UMLS:C0151744 - FACTA Search

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Query: UMLS:C0151744 (myocardial ischemia)
31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The events associated to myocardial ischemia result from 2 overlapping phenomena due to reduced blood flow (ischemia) and reduced O2 supply (hypoxemia). To distinguish these effects, 2 groups of isolated rat hearts were perfused through the aorta (Langendorff's method) with Krebs-Henseleit buffer, and were exposed for 20 min to hypoxemia or ischemia, matched in terms of the O2 supply (10% of baseline), with continuous monitoring of cardiac contractility, O2 uptake and lactate production. The developed pressure and the O2 uptake were similar in hypoxemic and ischemic hearts; heart rate, end-diastolic pressure and lactate production rate were higher in hypoxemia than in ischemia; the recovery from hypoxemia was less than that from ischemia, despite the same O2 supplies; treatment with superoxide dismutase and catalase, scavengers of the O2 derived free radicals, during hypoxemia, allowed hypoxemic hearts to recover as ischemic hearts. Therefore, the main determinant of the reperfusion injury is to be attributed to the low O2 supply rather than to the low coronary flow; part of the injury is due to free radicals; a substantial portion is mediated by the energy demand during the stress which was higher in hypoxemia than in ischemia.
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PMID:[The effects due to reduced coronary inflow and hypoxemia during myocardial ischemia]. 129 72

The efficacy of human extracellular-superoxide dismutase type C (EC-SOD C) to limit infarct size after ischemia and reperfusion was explored and compared to that of EC-SOD C combined with catalase (CAT) and to that of CAT alone. EC-SOD C binds to heparan sulphate proteoglycan on the cell surfaces. Thirty-two pigs were subjected to 45 min of myocardial ischemia followed by 4 h of reperfusion. Control pigs (group A; n = 8) received 300 mL of saline into the great cardiac vein during a 30-min period started 5 min prior to reperfusion; pigs in group B (EC-SOD C; n = 8) got 16.6 mg of EC-SOD C; pigs in group C (EC-SOD C + CAT; n = 8) got 16.6 mg of EC-SOD C together with 150 mg of CAT. Pigs in group D (CAT; n = 8) received 150 mg of CAT. In groups B, C, and D, the drug was dissolved in saline and infused into the great cardiac. Infarct size expressed as percent of area at risk was smaller in groups B (14.5 +/- 16.7%) and C (40.8 +/- 13.3%) than in groups A (78.8 +/- 8.6%) and D (67.2 +/- 18.6%; p less than .05). Creatine kinase (CK) activity in ischemic myocardium was higher in groups B (1740 +/- 548 U/g) and C (1729 +/- 358 U/g) than in groups A (1184 +/- 237 U/g) and D (1251 +/- 434 U/g; p less than .05). There was an inverse relation (r = -.83) between infarct size and CK content. The EC-SOD C infusions resulted in only minimal increases in plasma SOD activities. In conclusion, the presence of SOD on the cell surfaces is of importance in the prevention of reperfusion injury rather than circulating SOD.
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PMID:Effects of recombinant human extracellular-superoxide dismutase type C on myocardial infarct size in pigs. 150 79

Earlier studies have demonstrated an improvement in the recovery of the regional myocardial function after reversible myocardial ischemia when dogs were treated with superoxide dismutase (SOD) + catalase (CAT). In all these studies, drug administration was started prior to the ischemic period. The aim of this study was to investigate the effects of SOD and CAT on the recovery of the regional contractile function in anesthetized beagle dogs when the drugs were administered at the time of reperfusion. The animals were subjected to 20 min of left coronary artery occlusion followed by 3 h reperfusion. The regional myocardial contractile function, measured as subendocardial segment shortening (SS, sonomicrometry) decreased to below zero and the regional blood flow in the ischemic subendocardium was reduced to about 5% of pre-ischemic values during the coronary artery occlusion period. The size of the occluded bed was similar in the two groups. Saline (n = 8) or SOD (10 mg/kg) + CAT (3.4 mg/kg) (n = 8) were infused into the left atrium from 2.5 min prior to until 20 min after the start of reperfusion. The peak plasma level of SOD was 102 +/- 15 mg/l at 20 min reperfusion. There were no significant differences in the arterial blood pressure, cardiac contractile function and regional blood flow between the two groups at any time during the experiment. During reperfusion in the dogs given vehicle, SS recovered to 48 +/- 7% (mean +/- SEM) after the first hour of reperfusion, and to 51 +/- 6% of pre-ischemic values after 3 h of reperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Superoxide dismutase and catalase do not improve recovery of regional myocardial contractile function when given at the time of reperfusion after reversible regional ischemia in anesthetized dogs. 177 87

