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)

The ability of stobadine (ST) to prevent lipid peroxidation was tested in incomplete rat cerebral ischemia induced by 4 hour ligation of the common carotid arteries with a subsequent 10 min reperfusion. The extent of lipid peroxidation was determined by the measurement of the level of conjugated dienes (CD) and thiobarbituric acid reactive substances (TBARS). The levels of CD and TBARS were significantly elevated in brain cortex samples from animals subjected to ischemia followed by reoxygenation in comparison with ischemic samples without reperfusion, samples from sham operated or control animals. The concentration of CD and TBARS significantly decreased in animals treated with therapeutic doses of ST (2 mg/kg) administered i.v. immediately before reperfusion or 10 min after the onset of reperfusion. Stobadine was more effective than the known lipid antioxidant vitamin E, given in a dose of 30 mg/kg.day i.m. over 3 consecutive days prior to ischemia. The beneficial effect of ST on survival of rats was more effective in comparison with vitamin E. Significant changes were found in the activities of the antioxidative enzymes, i.e. increase in superoxide dismutase (SOD) and decrease in glutathione peroxidase (GP) in brain cortex samples from animals subjected to ischemia followed by reoxygenation. Stobadine prevented these changes. Catalase (CAT) activity was not detectable. It may be concluded from the increased SOD activity that oxygen radicals play a significant role in cerebral ischemia followed reperfusion. In addition to its antioxidant effect, stobadine probably prevents superoxide radical generation. The mechanism of xanthine oxidase inhibition is not involved in preventing superoxide radical generation by stobadine. Stobadine maintained high GP activity, probably by preventing glutathione oxidation.
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PMID:Effect of stobadine on brain lipid peroxidation induced by incomplete ischemia and subsequent reperfusion. 178 73

Interventional studies yielded conflicting results on reperfusion injury. They are unable to discriminate between lesions due to ischemia or to additional damage during reoxygenation. Since reactive oxygen metabolites have been implicated as a major cause of reperfusion injury, 375 nmol/min of hydrogen peroxide was infused in a Langendorff rat heart preparation as a model of oxidant stress without previous ischemic contractile dysfunction. Impaired endogenous defense was remodeled, using selenium-deficient hearts with reduced glutathione peroxidase activity. Measurements of hemodynamic parameters demonstrate increased myocardial susceptibility to oxidant stress in hearts with decreased antioxidant defense. Defined concentrations of hydrogen peroxide produce isolated impairment of active and passive diastolic properties of the ventricle in this model.
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PMID:Selenium as a protector of diastolic function during oxidant stress. 182 15

It has been suggested that the sudden presence of oxygen during reperfusion after a period of ischemia may be toxic for the myocardial cell. The oxygen molecule is capable of producing reactions in the cell, forming highly reactive free radicals, and inducing lipid peroxidation of membranes, altering their integrity and increasing their fluidity and permeability. The ischemic and reperfused cardiac cell is the prime candidate for this reaction sequence and may explain the molecular mechanism underlying the pathologic events related to membrane dysfunction and calcium homeostasis. However, the myocardium has a series of defense mechanisms including the enzymes superoxide dismutase (SOD), catalase, and glutathione peroxidase plus other endogenous antioxidants such as vitamin E, ascorbic acid, and cysteine to protect the cell against the cytotoxic oxygen metabolites. The prerequisite for oxygen free radical involvement in ischemia and reperfusion damage is that ischemia alters the defense mechanisms against oxygen toxicity. It is known that ischemia may impair mitochondrial SOD and, with reperfusion, oxidative stress may occur as shown by tissue accumulation and release of oxidized glutathione. This tripeptide molecule in the cofactor of glutathione peroxidase, the enzyme that removes hydrogen and lipid peroxides. Its formation and subsequent release is a reliable index of oxidative damage. In our study, we investigated the effects of N-acetylcysteine on oxidative damage in the isolated rabbit heart. N-acetylcysteine increases, in a dose-dependent manner (from 10(-7) to 10(-5) M), the myocardial glutathione content and provides an important degree of protection against ischemia and reperfusion. Oxidative stress does not occur, mitochondrial function is maintained, enzyme release is reduced, and contractile recovery is increased. Similarly, we administered N-acetylcysteine in the pulmonary artery of coronary artery disease patients undergoing coronary bypass grafting (150 mg/kg in 1 hour followed by 150 mg/kg in 4 hours). The degree of oxidative stress on reperfusion was reduced and recovery of cardiac function improved. In this article, we review the cardioprotective role of thiol-containing agents.
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PMID:Oxygen free radicals and myocardial damage: protective role of thiol-containing agents. 192 19

