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)

Free radicals and other toxic oxygen species play a role in the pathogenesis of ischemic organ damage. The abdominal skin flap has been used as a model to study the effects of superoxide dismutase on the survival of ischemic skin. We have evaluated the evolution of functional and structural injury to the vasculature after ischemic injury in superoxide dismutase-treated and control skin flaps. Ischemia was induced by creating abdominal skin flaps and occluding either the venous or both the venous and arterial blood supplies. Superoxide dismutase was administered immediately after the occlusion was released. At 1 hour of reflow, erythrocyte stasis, platelet deposition, neutrophil adherence, and injury to the endothelium of the large vessels and of the microvasculature were evident. The blood flow in the ischemic skin was only 3 percent of normal. Superoxide dismutase caused no change in the ultrastructure of the vasculature and a marginal decrease in vascular permeability in the ischemic skin at 1 hour of reflow. Increased fluorescent staining of the skin was evident after 24 hours of reflow in the superoxide dismutase-treated flaps. These findings indicate that injury to vascular endothelium by ischemia and reperfusion plays a role in the evolution of skin necrosis.
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PMID:Functional and structural evaluation of the vasculature of skin flaps after ischemia and reperfusion. 296 13

The effects of the inhibition of phospholipid degradation and superoxide radical generation on prostaglandin synthesis associated with myocardial ischemia and reperfusion were studied in the isolated, in-situ pig heart model subjected to 60 mins of regional ischemia and a further 60 mins of hypothermic potassium cardioplegic arrest, followed by 60 mins of reperfusion. Myocardial biopsies were taken from the ischemic and non-ischemic regions of the myocardium for measurement of phospholipids, and samples of the perfusate were drawn for estimation of the end-products of arachidonic acid metabolism, 6-keto-prostaglandin-F1 alpha and thromboxane B2. A significant amount of 6-keto-prostaglandin F1 alpha and thromboxane B2 appeared during reperfusion, corresponding with the loss of membrane phospholipids in control animals. Mepacrine, a phospholipase inhibitor, protected the depletion of membrane phospholipids and inhibited the products of arachidonate metabolism. Superoxide dismutase (SOD) and catalase, on the other hand, enhanced the formation of 6-keto-prostaglandin F1 alpha and thromboxane B2. The effects of both mepacrine and the free radical scavengers were pronounced during the reperfusion phase when the most significant depletion in membrane phospholipids occurred. These results suggest that the arachidonate cascade is activated during reperfusion of ischemic myocardium as a consequence of phospholipid breakdown, and this activation can be attenuated by inhibiting phospholipases or enhanced by scavenging oxygen-free radicals generated during reperfusion.
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PMID:Enhanced prostaglandin synthesis due to phospholipid breakdown in ischemic-reperfused myocardium. Control of its production by a phospholipase inhibitor or free radical scavengers. 309 30

Reactive oxygen metabolites have been reported to be responsible for the pathogenesis of ischemia-induced gastric mucosal lesions. We have investigated the possible protective effect of specific enzymes and oxygen radical scavenging agents on oxygen metabolite-induced injury to cultured gastric mucosal cells. Oxygen-reactive metabolites were generated by 1 mM xanthine and 10-100 mU/ml xanthine oxidase. Cytotoxicity was quantified by measuring 51Cr release from prelabeled cells. Xanthine oxidase caused a dose-dependent increase of 51Cr release in the presence of 1 mM xanthine. Catalase (an enzyme that reduces hydrogen peroxide) diminished xanthine-xanthine oxidase-induced 51Cr release in a dose-dependent manner. Superoxide dismutase (a scavenger of superoxide radical) failed to affect the amounts of 51Cr release induced by xanthine plus xanthine oxidase. Pretreatment with diethyl maleate, which depletes intracellular glutathione, potentiated oxygen radical-mediated 51Cr release dose dependently. The presence of ferrous ion or ethylenediaminetetraacetic acid-chelated iron, which promote the formation of hydroxyl radical, did not alter xanthine-xanthine oxidase-induced cellular injury. Furthermore, agents that inactivate hydroxyl radical also failed to protect the cells from oxygen metabolite-induced injury. We conclude that in vitro oxygen metabolites, extracellularly generated, have a direct toxic effect on gastric mucosal cells; hydrogen peroxide is a major mediator of oxygen metabolite-induced gastric cell injury; the oxygen-derived superoxide and hydroxyl radicals are less toxic to gastric mucosal cells than hydrogen peroxide; and intracellular glutathione, which detoxifies hydrogen peroxide, may be involved in antioxidant defense mechanisms.
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PMID:Oxygen metabolite-induced cytotoxicity to cultured rat gastric mucosal cells. 311 Dec 74

