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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously reported that the combined administration of mannitol and perfluorochemical blood substitutes is evidently effective in protecting the brain from cerebral ischemia. This experimental study was designed to develop more effective method in suppressing brain infarction than the combined treatment of mannitol and PFC. Using the "Canine model of complete ischemic brain regulated with a perfusion method" in which it is possible to control the degree of blood flow to a cerebral hemisphere via a perfusion pump, the effect of eight agents including six kinds as the free radical scavenger on cerebral ischemia was investigated. Eight agents were mannitol, vitamin E (Vit. E), dimethyl sulfoxide (DMSO), vitamin C, glycerol, nizofenone (Y-9179), dexamethasone (Dexa.) and suloctidil (MY-103). After pretreatment with each agent, blood flow was reduced via the pump to 1/10 of the normal state and 1 hour later, return to the normal state was allowed. Subsequent changes in EEG were observed and the effects of the drugs evaluated. In the control group, no recovery of electrical activity was seen, but in six groups among eight treated groups, i.e., treated with mannitol, Vit. E, DMSO, MY-103, Y-9179 and Dexa, gradual emergence of slow waves was observed. And more favorable effects were found when the combined administration of mannitol, Vit. E and Dexa was made in the same experimental schedule as compared with the single administration of each of these drugs. Furthermore in the animals administered with PFC in combination with mannitol, Vit. E and Dexa, flattening of electrical activity could not be seen throughout the period of severe ischemia. Moreover, the power of electrical activity recovered nearly to the preischemic state immediately after recirculation. Although the possible mechanisms are not yet completely clarified, the present results are thought to indicate that this new combination therapy utilizing PFC with mannitol, Vit. E and Dexa may be useful in the treatment of cerebral ischemia.
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PMID:[Experimental study of cerebral protective effect on cerebral ischemia of various antioxidants and other agents. With special reference to the combined treatment of mannitol, vitamin E, dexamethasone and perfluorochemicals]. 632 77

The aerobic incubation of brain after a period of ischemia induced lipid peroxidation. The effect was greatest in vitamin E-deficient rats, intermediate in vitamin E-normal rats, and least in animals supplemented with vitamin E. In contrast, nitrogen incubation following ischemia produced a small effect only in the vitamin E-deficient animals. It appears that reoxygenation is required for lipid peroxides to accumulate in the brain. However, a trace of oxygen remaining during extreme ischemic hypoxia may be sufficient to cause slow propagation of free radical reactions when the vitamin E level is low.
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PMID:Brain lipid peroxidation induced by postischemic reoxygenation in vitro: effect of vitamin E. 647 60

A large number of experimental studies suggests that oxygen free radicals play a major role in the pathogenesis of the myocardial lesions observed during the sequence ischemia-reperfusion. The purpose of this study was to determine whether oxygen free radicals can induce thrombosis. In so doing we have developed a new experimental thrombosis model. Reproducible focal thrombosis has been achieved by irradiating mesenteric arterioles of rat for variable time with green filtered light issuing from a mercury lamp after systemic injection of different rose bengal doses. The number of emboli that remove in the blood (N), the duration of total occlusion (T) and the number of emboli per minute were then measured. As control, no rose bengal administration was done and the vessels were exposed to the filtered light. In comparison with this control, results clearly showed that free radicals always induced thrombosis and the induced thrombus was mainly composed of platelets. In this new thrombosis model induced by free radicals antithrombotic drugs (aspirin, 200 mg/Kg, heparin, 2 mg/Kg) and antioxidants (vitamin C, 10 and 20 mg/Kg, allopurinol, 200 and 300 mg/Kg, vitamin E, 500 and 1000 mg/Kg) have been tested. Results have shown that only heparin and vitamin E had an antithrombotic effect on thrombus formation induced by free radicals. This model should be useful in studying the effects of different drugs and could lead to new treatment modalities for ischemic accident and other cardiovascular diseases.
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PMID:Experimental thrombosis model induced by free radicals. Application to aspirin and other different substances. 749 98

There is controversy concerning the ability of antioxidant vitamins to reduce myocardial infarct size. We sought to determine whether a brief prophylactic treatment of vitamin C or vitamin C plus Trolox (a water-soluble form of vitamin E) could reduce myocardial infarct size in an experimental model. We used an anesthetized open-chest rabbit model in which a branch of the circumflex coronary artery was ligated for 30 minutes followed by 4 hours of reperfusion. Experiments were performed in a randomized and blinded fashion. An IV injection of normal saline pH balanced to 7.4 (control group n = 15), vitamin C (150 mg/kg, n = 14), or vitamin C plus Trolox (150 mg/kg plus 100 mg/kg, respectively, n = 15) was administered prior to coronary occlusion. Collateral blood flow during coronary occlusion was measured by radioactive microspheres, myocardial risk zone (AR) was assessed by blue dye injection, and myocardial infarct size (AN) was assessed by triphenyltetrazolium chloride staining. All rabbits received comparable ischemic insult: Collateral blood flow and AR were similar among all three groups. Infarct size, measured as a percent of AR, did not differ significantly among the controls (21%), vitamin C (29%), or the vitamin C plus Trolox (18%) groups. Therefore, in this ischemia/reperfusion model, antioxidant vitamins did not alter myocardial infarct size.
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PMID:Do antioxidant vitamins reduce infarct size following acute myocardial ischemia/reperfusion? 754 Apr 23

