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)

We tested whether recombinant human superoxide dismutase conjugated to polyethylene glycol (PEG-SOD) to prolong its plasma retention time could limit myocardial infarct size in an ischemia-reperfusion model in the rabbit. One group of animals received 1000 units/kg of PEG-SOD as an intravenous bolus 15 min before coronary occlusion. A second group received saline only and served as controls. Under pentobarbital anesthesia, a left coronary branch was occluded for 30 min and then reperfused. The surgical wounds were repaired and the animals were allowed to recover. Seventy-two hours after the coronary occlusion, the heart was excised and the size of the area at risk (ischemic vascular bed) was assessed with fluorescent particles and the infarct size was determined by histology (Hematoxylin-eosin, Azan stain). Infarct size as a percentage of the area at risk was similar between the groups, 46.5 + 2.7 in the PEG-SOD group (n = 8) and 48.9 + 3.1 in the control group (n = 8). There were no significant differences between the groups indicating that PEG-SOD did not limit infarct size in this model.
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PMID:Superoxide dismutase conjugated to polyethylene glycol fails to limit myocardial infarct size after 30 min ischemia followed by 72 h of reperfusion in the rabbit. 206 22

Carrageenan-induced paw edemata of mice and rats were suppressed by 1-4 x 10(3) U/kg intravenous injection of heparin. High doses were less suppressive, corresponding well to the increase in plasma SOD activity. This biphasic dose response curve was also observed in our ischemic paw model of mice. Increased SOD appeared as high molecular EC-SOD C (in mice) and B (in rats) as a result of its sensitivity to a copper chelator and long retention time in the blood stream, compared to the short life of cytosolic Cu, Zn-SOD. EC-SOD C (135 kDa) failed to be detected in the plasma of heparin-injected mice by way of nitroblue tetrazolium staining after PAGE electrophoresis. Instead, SOD activity was found near 270 kDa. An excess heparin-loaded subunit of this enzyme might become inactivated or might not be able to fix to a pocket where EC-SOD eliminates O2-, to protect the endothelium, Electrophoresis dissociates the excess heparin resulting in an active form of the enzyme. Paw edemata of rats were less sensitive because this species lacks the strongly heparin-binding EC-SOD C and has only the weakly heparin-binding EC-SOD B, Ischemia-induced mitochondrial swelling of the paw muscle was observed by electron microscopy and was prevented by heparin injection.
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PMID:Suppression of carrageenan paw oedema in rats and mice by heparin-induced EC-SODs. 207 Oct 31

The effects of superoxide dismutase modified with polyoxyethylene (SOD-POE) on impairment of myocardial segment shortening (SS) during coronary stenosis plus pacing-induced tachycardia (CSPT) and the recovery after reperfusion was examined in anesthetized dogs. SOD-POE or saline was administered i.v. 30 min before reperfusion. Changes in hemodynamic variables and SS by CSPT were similar in both groups. However, the SOD-POE group showed improved recovery of SS compared with the control group. Results indicate that oxygen-derived free radicals may partially be involved in the genesis of myocardial dysfunction after CSPT-induced regional ischemia.
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PMID:Effect of polyoxyethylene-modified superoxide dismutase on recovery of myocardial dysfunction after coronary stenosis in dogs. 207 88

Oxygen-derived free radicals have been postulated to be involved in brain edema and cell death secondary to ischemia and traumatic injury. Using a model of vasogenic brain edema produced by a permanent occlusion of the left MCA in rats, we have studied the role of superoxide radicals in pathogenesis of ischemic edema. The levels of NBF in ischemic brain were increased by 222%, 420%, and 614%, respectively, at 1, 4, and 24 hr after the MCAO. Topical application of superoxide dismutase to the injured cortex through a modified cranial window significantly reduced the NBF levels, indicating the involvement of superoxide radicals in ischemic brain. Liposome-entrapped SOD, when IV injected 5 min after the MCAO, significantly reduced the degree of edema at 24 hr. Our data indicate that superoxide radicals play an important role in the pathogenesis of vasogenic edema in cerebral ischemia.
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PMID:Pathogenesis of vasogenic edema in focal cerebral ischemia. Role of superoxide radicals. 216 62

