The hearts were reperfused for 30 min to assess postischemic function. Dobutamine improved postischemic developed pressure, +dp/dt, heart rate x developed pressure, end diastolic pressure, and coronary flow in a concentration-dependent manner. The concentration of dobutamine showing the maximum protective effect was 10(-6)M. Propranolol administered with dobutamine significantly attenuated the protective effect. The results indicate that transient treatment with dobutamine can precondition the rat heart against ischemia/reperfusion injury. The mechanism of protection appears to involve beta-adrenergic stimulation.
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PMID:Preconditioning with dobutamine in the isolated rat heart. 760 97

To evaluate the adenosine systems ability to reverse the endothelial damage produced by ischemia and reperfusion (I/R), we studied several different selective adenosine-receptor agonists and antagonists, a protein kinase A inhibitor, and a beta-adrenoreceptor antagonist in isolated buffer-perfused rat lungs. I/R (45 min/105 min) produced a sixfold increase in endothelial permeability as measured by the capillary filtration coefficient. Both a selective A2-receptor agonist (CGS-21680, 300 nM) and a beta-receptor agonist (isoproterenol, 10 microM) reversed the increased microvascular permeability. A nonselective adenosine-receptor antagonist (SPT, 20 microM) and a selective A1-receptor antagonist (DPCPX, 10 nM) had no effect on increased microvascular permeability. Also, isoproterenol and CGS-21680 reversed the damage being introduced after a selective A1-receptor agonist (CCPA, 100 nM). The nonspecific adenosine A1- and A2-receptor agonist NECA (12 nM) appeared to desensitize the A2 receptors and a protein kinase A inhibitor, adenosine-3',5'-cyclic monophosphothioate (Rp-cAMPS, 100 microM), blocked the reversal of endothelial damage by isoproterenol or A2-receptor agonist. Propranolol (100 microM) blocked the effect of isoproterenol but not the effect of CGS-21680. From this study we conclude that A2-receptor activation reverses endothelial damage associated with I/R by a mechanism independent of beta-receptors or Gi protein. However, a protein kinase A-3',5',-cyclic adenosine monophosphate pathway is activated by both the adenosine systems and beta-receptor activation.
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PMID:Adenosine A2 receptors reverse ischemia-reperfusion lung injury independent of beta-receptors. 777 45

This study was designed to examine the effects of an adenylate cyclase activator, NKH477, on epicardial and endocardial contraction and coronary blood flow (CoF) in the presence or absence of ischemia and to compare it to those of adenosine. We measured coronary pressures (CoP), coronary blood flow, epicardial and endocardial wall thickening (i.e., %EPWT and %ENWT, respectively, by sonomicrometry) in 18 anesthetized dogs. The left circumflex coronary artery was perfused with arterial blood using a pressure controlled servo pump. Propranolol (0.5 mg/kg) and atropine (0.25 mg) were used to minimize the neurogenic effects. CoP decreased from 100 mm Hg to 40 mm Hg with and without drugs. At CoP of 100 mm Hg, intracoronary infusion of NKH477 (10(-8) M/kg/min) produced a two-fold increase in CoF, but there were no changes in either the %EPWT or the %ENWT. During coronary hypofusion at coronary pressures equal to 40 mm Hg, NKH477 increased CoF from 16 +/- 2 to 28 +/- 4 mL/min (p < 0.05) and improved %ENWT significantly from 6 +/- 7 to 23 +/- 7% (p < 0.05). However %EPWT was not improved by NKH477. On the other hand, the intracoronary infusion of adenosine (10 micrograms/kg/min) increased CoF from 16 +/- 5 to 21 +/- 6 mL/min (p < 0.05) at CoP of 40 mm Hg. However, this dose of adenosine failed to improve %ENWT (16 +/- 10% vs. 14 +/- 10%, n.s.). Thus, the improvement of subendocardial function by NKH477 might be related to the improvement of subendocardial perfusion which could be induced by the potentiation of endogenously released adenosine as well as the direct vasodilator effect. This contrasts with the effects of exogenously administered adenosine, which failed to improve subendocardial contractility.
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PMID:Adenylate cyclase activation promotes the recruitment of coronary vasodilator reserve and improves subendocardial contractility during coronary hypoperfusion. 801 Sep 38

