Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We determined the ability of the thromboxane A2 antagonist SQ 29,548 or diltiazem to enhance postischemic myocardial function and if the effects of these compounds were occurring during occlusion or reperfusion periods. Anesthetized open-chest dogs were pretreated with i.v. saline, SQ 29,548 (0.20 mg/kg + 0.20 mg/kg/hr) or diltiazem (0.18 mg/kg) 15 min before the left anterior descending coronary artery was occluded. In another group, animals were given saline, SQ 29,548 or diltiazem 1 min before reperfusion. The occlusion was maintained for 15 min and reperfusion instituted for 5 hr. Subendocardial segmental shortening was monitored throughout the experiment using sonomicrometry. Left anterior descending coronary artery occlusion resulted in marked systolic bulging to similar levels in all groups. Upon reperfusion, function returned immediately but, after several min, hypokinesia existed in saline-treated animals. At 5-hr postreperfusion, percentage of shortening returned to only 20% of base-line values in saline-treated animals. Both diltiazem and SQ 29,548 pretreatment resulted in significant (P less than .05) improvements in function such that at 5-hr postreperfusion, shortening returned to 60% of base-line values. When given immediately before reperfusion, SQ 29,548 still resulted in significant protection of function, although this occurred much later compared to pretreated animals. Diltiazem did not improve function when given immediately before reperfusion. SQ 29,548 improves reperfusion function and, thus by inference, thromboxane A2 may play a role in postischemic hypokinesia and some of its protective effects may occur during reperfusion. Diltiazem seems to protect reperfusion function only when present during ischemia per se.
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PMID:Thromboxane A2 antagonist and diltiazem-induced enhancement of contractile function: the effect of timing of treatment. 318 46

Of 576 patients with non-Q-wave acute myocardial infarction enrolled in the Diltiazem Reinfarction Study, 246 (43%) had 1 or more episodes of angina at rest or with minimal effort during 10.5 days of treatment with either diltiazem (90 mg every 6 hours) or placebo. Reinfarction (12.2% vs 3.6%, p less than 0.0001) or death (6.1% vs 1.5%, p = 0.003) was more likely to occur within 2 weeks of randomization in patients with postinfarction angina than in those without angina. Based on serial electrocardiographic data, 115 of the 246 patients with angina had transient ST-T changes and 131 did not. Comparison of the 14-day event rates in these 2 groups showed that the 115 patients with electrocardiographic evidence of ischemia had a higher frequency of reinfarction (20% vs 5.3%, p less than 0.001), more extensive damage as assessed by peak MB-creatine kinase levels (91 +/- 76 vs 37 +/- 19 IU/liter, p = 0.059 [Wilcoxon rank sum]) and a higher mortality rate (11.3% vs 1.5%, p = 0.001). Angina associated with transient ST-T changes occurred in 70 of the 289 patients in the placebo group but in only 45 of the 287 patients in the diltiazem group--a 28% reduction in cumulative life-table incidence (p = 0.0103 [2-tail, log rank]; 95% confidence interval, 9.3 to 53.8%). It is concluded that patients with early postinfarction angina are at increased risk of reinfarction and death, and angina associated with transient electrocardiographic changes identified a very high risk subset. This subset appeared to have a larger area of viable but jeopardized myocardium and benefited from prophylactic therapy with diltiazem.
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PMID:Prognostic significance and beneficial effect of diltiazem on the incidence of early recurrent ischemia after non-Q-wave myocardial infarction: results from the Multicenter Diltiazem Reinfarction Study. 330 86

