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)

In this study, we examined the effects of oxidative stress adaptation on myocardial ischemic reperfusion injury. Oxidative stress was induced by injecting endotoxin (0.5 mg/kg) into the rat. After 24 h, rats were killed, hearts were isolated, and the effects of ischemia-reperfusion were studied using an isolated working heart preparation. The development of oxidative stress was examined by assessing malonaldehyde production in the heart. The antioxidant defense system was studied by estimating antioxidant enzyme activities and ascorbate- as well as thiol-dependent antioxidant reserve. The results of our study indicated that endotoxin induced oxidative stress within 1 h of treatment; the stress was reduced progressively and steadily up to 24 h. The antioxidant enzymes superoxide dismutase, catalase, glutathione (GSH) peroxidase, and GSH reductase were lowered up to 2 h and then increased. Both thiol- and ascorbate-dependent antioxidant reserve were enhanced, but the enhancement of the former was only transitory. After 24 h, endotoxin provided adequate protection to the heart from the ischemic-reperfusion injury, as evidenced by improved left ventricular function and aortic flow. Our results suggest that the induction of oxidative stress by endotoxin-induced adaptive modification of the antioxidant defense in the heart, thereby reducing ischemic-reperfusion injury.
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PMID:Myocardial adaptation to ischemia by oxidative stress induced by endotoxin. 748 60

This study investigated the correlation between in vivo serial T2-weighted magnetic resonance (MR) imaging and changes in superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) activities, and water, sodium ion (Na+), and potassium ion (K+) contents measured in vitro using rat brain following right middle cerebral artery occlusion in conjunction with bilateral common carotid artery (CCA) occlusion. One hour later the left CCA was released. Serial MR images showed edema developed from the outer cortex towards the center. The T2 signal intensity of the injured right cortex increased with time compared to that of the contralateral cortex. Increased Na+ and water and decreased K+ contents occurred in the injured cortex, indicating that serial T2-weighted MR imaging reflects the changes in water content and Na+ and K+ concentrations determined by biochemical techniques. GSH-Px activity was little changed. Total SOD in the injured cortex decreased 1 hour after ischemia and remained low throughout the experiment. In contrast, SOD activity in the noninfarcted left cortex also decreased after 1 hour but returned to normal after 2 hours of ischemia. Our results suggest that oxygen free radicals are important in developing ischemic brain edema and cerebral infarction.
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PMID:Reduction of superoxide dismutase activity correlates with visualization of edema by T2-weighted MR imaging in focal ischemic rat brain. 751 45

We investigated the role of bradykinin (BK) in cardioprotection elicited by angiotensin-converting enzyme (ACE) inhibition is isolated guinea pig heart performing pressure-volume work. Cardiac output (CO), coronary blood flow (CBF), and external heart work (EHW) were determined before and after ischemia and reperfusion (15 min each). Furthermore, the glutathione (GSH) content of hearts and the release of glutathione in coronary venous effluent were measured, as was lactate production. Addition of the ACE-inhibitor ramiprilat (RT) to the perfusate throughout the experiment improved postischemic function significantly (55% recovery of EHW for 25 microM RT vs. 30% for controls). RT was cardioprotective even if only given at onset of reperfusion (50% recovery). BK (0.1 and 1 nM) was similarly beneficial (55 and 76% recovery of EHW, respectively). The BK2-receptor antagonist HOE 140 (10 nM) inhibited the RT effect and attenuated the effect of 1 nM BK. Total CBF during reperfusion, lactate production, intracellular levels of GSH, and release of oxidized GSH (GSSG) did not differ among the groups. In contrast, release of reduced GSH during the first 5 min of reperfusion was considerably influenced by pharmacologic intervention, correlating inversely with postischemic heart function. Coapplication of Hoe 140 prevented the changes in GSH release. Our results demonstrate that BK, formed endogenously in the heart, is responsible for cardioprotection by the ACE inhibitor RT in isolated guinea pig heart and decreases GSH release during reperfusion. The exact mechanisms leading to hemodynamic improvement and metabolic changes by BK remain unclear.
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PMID:Bradykinin accounts for improved postischemic function and decreased glutathione release of guinea pig heart treated with the angiotensin-converting enzyme inhibitor ramiprilat. 751 15

