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)

Calcium channel antagonists can reduce calcium overload induced by myocardial ischemia and thereby protect against malignant arrhythmias. However, these drugs may also adversely affect cardiac contractile function. Mibefradil is a new calcium antagonist that can inhibit cardiac calcium current without reducing myocardial force development. The effects of mibefradil on the inducibility of arrhythmias both before and during ischemia were therefore evaluated in animals with healed infarctions. First, a 2-min coronary occlusion was made during the last minute of exercise (n = 48): 25 animals had ventricular fibrillation (susceptible), whereas 23 did not (resistant). On a subsequent day, programmed electrical stimulation (PES, 8 paced beats followed by two extrastimuli) induced ventricular tachycardia in 19 of 25 susceptible animals but in none of the resistant animals (chi square = 24.6, P < .001). Verapamil (n = 14), diltiazem (n = 13) and mibefradil (n = 14) elicited significant dose-dependent decreases in refractory period and in the Q-Tc interval (except mibefradil) yet failed to prevent PES-induced arrhythmias. Diltiazem and verapamil also increased P-R interval and reduced the maximum rate of change of left ventricular pressure, whereas mibefradil did not. However, all three drugs abolished arrhythmias induced by PES during ischemia. In contrast, lidocaine suppressed PES-induced arrhythmias but failed to prevent ischemically induced arrhythmias. Thus mibefradil can prevent ischemically induced ventricular fibrillation without adverse actions on either A-V nodal conduction or contractile function. These data further suggest that calcium entry may play a critical role in the initiation of ventricular fibrillation during ischemia, whereas other factors must be responsible for the extrasystoles induced by PES.
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PMID:The effects of mibefradil, a novel calcium channel antagonist on ventricular arrhythmias induced by myocardial ischemia and programmed electrical stimulation. 866 18

The ability of mibefradil, a new T-channel-selective calcium antagonist, to improve exercise tolerance and silent ischemic parameters in patients with chronic stable angina was compared in 3 separate trials with 2 other commonly used calcium antagonists: diltiazem SR (120 mg/twice daily) and amlodipine (10 mg/day). Compared with amlodipine, mibefradil 100 mg given once daily over a 3-week period resulted in a statistically significantly larger increase from baseline in total exercise tolerance test (ETT) duration (treatment difference of 40.9 sec, p = 0.04), time to onset of angina (treatment difference 61.2 sec, p < 0.001), and time to onset of ischemia (treatment difference of 54.4 sec, p = 0.004). The decrease in weekly anginal episodes was 58% with mibefradil versus 19% with amlodipine, and the reduction in nitroglycerin consumption was 58% with mibefradil versus a 10% increase with amlodipine. The decrease in the number of silent ischemic episodes detected by a 48-hour Holter recording was significantly larger (p = 0.03) with mibefradil 100 mg (88%) compared with amlodipine 10 mg (38%). Similarly, a larger decrease in the duration of silent ischemia was observed with mibefradil (69%) compared with that seen with amlodipine (38%). The preliminary results of a second trial comparing mibefradil with amlodipine were consistent with the first demonstrating that the improvement for all 3 ETT parameters was larger for mibefradil (ETT duration: 55.2 sec; delay in onset angina: 74.2 sec; time to onset of ischemia: 63.6 sec), but in this trial the treatment differences did not reach statistical significance. In the trial comparing mibefradil (100 mg once daily) with diltiazem SR (120 mg twice daily), both compounds had equivalent effects on all ETT parameters tested. Mibefradil produced a 21% increase in exercise duration compared with a 20% increase with diltiazem. Although mibefradil yielded larger increases in the time to onset of angina and the time to onset of 1-mm ST-segment depression (42% and 38%, respectively) than did diltiazem (34% and 25%, respectively), the treatment differences did not reach statistical significance. Both mibefradil and diltiazem SR were associated with at least a 70% reduction from baseline in anginal frequency and nitroglycerin consumption. Mibefradil-treated patients showed greater decreases in heart rate and the rate-pressure product at each stage of the ETT than patients treated with amlodipine or diltiazem SR. All 3 drugs were well tolerated. However, compared with mibefradil, amlodipine and diltiazem SR produced a higher incidence of leg edema. In conclusion, the effectiveness of mibefradil in improving all 3 ETT parameters was greater than that of amlodipine and equivalent to that of diltiazem SR. Moreover, mibefradil provided greater reductions in the heart rate and cardiac workload than did the other 2 drugs.
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PMID:Mibefradil in the treatment of chronic stable angina pectoris: comparative studies with other calcium antagonists. 928 52