Isovolumically perfused control and chronic diabetic rat hearts were subjected to 20 min of global ischemia plus 30 min of reperfusion at preischemic flow rates. Recoveries of contractile function during reperfusion were similar in both groups. Addition of arachidonic acid produced profound postischemic dysfunction in nondiabetic hearts (isovolumic minute work = 19 +/- 8 vs. 86 +/- 10% of preischemic levels after 30 min), whereas arachidonic acid had no detrimental effect in diabetic hearts. Arachidonic acid also augmented endogenous prostacyclin release in control hearts (untreated 2.28 +/- 0.23 ng/ml; arachidonic acid 4.07 +/- 0.22 ng/ml) but failed to alter postischemic prostacyclin release in diabetic hearts. The arachidonic acid-induced postischemic dysfunction was significantly attenuated by coadministration of the oxygen free radical scavengers, superoxide dismutase plus catalase, but not by indomethacin. Thus arachidonic acid-induced dysfunction in normal hearts appears to be related, in part, to free radical production. The intrinsic capacity of the heart to synthesize prostacyclin as a result of ischemia and reperfusion does not appear to be impaired by diabetes. In contrast, the arachidonic acid-induced increase in prostacyclin following ischemia is blunted in the diabetic heart. Although chronic diabetic hearts showed increased tolerance to arachidonic acid-induced dysfunction during reperfusion, a defect in prostacyclin stimulation may place the diabetic at greater risk of complications of ischemic reperfusion in vivo by reducing the capacity to adequately respond to the aggregatory and vasospastic actions of increased circulating thromboxane consequent to myocardial ischemia and reperfusion.
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PMID:Arachidonic acid causes postischemic dysfunction in control but not diabetic hearts. 210 41

Neutrophils have been implicated in the genesis of myocardial ischemia-reperfusion injury, and their mechanism of action has been linked to the production of reactive oxygen species, fatty acid-derived prostanoids, and leukotrienes. In this study, we examined the potential relation between production of reactive oxygen species and cyclooxygenase-derived autacoids by studying the effects of superoxide dismutase (SOD) and catalase (CAT) on the rise in thromboxane formation observed with myocardial ischemia and reperfusion. Immunoreactive thromboxane B2 was measured in cardiac lymph from conscious dogs during reperfusion after a 60-minute occlusion in the presence of infusions of SOD alone, CAT alone, and a combination of SOD and CAT. Reperfusion after 60 minutes of ischemia causes an immediate elevation in thromboxane B2. SOD and CAT infusion prevented this rise in thromboxane B2 as did infusion of SOD alone. The ability of SOD-CAT to suppress thromboxane B2 production dissipated within 3 hours after the cessation of infusion, at which time thromboxane B2 excretion increased. The modulation of fatty acid oxygenases by reactive oxygen species may be a very important pathogenic factor in considering the origin of the protective effect of antioxidants in the setting of myocardial ischemia-reperfusion injury.
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PMID:Thromboxane B2 in cardiac lymph. Effect of superoxide dismutase and catalase during myocardial ischemia and reperfusion. 231 86

Contractile dysfunction of viable, previously ischemic stunned myocardium is thought to be due to reactive oxygen species generated during ischemia/reperfusion. Direct in vivo evidence that oxidants cause systolic or diastolic dysfunction of viable myocardium has, however, been lacking. We sought to determine whether in vivo exposure of canine myocardium to exogenously generated reactive oxygen species could--in the absence of myocardial ischemia or necrosis--"mimic" the depressed systolic contractile function, paradoxical contraction during early diastole, and prolonged diastolic relaxation time characteristic of stunned myocardium. Anesthetized open-chest dogs were randomly assigned to receive either (1) the free radical generating substrates xanthine oxidase + purine + iron-saturated transferrin or (2) saline, infused directly into an anterior coronary vein. Infusion of free radical substrates did not cause ischemia: regional myocardial blood flow and myocardial high-energy phosphate stores were normal in both groups. Furthermore, infusion of xanthine oxidase + purine + transferrin was not associated with histologic or electron microscopic evidence of myocyte injury or death in this model. Xanthine oxidase + purine + transferrin did, however, produce marked abnormalities in regional systolic contractile function; at 2 hours after the onset of infusion, segment shortening (assessed by sonomicrometry) in the perfused region of the heart averaged 62 +/- 5% of baseline, preinfusion values in animals infused with free radical substrates versus 113 +/- 8% of baseline values in saline-administered control dogs (p less than 0.004). This systolic dysfunction was effectively reversed by administration of the free radical scavenging agents superoxide dismutase + catalase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vivo infusion of oxygen free radical substrates causes myocardial systolic, but not diastolic dysfunction. 232 2