The status of glutathione (GSH) and protein thiol homeostasis was examined in rat brain regions during reperfusion after moderate and severe cerebral ischemia. GSH levels were decreased in brain regions during reperfusion for 1 hr after moderate or severe ischemia for 0.5 hr. Maximal loss of GSH (50-66%) was observed in the striatum and hippocampus. The GSH lost from the brain regions was essentially recovered as protein-glutathione mixed disulfide (PrSSG) with concomitant loss of protein thiols (PrSH). The activities of enzymes such as Na+K+ ATPase, NADH dehydrogenase and glutathione reductase were also inhibited but were restored after incubation of the brain homogenate with dithiothreitol. The depletion of GSH was also accompanied by an increase in the levels of malondialdehyde and reactive oxygen species. The total GSH recovered as sum of GSH and PrSSG was significantly higher than the sham-operated controls in the hippocampus and striatum after 1 hr of reperfusion, after moderate ischemia for 0.5 hr, and at the end of 24 hr of reperfusion the GSH-protein thiol homeostasis was restored. In contrast after 1 hr of reperfusion after severe ischemia, the GSH recovered as sum of GSH and PrSSG was not significantly different from sham-operated controls and at the end of 24 hr, 7 of 9 animals died. The recuperation of the brain from oxidative stress during reperfusion after moderate ischemia was thus preceded by increased recovery of total GSH essentially in the form of PrSSG. Thus, rapid restoration of thiol homeostasis in the brain during reperfusion may help the brain recover from reperfusion injury.
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PMID:Glutathione and protein thiol homeostasis in brain during reperfusion after cerebral ischemia. 756 84

Ascorbate and glutathione (GSH) are the primary water-soluble antioxidants in the CNS. Oxidative stress, sometimes indicated by loss of these antioxidants, has been linked to several clinical and experimental conditions, including cerebral ischemia. These conditions are also gender-linked, with greater incidence or severity in males than females. To test whether there are gender differences in oxidant/antioxidant regulation, we determined basal levels of ascorbate and GSH in rat brain and their loss after 1 h decapitation ischemia. We found that ascorbate levels in male rat brain were 7-10% higher than in females, depending on region, whereas GSH levels were gender-independent. Significant ascorbate loss (up to 12%) occurred in males during ischemia, with a regional pattern of cerebellum > hippocampus > prefrontal cortex. Loss of ascorbate in females was not significant in any region. By contrast, loss of GSH was significant in both males and females. Greater loss of GSH than ascorbate was in agreement with previous studies and was consistent with loss from enzymatic degradation, as well as oxidation. The significant gender difference in ascorbate loss, as a marker of oxidative stress, supports the hypothesis that inherent differences in oxidant/antioxidant regulation contribute to gender differences in response to ischemia and other pathological conditions.
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PMID:Gender differences in cerebral ascorbate levels and ascorbate loss in ischemia. 757 30

Glutathione serves as an important intracellular defence against reactive oxygen metabolites and has been shown to be depleted from a number of tissues upon oxidative stress. In the present study we have investigated the levels of total glutathione (reduced + oxidized) in skeletal muscle of the rat after prolonged ischemia and reperfusion with and without treatment with hyperbaric oxygen (HBO) for the initial 45 minutes immediately following reperfusion. A tourniquet model for temporary, total ischemia was used, in which one hind leg was made ischemic for 3 or 4 hours. Muscle biopsies were taken after 5 hours of reperfusion. In postischemic muscle there was a significant decrease of total glutathione compared to control muscle, but in the 3-hour-ischemia-groups the loss of total glutathione was less in HBO treated animals than in untreated. HBO treatment also preserved ATP and PCr and decreased edema formation in the postischemic muscle following 3 hours of ischemia and reperfusion when compared to untreated animals. However, after 4 hours of ischemia, HBO treatment failed to improve any of these parameters in the postischemic muscle. Thus, our results demonstrate that HBO treatment lessens the metabolic, ischemic derangements and improves recovery in postischemic muscle after 3 hours of ischemia followed by reperfusion.
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PMID:Hyperbaric oxygen treatment attenuates glutathione depletion and improves metabolic restitution in postischemic skeletal muscle. 758 15