The ability of diltiazem to prevent early ischemia and reperfusion-induced arrhythmias was investigated in conscious rats with coronary artery occlusion. During a 30-min period of occlusion of the left coronary artery, 100% of placebo-treated animals exhibited ventricular tachycardia, 65% exhibited ventricular fibrillation and the mean total number of premature ventricular complexes was 1076 +/- 254. Diltiazem (0.5 or 2.0 mg/kg body weight, given intravenously 10 mins prior to coronary occlusion), reduced the incidence of ventricular tachycardia to 62% (P less than 0.01) and 54% (P less than 0.001), respectively and the incidence of ventricular fibrillation to 31% (P = NS) and 15% (P less than 0.01), respectively. The total number of premature ventricular complexes was also reduced to 248 +/- 78 (P = NS) and 156 +/- 55 (P less than 0.02). The development of ST segment elevation, induced by coronary artery occlusion, was delayed in both drug-treated groups. Similarly, diltiazem, at the same doses, reduced the incidence of ventricular fibrillation induced by reperfusion after 5 mins of coronary artery occlusion from 100% to 50% (P less than 0.01) and 25% (P less than 0.001) and mortality from 87% to 42% (P less than 0.02) and 25% (P less than 0.01), respectively. The anti-arrhythmic effects of diltiazem were not related to changes in heart rate and all groups showed similar occluded zone sizes, as measured by a fluorescent microsphere technique. Thus, diltiazem affords substantial protection against both early ischemia-induced ventricular arrhythmias and reperfusion-induced arrhythmias and this action may be associated with the beneficial effects on ischemia-induced ST segment elevation.
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PMID:'Early' ischemia and reperfusion-induced arrhythmias: antiarrhythmic effects of diltiazem in the conscious rat. 335 53

Oxygen-derived free radicals and intracellular calcium overload have been implicated as mediators of myocardial ischemia/reperfusion injury. We hypothesized that free radical scavengers or calcium channel blockers could enhance the protection afforded the isolated, working rat heart by crystalloid cardioplegia against this type of injury at 37 degrees C. Hearts from 42 male rats in seven groups (n = 6) were studied in an isolated, working heart preparation measuring aortic flow (ml/min/gm dry wt), peak systolic pressure (mm Hg), coronary artery flow (ml/min/gm dry wt), and calculated coronary vascular resistance (dyne.sec.cm-5/gm dry wt). Creatine kinase and lactate dehydrogenase release were measured before ischemia and at various times during the postischemic reperfusion period. Time-matched control hearts (group 1) were perfused for 2 hours. After finding that 30 minutes of ischemia and 10 minutes of reperfusion (group 2) produced significant (p less than 0.01) functional impairment that was completely protected (group 3) by a preischemic bolus of St. Thomas' Hospital cardioplegic solution, we again found significant (p less than 0.01) functional impairment after 40 minutes of ischemia and 10 minutes (group 4) or 20 minutes (group 5) of reperfusion despite a preischemic bolus of St. Thomas' Hospital cardioplegic solution. Diltiazem (10 mg/L) plus St. Thomas' Hospital cardioplegic solution (group 6) did not significantly (p less than 0.01) enhance functional recovery. Addition of superoxide dismutase plus catalase (200 microns/ml) (group 7) produced marked improvement in functional recovery that did not differ significantly (p less than 0.01) from control results (group 1). The creatine kinase and lactate dehydrogenase data strongly supported the preceding functional data. Coronary flow and vascular resistance were not significantly (p less than 0.01) changed from control values in any group. We conclude that the addition of superoxide dismutase and catalase but not diltiazem to St. Thomas' Hospital cardioplegic solution can significantly enhance myocardial protection against normothermic ischemia/reperfusion injury. This implicates oxygen-derived free radicals as mediators of this type of injury.
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PMID:Enhancement of crystalloid cardioplegic protection against global normothermic ischemia by superoxide dismutase plus catalase but not diltiazem in the isolated, working rat heart. 336 28

Calcium channel blockers may prevent myocardial injury during cardioplegia and reperfusion. A prospective, randomized trial was instituted to evaluate the hemodynamic and myocardial metabolic recovery in 40 patients undergoing elective aorta-coronary bypass with either diltiazem in crystalloid potassium cardioplegia (n = 20) or crystalloid potassium cardioplegia (n = 20). In a preliminary trial, doses between 150 and 250 micrograms/kg reduced the period of heart block after cross-clamp removal (90 +/- 110 minutes) from that found with higher doses and improved myocardial metabolism. In the randomized trial, diltiazem cardioplegia (150 micrograms/kg) produced coronary vasodilatation during cardioplegia and produced less reactive hyperemia during reperfusion. Myocardial oxygen extraction was lower and myocardial lactate production was less after diltiazem cardioplegia during reperfusion. Tissue adenosine triphosphate and creatine phosphate concentrations were preserved better after diltiazem cardioplegia. The postoperative creatine kinase MB levels were less (p less than 0.05) after diltiazem cardioplegia, which indicated less myocardial injury. Postoperative volume loading demonstrated that systolic function (the relation between systolic blood pressure and end-systolic volume index) was depressed after diltiazem cardioplegia compared to crystalloid cardioplegia, but cardiac index was higher because afterload (mean arterial pressure) was lower and preload (end-diastolic volume index) was higher. Diltiazem cardioplegia preserved high-energy phosphates, improved postoperative myocardial metabolism, and reduced ischemic injury after elective coronary bypass. However, diltiazem was a potent negative inotrope and produced prolonged periods of electromechanical arrest. Diltiazem cardioplegia may be of value in patients with severe ischemia but should be used with caution in patients with ventricular dysfunction, and a dose-response relation must be established at each institution before clinical use.
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PMID:Diltiazem cardioplegia. A balance of risk and benefit. 351 6