Mibefradil is the first of a new class of calcium antagonists with a unique structure and pharmacology. Its novel mechanism of action is characterized by L-type and selective T-type calcium channel blockade. Mibefradil is selective for smooth muscle over cardiac muscle and selectively dilates the coronary vasculature over the peripheral vasculature. In animal studies, mibefradil increases coronary blood flow during induced ischemia. In addition, in vitro studies demonstrated that mibefradil decreases smooth muscle proliferation in response to vascular injury. The most intriguing effects of mibefradil include a lack of negative inotropy and reflex tachycardia, as well as inhibition of pathologic hypertrophy and remodeling in response to vascular injury. In clinical trials, mibefradil (100 mg) was more effective than diltiazem dual-release capsules (360 mg) and as effective as amlodipine (10 mg) in treating mild-to-moderate hypertension; mibefradil (100 mg) also resulted in a greater reduction in sitting diastolic blood pressure than did nifedipine GITS (60 mg) in patients with moderate-to-severe hypertension. In patients with chronic stable angina, mibefradil (100 mg) was as effective as diltiazem SR capsules (120 mg) twice daily and more effective than amlodipine (10 mg) in improving exercise tolerance and reducing ischemic episodes. Mibefradil improved survival in a rat model of heart failure as effectively as the angiotensin-converting enzyme (ACE) inhibitor, cilazapril. The apparent lack of negative inotropic activity and neurohormonal activity with mibefradil, as well as its favorable effects on cardiac remodeling in experimental models, suggest that this agent may be beneficial in congestive heart failure. This hypothesis is being tested in the ongoing Mortality Assessment in Congestive Heart Failure (MACH-1) trial.
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PMID:Mibefradil: a selective T-type calcium antagonist. 937 39

Pharmacotherapy with nitrates, beta-blockers, and calcium antagonists is the cornerstone of management of patients with chronic stable angina pectoris. While these agents are all effective, their use may be limited by pharmacologic tolerance, side effects, and drug interactions. Mibefradil is a recently developed calcium antagonist with a unique chemical structure, pharmacologic profile, and mode of action. Unlike all previously available calcium antagonists, mibefradil acts primarily by selective blockade of T-type calcium channels, rather than L-type channels, at clinically relevant concentrations. It has been evaluated as a treatment for angina in placebo-controlled and active-controlled clinical trials. Treatment with 50 mg mibefradil resulted in a significant improvement in exercise tolerance test duration in three of the five placebo-controlled trials, and a significant improvement in time to onset of angina in two of the five trials. Time to onset of ischemia as evaluated by 0.1 mV ST-segment depression was increased in all five placebo-controlled trials. Treatment with 100 mg mibefradil resulted in significant improvement in all three exercise tolerance test parameters in all studies. Mibefradil further improved exercise tolerance test duration and other efficacy parameters when administered concomitantly to patients on background beta-blocker or nitrate therapy. In addition, treatment with mibefradil was associated with a dose-dependent decrease in heart rate, double product, frequency of anginal attacks, nitroglycerin consumption, and both frequency and duration of silent ischemic episodes. In comparative trials, 100 mg mibefradil once daily was superior in efficacy to 10 mg amlodipine once daily and was at least equivalent to diltiazem in both efficacy and tolerability. Mibefradil was safe and well tolerated in all studies.
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PMID:Mibefradil, a T-type channel-selective calcium antagonist: clinical trials in chronic stable angina pectoris. 960 73

Mibefradil is a novel calcium channel blocker with activity at both L-type and T-type calcium channels. There are data suggesting that this compound can protect the ischemic/reperfused myocardium in spite of the fact that there is a very low abundance of T-type calcium channels within ventricular tissue. The aims of this study were two-fold. First, we wished to study the protective effect of mibefradil on ischemia/reperfusion injury in the isolated rat heart using infarct size as the endpoint of injury. In this respect, we compared mibefradil with amlodipine, a well-known and potent L-type calcium channel blocker, and with ischemic preconditioning, an intervention known to reduce infarct size consistently. Secondly, we investigated the possible mechanisms through which protection was achieved. For this second purpose, we examined the effects on protection of glibenclamide (an ATP-dependent K+ channel blocker) and chelerythrine (a protein kinase C inhibitor). Isolated rat hearts were perfused in the Langendorff mode at constant pressure. Control, mibefradil-treated (0.3 microM), mibefradil plus glibenclamide (50 microM), and mibefradil plus chelerythrine (10 microM) treated hearts underwent 35 minutes regional ischemia followed by 120 minutes reperfusion. At the end of the experiments, infarct size was determined with triphenyltetrazolium chloride and was expressed as a percentage of the ischemic risk zone (I/R%). A significant reduction in infarct size with mibefradil treatment was observed (I/R 11.1 +/- 2.1% vs. 35.5 +/- 3.1% in controls). This was comparable with the infarct reduction seen with two 5-minute cycles of ischemic preconditioning (17.7 +/- 2.5%). Amlodipine 0.1 microM, a concentration that caused equivalent coronary vasodilatation as that produced by mibefradil treatment, had no significant effect on infarct size (I/R 29.7 +/- 3.5%). The protective effect of mibefradil was not significantly modified by the presence of the PKC inhibitor chelerythrine 10 microM (I/R 19.1 +/- 4.9%) but was abolished when glibenclamide 50 microM was coadministered with mibefradil prior to ischemia (I/R 28.1 +/- 4.7%). Neither chlelerythrine nor glibenclamide alone had any influence on infarct size. We conclude from these data that mibefradil, unlike amlodipine, markedly reduces infarct size in the rat isolated heart. This protection is sensitive to inhibition by glibenclamide, suggesting that KATP channel opening may be an important additional and novel mechanism of mibefradil's action.
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PMID:Mibefradil, a T-type and L-type calcium channel blocker, limits infarct size through a glibenclamide-sensitive mechanism. 1037 26