Dietary fat-type and copper (Cu) deficiency have been independently identified as potentially important factors in the etiology of ischemic heart disease (IHD); a disease that has been linked to inflammation and oxygen free radical (OFR) mediated damage. Group (n = 6) of male, weanling, Wistar rats were provided ad libitum with deionized water and control or low Cu diets containing (200 g/kg) either saturated or polyunsaturated fatty acids (SFA or PUFA, respectively) for 56 d. Measurement of several indices of Cu status indicated that both groups fed the low Cu diets were Cu-deficient. SFA consumption resulted in significantly increased hepatic Cu (p less than 0.001) and iron (Fe) (p less than 0.001) concentrations and xanthine oxidase activity (p less than 0.05) and significantly decreased hepatic glucose-6-phosphate dehydrogenase activity (p less than 0.001). Although Cu deficiency resulted in significantly decreased hepatic copper-zinc superoxide dismutase (CuZnSOD) activity (p less than 0.01), no significant effect on the activities of the other hepatic antioxidant enzymes, manganese superoxide dismutase, catalase, and glutathione peroxidase, or glutathione reductase, were observed. Cu deficiency also resulted in significantly decreased hepatic Cu levels (p less than 0.001) and cytochrome c oxidase activity (p less than 0.01). No significant difference in hepatic thiobarbituric acid reactive substances (TBARS), a measure of lipid peroxidation, was found between groups consuming SFA or PUFA, but both Cu-deficient groups exhibited significantly increased hepatic TBARS (p less than 0.001), compared to controls. This was probably owing to the significantly decreased hepatic CuZnSOD activity observed in the Cu-deficient, compared to control animals.
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PMID:Dietary saturated or polyunsaturated fat and copper deficiency in the rat. 248 34

Although oxygen free radicals have been implicated as mediators of cellular injury in myocardial ischemia-reperfusion, the exact nature of defects produced by these radicals is not clear. Because sarcolemmal Ca2+-pump is involved in the efflux of Ca2+ from the cell, this study was undertaken to examine the effects of oxygen free radicals on sarcolemmal ATP-dependent Ca2+ accumulation and Ca2+-stimulated Mg2+-dependent adenosinetriphosphatase (ATPase) activities as well as lipid peroxidation of membrane phospholipids. Isolated rat heart sarcolemmal membranes were incubated with xanthine + xanthine oxidase [a superoxide anion radical (O2-)-generating system], H2O2, or H2O2 + Fe2+ [a hydroxyl radical (HO.)-generating system] and assayed for Ca2+-pump activities. O2- inhibited the Ca2+-pump activities in a time-dependent manner; a significant inhibition of Ca2+-stimulated ATPase activity was seen after 1 min of incubation. Superoxide dismutase showed a protective effect on depression in Ca2+-pump activities caused by O2-.H2O2 inhibited Ca2+-pump activities in a dose-dependent manner; this inhibition was protected by the addition of catalase. HO. depressed the Ca2+-pump activities to a greater extent in comparison with H2O2. Mannitol showed a protective effect on HO.-induced inhibition of Ca2+-pump activities. The promotion of lipid peroxidation by free radicals was evident from increased formation of malondialdehyde. These results indicate that the sarcolemmal membrane is altered on exposure to oxygen free radicals, and this may result in depressing the Ca2+-pump mechanism for Ca2+ efflux from the myocardial cell.
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PMID:Depression of heart sarcolemmal Ca2+-pump activity by oxygen free radicals. 253 32

There is a growing evidence for the role of oxygen free radicals (OFR) in mediating myocardial tissue injury during myocardial ischemia and particularly during reperfusion. But almost all of the evidence was indirect, using electron spin resonance (ESR) spectroscopy, we have directly measured OFR generated in ischemic and reperfused isolated rabbit hearts. 17 hearts were rapidly frozen in liquid nitrogen after their arrest by cardioplegic solution and sampled after 150 min of sustained hypothermic global ischemia or after reperfusion. The ESR spectra obtained from experiment have directly demonstrated that OFR is produced in significant amounts in the isolated rabbit hearts during early stage of reperfusion but only small amount during ischemia. The mitochondrial electron transport chain appeared to be the main source of OFR. We found that superoxide dismutase scavenged OFR generated during reperfusion efficiently, but catalase did not. We believe that superoxide anion, not hydroxyl radical, is the main OFR which is responsible for myocardial reperfusion injury. We also found that Salvia, a traditional Chinese medicine, a very efficient OFR scavenger, had the similar effect as superoxide dismutase.
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PMID:[Direct detection of oxygen free radicals produced by myocardial reperfusion using electron spin resonance spectroscopy]. 255 94

The changes in endogenous superoxide dismutase (ESOD) during myocardial ischemia and reperfusion and the efficacy of oxygen free radical scavengers in myocardial protection were investigated in an isolated heart model connected with the recirculating nonpulsatile perfusion circuit. Subjected to a 2-hour period of global ischemia (27 C), the heart was reperfused with 37 C oxygen diluted auto-blood for 60 minutes. Superoxide dismutase plus catalase was added into the cardioplegic solution and reperfusates. ESOD activity was measured by pyrogallol method. The results of the experiment showed that ESOD activity after ischemia and reperfusion was decreased and the addition of oxygen free radical scavengers (SOD and CAT) to the cardioplegic solution and the reperfusates greatly reduced the leakage of myocardial enzymes, coronary vascular resistance, and the ultrastructural damages of the myocardium. These results suggest that the use of SOD and CAT may inhibit myocardial reperfusion injury by scavenging oxygen-derived free radicals.
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PMID:Prevention of myocardial reperfusion injury with free radical scavengers. An experimental study. 256 Sep 53

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