UMLS:C0022116 - FACTA Search

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)

Nicorandil, a hybrid nitrate and ATP-sensitive potassium channel opener, has had a preconditioning effect in some coronary angioplasty studies. The present study investigated whether the cardioprotective effects of nicorandil involve coronary collateral function. Thirty-two patients with stable angina pectoris were randomized to receive a 1-min intravenous infusion of nicorandil (100 microg/kg) or normal saline. Five minutes later they underwent three 2-min balloon inflations 5-min apart. The maximum ST-segment elevation (deltaSTmax), the sum of ST-segment elevations in all leads (sigmaST), and the chest pain score were determined at the end of each balloon inflation. The collateral flow index (CFI) was derived from simultaneous measurement of the mean aortic pressure and the coronary wedge pressure obtained from a pressure guidewire during balloon inflation. The deltaSTmax, sigmaST, and chest pain score decreased progressively during the 3 sequential balloon inflations in both groups, and the deltaSTmax and sigmaST were less in the nicorandil group than in the control group during each inflation. The CFI did not change during the 3 inflations in either group and was similar in the 2 groups during each inflation. In conclusion, pretreatment with intravenous nicorandil enhances myocardial tolerance to ischemia without progressive collateral recruitment during coronary angioplasty.
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PMID:Nicorandil enhances myocardial tolerance to ischemia without progressive collateral recruitment during coronary angioplasty. 1195 43

Nicorandil is an adenosine triphosphate-sensitive potassium channel opener with a nitrate-like effect. It is approved for clinical use in Europe and Japan as an antianginal drug. The purpose of this investigation was to assess the acute effects of nicorandil therapy on microvascular injury using the blood pool MR contrast medium, NC100150 injection (Clariscan). Microvascular injury was produced in 24 rats using 45 min of coronary occlusion / 3 hr reperfusion. Nicorandil was infused at 15 min of occlusion and during reperfusion. Control animals received a saline solution. MR imaging was used to characterize microvascular permeability, quantify the extent of microvascular injury, LV volume, and wall thickness. Hyperenhancement at 30 min after administration of 0.05 mmol/kg Clariscan mapped the extent of ischemia-induced loss of microvascular integrity. The accumulation of Clariscan in the injured region was significantly suppressed in nicorandil compared to control rats. Nicorandil reduced the extent of microvascular injury from 44 +/- 2% to 18 +/- 2% (P < 0.01) and true infarction size from 29 +/- 2% to 12 +/- 1%. The extent of the hyperenhanced region correlated with the true size of area at risk at autopsy. On spin-echo MRI during end-diastole, nicorandil reduced LV end-diastolic volume and preserved wall thickness in remote myocardium; both parameters are markers of LV dilatation caused by acute infarction (remodeling). In conclusion, blood pool contrast-enhanced MRI has the potential to depict and quantify the extent of microvascular permeability and injury. Nicorandil suppressed microvascular permeability, reduced infarction size, and improved LV function in early postinfarction reperfusion.
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PMID:Blood pool contrast-enhanced MRI detects suppression of microvascular permeability in early postinfarction reperfusion after nicorandil therapy. 1197 68

A possible mechanism for the action of nicorandil on the improvement of energy metabolism of ischemic/reperfused hearts was examined. Perfused rat hearts were subjected to 35-min ischemia/60-min reperfusion. The heart was treated with nicorandil at concentrations of 10 to 100 microM for the last 30-min of pre-ischemia. Nicorandil preserved the mitochondrial oxygen consumption rate during ischemia and attenuated the decrease in mitochondrial function during reperfusion in association with the enhanced post-ischemic recovery of the left ventricular developed pressure. To assess the direct effect on mitochondria, myocardial saponin-skinned bundles were incubated under hypoxic conditions in vitro. Hypoxia-induced decrease in the mitochondrial oxygen consumption rate was attenuated by treatment of the bundles with 100 microM nicorandil. This attenuation was abolished by the combined treatment with the K(ATP) channel blocker, 5-hydroxydecanoate (5-HD). These results suggest that nicorandil is capable of attenuating ischemia/reperfusion injury of isolated perfused hearts through preservation of mitochondrial function during ischemia.
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PMID:Nicorandil preserves mitochondrial function during ischemia in perfused rat heart. 1209 93

Nicorandil is an antianginal drug that exerts both a conventional nitrate effect and an independent ATP-dependent potassium channel-opening effect. The present study examined the effects of nicorandil on left ventricular regional work (RW) during coronary angioplasty in 22 patients with angina pectoris who were scheduled for angioplasty to the left anterior descending artery. The patients were randomly assigned to receive either nitroglycerin (group NG, n=12, 0.5 microg x kg(-1) min(-1)) or nicorandil (group NR, n = 10, 1.5 microg x kg(-1) min(-1)). Inflation was performed for 60 s and the data were collected every 10 s. The RW was derived from the relation between mean wall stress and area strain. The RW of the interventricular septum decreased after balloon inflation and was at its minimum after the 60s inflation (group NR: 1.24 +/- 0.72mJ/cm3, group NG: 0.63 +/- 0.25mJ/cm3). After balloon deflation, the septal RW of both groups increased, and recovered to the baseline condition at about 30s. At 20 s after deflation, the septal RW in group NR (3.58 +/- 1.17 mJ/cm3) was significantly higher than that in group NG (2.25 +/- 0.59mJ/cm3) (p < 0.05). An intravenous infusion of nicorandil led to good recovery of RW from ischemia compared with that obtained with nitroglycerin.
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PMID:Nicorandil infusion leads to good recovery from ischemia of left ventricular regional work in comparison with nitroglycerin. 1238 Oct 90

