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)

The visibility of ATP and ADP to NMR was studied by comparing simultaneous measurements of freeze-trapped tissue sections from perfused rat liver under normoxia and ischemia using a modified 31P-cryo-NMR method and biochemical assay. The 31P-cryo-NMR method provides good time resolution and allows the quantitation of absolute metabolite concentrations. Prior to 31P-cryo-NMR measurements, freeze-trapped tissues were thawed in the presence of cryoprotectant and EDTA. With this sample preparation procedure, the integrity of the plasma and mitochondrial membranes was not maintained, inducing homogeneous microviscosity and chelation of intracellular divalent cations, thereby increasing the visibility of metabolites compared to the in vivo NMR measurement. With ischemic stress, total cellular ATP concentration decreased significantly (P less than 0.001). While ADP concentrations measured by cryo-NMR and biochemical analysis were consistent during normoxia and ischemia, ATP concentrations measured by cryo-NMR were significantly lower (P less than 0.05) than those obtained by biochemical analysis. The amount of invisible ATP (0.42 +/- 0.10 mumol/g wet weight: mean +/- S.E.) did not change after the induction of ischemia. The results of this study suggest that ATP invisibility to cryo-NMR is not due to compartmentation into regions of high paramagnetic ion concentrations or high microviscosity, but is influenced by other factors.
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PMID:Visibility of ATP and ADP in freeze-trapped tissue from perfused rat liver during normoxia and ischemia using 31P-cryo-NMR. 206 82

Allopurinol and its metabolite oxypurinol inhibited basal oxidation of ascorbate and exerted comparable concentration-dependent inhibitory effects on the oxidation of ascorbate catalysed by cupric ion, but the stimulation produced by ferric ion was affected minimally. UV spectral analysis suggested the formation of an allopurinol-ascorbate-copper ion complex. The oxidation of erythrocyte membrane lipids by ferric ion and cupric ion-t-butylhydroperoxide was also inhibited by allopurinol and oxypurinol, by the metal chelators EDTA and uric acid, and by the antioxidant butylated hydroxytoluene. The metal chelating actions of allopurinol and oxypurinol may be relevant to their protective actions against ischemia/reperfusion injury.
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PMID:Inhibition of transition metal ion-catalysed ascorbate oxidation and lipid peroxidation by allopurinol and oxypurinol. 211 56

Reactive oxygen metabolites have been implicated in the pathogenesis of mucosal injury induced by ischemia-reperfusion in adult animals, with recent interest centering on the capacity of polymorphonuclear neutrophil-derived oxidants to mediate this injury. A role for oxidants has also been postulated in the etiology of neonatal necrotizing enterocolitis. Based on evidence that the intrinsic capacity of the neonatal piglet intestine to detoxify hydrogen peroxide (H2O2) is minimal relative to that of older piglets, we characterized the changes in mucosal permeability induced by luminal perfusion with H2O2 and hypochlorous acid at concentrations that can be produced physiologically by activated neutrophils (0.05 mmol/L, 0.1 mmol/L, and 0.5 mmol/L), in the distal ileum of 1-d- and 1-mo-old piglets. Mucosal permeability was quantitated by measurement of blood-to-lumen clearance of 51-labeled chromium EDTA. Luminal perfusion with either H2O2 (0.05 mmol/L and 0.1 mmol/L) or hypochlorous acid (0.1 mmol/L and 0.5 mmol/L) significantly increased mucosal permeability in newborn piglets but did not affect mucosal permeability in 1-mo-old animals. Perfusion with 0.5 mmol/L H2O2 significantly increased mucosal permeability over control values in both age groups, but injury in the newborn intestine was significantly greater than that observed in 1-mo-old animals. Thus, as predicted by the reduced intrinsic capacity of the mucosa of neonatal piglets to detoxify H2O2, the ileum of newborn piglets is more vulnerable to oxidant-induced mucosal injury than is the ileum of older animals.
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PMID:Oxidant-induced increases in mucosal permeability in developing piglets. 216 84