Myocardial ischemia, electrolyte changes, and fluctuations in autonomic tone may play an important role in the presentation of malignant ventricular arrhythmias. beta-Adrenoceptor blocking agents have been shown to decrease the incidence of ventricular fibrillation and sudden cardiac death in patients with coronary artery disease. Therefore we investigated the changes in myocardial metabolism and transcardiac electrolytes during simulated ventricular tachycardia before and after beta-adrenergic blockade. Six patients with normal coronary arteries (group 1) and 12 patients with documented coronary artery disease (group 2) were included in the study. The right ventricle was paced with electrode catheters to a constant cycle length of 400 msec for 3 minutes. Blood samples were withdrawn simultaneously from the coronary sinus and femoral artery to determine the transcardiac differences in metabolic variables and electrolytes before the pacing, at the end of the pacing, and 2 minutes thereafter. After pacing, the patients were given intravenous propranolol (0.15 mg/kg), and the protocol was repeated. Intraarterial blood pressure and electrocardiogram were monitored continuously. There was a rapid decline of the mean arterial blood pressures after initiation of the pacing in both study groups, whereafter the pressures began to rise. Propranolol somewhat blunted the blood pressure recovery, especially in group 2. Norepinephrine levels increased during the pacing in both patient groups, and the increase was accentuated by beta-adrenergic blockade. The femoroarterial coronary sinus difference in lactate turned negative, and pH, PCO2 and potassium differences increased in group 2 during pacing. However, the myocardial energy state remained relatively good as estimated from the nonsignificant change in the transcardiac differences of the plasma adenosine catabolites. There were no changes in the metabolic variables or transcardiac electrolytes in group 1 patients during pacing. Propranolol did not prevent the metabolic ischemia, but it did prevent the pacing-induced decrease in coronary sinus potassium and increase in transcardiac potassium difference. Propranolol also decreased arterial levels of free fatty acids and their extraction in group 2 patients during pacing. In conclusion, blood pressure decay during simulated ventricular tachycardia is followed by instantaneous sympathoadrenergic activation. In patients with coronary artery disease, this process is accompanied by metabolic ischemia and net transfer of extracellular potassium into the intracellular space. The metabolic and electrolyte changes may result in alterations of electrophysiologic millieau, thereby also modifying the clinical characteristics of ventricular tachycardia. Propranolol decreases arterial levels of free fatty acids and prevents changes in transcardiac electrolytes observed in coronary artery disease patients during simulated ventricular tachycardia. These effects of propranolol may be of clinical significance.
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PMID:Changes in myocardial metabolism and transcardiac electrolytes during simulated ventricular tachycardia: effects of beta-adrenergic blockade. 801 90

It has been suggested that ischemia secondary to coronary vasoconstriction is responsible for adverse cardiovascular effects of cocaine. However, the reported coronary vascular effects of cocaine vary considerably. We sought to determine the effects of cocaine on the coronary vasculature in anesthetized and conscious rats. Rats anesthetized with chloralose were instrumented for estimation of ascending aortic and coronary blood flows using pulsed Doppler velocitometry. Cocaine administration resulted in bradycardia and a biphasic mean arterial pressure response. Cocaine elicited highly variable increases in coronary vascular resistance and decreases in cardiac output. Decreases in coronary blood flow and rate-pressure product were directly correlated. Prazosin significantly attenuated the cardiac output but not the coronary vascular responses to cocaine. Propranolol, on the other hand, significantly shortened the duration of both responses. Conscious rats, instrumented for coronary blood flow determination, also exhibited cocaine-induced increases in coronary vascular resistance, yet the changes in coronary blood flow were not correlated with the rate-pressure product. These results provide the first evidence that cocaine produces equivalent increases in coronary vascular resistance in conscious and anesthetized rats. However, because the relationship between coronary blood flow and rate-pressure is different between the two preparations, as are other cardiovascular responses, we suggest that anesthesia alters the mechanism(s) by which cocaine affects the rat coronary vasculature.
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PMID:Coronary vascular effects of cocaine in rats. 830