Nicorandil, a hybrid compound of an ATP-sensitive potassium (KATP ) channel opener and a nitric oxide donor, has been reported to preserve microvascular integrity in patients with reperfused myocardial infarction. The aim of the current study was to test the hypothesis that nicorandil suppresses activation of polymorphonuclear leukocytes (PMNLs), resulting in reduction of PMNL migration into tissue upon ischemia/reperfusion. Nicorandil, along with the mitochondrial KATP channel opener diazoxide and the nitric oxide donors nitroglycerin and isosorbide dinitrate, suppressed pseudopod projection in human PMNLs treated with 10(-9)-formyl-methionyl-leucyl-phenylalanine (FMLP) and subjected to shear stress (5 dyn/cm(2)) with a cone-and-plate shear device. Suppression by nicorandil and diazoxide was reversed by KATP channel blockers, 5 hydroxydecanoate and glibenclamide. FMLP-induced increase of [Ca2+] in PMNLs was suppressed by nicorandil and diazoxide, and 5 hydroxy-decanoate and glibenclamide reversed this suppression. Results of reverse transcription polymerase chain reaction with rat PMNL mRNA indicated the presence of mRNAs of Kir6.2 and Kir6.1 but not mRNAs of sulfonylurea receptor 1 or 2. Isosorbide dinitrate, diazoxide, and nicorandil reduced leukocyte migration and microvascular obstruction in reperfused ischemic tissue of rat mesenteric microcirculation. In conclusion, nicorandil attenuates ischemia/reperfusion-induced PMNL activation via donation of nitric oxide and K channel-related cascade.
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PMID:Nicorandil and leukocyte activation. 1240 77

ATP-sensitive K(+) (K(ATP)) channels comprise the pore-forming subunit (Kir6.1 or Kir6.2) and the regulatory subunit sulfonylurea receptors (SUR1 or SUR2). K(ATP) channels with different combinations of these subunits are present in various tissues and regulate cellular functions. From the analysis of mouse models with targeted deletion of the gene encoding the pore-forming subunit Kir6.1 or Kir6.2, functional roles of K(ATP) channels in various organs have been clarified. Kir6.1(-/-) mice showed sudden death associated with ST elevation and atrioventricular block in ECG, a phenotype resembling Prinzmetal angina in humans. Kir6.2(-/-) mice were more susceptible to generalized seizure during hypoxia than wild-type (WT) mice, suggesting that neuronal K(ATP) channels, probably composed of Kir6.2 and SUR1, play a crucial role for the protection of the brain against lethal damage due to seizure. In Kir6.2(-/-) mice lacking the sarcolemmal K(ATP) channel activity in cardiac cells, ischemic preconditioning failed to reduce the infarct size, suggesting that sarcolemmal K(ATP) channels play an important role in cardioprotection against ischemia/reperfusion injuries in the heart. Mitochondrial K(ATP) channels have been also proposed to play a crucial role in cardioprotection, although the molecular identity of the channel has not been established. Nicorandil and minoxidil, K(+) channel openers activating mitochondrial K(ATP) channels, decreased the mitochondrial membrane potential, thereby preventing the Ca(2+) overload in the mitochondria of guinea-pig ventricular cells. SURs are the receptors for K(+) channel openers and the activating effects on sarcolemmal K(ATP) channels in cardiovascular tissues could be modulated by the interaction of nucleotides. Due to the molecular diversity of the accessory and pore subunits of K(ATP) channels, there would be considerable differences in the tissue selectivity of K(ATP) channel-acting drugs. Studies of Kir6.1 and Kir6.2 knockout mice indicate that K(ATP) channels are involved in the mechanisms of the protection against metabolic stress. Further clarification of physiological as well as pathophysiological roles of K(ATP) channels may lead to a new therapeutic strategy to improve the quality of life.
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PMID:[Molecular and functional diversity of ATP-sensitive K+ channels: the pathophysiological roles and potential drug targets]. 1293 42

