Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pretreatment of the ischemic myocardium with verapamil protects against mitochondrial respiratory depression observed during ischemic arrest as well as during reperfusion. Since ischemic mitochondrial function appears not to be altered further by reperfusion, the purpose of this study is to identify a biochemical event affecting mitochondria that is specifically associated with reperfusion injury. It has been proposed that increased cellular Ca2+ influx and oxygen toxicity may result from reintroduction of coronary flow. Increased cytosolic Ca2+ is transmitted to the mitochondria with subsequent activation of Ca2+-dependent events, including phospholipase A2. Net production of lysophospholipids (and loss of total diacylphospholipids from the mitochondria) will proceed when reacylation mechanisms are inhibited. Since acyl-CoA:lysophospholipid acyltransferase is a sulfhydryl-sensitive enzyme and since increased activity of glutathione peroxidase shifts the levels of the mitochondrial sulfhydryl buffer, glutathione, towards oxidation, levels of glutathione and its oxidation state were measured during reperfusion in the absence or presence of verapamil pretreatment. Ischemia lowers total glutathione and reduces the redox ratio (reduced glutathione: oxidized glutathione) by 85%. Reperfusion partially returns the redox ratio to control by causing oxidized glutathione to disappear from the matrix. Verapamil maintains both the concentration and the redox potential of glutathione at control levels. Concomitant with alterations in reduced glutathione:oxidized glutathione is a decrease in ischemic mitochondrial phospholipid content. During reperfusion, phosphatidylethanolamine and its major constituent fatty acids (C 18:0 and C 20:4) are specifically lost from the mitochondrial membrane. Accompanying the significant loss of arachidonic acid during reperfusion is the decreased content of 11-OH, 12-OH, and 15-OH arachidonate. These lipid peroxidation products are not increased in ischemia. It is proposed that oxidation of matrix glutathione to glutathione disulfide during ischemia results in formation of glutathione-protein mixed disulfides and inhibition of sulfhydryl-sensitive proteins, including acyl-CoA lysophosphatide acyltransferase. Thus, metabolic events occurring within the ischemic period set the stage for prolonged dysfunction during reperfusion.
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PMID:Protection by verapamil of mitochondrial glutathione equilibrium and phospholipid changes during reperfusion of ischemic canine myocardium. 362 93

Since the gradient between aortic pressure and left ventricular diastolic pressure is a major determinant of coronary blood flow, a change in left ventricular relaxation by its effect on early diastole could diminish early diastolic coronary flow. Two interventions that resulted in impaired left ventricular relaxation, hypothermia, and reperfusion following a left anterior descending coronary artery occlusion were studied to evaluate whether there were associated changes in coronary blood flow. With both interventions, there was a significant prolongation of left ventricular relaxation (p less than 0.01) accompanied by a significant decrease in early diastolic coronary blood flow (p less than 0.01). Verapamil did not have a significant effect on these hemodynamic changes during hypothermia. However, verapamil significantly blunted the effects of reperfusion following ischemia on ventricular relaxation (p less than 0.002) and early diastolic coronary blood flow (p less than 0.01). Thus, impaired left ventricular relaxation has an adverse impact on early diastolic coronary blood flow, which, under the condition of reperfusion following regional myocardial ischemia, can be alleviated with calcium channel blockade.
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PMID:Effect of changes in ventricular relaxation on early diastolic coronary blood flow in canine hearts. 366 79

Endothelial injury may contribute to the augmented coronary vascular tone seen in myocardial ischemia by impairing endothelial production or release of vasodilators. In vitro reactivity of arterial rings was studied after 60 min of coronary occlusion and 60 min of reperfusion in anesthetized dogs. Ischemia without reperfusion blunted contractile reactivity to potassium chloride (KCl), whereas ischemia plus reperfusion augmented contractile responses to both KCl and ergonovine. The response to acetylcholine, an endothelium-dependent vasodilator, was abolished in reperfused arteries, whereas the response to nitroprusside, an endothelium-independent vasodilator, was intact. Verapamil pretreatment restored KCl contractile responses to normal in reperfused coronary rings and partially restored endothelium-dependent relaxation. Electron microscopy revealed a nondenuding epicardial coronary endothelial injury in reperfused arteries. These data support the hypothesis that reperfusion of ischemic myocardium augments reactivity to vasoconstrictor agents by causing endothelial cell damage, excessive calcium influx, and loss of modulating vasodilator function.
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PMID:Reperfusion after acute coronary occlusion in dogs impairs endothelium-dependent relaxation to acetylcholine and augments contractile reactivity in vitro. 379 26