Using anesthetized rats we have investigated the dose-response characteristics for the ability of superoxide dismutase (SOD) to reduce the vulnerability of the rat heart to reperfusion-induced arrhythmias in vivo. Hearts (n = 15 in each group) were subjected to 7 min of regional ischemia followed by 10 min of reperfusion. In the control group (saline), 73% (11/15) of the hearts fibrillated during reperfusion, 20% (3/15) had atrioventricular block and 47% (7/15) died as a result of ventricular arrhythmias. Superoxide dismutase, administered as an intravenous bolus 2 min prior to reperfusion exerted a marked protective effect. At its most effective dose (10 mg/kg body wt i.e. 27,000 IU/kg body wt) reperfusion-induced ventricular fibrillation was reduced to 33% (5/15). Reperfusion-induced atrioventricular block was eliminated (0/15) and mortality was reduced to 7% (1/15, p less than 0.05). The protective effects were however very dose-dependent and at higher doses SOD exhibited no antiarrhythmic actions during reperfusion. These results, together with our previous findings in vitro, lend further support to our proposition that oxygen-derived free radicals may play a role in the induction of potentially lethal cardiac arrhythmias and that antifree radical interventions, even when given after the onset of ischemia, can be highly protective.
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PMID:Superoxide dismutase and the reduction of reperfusion-induced arrhythmias: in vivo dose-response studies in the rat. 315 16

In this study we tried to define the possible benefits of the oxygen-derived free radical scavengers after 3 hours of cold myocardial global ischemia, as required in the setting of cardiac transplantation. Twenty-one pig hearts were harvested after preservation with a cold cardioplegic solution (St. Thomas' Hospital solution) and topical cooling. Normothermic reperfusion with blood was achieved with a special heart-lung machine preparation, which allows the heart to beat in a working or nonworking mode. Twelve hearts served as control hearts (group I), and nine (group II) were subjected to superoxide dismutase and catalase. Superoxide dismutase was applied at a dose of 40 U/ml of cardioplegic solution and 1500 U/kg body weight with the start of reperfusion. Catalase was added to the cardioplegic solution in a dose of 100 U/kg and 3500 U/kg body weight with the start of reperfusion. After 15 minutes of retrograde reperfusion, both left ventricular developed pressure and its first derivative were significantly higher in group II (137 +/- 7.6 mm Hg, 2467 +/- 162 mm Hg/sec) than in group I (105 +/- 6 mm Hg, 1676 +/- 231 mm Hg/sec, p less than 0.05 for each). In addition, a considerably higher coronary blood flow was observed in group II throughout the 180-minute period of reperfusion (p = 0.047). We therefore conclude that the combined administration of superoxide dismutase and catalase during the initial period of cardioplegic arrest and during early reperfusion of donor hearts submitted to 3 hours of cold ischemia has a beneficial effect on myocardial performance.
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PMID:Oxygen-derived free radical scavengers for amelioration of reperfusion damage in heart transplantation. 327 68

Oxygen free radicals generated during the reperfusion of an ischemic organ may cause further cellular injury; removal of these oxygen radicals by scavengers protects tissue from reperfusion injury. Thus, oxygen radical scavengers could protect kidneys after warm ischemia and long hypothermic perfusion. Porcine kidneys were incubated at 37 degrees C for 45 minutes, placed on a pulsatile perfusion apparatus at 7 degrees C for 48 hours, and then autografted to iliac vessels. Superoxide dismutase (10 mg) and catalase (10 mg) in 10 mL of phosphate-buffered saline solution were infused into the renal artery during a three-minute interval before reperfusion. The kidneys treated with the superoxide dismutase-catalase solution had significantly improved function compared with controls receiving only phosphate-buffered saline solution. The mean (+/- SEM) serum creatinine level on postoperative day 5 was 510 +/- 100 mumol/L (5.75 +/- 1.12 mg/dL) (n = 12) vs the control value of 840 +/- 90 mumol/L (9.54 +/- 1.01 mg/dL) (n = 11). There was more extensive cellular damage in the control kidneys. This demonstrates the efficacy of oxygen radical scavengers in protecting pig kidneys after warm ischemia and prolonged preservation.
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PMID:Use of oxygen radical scavengers on autografted pig kidneys after warm ischemia and 48-hour perfusion preservation. 328 92