Since Ca++-overloading is a major problem after myocardial reperfusion we studied the effects of Diltiazem on the left ventricular diastolic function in the early days following coronary thrombolysis. Twelve patients who had myocardial reperfusion by intracoronary urokinase in acute myocardial infarction were admitted to the study. Previous infarct, cardiogenic shock or late thrombolysis (greater than 4 h from symptoms onset) were exclusion criteria. All subjects were evaluated at control cardiac catheterization 5-8 days after the acute ischemia. Simultaneous left ventricular angiography and high-fidelity pressure recordings by means of a tip-micromanometer and angiographic catheter were performed at rest and after intravenous Diltiazem administration (16 mg over 2' + 0.008 mg/Kg/min). Indexes of myocardial relaxation and early ventricular filling were impaired at rest but improved significantly after Diltiazem (Tab. II). Isovolumic relaxation period fell from 92 +/- 8 msec to 77 +/- 12 msec (p less than .01), T constant of isovolumic pressure decay decreased from 61 +/- 7 msec to 55 +/- 7 msec (p = ns), first-third of filling rate increased from 64 +/- 7% to 79 +/- 6% (p less than .01). On the other hand, indexes of left ventricular compliance were altered after coronary reperfusion (left ventricular end-diastolic compliance 17 +/- 13 mmHg-1. 10(-3), modulus of chamber stiffness .045 +/- .008) but but did not change after calcium-blocker therapy. In conclusion, post-thrombolysis diastolic function is severely impaired at rest, probably because of raised intracellular Ca++ and delayed asynchronous relaxation. Diltiazem improves energy-dependent early diastole, but does not affect ventricular compliance.
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PMID:[Hemodynamic effects of diltiazem in the subacute stage of myocardial infarct treated by thrombolysis]. 365 3

Effect of diltiazem on subcellular distribution of lysosomal enzymes, high-energy phosphate metabolism and mechanical function in the ischemic heart was studied. Ischemia was induced by lowering the afterload pressure of the perfused working rat heart. The activities of cathepsin D, beta,N-acetylglucosaminidase and acid phosphatase were determined in the nonsedimentable and sedimentable fractions after centrifugation of the tissue extract to assess the subcellular distribution of lysosomal enzymes. After ischemia, decreases in the mechanical function and the tissue level of high-energy phosphates were observed. In addition, ischemia caused subcellular redistribution of lysosomal enzymes from the lysosomes to the cytoplasm. Reperfusion of the ischemic heart did not restore the mechanical function and the level of high-energy phosphates completely. Diltiazem (2.21 X 10(-6), 1.11 X 10(-5) and 2.21 X 10(-5) M) was provided for the heart 5 min before the onset of ischemia. Diltiazem preserved high-energy phosphates in the ischemic heart, and inhibited the subcellular redistribution of lysosomal enzymes being caused by ischemia, depending on its concentration. Reperfusion after ischemia with diltiazem recovered the mechanical function that had been decreased by ischemia. These results may indicate that diltiazem can protect the myocardium against ischemic damage.
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PMID:Inhibition of ischemia-induced subcellular redistribution of lysosomal enzymes in the perfused rat heart by the calcium entry blocker, diltiazem. 365 10