A trace element selenium (Se) is an integral component of glutathione peroxidase (GSHPx) which is one of the important free radical scavenger. We previously reported that serum Se level and serum and myocardial GSHPx activities were significantly lower in infant rats than adult ones. Exactly the same conditions were made by feeding Se-deficient diet for 8 weeks in Wistar rats. Vulnerability to ischemic injury was tested using these Se-deficient rats. Wistar rats fed a commercial laboratory ration were used as a control. Isolated hearts were perfused aerobically with Krebs-Henseleit solution in the Langendorff mode for 15 minutes followed by coronary perfusion with St. Thomas Hospital cardioplegic solution. The hearts were subjected to 60 minutes global ischemia at 4 degrees C. The hearts were reperfused for 30 minutes in working mode, and aortic pressure, LV pressure, LV max dp/dt, coronary flow and aortic flow were measured. In Se-deficient rats aortic pressure (58.5 +/- 1.9 versus 77.3 +/- 8.5 mmHg, p less than 0.01), LV max dp/dt (2023 +/- 153 versus 2722 +/- 513 mmHg/sec, p less than 0.05), aortic flow (8.7 +/- 2.7 versus 17.0 +/- 2.5 ml/g wet wt., p less than 0.01), cardiac output (17.0 +/- 4.6 versus 24.6 +/- 2.0 ml/g wet wt., p less than 0.05) and stroke volume (67.5 +/- 11.6 versus 95.6 +/- 9.8 microliters/g wet wt., p less than 0.01) were significantly inferior to control rats. Then the hearts were iced instantly by fluid nitrogen and myocardial thiobarbituric acid reactive substance (TBARS) level was measured.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Significance of selenium deficiency on myocardial protection of the mature and immature rat hearts]. 196 Apr 31

We examined the effects of dietary deficiency of vitamin E and selenium on the ischemia-reperfusion model of renal injury in the rat. Deficient diets imposed for six weeks on three-week-old weanling rats led to no significant differences in body weights, serum creatinine, GFR, RBF, TmPAH or urinary total protein excretory rates prior to ischemia. Twenty-four hours after one hour of ischemia, animals on the deficient diet demonstrated more markedly impaired GFR, RBF, TmPAH and urine to plasma creatinine concentrations and an increased renal failure index. Tubular damage was more severe injury in the deficient animals. Lipid peroxidation, 15 minutes after the release of the ischemic clamp, was increased in the deficient animals. We confirmed the effects of our dietary manipulation in impairing the oxidant scavenging system in the deficient animals since glutathione peroxidase activity was reduced to less than 5% in the basal state, and this striking reduction persisted following ischemia. Plasma vitamin E concentrations were also markedly depressed in the deficient diets. This dietary deficiency also worsened the course of acute renal injury and was accompanied by 50% mortality compared to 0% mortality in the control animals. Thus, dietary deficiency of vitamin E and selenium led to greater structural and functional renal impairment and increased lipid peroxidation following ischemia. These data provide support for the role of reactive oxygen species in mediating ischemia-reperfusion injury.
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PMID:Dietary deficiency of antioxidants exacerbates ischemic injury in the rat kidney. 207 54

Protective effects of ionol, o-benzoquinone-2 and ascorbic acid, their influence on the activity of antioxidative enzymes, the level of diene conjugates (DC) and of recovered glutathione in the mitochondrial fraction in the case of ischemic and reperfusion injury of the brain have been investigated. An increase in the activity of the antioxidative system enzymes during the post-ischemic period induced probably by the accumulated products of lipid peroxidation is shown: glutathione peroxidase (EC 1.11.1.9)--by 159%, glutathione reductase (EC 1.6.4.2)--by 26%, catalase (EC 1.11.1.6)--by 79%. This effect was not observed after introduction of antioxidants lowering the DC-level. It is concluded that antihypoxic action of the investigated antioxidants providing the survival of animals not only after the 5 min total circulatory ischemia but also after the 15 min one is caused by their antiradical properties and is not connected with stimulation of activity of enzymes supporting peroxidative homeostasis.
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PMID:[Effect of antioxidants on the status of the antioxidative system in cerebral ischemia and reperfusion injury]. 208 87

Reactive oxygen metabolites have been implicated as important mediators of inflammation-induced intestinal injury associated with ischemia (and reperfusion), radiation, and inflammatory bowel disease. Because the colonic mucosa may be subjected to significant oxidant stress during times of acute and chronic inflammation, knowledge of the oxidant defense mechanisms in the colon is of biologic and potential clinical importance. Therefore, the objective of this study was to quantify the specific activities of superoxide dismutase (SOD), catalase, and GSH peroxidase in the normal human colon. We found low, but significant, amounts of all three enzymes in the mucosa, submucosa, and muscularis/serosa of the human colon. However, the mucosal, levels of SOD (3.6 +/- 0.3 units/mg protein), catalase (11 +/- 3 units/mg), and GSH peroxidase (15.2 +/- 0.8 mU/mg) represented only 8%, 4%, and 40%, respectively, of those values determined for human liver. Colonic epithelial cells derived from mucosal biopsies exhibited significantly higher specific activities for SOD (12 +/- 0.5 units/mg) and catalase (26 +/- 6 units/mg) when compared to whole mucosa, suggesting most of the mucosal activity was associated with the epithelial cells and not the lamina propria. In a comparative study, we found that a human colonic carcinoma cell line (CaCo-2) contained significantly lower SOD (6 +/- 0.5 units/mg) and catalase (6 +/- 0.6 units/mg) activities when compared to colonic epithelial cells. Taken together, our data suggest that: (1) the colonic mucosa is relatively deficient in antioxidant enzymes when compared to liver, and (2) most of the protective enzyme activity is localized within the epithelium and not the mucosal interstitium.
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PMID:Oxidant defense mechanisms in the human colon. 209 May 86