Superoxide dismutase (SOD) and catalase, natural scavengers of free oxygen radicals, or saline were administered as a continuous systemic infusion to 12 dogs, in a blind randomized fashion, starting 10 min prior to a 10-min episode of complete cerebral ischemia, and continued thereafter for 60 min. Reversible complete cerebral ischemia was achieved by simultaneously occluding the ascending aorta and venae cavae. There were no significant differences in physiological variables (arterial blood gases, hemoglobin, mean arterial blood pressure, heart rate, and temperature) between the two groups, either pre-ischemia or post-ischemia. There was no significant difference in neurologic outcome when evaluated at 48 h post-ischemia. It has previously been reported that the same dose of SOD and catalase as used in the current study could reduce infarct size by 50% when given systemically before reperfusion following coronary ischemia in dogs. The lack of a measurable effect on neurologic outcome in our cerebral ischemic model might be because of the failure of the free oxygen radical scavengers to reach the ischemic cells in sufficient amounts, or because free oxygen radicals do not contribute to brain injury following complete cerebral ischemia.
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PMID:Superoxide dismutase and catalase failed to improve neurologic outcome after complete cerebral ischemia in the dog. 334 76

It has been suggested that the beneficial effects of reperfusing ischemic myocardium might be in part reversed by the occurrence of "reperfusion injury." One possible mechanism could be the generation of oxygen free radicals. Superoxide dismutase enzymatically scavenges superoxide radicals by dismutation to hydrogen peroxide. This study tested the hypothesis that administration of recombinant human superoxide dismutase (h-SOD) at the time of reflow after a period of prolonged global ischemia would result in improved recovery of myocardial metabolism and function by preventing or reducing a potentially harmful component of reperfusion. We also sought to determine whether catalase, an enzymatic scavenger of hydrogen peroxide, was a necessary addition for optimal benefit. Langendorff perfused rabbit hearts were subjected to 30 min of normothermic (37 degrees C) total global ischemia. At the moment of reperfusion, 12 control hearts received a 10 ml bolus of normal perfusate followed by 15 min of reperfusion with normal perfusate (group I), 12 hearts received 60,000 IU of h-SOD as a bolus followed by a continuous infusion of 100 IU/ml for 15 min (group II), and 12 hearts received 60,000 IU of h-SOD and 60,000 IU of catalase as a bolus followed by 100 IU/ml of both enzymes for 15 min (group III). Myocardial ATP and phosphocreatine (PCr) content and intracellular pH during ischemia and reperfusion were continuously monitored with 31P nuclear magnetic resonance (NMR) spectroscopy. During 30 min of normothermic global ischemia intracellular pH dropped from 7.11-7.18 to 5.58-5.80 in all three groups of hearts. Likewise myocardial PCr content fell rapidly to 7% to 8% and ATP fell more slowly to 29% to 36% of preischemic control content. After 45 min of reperfusion PCr recovered to 65 +/- 5% of control in untreated (group I) hearts compared with 89 +/- 8% in h-SOD-treated (group II) hearts (p less than .01 vs group I) and with 83 +/- 6% of control in h-SOD/catalase-treated (group III) hearts (p less than .05 vs group I). Recovery of isovolumic left ventricular developed pressure was 68 +/- 5% of control in h-SOD-treated (group II) hearts and 66 +/- 6% of control in h-SOD/catalase-treated (group III) hearts after 45 min of reflow, compared with 48 +/- 6% of control in untreated (group I) hearts (p less than .005 for groups II and III vs group I). The NMR data confirmed equal depletion of ATP and PCr content in all three groups of hearts.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Evidence for a reversible oxygen radical-mediated component of reperfusion injury: reduction by recombinant human superoxide dismutase administered at the time of reflow. 379 10