In the isolated, perfused working rat heart, ischemia (15 min) decreased mechanical function and also the tissue levels of ATP and creatine phosphate, and increased the tissue levels of lactate and free fatty acids including arachidonic acid. Reperfusion (20 min) did not restore mechanical function, but restored changes of metabolites incompletely except for free fatty acids, which changed further during reperfusion. Drugs were given 5 min before ischemia until the end of ischemia or for the first 10 min after reperfusion. Both dl- and d-propranolol (10 and 30 microM) decreased mechanical function, accelerated the recovery of mechanical function during reperfusion following ischemia, and attenuated ischemia reperfusion-induced metabolic changes. The attenuation of reperfusion-induced metabolic changes was more marked when these drugs were present during reperfusion. d-Propranolol showed a cardioprotection similar to that by dl-propranolol. Timolol (50 microM) did not accelerate the recovery of mechanical function during reperfusion, and did not attenuate the reperfusion-induced metabolic changes. These results suggest that d-propranolol, like dl-propranolol, has a cardioprotective effect which is probably due to its membrane stabilizing (or sodium channel blocking) action.
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PMID:Cardioprotective effect of d-propranolol in ischemic-reperfused isolated rat hearts. 831 54

The relationships between pressure rate product (PRP) and flux (PCr-->ATP) or flux (Pi-->ATP) were studied in isolated perfused rat hearts by the saturation transfer method using 31P-NMR. The effects of propranolol and diltiazem on phosphate metabolism were also studied. After a 40 min preischemic period, the hearts were subjected to a 15 min period of ischemia, followed by 60 min of reperfusion. Propranolol (0.4-1.2 microM) or diltiazem (3.0-6.0 microM) was infused for 30 min before ischemia and reinfused after reperfusion for 60 min. The flux (PCr-->ATP)/PRP ratio at reperfusion did not differ from that at preischemia. This value was also not affected by propranolol or diltiazem treatment. However, the flux (Pi-->ATP)/PRP ratio at reperfusion was significantly less than that at preischemia. Moreover, this value was significantly improved by propranolol or diltiazem treatment. This study demonstrates that 1) flux (PCr-->ATP) has a good correlation with cardiac performance, 2) stunned myocardium needs less ATP turnover for survival of its depressed contractile activity, and 3) flux (Pi-->ATP) can limit recovery of postischemic performance. Protective effects of propranolol and diltiazem are exerted on the flux (Pi-->ATP), i.e. ATP derived from glycolytic flux, in the reperfused heart.
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PMID:Effects of propranolol and diltiazem on the rate of high-energy phosphate metabolism in reperfused rat hearts--31P-NMR saturation transfer study. 834 Sep 99

Oxygen-derived free radicals play a critical role in atherogenesis and reperfusion injury. The present experiment evaluated the effects of carvedilol, a new beta adrenoreceptor blocker with potent free radical-scavenging activity, on myocardial ischemia and reperfusion injury in a hypercholesterolemic rabbit model. New Zealand rabbits were fed a normal diet, a high-cholesterol diet, or a high-cholesterol diet supplemented with 1200 ppm carvedilol or propranolol. Eight weeks later, the rabbits were subjected to 60 min of myocardial ischemia followed by 60 min of reperfusion. The nontreated cholesterol-fed animals experienced greater cardiac damage after ischemia and reperfusion than rabbits fed a normal diet (necrosis 51% +/- 4% vs. 28% +/- 3% in the normal-diet group, P < .01). In addition, nontreated cholesterol-fed rabbits showed a significantly decreased vasorelaxant response to ACh in U-46619-precontracted aortic rings (56% +/- 5% vs 90% +/- 3% in the control group, P < .001). Treatment with propranolol neither preserved endothelial function after cholesterol feeding nor reduced neutrophil accumulation in ischemic-reperfused myocardial tissue. Propranolol treatment did significantly decrease HR, pressure-rate index and infarct size (necrosis 33% +/- 4%). Despite their having essentially identical effects on HR and pressure-rate index, carvedilol exerted more profound cardiac protective effects than propranolol (necrosis 19% +/- 3%). Moreover, carvedilol treatment significantly preserved aortic endothelial function and markedly reduced neutrophil accumulation in ischemic-reperfused myocardial tissue. These results indicate that in addition to its beta blocking activity, the antioxidant and endothelial protective activities of carvedilol contributed significantly to its cardiac protective effects after ischemia and reperfusion.
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PMID:Carvedilol, a new beta adrenoreceptor blocker and free radical scavenger, attenuates myocardial ischemia-reperfusion injury in hypercholesterolemic rabbits. 861 9

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