The time course and frequency of ventricular arrhythmias in myocardial ischemia and myocardial necrosis are influenced by a great number of different factors. The most important are: size and localization of the ischemic area, mode of coronary artery occlusion (one stage occlusion, phasic, protracted or gradual occlusion), intermittent reperfusions, and influence of the autonomic nervous system. Autonomic factors influence both the mechanisms of arrhythmias and the results of pharmacological interventions. An increased sympathetic tone causes both in reversible myocardial ischemia and in partially irreversible myocardial necrosis a significant increase in incidence and severity of arrhythmias. The underlying mechanism of action is complex and includes enhanced automaticity, an increase in ischaemia-induced prolongation of conduction while the frequency of bidirectional conduction blockades is reduced, and an increase in dispersion of repolarization. Due to these various factors the preconditions for reentry are favourable. Vagal effects consist in an increase or decrease of frequency-related arrhythmias. Furthermore, indirect antifibrillatory effects are apparent due to an antagonism of sympathetic actions. The significance of autonomic factors for arrhythmogenesis following "early" reperfusion (i.e. arrhythmias occurring immediately after release of short-term coronary artery obstruction) has not yet been established. Reports in the literature suggesting antifibrillatory actions of sympathicolytics have not yet been confirmed. The results of antiarrhythmic pharmacotherapy are also influenced by autonomic factors, particularly increased sympathetic activity. At the very onset of acute myocardial ischemia, when sympathetic tone is markedly increased in most patients, class I antiarrhythmic agents, particularly those which cause a significant conduction delay display only weak antiarrhythmic effects or even no effectiveness at all. The frequency of ventricular fibrillation is not diminished. Various agents even produce significant arrhythmogenic effects. The electrophysiological mechanism of action is based on a further increase in ischemia-induced prolongation of conduction and in dispersion of conduction times. By contrast, beta-sympathicolytics, class III antiarrhythmic agents (d-Sotalol type) and calcium antagonists (Verapamil type) (the latter only at high doses) cause a decrease in ischemia-induced prolongation of conduction and in dispersion of conduction times thereby reducing the incidence of early ventricular fibrillation. In the stage of manifest necrosis the order of relative potency is reversed if the sympathetic tone is low.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Ischemic disorders of cardiac rhythm: effects of the autonomic nervous system on electrophysiologic findings and pharmacotherapy]. 382 28

Abnormal left ventricular (LV) diastolic performance is a characteristic feature of hypertrophic cardiomyopathy (HC) and an important contributor to the development of symptoms. Impaired diastolic filling of the hypertrophied left ventricle results from both diminished distensibility and prolonged or incomplete relaxation. LV distensibility is not only influenced by fixed anatomic abnormalities (such as fibrosis or hypertrophy) that determine the passive elastic properties of the left ventricle, but also is modulated by the dynamics of myocardial relaxation: prolonged or incomplete LV relaxation may restrict the rate and extent of LV filling and result in altered pressure-volume relations throughout diastole. Several studies indicate that impaired LV relaxation and filling in HC may be modified favorably by verapamil or nifedipine administered on a short-term basis in the catheterization laboratory, associated with improved diastolic pressure-volume relations. Verapamil also improves LV filling during oral therapy. Improved indexes of LV filling correlate with symptomatic improvement, both short-term and long-term: Approximately 80% of patients having a persistent increase in peak LV filling rate have persistent improvement in objective exercise tolerance compared with preverapamil values. Altered LV relaxation and filling are also often observed in patients with coronary artery disease (CAD) after myocardial infarction or during acute ischemia. Moreover, impaired filling occurs under resting conditions in many patients who have normal systolic function and no evidence of previous infarction. Nifedipine improves indexes of LV relaxation and distensibility during pacing-induced ischemia and verapamil improves indexes of LV filling at rest and during exercise-induced ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of calcium-channel blocking agents on left ventricular diastolic function in hypertrophic cardiomyopathy and in coronary artery disease. 388 11

Raynaud's phenomenon may cause severe digital pain and functional disability, particularly in patients with underlying connective tissue diseases. The pathophysiology of Raynaud's phenomenon is varied, but digital ischemia is an essential element. Because calcium channel blockers cause arteriolar vasodilation and an increase in peripheral blood flow, they have been used to treat patients with Raynaud's phenomenon in several prospective, randomized, double-blind, placebo-controlled trials. Verapamil was ineffective in low doses, but both nifedipine and diltiazem produced subjective improvement. In placebo-controlled studies with nifedipine, the frequency of vasospastic episodes per two weeks decreased from 14.7 episodes during placebo therapy to 10.8 during nifedipine therapy (p less than 0.05). This response was more pronounced in patients without underlying vascular disease. Moderate or marked subjective improvement occurred in 60 percent of the patients receiving nifedipine and in only 13 percent of patients receiving placebo. Adverse effects were mild. It is concluded that nifedipine is an effective short-term therapy for most patients with Raynaud's phenomenon.
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PMID:Treatment of Raynaud's phenomenon with calcium channel blockers. 397 94

The ability of nifedipine, verapamil, and diltiazem to enhance cardioplegic protection has been assessed using an isolated rat heart preparation as a model of cardiopulmonary bypass and ischemic arrest. With normothermic ischemia (30 or 35 min at 37 degrees C), the addition of these compounds enhanced the protective properties of the St. Thomas' cardioplegic solution. All these compounds showed bell-shaped dose-response characteristics, with the optimal concentrations in terms of functional recovery and enzyme leakage of verapamil being 1.0 mumole/liter; nifedipine, 0.075 mumole/liter; and diltiazem, 0.5 mumole/liter. However, under conditions of hypothermia (150 or 180 min at 20 degrees C), none of these compounds improved postischemic functional recovery, although there was some reduction in enzyme leakage. From these results, further experiments were undertaken to investigate the relationship between calcium antagonists and temperature. Verapamil improved functional recovery at 34, 31 and 29 degrees C, but not at 27, 25, and 20 degrees C. These results suggest a common site of action between hypothermia and calcium antagonists in promoting functional recovery after ischemia.
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PMID:Calcium antagonists and myocardial protection during cardioplegic arrest. 399 50