The purpose was to elucidate the involvement of superoxide radical (O2-.) in the postischemic increase in the vascular permeability in the hamster cheek pouch. Cheek pouches of anesthetized hamsters were everted, prepared for intravital microscopy, and superfused with a bicarbonate buffered saline solution. Local ischemia for 30 min was obtained using a cuff placed around the proximal part of the cheek pouch. The vascular permeability in the postcapillary venules was quantified as leakage of intravenously injected fluorescein labeled dextran (FITC-dextran, Mw 150,000), using intravital microscopy and fluorimetry. There was a significant and reversible permeability increase after the reperfusion started. In the first series of experiments, combined intravenous infusion and topical application of human recombinant extracellular superoxide dismutase C (EC-SOD C) reduced the postischemic permeability response by 80%. Bovine CuZn-SOD given in exactly the same way reduced the response by 60%. In the second series of experiments, inactivated EC-SOD C was given to the control animals and active EC-SOD C was given to the treated animals. The topical treatment was excluded. Only active EC-SOD C reduced significantly the postischemic permeability increase when present during the ischemic period. Treatment with mannitol (i.v.) did not alter the postischemic response. Since active EC-SOD C and CuZn-SOD but not inactivated EC-SOD C effectively inhibited the response, we suggest that the superoxide anion is involved in the mediation of the postischemic permeability increase in the hamster.
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PMID:Superoxide dismutase as an inhibitor of postischemic microvascular permeability increase in the hamster. 217 Feb 46

To determine the efficacy of direct versus systemic administration of human recombinant superoxide dismutase (rt-SOD) in acute myocardial ischemia and reperfusion, the following experimental model was applied. Twenty-one dogs were subjected to 30 minutes normothermic global ischemia caused by the occlusion of the ascending aorta followed by 60 minutes reperfusion. To eliminate collateral blood flows during the ischemia, bipulmonary hilus were cross clamped. The dogs were randomly assigned to three groups: group A (n = 7), 12 ml of normal saline was injected through the aortic root into the coronary artery 1 minute prior to reperfusion, in addition to a 30 minute continuous infusion of 50 ml of saline into the cardiopulmonary bypass circuit beginning just after reperfusion; group B (n = 7), rt-SOD (10,000 U/kg) dissolved in 12 ml saline was administered by bolus injection through the aortic root and an additional 30,000 U/kg of rt-SOD dissolved in 50 ml of saline was injected into the cardiopulmonary bypass circuit as the same manner as the group A; group C (n = 7), the treatment was similar to the group B except the bolus injection of rt-SOD was into the cardiopulmonary bypass circuit. The left ventricular stroke work index (LVSWI) was determined by a right heart bypass technique and expressed as a percent recovery of pre-occlusion state. Morphologic structures were observed by the electron microscope. The coronary sinus blood was assessed for malondialdehyde (MDA) measured by TBA method and creatine phosphokinase (CPK). The percent of recovery of LVSWI after 60 minutes reperfusion was superior in group B (121 +/- 82%) than groups A (24 +/- 38%*, *p less than 0.05) and C (52 +/- 21%*). In group B, the myocardial cell structure had a normal appearance in most areas, but swollen mitochondria and disrupted myofibrils were observed in groups A and C. Serum MDA levels did not change in all groups. Increasing CPK levels after reperfusion were less in group b than group A. These results suggest that an adequate concentration of rt-SOD in the interstitial fluid or cell surface at the time of reperfusion may be required to prevent reperfusion injury.
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PMID:[Effective administration method of recombinant superoxide dismutase in acute myocardial ischemia and reperfusion]. 221 72

Intestinal ischemia, however, caused, is still a serious and growing clinical problem with an unacceptable mortality rate of over 60%. This high mortality rate is mainly due to the fact that the patients are not admitted to the hospital or not treated early enough. Even if the patients are operated on within 24 h, their mortality rate is still over 50%, and those surviving the initial treatment suffer from postischemic complications. These damages have been accounted until now to tissue ischemia. It has been proven experimentally that also reperfusion or revascularization after time-limited ischemia add to the tissue damages observed, due to the formation of O2-radicals. Thereby the prerequisites for the production of these radicals (the conversion of xanthine dehydrogenase to xanthine oxidase and the increase of hypoxanthine concentrations in the tissue and plasma) are generated during tissue ischemia. These radicals damage directly or initiate several vicious circles leading to mucosal lesions, impaired intestinal function and an enhanced absorption of bacteria and endotoxin. Various substances (SOD, catalase, DMSO, allopurinol, deferoxamine etc.) detoxify oxygen radicals or inhibit the pathomechanisms leading to the enhanced radical generation. Hopefully, the combination of early revascularization with these already available scavengers will improve the high mortality and morbidity of patients suffering from intestinal ischemia.
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PMID:Oxygen radicals in intestinal ischemia and reperfusion. 222 27