To quantitate the formation of hydroxyl radicals (HO.) in ischemia and reoxygenation, dimethyl sulfoxide (DMSO) was added to "trap" evolving HO. in normal, in ischemic, and in ischemic and reoxygenated rat kidney slices, incubated in short-term organ culture in vitro. Hydroxyl radical generation was measured as the accumulation of the specific product of DMSO oxidation by HO., methane sulfinic acid (MSA) in the kidney tissue and surrounding medium using a new colorimetric assay. A mean difference of 7 nmol cumulative HO./gram tissue was detected in rat kidney slices subjected to ischemia and reoxygenation. This amount of HO. generation was not significantly greater than that found in nonischemic or in ischemic but not reoxygenated control tissues, and does not appear to represent the highly toxic burst of HO. radicals implied in current theoretical discussions of reperfusion injury. However, the addition of EDTA chelated iron (1:1) to the incubation medium led to marked postischemic HO. generation. We conclude that clearly toxic numbers of HO. radicals are not formed during reoxygenation in rat kidney slices, either because there is insufficient iron, because only a small fraction of cells in the kidney tissue make oxygen radicals, or because cellular defenses against HO. formation are more powerful than currently appreciated.
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PMID:Hydroxyl radical generation by postischemic rat kidney slices in vitro. 217 Feb 47

Survival of V-79 Chinese hamster cells was assessed by colony growth assay after hypothermic exposure in the presence of iron chelators. At 5 degrees C, maximum protection from hypothermic damage was achieved with a 50 microM concentration of the intracellular ferric iron chelator Desferal. A 3-hr prehypothermic incubation with 50 microM Desferal followed by replacement with chelator-free medium at 5 degrees C also provided some protection. This was not observed when the extracellular chelator DETA-PAC (50 microM) was used prior to cold storage. Treating 5 degrees C-stored cells with Desferal just prior to rewarming was ineffective, but treating cells with Desferal during hypothermia exposure after a significant period of unprotected cold exposure ultimately increased the surviving fraction. Submaximal protection during hypothermia was achieved to various degrees with extracellular chelators at 5 degrees C, including 50 microM DETAPAC and 110 microM EDTA. EGTA (110 microM) had little effect. The sensitization of cells at 5 degrees C with 200 microM FeCl3 could be reduced or eliminated with Desferal in accordance with a 1:1 binding ratio. At 10 degrees C, 50 microM Desferal, 50 microM DETAPAC, and 110 microM EDTA were as or less effective in protecting cells than at 5 degrees C. An Arrhenius plot of cell inactivation rates shows a break at 7-8 degrees C, corresponding to maximum survival for control cells and cells in 50 microM Desferal; however, the amount of protection offered by the chelator increases with decreasing temperature below about 19 degrees C, and sensitization increases above that point. It has not previously been shown that iron chelators protect against cellular hypothermia damage which is uncomplicated by previous or simultaneous ischemia. This may be relevant to the low-temperature storage of transplant organs, in which iron of intracellular origin and in the perfusate may be active and damaging.
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PMID:Factors influencing survival of mammalian cells exposed to hypothermia. IV. Effects of iron chelation. 239 29

The potential therapeutic value of the chemically stable carbacyclin analogue iloprost on the course of postischemic acute renal failure was studied in six conscious chronically instrumented dogs and compared with five controls. Immediately after temporary ischemia (180-min cessation of blood flow by inflation of a pneumatic cuff), the investigational group PC received a continuous intraaortal infusion of iloprost (50 ng X min-1 X kg-1) over a period of seven days, whereas the control group C received 0.9% saline. The glomerular filtration rate [( 51Cr]EDTA clearance, endogenous creatinine clearance) was less decreased in the prostacyclin analogue group than in the control group [3rd day, 18 +/- 2.5 vs. 12 +/- 1 ml X min-1 (p less than 0.05); 7th day, 23 +/- 3 vs. 12 +/- 2 ml X min-1 (p less than 0.05)]. On day 1, renal blood flow (electromagnetic flow probe) was markedly lower in the control group (129 +/- 29 ml X min-1) than in the PC group (212 +/- 29 ml X min-1; p less than 0.05), even exceeding baseline levels in the latter group. Accordingly, the excessive rise in renal vascular resistance in the control group (+136%) was abolished in the PC group (-32%; p less than 0.01). Nitrogen retention was also markedly improved. Osmolar clearance was markedly lower in the control group (0.58 +/- 0.2 ml X min-1) than in the PC group (1.41 +/- 0.17 ml X min-1; p less than 0.05). It is suggested that the beneficial effect of iloprost is mediated by preservation of renal perfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Amelioration of postischemic acute renal failure by prostacyclin analogue (iloprost): long-term studies with chronically instrumented conscious dogs. 242 19