The purpose of this study was to determine if diltiazem can reduce the severity of pacing-induced ischemia independently of increases in overall and microregional ischemic blood flow. Sixteen anesthetized dogs were subjected to atrial pacing and had their left anterior descending coronary arteries (LAD) occluded until significant ST-elevation occurred. Cessation of pacing resulted in abolition of ST-segment elevation. ST-elevation as well as hemodynamics were measured during 5 min periods of pacing + LAD stenosis before, and 10, 40 and 70 min after treatment with intracoronary (i.c., just distal to the stenosis) diltiazem (1.8 micrograms/kg), i.v. diltiazem (180 micrograms/kg) or saline. Myocardial blood flow was measured using radioactive microspheres under baseline conditions, pacing, pacing + stenosis, and pacing + stenosis + drug (70 min post-drug). Both i.c. and i.v. diltiazem significantly and similarly reduced pacing-induced ST-elevation at 40 and 70 min post-drug with the highest measured reductions occurring for both at 70 min (50-60% reduction). Overall ischemic regional myocardial blood flow was unaffected by i.c. and i.v. diltiazem. Diltiazem given i.v. resulted in reduced flow in the lightly ischemic region and increased flows in the subepicardial half of the severely ischemic region. Diltiazem given i.c. resulted in a reduced subepicardial flow in the lightly ischemic region with no other changes occurring in the other regions. Thus, both i.c. and i.v. diltiazem can reduce the severity of pacing-induced ischemia and, in the doses given, in an equivalent fashion. Diltiazem also seems to be able to reduce severity of ischemia in a manner independent of increases in ischemic region flow and in fact can reduce flow in marginally ischemic tissue.
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PMID:The effect of diltiazem on ST-segment elevation and myocardial blood flow distribution during pacing-induced ischemia. 369 45

Magnesium-diltiazem cardioplegia was evaluated in the intact, perfused rat heart to determine whether the joint administration of these agents would adversely affect myocardial contractile and high-energy phosphate recovery following intermittent, normothermic global ischemic arrest. Sequential metabolic and functional analyses were performed on isolated perfused rat hearts during each phase of the experimental protocol: control (10 min), normoxic cardioplegia (10 min), intermittent global ischemic arrest (two 15-min periods separated by 2 min infusion of the normoxic cardioplegic perfusate), and normoxic postischemic control reperfusion (60 min). Four different cardioplegic solutions were evaluated: 30 mM KCl, 30 mM KCl with 2 mg diltiazem/liter, 20 mM MgCl2, and 20 mM MgCl2 with 2 mg diltiazem/liter. Myocardial phosphatic metabolite levels and intracellular pH were analyzed nondestructively in the intact hearts by phosphorus-31 NMR spectroscopy. Corresponding measurements of peak left intraventricular pressure, rate of peak pressure development (dP/dt), and contraction frequency were performed at the midpoint during each 5-min interval of 31P NMR signal averaging. Magnesium plus diltiazem-treated hearts were distinguished from all other groups by a marked delay in postischemic functional recovery consisting of a prolonged depression in contractility (34% of control, P less than 0.01) that persisted throughout the first 50 min of postischemic reperfusion. Diltiazem in combination with magnesium cardioplegia was detrimental to postischemic functional recovery, despite a rapid restoration of high-energy phosphate stores. The apparent adverse interactive effects of excess magnesium and diltiazem suggest that elective ischemic arrest with magnesium cardioplegia in combination with diltiazem may be contraindicated clinically. The mechanistic basis and drug specificity of this response require further clarification. The present findings appear to exclude ATP and PCr production, and structural causes as the basis for the observed aberrant functional recovery from global ischemia of magnesium plus diltiazem-arrested hearts.
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PMID:Sustained postischemic cardiodepression following magnesium-diltiazem cardioplegia. 371 20

The effect of diltiazem on post-ischemic metabolic and functional recovery was investigated in regionally ischemic dog hearts. The duration of ischemia was 60 min, followed by 60 min of reperfusion. Diltiazem (bolus injection of 0.1 mg X kg-1 body weight prior to ischemia, followed by a continuous infusion of 0.1 mg X kg-1 X h-1) had no effect on residual coronary flow in the centre of the ischemic area, but blunted the reactive hyperemia response after restoration of flow. The drug partially prevented the depletion of ATP and glycogen in the severely underperfused subendocardial layers, i.e. when residual flow was below 0.1 ml X min-1 X g-1. Reduction of the content of these substances in the subepicardial layers was moderate and not influenced by diltiazem. Segment shortening in the subepicardial layers disappeared whereas segment lengthening was observed in the subendocardial layers during the ischemic period. Diltiazem did not prevent the loss of contractile function. Despite an initial restoration of contractile function within 10 min after reperfusion, no significant beneficial effect of diltiazem treatment on mechanical function of the reperfused area was present thereafter.
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PMID:The effect of diltiazem on myocardial recovery after regional ischemia in dogs. 373 98


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