Changes in mucosal permeability may be important in the etiology of necrotizing enterocolitis. The authors have previously shown that subclinical ischemia-reperfusion injury results in increased permeability in the rat intestine, and have partially characterized this phenomenon. In the present study the authors attempt to determine the mechanism by which these changes occur. Six-week-old rats underwent 10-minute superior mesenteric artery occlusion (SMAO) or sham, and mucosal permeability to 51CrEDTA was measured after 30 minutes. Rats were pretreated with saline, inhibitors of oxygen free radicals (superoxide dismutase+catalase, vitamin E, allopurinol, alpha-phenyl-N-tert butyl-nitrone), inhibitors of eicosanoids (indomethacin, quinacrine, diethylcarbamazine, 13-azaprostanoic acid), the putative cytoprotective agent prostaglandin E2, or the inhibitor of neutrophil free radical production fructose 1-6 diphosphate. None of the agents significantly attenuated the increase in mucosal permeability caused by SMAO, although indomethacin and prostaglandin E2 significantly exacerbated the permeability changes. To further explore the role of neutrophils, tissue myeloperoxidase was measured 30 minutes after SMAO. There was no significant difference in myeloperoxidase levels between sham and SMAO animals. These data suggest that the early increase in mucosal permeability after subclinical ischemia-reperfusion injury is not mediated by oxygen free radicals, eicosanoids, or neutrophils. The deleterious effect of indomethacin and prostaglandin E2 suggests a possible protective role for the cyclooxygenase system, but further studies are necessary to elucidate this possibility.
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PMID:Mucosal permeability after subclinical intestinal ischemia-reperfusion injury: an exploration of possible mechanisms. 759 36

In control rabbits, a renal ischemia of 60 min followed by 10 min of reperfusion resulted in an enhanced free radical production in cortical tissue, as assessed by a significant decrease of free glutathione (42%), protein-bound GSH (17%), and vitamin E (49%). In contrast, catalase or glutathione peroxidase activities were not affected by these experimental conditions. Free radical production in this model was also measured directly using electron spin resonance (ESR) spectroscopy associated with a PBN (alpha-phenyl N-tert-butyl-nitrone) spin trap agent in the venous blood arising from the ischemic kidney. The signal consisted of a triplet of doublets. In contrast, no signal could be detected in control blood samples taken prior to inducing ischemia. The burst of free radical production occurred in the early phase after restoration of flow in the kidneys rendered ischemic, as evidenced by a signal of weak intensity which generally appeared within the third minute after reperfusion and progressively increased to form a well-defined asymmetric signal following 10 min of reperfusion. The precise nature of free radicals trapped by the PBN agent remains, however, to be elucidated, but analysis of the coupling constants (aN = 14.5-15 G; a beta H = 2.5-3 G) and asymmetry of the central doublets suggests that the ESR signal may arise from a nitorxy-radical adduct resulting from the spin trapping by PBN of both oxygen- or carbon-centered radicals of lipid origin. As evidenced by both direct and indirect measurements, exchange of rabbit blood immediately after inducing renal ischemia with 30 ml/kg of Diaspirin Crosslinked Hemoglobin (7.5 g/dl in lactated electrolyte) or human serum albumin (7.5 g/dl in lactated electrolyte) did not exacerbate free radical production mediated by an ischemia reperfusion phenomenon, a typical situation found in a resuscitation setting.
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PMID:Diaspirin crosslinked hemoglobin (DCLHb): absence of increased free radical generation following administration in a rabbit model of renal ischemia and reperfusion. 763 50

alpha-Lipoic acid, which plays an essential role in mitochondrial dehydrogenase reactions, has recently gained considerable attention as an antioxidant. Lipoate, or its reduced form, dihydrolipoate, reacts with reactive oxygen species such as superoxide radicals, hydroxyl radicals, hypochlorous acid, peroxyl radicals, and singlet oxygen. It also protects membranes by interacting with vitamin C and glutathione, which may in turn recycle vitamin E. In addition to its antioxidant activities, dihydrolipoate may exert prooxidant actions through reduction of iron. alpha-Lipoic acid administration has been shown to be beneficial in a number of oxidative stress models such as ischemia-reperfusion injury, diabetes (both alpha-lipoic acid and dihydrolipoic acid exhibit hydrophobic binding to proteins such as albumin, which can prevent glycation reactions), cataract formation, HIV activation, neurodegeneration, and radiation injury. Furthermore, lipoate can function as a redox regulator of proteins such as myoglobin, prolactin, thioredoxin and NF-kappa B transcription factor. We review the properties of lipoate in terms of (1) reactions with reactive oxygen species; (2) interactions with other antioxidants; (3) beneficial effects in oxidative stress models or clinical conditions.
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PMID:alpha-Lipoic acid as a biological antioxidant. 764 94