This study investigated the effect of mibefradil on digoxin pharmacokinetics an pharmacodynamics. Following a loading dose of digoxin (0.375 mg, three times, day 1), 0.375 mg was administered once daily to 40 healthy subjects (days 2-15). Mibefradil was administered daily at 50 mg, 100 mg, or 150 mg (days 9-15). With co-administration of 50 mg or 100 mg mibefradil (the recommended doses), mean digoxin Cmax values increased 1.19- and 1.32-fold, respectively; Cmin values were 0.95- and 1.04-fold, respectively; mean AUC0-24 h increased 1.05- and 1.11-fold, respectively; and the total amount of digoxin excreted in urine remained unchanged. Digoxin monotherapy produced modest but transient prolongations of PQ interval, small decreases in heart rate, and no changes in blood pressure. With the addition of mibefradil, no effects on trough blood pressure or cardiac index were observed, but there was a further increase in PQ interval and decrease in heart rate. In a previous study, mibefradil had no significant effect on trough plasma digoxin concentration in patients with congestive heart failure and ischemia. Therefore, while the vast majority of patients should not need their digoxin dosages adjusted when given mibefradil, an occasional patient may require dose reductions based on clinical response and plasma digoxin.
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PMID:Pharmacokinetic and pharmacodynamic aspects of concomitant mibefradil-digoxin therapy at therapeutic doses. 1051 Jul 40

Abnormalities in calcium homeostasis such as calcium overload have been shown to participate in the pathogenesis of myocardial stunning. The goal of this study was to investigate the effects of mibefradil, a mixed T- and L-type calcium channels antagonist on exercise-induced ischemia (i.e., high-flow ischemia). Nine dogs were permanently instrumented to measure left ventricular wall thickening (Wth) and coronary blood flow (Doppler). Infusion of saline or mibefradil (30 and 40 microg/kg/min, i.v., for 20 min) was started 10 min before exercise (10 min, 14 km/h; slope, 13%) and stopped at its end. Circumflex coronary artery stenosis (pneumatic occluders) was set up 5 min before exercise to suppress exercise-induced increase in mean coronary blood flow without simultaneously affecting Wth at rest. Mibefradil (30 microg/kg/min) was also administered at the beginning of the recovery period in a subset of four dogs. During exercise with saline, Wth was dramatically reduced (-77 +/- 7%; p < 0.05) and recovered only after 24 h. Mibefradil at both doses significantly limited tachycardia during exercise (211 +/- 7 and 210 +/- 5 beats/min vs. 240 +/- 8 beats/min for mibefradil, 30 microg/kg/min, mibefradil, 40 microg/kg/min, and saline, respectively) but exerted no negative inotropic effects. Mibefradil at both doses significantly reduced the intensity of myocardial stunning and the time to recovery in Wth (3 h). Administration of mibefradil at the beginning of the recovery period did not protect against myocardial stunning. Administration of a mixed T- and L-type calcium channel antagonists before ischemia confers cardioprotection against exercise-induced myocardial stunning. This may potentially be related to the limitation of exercise-induced tachycardia and/or the prevention of calcium overload.
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PMID:Beneficial effects of the T- and L-type calcium channel antagonist, mibefradil, against exercise-induced myocardial stunning in dogs. 1067 56