Perturbation of the cerebral circulation by occlusion of the vertebral arteries and a carotid artery can be visualized by using MR imaging and the intravascular contrast agent Gd-DTPA complexed to albumin. This tracer consistently reduced the T1 relaxation time in the brain and blood. The difference between hemispheres was revealed by less T1 reduction in the occluded hemisphere and by an adjustment in the display contrast of images that revealed the territory of decreased perfusion. These results were confirmed by comparing them with cerebral blood flow using radioactive microspheres and the intravascular blood volume tracer 51Cr-EDTA. This method, combined with high-resolution MR imaging, can be applied to serial noninvasive studies of cerebral blood volume in ischemia and other conditions.
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PMID:Cerebral blood volume in a rat model of ischemia by MR imaging at 4.7 T. 249 53

Normothermic, 3 min lasting perfusion of isolated rat heart with Krebs-Ringer-Henseleit solution in which Ca was replaced by EDTA, followed by successive perfusion of Ca2+ containing medium resulted in structural and metabolic derangement of myocardial cells; this could be demonstrated electronmicroscopically and histochemically. Unlike in ischemia, Ca paradox left the enzymes LDH, SDH, beta-HBDH as well as alpha-glucan phosphorylase and ATP-ases better preserved in the subendocardial layer of the left ventricle. Ultrastructural analysis of this phenomenon showed good correlations with the histochemical findings. A large portion of cardiomyocytes in the subendocardial layer showed only slight changes. On the other hand, myocytes in the subepicardial layer were severely injured and all characteristics of the calcium paradox were present including hypercontraction bands with fusion of myofilaments, extrusion and accumulation of oedematous mitochondria containing electron dense material intracristally, sarcolemmal ruptures, separation of intercalated discs etc. The better preservation of the subendocardial region in experiments with calcium paradox could be explained by inadequate perfusion of this layer with Ca2+ free medium due to transmural anatomical inhomogeneity of the capillary supply, resulting in a better protection of these myocytes from Ca paradox. The heterogeneity in transmural distribution of injuries is a multifactorial phenomenon. In addition to factors such as intramural pressure gradient, transmural pressure, enddiastolic intraventricular pressure etc., the most important factors in both types of injuries should be regarded the amount of vascular supply, blood flow and perfusate volume.
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PMID:Differences in transmural distribution of cardiomyocyte injury Ca paradox versus postischemic reperfusion phenomenon. 249 17

Lactobionic acid, a major constituent of a solution used to preserve organs prior to transplantation, can chelate ferric iron. This is evident by its ability to solubilize iron as well as changes that occur in the UV-VIS spectra of iron in its presence. Relative to iron (III) chelated to EDTA, the lactobionic acid-iron (III) complex is less able to participate in the Fenton reaction as measured by formaldehyde generation from DMSO and bleaching of p-N,N-dimethylnitrosoaniline. Similar effects are seen with citrate and ATP, two substances which also appear to be able to ameliorate ischemia/reperfusion injury. These findings present a rationale for the effectiveness of lactobionic acid as an organ preservant.
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PMID:Lactobionic acid as an iron chelator: a rationale for its effectiveness as an organ preservant. 260 86

Both Trolox (a water-soluble analogue of alpha-tocopherol) and ascorbic acid were more effective than superoxide dismutase or catalase in protecting myocyte cell cultures from free radical attack (induced by hypoxanthine and xanthine oxidase). In a canine model of two hours of left anterior descending coronary artery occlusion followed by four hours of reperfusion, Trolox and ascorbic acid reduced the area of infarction within the area at risk. The Trolox group received 500 mL of deoxygenated saline solution containing 2.0 g of Trolox, 3.0 g of ascorbic acid, and 18 mg of EDTA (ethylenediaminetetraacetic acid) infused into the ascending aorta 30 seconds before and four minutes after reperfusion. Saline controls received 500 mL of deoxygenated saline solution containing 18 mg of EDTA. The angioplasty group had unmodified reperfusion by simple release of the occlusion. The area at risk and the area infarcted were estimated with Evans blue and triphenyl tetrazolium hydrochloride stains, respectively. The ratio of the area infarcted to the area at risk was significantly lower with Trolox (angioplasty, 30.4% +/- 5.1%; saline, 20.8% +/- 2.9%; and Trolox, 8.7% +/- 4.0%; p less than 0.01). In summary, the antioxidants Trolox and ascorbic acid effectively reduced myocardial necrosis after ischemia.
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PMID:Myocardial salvage with trolox and ascorbic acid for an acute evolving infarction. 271 29


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