Nicorandil, a clinically useful drug for the treatment of ischemic heart disease, has an anti-apoptotic effect in cardiomyocytes, and activation of mitochondrial ATP-sensitive potassium (mitoKATP) channels underlies this effect. Recently, several studies showed that nicorandil reduced brain injury in animal models of brain ischemia. Based on these facts, we hypothesized that nicorandil may have anti-apoptotic effects in neurons mediated by mitoKATP channels. We investigated the effect of nicorandil on apoptosis induced by oxidative stress using cultured cerebellar granule neurons. Nicorandil (100 micromol/l) significantly suppressed the number of cells with TUNEL-positive nuclei and the increase in caspase-3 activity induced by 20 micromol/l H2O2. An indicator dye for mitochondrial inner membrane potential (DeltaPsim) revealed that nicorandil prevented the loss of DeltaPsim induced by H2O2 in a concentration-dependent manner. These effects were abolished by 5-hydroxydecanoate (5HD; 500 micromol/l), a mitoKATP channel blocker. The present results showed that nicorandil has anti-apoptotic effects in neurons, at least in part, by preserving DeltaPsim.
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PMID:Nicorandil prevents oxidative stress-induced apoptosis in neurons by activating mitochondrial ATP-sensitive potassium channels. 1456 28

Nicorandil has been shown to induce an infarct-limiting effect similar to that induced by the early phase of ischemic preconditioning (PC). The goals of this study were to determine whether nicorandil induces a delayed cardioprotection that is analogous to the late phase of ischemic PC and, if so, whether nicorandil-induced late PC is associated with upregulation of cardioprotective proteins. Chronically instrumented, conscious rabbits received vehicle (intravenous normal saline; control group, n = 10), nicorandil (100 microg/kg bolus + 30 microg x kg(-1) x min(-1) i.v. for 60 min; nicorandil group, n = 10), or ischemic PC (6 cycles of 4-min coronary occlusion/4-min reperfusion; PC group, n = 8). Twenty-four hours later, rabbits underwent a 30-min coronary occlusion, followed by 3 days of reperfusion. Myocardial infarct size was significantly reduced in rabbits pretreated with nicorandil (27.5 +/- 5.3% of the risk region) or with ischemia (30.3 +/- 4.2%) versus controls (59.1 +/- 4.7%, P < 0.05 vs. both). Furthermore, the expression of cyclooxygenase-2 (COX-2) and Bcl-2 was significantly elevated (+38% and +126%, respectively; P < 0.05) in myocardium of rabbits given nicorandil 24 h earlier versus controls. We conclude that nicorandil induces delayed cardioprotection against myocardial infarction similar to that afforded by the late phase of ischemic PC, possibly by upregulating COX-2 and Bcl-2.
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PMID:Nicorandil induces late preconditioning against myocardial infarction in conscious rabbits. 1468 73

The effects of pretreatment with cariporide on myocardial infarction and ventricular arrhythmias in a rat model of ischemia/reperfusion were compared with those of nicorandil, propranolol, and nifedipine. Each drug was administered intravenously before coronary occlusion. Cariporide at 0.1, 0.3, and 1 mg/kg significantly reduced the infarct size (infarct mass/risk mass) from 28 +/- 4% (vehicle control value) to 9 +/- 3, 9 +/- 3, and 5 +/- 2%, respectively. Propranolol at 2.5 mg/kg also significantly reduced the infarct size to 11 +/- 1%. Neither nicorandil nor nifedipine was effective when given at 0.1 mg/kg. Cariporide dose dependently decreased the number of ischemia-induced ventricular premature beats (VPB), incidence and duration of ventricular tachycardia, and the number of reperfusion-induced VPB. Nicorandil was effective against only VPB after reperfusion, and propranolol reduced only postischemic arrhythmias, but nifedipine had no effect on either type of arrhythmia. In summary, cariporide reduced the infarct size and dose dependently suppressed arrhythmias induced by ischemia/reperfusion in rats. In contrast, in the present rat model, the doses of the other three drugs used in this study did not show comparable effects.
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PMID:Effects of cariporide (HOE642) on myocardial infarct size and ventricular arrhythmias in a rat ischemia/reperfusion model: comparison with other drugs. 1468 9

Nitric oxide (NO) can activate protein kinase C (PKC) and the activation of mitochondrial ATP-sensitive potassium (K-ATP) channels is cardioprotective. However, interactions among NO, PKC, and mitochondrial K-ATP channels remain vague. To clarify the cardioprotective mechanism induced by nicorandil, we compared its ability to activate PKC isoforms with that of the mitochondrial K-ATP channel opener, diazoxide. We induced myocardial infarction in rats by 30 minutes of ischemia followed by reperfusion, then assessed the infarct size 3 weeks later. We also examined the translocation of PKC isoforms in the isolated perfused rat heart. Nicorandil and diazoxide reduced infarct size, and the effect of nicorandil, but not of diazoxide attenuated by the PKC inhibitor, chelerythrine, or by the NO quencher, carboxy PTIO. Immunoblotting revealed that nicorandil translocated PKC-delta to the mitochondria, and that this was inhibited by carboxy PTIO. The protective effect of nicorandil against myocardial infarction partly depended on the translocation of PKC-delta to the mitochondria, which we attributed to the NO donor effect of nicorandil. The PKC-delta- dependent activation of mitochondrial K-ATP channel opening might be synergistic with its direct effect, making nicorandil an efficient opener of such channels.
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PMID:NO donor-activated PKC-delta plays a pivotal role in ischemic myocardial protection through accelerated opening of mitochondrial K-ATP channels. 1517 55

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