Hemodynamic and mitochondrial function recover following 60 minutes of ischemic arrest and reperfusion in hearts pretreated with verapamil. The present study was carried out to determine whether verapamil prevents the onset of mitochondrial oxidative impairment after 60 minutes of ischemic arrest without reperfusion. Two preparations of mitochondria isolated following Polytron homogenization and subsequent treatment of the myofibrillar pellet with Nagarse were examined for phosphorylating respiration. The Polytron mitochondria were more sensitive to ischemic arrest than were the Nagarse mitochondria with either glutamate-malate (57% vs. 22% inhibition), succinate (+ rotenone) (41% vs. 14% inhibition), or palmitoylcarnitine (57% vs. 27% inhibition) as respiratory substrates. Verapamil pretreatment significantly increased oxidation of all substrates by the subsequently isolated Polytron mitochondria, but only succinate-supported respiration returned to control levels. In contrast, the small amount of respiratory inhibition exhibited by the Nagarse mitochondria after ischemic arrest was insensitive to verapamil pretreatment. We conclude that the Polytron preparation of mitochondria is more susceptible to ischemia than the Nagarse mitochondria, and this susceptibility correlates with a striking sensitivity to verapamil protection. In general, oxidation of NADH-linked substrates, including palmitoylcarnitine, is more affected by ischemic arrest than succinate, and only oxidation of the latter substrate is totally protected by verapamil. The beneficial action of verapamil on mitochondrial function occurs prior to reperfusion. The data suggest that alterations in calcium homeostasis occur during the ischemic period, as well as in the subsequent reperfusion period.
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PMID:Protection of canine cardiac mitochondrial function by verapamil-cardioplegia during ischemic arrest. 399 98

Verapamil has been shown to depress the contractility of ischemic myocardium. The present study was designed to determine whether that effect is due to an increase in ischemic injury caused by the drug or whether it might reflect a protective effect. A critical partial occlusion was effected on the left anterior descending coronary artery of 16 open chest foxhounds. A fiberoptic pH probe was implanted in the subendocardium of the ischemic zone, and coronary blood flow was reduced by 79% from a control value of 38 +/- 4 ml/min and held constant. Mean coronary perfusion pressure was decreased 48% from its control value of 90 +/- 6 mm Hg and remained constant. Eight animals were treated with intravenous verapamil, beginning 20 to 30 minutes after the onset of ischemia, in incremental doses (5, 10 and 20 micrograms/kg per min) and eight were treated with placebo. The pH of the ischemic zone increased after institution of treatment in the verapamil group (+ 0.04 +/- 0.05 pH unit) whereas it decreased in the placebo group (- 0.06 +/- 0.4 pH unit) during the first dose (p less than 0.05). Although the difference in pH between the two groups was marked at all doses (p less than 0.03) compared with control partial occlusion, verapamil caused no significant change in heart rate (+ 0.1 +/- 1 beat/min in the verapamil group versus + 0.6 +/- 4.5 beats/min in the placebo group), mean arterial pressure (- 7.5 +/- 4 versus - 4.3 +/- 3 mm Hg, respectively) or cardiac output (- 0.2 +/- 0.07 versus - 0.02 +/- 0.04 liters/min, respectively) comparing control with the first or the second dose of verapamil.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of verapamil on pH of ischemic canine myocardium. 399 17

The group of drugs described as "Ca2+-entry blockers" is chemically and pharmacologically heterogeneous. It is believed now that these drugs are useful in the treatment of ischemic disease. In an effort to define which drugs could offer the best therapeutic alternative, a comparative pharmacological study was made. Nine drugs (D-600, diltiazem, flunarizine, nicardipine, nifedipine, nimodipine, nitrendipine, verapamil, tiapamil) were tested in experimental screening models of brain hypoxia, ischemia, cellular intoxication and against bicuculline-induced seizures. Three types of activity were found. Verapamil, D-600, tiapamil and diltiazem were almost inactive, possibly due to their poor brain penetration. The dihydropyridines had a broad spectrum of activity, but considerable differences between these compounds exist. They all were active against hypoxia and less active against ischemia. Out of this subgroup, only nicardipine protected against metabolic intoxication and nifedipine and nicardipine could block seizure components at very high doses. Flunarizine was the only compound with a dose-related effect in all the tests. These results suggested that this combination of screening tests could be used to find compounds with an interesting activity in the field of cerebral protection.
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PMID:"Calcium entry blockers" as cerebral protecting agents: comparative activity in tests of hypoxia and hyperexcitability. 402 Dec 25


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