Superoxide anion free radical (O2-.) has been implicated in the pathogenesis of tissue injury consequent to ischemia/reperfusion in several different organs, including heart and bowel. Superoxide dismutase (SOD), an enzyme free radical scavenger specific for O2-., has been used successfully to protect these organs from structural damage during reoxygenation of ischemic tissue. It has been suggested that the catalytic action of xanthine oxidase in injured tissue is an important source of O2-. during reoxygenation. In order to evaluate the potential of SOD to protect against kidney damage resulting from transient ischemia followed by reperfusion with oxygenated blood, a model of warm renal ischemia was studied. LBNF1 rats underwent right nephrectomy and occlusion of the left renal artery for 45 minutes. Survival in the group of ischemic untreated rats (N = 30) was 56% at 7 days and serum creatinine was greatly elevated (p less than 0.01) in rats remaining alive over the full 7-day period. In strong contrast to these results, all of the animals treated with SOD before reperfusion (N = 18) were alive after 7 days similar to sham operated control rats (N = 8). Serum creatinine in the SOD treated rats was significantly elevated only to postoperative day 3 and thereafter returned to normal. Rats treated with inactive SOD (N = 4) or SOD before ischemia (N = 4) had decreased survival rates compared to ischemic untreated animals and prolonged elevation of serum creatinine. When the ischemia time was extended to 60 minutes, only 19% of the untreated animals (N = 16) survived at 7 days whereas nearly 60% of the SOD-treated animals survived (N = 19). Serum creatinine was greatly elevated during the full 7-day observation period in all surviving rats in the untreated ischemic group, whereas serum creatinine returned to normal (p less than 0.05) after 4 days in the surviving rats treated with SOD. To test whether the action of xanthine oxidase contributed to the kidney damage after reoxygenation, 45 min. ischemic rat kidneys were treated with allopurinol. All of the animals treated with allopurinol (N = 12) were alive at 7 days. Serum creatinine values returned to normal after the episode of ischemia and reperfusion but more slowly than after SOD treatment. Histologic evaluation of kidney tissue taken from animals after ischemia alone showed extensive renal tubular damage, which was essentially absent in kidneys from SOD-treated animals.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Oxygen free radical induced damage in kidneys subjected to warm ischemia and reperfusion. Protective effect of superoxide dismutase. 384 Mar 48

We studied the effects of oxygen free radicals on cardiac performance during reperfusion of ischemic myocardium. The pig heart, isolated in situ, was subjected to 60 minutes of regional ischemia at normothermia by occlusion of the left anterior descending coronary artery followed by 60 minutes of hypothermic cardioplegic arrest and 60 minutes of normothermic reperfusion. The oxygen free-radical scavengers, superoxide dismutase and catalase, were administered before occlusion of the left anterior descending coronary artery in the experimental group. The generation of free radicals in the untreated group, estimated by the measurement of malondialdehyde in the perfusate, was significant during reperfusion and was associated with a corresponding increase in creatine kinase. Superoxide dismutase and catalase significantly slowed the appearance of malondialdehyde and the release of creatine kinase during reperfusion. Superoxide dismutase and catalase did not alter coronary flow and myocardial oxygen extraction or consumption during occlusion of the left anterior descending coronary artery; however, coronary flow and oxygen consumption were significantly higher (p less than 0.05) during reperfusion in hearts treated with antioxidants. Left ventricular developed pressure and its maximum first derivative were measured under isovolumic conditions. In the untreated group, left ventricular developed pressure and its maximum first derivative declined to 61.1% and 57.1% of baseline values, respectively, after 60 minutes' occlusion of the left anterior descending, and to 45% of baseline values after 15 minutes of reperfusion. The decline in left ventricular developed pressure and its maximum first derivative during reperfusion was significantly (p less than 0.05) inhibited by superoxide dismutase and catalase, but left ventricular end-diastolic pressure was not significantly altered. These results implicate oxygen-derived free radicals in the injury resulting from reperfusion of ischemic myocardium and suggest that oxygen free-radical scavengers effectively protect against such injury.
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PMID:Cardiac performance during reperfusion improved by pretreatment with oxygen free-radical scavengers. 394 96


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