Protective effects of a perfluorooctylbromide emulsion on myocardial ischemia and reperfusion (MI/R) injury were evaluated in a modified Langendorff rat heart preparation. Isolated rat hearts were equilibrated in Krebs-Henseleit solution (KH) for 35 minutes and perfused with either cardioplegic solution (CPS) or a 100% perfluorooctylbromide (PFOB) emulsion in CPS for 3 minutes. Hearts were then bathed in the emulsion or CPS. Both groups were subjected to 30 minutes of ischemia. Following 30 minutes of ischemia and 30 minutes of reperfusion with KH solution, hearts subjected to the 100% PFOB emulsion showed improved recovery of left ventricular function. Tissue activities of the antioxidant enzymes glutathione peroxidase, superoxide dismutase, and catalase were not affected by the emulsion in this model. Activity of lactate dehydrogenase (LDH) in the bathing medium was elevated at the end of the experimental period in both control and PFOB-treated hearts. The PFOB emulsion reduced the decline in ATP and GSH levels produced by cardioplegia and subsequent reperfusion. No differences were noted in oxidized glutathione (GSSG) levels. These data suggest that the PFOB emulsion provides some protection for the myocardium against injury associated with cardioplegia.
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PMID:Effects of a 100% perfluorooctylbromide emulsion on ischemia/reperfusion injury following cardioplegia. 758 37

Rat livers were orthotopically transplanted after 90-min cold ischemia (group 1) or after 20-min warm and 70-min cold ischemia without (group 2) or with (group 3) allopurinol treatment (AT) (50 mg/kg i.v. 10 min prior to warm ischemia into the donor, flush perfusates with 1 mmol/l). Recovery processes were followed up for 60 min of reperfusion. Liver tissue levels of ATP and total adenine nucleotides were restored in group 1 to almost preischemic ranges within 15-30 min, remained significantly reduced by 30 and 20%, respectively, in group 2, and recovered with AT within 60 min in group 3 to almost the same extent as in group 1. A massive increase in the tissue malondialdehyde concentration, indicative of lipid peroxidation, occurred in the beginning of reperfusion of warm-ischemically damaged donor livers, which in group 3 with AT tended to be less pronounced than in group 2 without AT. The GSSG/GSH ratio reflecting intracellular oxidant stress averaged 3.3 x 10(-3) in group 1 between 15 and 60 min reperfusion. In group 3 AT resulted in comparably low values averaging 3.8 x 10(-3), while in warm-ischemically damaged livers without AT of group 2 this ratio was significantly and continuously elevated averaging 5.8 x 10(-3).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Allopurinol effects in rat liver transplantation on recovery of energy metabolism and free radical-induced damage. 758 99

Deficiency of the amino acid taurine is implicated in various pathologic states of the heart. Besides other effects, taurine has been proposed to be an antioxidant. However, its benefit under conditions associated with the generation of reactive oxygen species in the heart has not been clearly demonstrated. To assess the potential of taurine to influence neutrophil-dependent reperfusion injury, a model was developed based on the isolated working guinea pig heart. After an initial work phase, hearts were subjected to 15 min of global ischemia. Reperfusion, in a nonworking mode, was carried out in the absence or presence of homologous neutrophils (PMN) and/or taurine. After 15 min, work was resumed and percentage recovery of function was determined another 20 min later. During the reperfusion phase, coronary venous effluent was collected to quantify release of lactate and glutathione, markers of ischemic challenge and redox-stress, respectively. Furthermore, direct effects of taurine on radical formation were investigated in a chemiluminescence assay. Control hearts without application of PMN or taurine had a postischemic recovery of external heart work (EHW) of 76%, in the presence of taurine (15 mM) recovery was 72%. The application of PMN for merely the first minute of reperfusion led to a significant decrease in recovery to 30%, PMN having no effect without a foregoing ischemia. When taurine was additionally applied during reperfusion, EHW recovered to 60%. Release of lactate and of oxidized glutathione (GSSG) did not differ between the groups. In contrast, effluent concentrations of reduced glutathione (GSH) were considerably elevated by the presence of PMN in the sample and remained high even after PMN-washout. Taurine tended to attenuate this PMN effect. At the 5th and 10th min of reperfusion, GSH release of individual hearts correlated inversely with postischemic recovery of EHW. Surprisingly, taurine, by itself, did not significantly alter glutathione release. However, taurine (15 mM) markedly reduced luminol-dependent chemiluminescence elicited by activated guinea pig PMN as well as by chemically generated hypochlorous acid and hydroxyl radicals, but not superoxide radicals. Our results demonstrate that taurine protects the heart from PMN-induced reperfusion injury and oxidative stress. Because respiratory burst activity of PMN was also significantly reduced in the presence of taurine, the beneficial effect appears to be mediated by antioxidative properties of taurine.
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PMID:Taurine protects the heart from neutrophil-induced reperfusion injury. 759 Mar 95

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

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