The role of lipid peroxidation and endogenous oxygen-derived free radical scavengers on ischemia-reperfusion injury and tissue recovery in rat ulcer model corresponding to the gastric histopathology was investigated. Male Wistar rats weighting 200-250 g were heparinized before occlusion of the celiac axis for 1.5 h. Endogenous CuZn-superoxide dismutase (SOD), Mn-SOD, glutathione peroxidase, fumarase, cytochrome c oxidase, and thiobarbituric acid-reactive compounds as lipid peroxidation products were measured in the gastric tissue at 3 h, and 1, 2, 4, and 7 days after release and in the controls (no occlusion). At 3 h after release, erosion of the gastric mucosa was observed, and gastric ulcers beyond the muscularis mucosae were present in the gastric body 2 days later. Seven days after release, gastric ulcers had disappeared. Activity levels for all five enzymes (CuZn-SOD, Mn-SOD, glutathione peroxidase, fumarase, and cytochrome c oxidase) were low for days 1-4 after release and did not return to control levels by the seventh day. It was observed that the ulcer formation, as evidenced by the histopathology, was significantly related to the levels of endogenous CuZn-SOD, Mn-SOD, glutathione peroxidase, fumarase, and cytochrome c oxidase activities. Thiobarbituric acid-reactive compounds were also low through the entire course of ulcer formation. The study concludes that decreases in the levels of these oxygen-derived free radical scavengers may result in the formation of gastric ulcers; however, endogenous free-radical scavengers may not correspond with tissue recovery. Lipid peroxidation may not be related to ulcer formation.
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PMID:The role of endogenous free radical scavengers on tissue recovery in the experimental ulcer model. 217 May

Efforts to reduce reperfusion injury have focused on exogenous therapies; however, endogenous attenuation of reperfusion injury can be induced by a single sublethal dose of endotoxin (ETX) prior to ischemia. The purposes of this study were to investigate (i) the early neutrophil-endothelial (PMN-EC) adherence, (ii) the associated myocardial oxidant stress, (iii) the relationship of oxidant stress to antioxidant enzyme activity, and (iv) the correlation of increased antioxidant enzyme activity to myocardial recovery following ischemia/reperfusion (I-R) injury at 36 hr. Rats were administered a sublethal dose (2% of LD50) of endotoxin (500 micrograms/kg, ip, Salmonella typhimurium). At 6 hr, myocardial neutrophil accumulation (histology), hydrogen peroxide (H2O2) levels, and myocardial tissue glutathione (glutathione and oxidized glutathione) levels were determined. At 24 hr myocardial tissue glutathione levels and catalase (CAT) activity were assayed. At 36 hr, myocardial tissue superoxide dismutase, glutathione peroxidase, glutathione reductase, catalase, and glucose-6-phosphate dehydrogenase (G-6-PD) were assayed. At 36 hr, hearts were subjected to a standard (20 min, global, 37 degrees C) ischemic insult followed by reperfusion. At 40 min of reperfusion, ventricular function was assessed (ventricular balloon; ventricular developed pressure +dP/dt, and -dP/dt).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Induction of endogenous tissue antioxidant enzyme activity attenuates myocardial reperfusion injury. 219 33

We have previously demonstrated that induction of the heat-shock response in rats results in improved recovery of isolated Langendorff-perfused rat hearts subjected to low-flow ischemia followed by reperfusion (Currie et al., 1988). The mechanisms underlying this protective effect of heat-shock are uncertain although the protection was associated with enhanced content of the antioxidant enzyme catalase but not superoxide dismutase or glutathione peroxidase (Currie et al., 1988). Various investigators have suggested the importance of improved energy metabolism in determining recovery following ischemia (Pasque and Wechsler, 1984; Haas et al., 1984; Devous and Lewandowski, 1987). We therefore examined, using a working rat heart model subjected to 10 or 15 min zero flow ischemia whether changes in energy metabolites could account for the protective effect of the heat-shock response. Hearts perfused 24 h after induction of heat-shock failed to demonstrate significant improvement of recovery following 10 min ischemia, however recovery was significantly enhanced in hearts reperfused after 15 min ischemia. Ischemia produced a depression in both ATP and creatine phosphate (CP) content whereas a moderate elevation in ADP and AMP and a marked increase in tissue lactate were evident. These changes were unaffected by prior heat-shock treatment. For both durations of ischemia tissue metabolites were determined during early (5 min) and late (30 min) reperfusion. Although partial recovery in high energy phosphates and a return of ADP, AMP and lactate to near-normal levels were evident, no differences in energy products were observed between hearts from normal or heat-shocked animals, in spite of significantly enhanced recovery.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Improved post-ischemic ventricular recovery in the absence of changes in energy metabolism in working rat hearts following heat-shock. 223 33

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