Oxygen free radicals (OFRs) generated during reperfusion are putative mediators of postischemic renal dysfunction. To address this issue, the renal response to ischemia and reperfusion was compared to the response to OFR generation without ischemia. Isolated rat kidneys were perfused at 37 degrees C and 90-100 mm Hg with an asanguinous modified Krebs' buffer. Kidneys were subjected to 30 min of ischemia followed by reperfusion or to OFRs generated by combining 25 mumole hypoxanthine with 1 unit xanthine oxidase. Both insults caused a 50% increase in vascular resistance. This was accompanied by a 30% reduction in perfusate flow rate and an 80% reduction in glomerular filtration and urine flow rates. The OFR scavengers, superoxide dismutase (SOD, 250 units/ml) and catalase (CAT, 500 units/ml), prevented these alterations after OFR generation but not after 30 min of ischemia and reperfusion. SOD and CAT also afforded no protection against the less severe dysfunction observed after 10 or 20 min of ischemia and reperfusion. OFRs do not appear to be prominent mediators of postischemic renal dysfunction; other factors, probably associated with ischemia must be primarily responsible.
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PMID:Postischemic renal dysfunction: the limited role of xanthine oxidase-generated oxygen free radicals. 226 85

Blood granulocyte-mediated reactions involving generation of oxygen-derived free radicals have recently been shown to be capable of causing injury to the lungs. These findings suggest a similar mechanism also to be involved in the development of pulmonary ischemia/reperfusion injury. In the present study, therefore, the effects of three oxygen-derived free radical scavengers, superoxide dismutase (SOD; 1 mg/kg), catalase (20,000 IU/kg) and allopurinol (45 mg/kg), were evaluated during reperfusion in a rabbit model after 2 h normothermic ischemia of the lung. During reperfusion, ischemic lungs were found to have an elevated pulmonary vascular resistance, increased total and extravascular lung water content, and decreased arterial oxygen tension (PaO2) compared to control animals. SOD and catalase, but not allopurinol, were able to reduce pulmonary injury by lowering the pulmonary vascular resistance, but could not prevent pulmonary damage as shown by total lung water (TLW) or PaO2. It is concluded that oxygen-derived free radicals such as hydrogen peroxide and the superoxide anion may play an important role in precipitating pulmonary injury after ischemia. The failure of xanthine oxidase inhibition (allopurinol) to exert protective effects may suggest that oxygen-derived free radical generation following pulmonary ischemia occurs predominantly via leukocyte-mediated reactions.
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PMID:Pulmonary reperfusion injury: evidence for oxygen-derived free radical mediated damage and effects of different free radical scavengers. 228 47

The major objective of this study was to develop an in vitro model of ischemia/reperfusion (I/R)-induced microvascular injury. Cultured venular endothelial cells were grown to confluency, labeled with 51Cr, and exposed to different durations of anoxia (0.5, 1, 2, 3, and 4 h). 51Cr release and cell detachment (indexes of cell injury) were determined at different times after reoxygenation (1, 2, 4, 6, 8, and 18 h). Because in vivo studies have implicated neutrophils in I/R injury, in some experiments human neutrophils were added to the endothelial cells upon reoxygenation. Periods of anoxia greater than or equal to 2 h resulted in 70-80% 51Cr release and 80-95% cell detachment upon reoxygenation. Under these conditions (near maximal injury), the addition of neutrophils produced negligible effects. Periods of anoxia less than or equal to 1 h resulted in 30-40% 51Cr release and 50-60% cell detachment. Under these conditions (moderate cell injury), addition of neutrophils enhanced endothelial cell injury. Using a 30-min period of anoxia, we also assessed the effects of superoxide dismutase (SOD; 300 U/ml) and allopurinol (20 microM) on anoxia/reoxygenation (A/R)-induced injury in the presence or absence of neutrophils. In the absence of neutrophils, SOD or allopurinol did not protect against A/R-induced injury. However, in the presence of neutrophils, both SOD and allopurinol attenuated the increases in 51Cr release. The results derived using this in vitro model of I/R injury are largely consistent with published in vivo studies. Thus this in vitro model may provide further insights regarding the mechanisms involved in I/R injury.
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PMID:An in vitro model of ischemia/reperfusion-induced microvascular injury. 237 57

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