Abnormal Ca(2+) inward current through cardiac Ca(2+) channels during ischemia has been shown to be an initial signal for activation of myocardial Ca(2+)-dependent enzymes. This study investigated the contribution of cardiac L- and T-type Ca(2+) channels in the calpain-mediated myocardial damage following myocardial infarction. Myocardial infarction was induced by permanent ligation of the left coronary artery. Infarcted rats were orally treated with placebo, amlodipine (L-channel blockade; 4 mg/kg/day) or mibefradil (L-/T-channel blockade; 10 mg/kg/day) beginning 7 days before induction of myocardial infarction. Gene expression, protein levels and enzyme activity of calpains I and II were measured 1, 3, 7 and 14 days postcoronary occlusion in the noninfarcted and infarcted myocardium. Infarct size, left ventricular dilation and interstitial collagen volume fraction were determined in picrosirius red-stained hearts. Myocardial infarction induced an up-regulation of calpain I mRNA, protein and activity in the noninfarcted myocardium (maximum 14 days postinfarction), whereas mRNA, protein and activity of calpain II were maximally increased in the infarcted myocardium 3 days postinfarction. Fourteen days postinfarction, infarct size was 49%, the left ventricle was dilated and interstitial collagen volume fraction was increased. Amlodipine-inhibited mRNA, protein and activity up-regulation of calpain I decreased interstitial collagen volume fraction and infarct size. Mibefradil-attenuated mRNA, protein and activity up-regulation of calpain II at all four time points measured and of calpain I at 7 and 14 days postinfarction reduced infarct size and prevented left ventricular dilation. Infarction-induced cardiac hypertrophy was accompanied by an up-regulation of calpain I, whereas calpain II was up-regulated in the infarcted myocardium. Cardiac L- and T-type Ca(2+) channel blockade differentially reduced postinfarction remodeling associated with selective inhibition of cardiac calpains I and II, respectively.
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PMID:Calcium channel blockade limits transcriptional, translational and functional up-regulation of the cardiac calpain system after myocardial infarction. 1239 65

The deleterious intracellular Ca(2+) overload in the ischemic-reperfusion injury of the heart can be even more expressed in subjects with acute renal failure in whom maintenance of intracellular Ca(2+) has already been disturbed in normoxia. To study the influence of acute renal failure in ischemic-reperfusion injury on the heart, we used isolated Langendorff's hearts of guinea pigs with gentamicin-induced acute renal failure. We examined arrhythmias, heart contractility and myocardial cell damage during reperfusion. Two specific Ca(2+) channel antagonists, mibefradil (0.1 and 1 microM) and verapamil (0.1 microM), were used to test the possible involvement of T-type and L-type Ca(2+) channels in these processes. We exposed hearts to 50 min of zero-flow global ischemia and 60 min of reperfusion. During reperfusion, unrecoverable ventricular fibrillation appeared more often in hearts of animals with acute renal failure than in control hearts (80% vs. 0%, respectively). Mibefradil, but not verapamil, applied either pre- or post-ischemically, terminated ventricular fibrillation in all hearts of animals with acute renal failure. Mibefradil (0.1 microM only) improved contractility in hearts of animals with acute renal failure during reperfusion by 30%. During reperfusion, lactate dehydrogenase (LDH) release rate increased less in hearts of guinea pigs with acute renal failure than in control hearts and only verapamil decreased it additionally. Thus, our results suggest a more important role of T- than of L-type Ca(2+) channels in ischemic-reperfusion injury in isolated guinea pig hearts with acute renal failure.
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PMID:Mibefradil is more effective than verapamil for restoring post-ischemic function of isolated hearts of guinea pigs with acute renal failure. 1504 45

Intracellular calcium increase is an early key event triggering ischemic neuronal cell damage. The role of T-type voltage-gated calcium channels in the neuronal response to ischemia, however, has never been studied. Using an in vitro model of ischemia-induced delayed cell death in rat organotypic hippocampal slice cultures, we show that T-type calcium channels inhibitors drastically reduce ischemic cell damage. Immunostaining studies reveal the existence of Ca(V)3.1 and Ca(V)3.2 types of low-voltage-activated calcium channels in rat organotypic hippocampal cultures. Low extracellular calcium (100 nM) or increase of intracellular calcium buffering ability by BAPTA-acetoxymethyl ester significantly reduced ischemia-induced neuronal damage. Pharmacological inhibition of the T-type calcium current by mibefradil, kurtoxin, nickel, zinc, and pimozide during the oxygen-glucose deprivation episode provided a significant protection against delayed neuronal death. Mibefradil and nickel exerted neuroprotective effects, not only if administrated during the oxygen-glucose deprivation episode but also in conditions of postischemic treatment. These data point to a role of T-type calcium currents in ischemia-induced, calcium-mediated neuronal cell damage and suggest a possible new pharmacological approach to stroke treatment.
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PMID:Inhibition of T-type calcium channels protects neurons from delayed ischemia-induced damage. 1585 54

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