The aim of this study was to test the effect of vitamins A and E in reducing oxyradical effects and myocardial damage after ischemia-reperfusion in the rabbit heart. Oxyradical effects were indirectly assessed by hydroperoxide initiated chemiluminescence and myocardial damage was evaluated by qualitative and quantitative electron microscopy. Left anterior coronary artery was ligated in control and vitamin-treated rabbits for 30 min and then reperfused for 10 min. Rabbits were pretreated with 150 mg vitamin E and 60,000 IU vitamin A 24 h before surgery. After 10 min of reperfusion full-thickness needle samples were obtained from five different myocardial areas (three ventricular and two septal areas) and used for the determination of hydroperoxide-initiated chemiluminescence and ultrastructural damage. In the control group, hydroperoxide-initiated chemiluminescence was 18,400 +/- 500 cpm/mg protein for the non-ischemic and non-reperfused ventricular areas, and 40,500 +/- 1,800 cpm/mg protein for ischemic-reperfused ventricular areas. In the vitamin-treated group, hydroperoxide-initiated chemiluminescence was decreased by 8% in the non ischemic and non reperfused ventricular areas and by 51-75% in the ventricular ischemic and reperfused areas. The two septal areas in the control group gave chemiluminescences of 6,800 +/- 1,200 cpm/mg protein (non ischemic-non reperfused) and 17,000 +/- 2,000 cpm/mg protein (ischemia-reperfusion). In the vitamin-treated group, chemiluminescence decreased by 4 and 58%, respectively. The ischemia-reperfused areas showed extensive edema, margination of nuclear chromatin and swollen mitochondria with disrupted cristae including rupture of the inner and outer mitochondrial membranes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of vitamins A and E on ischemia-reperfusion damage in rabbit heart. 765 77

The lung is particularly exposed to various inhaled toxic products whose toxicity can be at least partly mediated by the generation of free radicals. Oxidants burden can also result from lung metabolism of xenobiotics or from activation of phagocytes. Free radicals are mainly derived from an univalent sequential reduction of molecular oxygen. Mitochondria is the main location of intracellular production which may also result from auto-oxidation of small molecules or function of some enzymes. To prevent the deleterious effects of free radicals produced by normal metabolism, cells are equipped with an antioxidant system composed of enzymes (superoxide dismutase, catalase, glutathione peroxidase) and non enzymatic substances such as glutathione, iron chelators, vitamin E and C, ceruleoplsamin). Targets of free radicals toxicity are phospholipids by initiation of lipid peroxidation, proteins which may be activated or inactivated via oxidation of sulfhydryl residues. Another target is DNA with possible strand breaks or mutation. Transcription activities can be also altered and it has been recently reported that some transcription factors such as NF-kB can be activated by oxidants. Under these circumstances free radicals may be considered as second messengers. Lung oxygen toxicity has been largely studied. Oxygen-induced lung lesions are non specific. It is possible to induce a resistance to 100% O2 by the pre-exposure of animals to 85% O2. This tolerance phenomenon is associated with an increased lung content in antioxidant substances. The mechanisms of gene regulation of antioxidant enzymes are still poorly understood in eukaryotes. Overproduction of free radicals in the lung is also involved in various clinical settings such as ischemia-reperfusion, exposure to ozone or NO2, acute respiratory distress syndrome, drug induced lung toxicity, pathogenesis of COPD, asthma, cancer and ageing. The precise role of free radicals among other mechanisms of lung injury is still unclear. A better knowledge of free radicals mechanisms of toxicity and of antioxidant regulation is needed to develop antioxidant therapeutic strategies.
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PMID:[Free radicals and respiratory pathology]. 773 56

The authors prepared an experimental animal model of ischemia and reperfusion of the limbs to evaluate in vivo the reactive oxygen species involvement and protective role of coenzyme Q10 in reperfusion injury. A group of male rabbits (untreated group) underwent clamping of abdominal aorta for 3 hr and then declamping; at intervals blood sampling was drawn for coenzyme Q10, vitamin E, lactic acid and creatine kinase assays. Another group of male rabbits (treated group) underwent the same ischemia period but before declamping coenzyme Q10 was administered intra aorta. In untreated group, coenzyme Q10 and vitamin E plasma levels decreased while lactic acid and creatine kinase plasma levels increased during reperfusion. These data demonstrate that, after only 3 hr of ischemia, the extremities show a biochemical reperfusion injury, and this involves an increased consumption of antioxidants such as coenzyme Q10 and vitamin E. In the treated group, the increase of creatine kinase plasma levels during reperfusion was not significant, while the decrease in vitamin E was more marked.
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PMID:Protective role in vivo of coenzyme Q10 during reperfusion of ischemic limbs. 775 29


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