Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Allopurinol has been reported to improve cell survival in a variety of conditions, including the ischemia-reperfusion injury occurring in skin flaps. It has been suggested that the beneficial effect of allopurinol on rat skin flaps is through blockage of xanthine oxidase-generated oxygen-derived free radicals. We have previously reported on the lack of xanthine oxidase activity in the skin of humans and pigs as compared with that of rats. This current study attempts to improve skin and myocutaneous flap survival in pigs in two separate experiments using allopurinol. In the first experiment, a suspension of 50 mg/kg (N = 12) allopurinol resulted in no significant difference in the survival of control and treated flaps. Because of the negative results in the first experiment, a second experiment was designed making several changes. The length of the global ischemic insult was reduced from 8 to 6 hours, and allopurinol was administered as a solution of 300 mg/kg (N = 14). This higher dose is expected to produce complete inhibition of xanthine oxidase in this animal model. These changes resulted in three operative deaths, no improvement in skin-flap survival, and a decrease in myocutaneous flap survival. Allopurinol's therapeutic effectiveness and its mechanism of action in an ischemia-reperfusion injury model lacking xanthine oxidase activity are discussed.
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PMID:Effect of allopurinol on the survival of experimental pig flaps. 158 70

The excessive generation of free radicals is thought to be one of the major mechanisms leading to tissue injury in various pathological conditions, including ischemia, inflammation, and trauma. Conversion of xanthine dehydrogenase (XDH) to xanthine oxidase (XO) contributes to the formation of superoxide, an oxygen radical. We measured XDH and XO activity using a newly developed fluorometric assay in an experimental spinal cord injury model in rats. XO activity increased by more than 100% 4 h after spinal cord trauma. Total (XDH + XO) activity also increased by 96% during the same period. Allopurinol, an inhibitor of XO (100 mg/kg/day x 2 days, i.p.), completely inhibited plasma and spinal cord XO activity but did not affect posttraumatic edema determined by water content or polymorphonuclear (PMN) cell infiltration reflected by myeloperoxidase (MPO) activity in traumatized spinal cord. These results indicate that XDH conversion to XO may not be the major mechanism of oxygen radical formation in the pathogenesis of vasogenic edema or inflammatory response in this experimental spinal cord injury model in rats.
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PMID:Xanthine oxidase in experimental spinal cord injury. 164 10

The role of Sucralfate in prevention of acute gastric injuries and its comparison with free radicals blockers as Allopurinol, Soybean Trypsin Inhibitor and Superoxide Dismutase was studied in the ischemia-reperfusion model by total occlusion of the celiac axis in Wistar rats. In control rats, the gross gastric mucosal necrotic area was of 80%; in contrast, the antioxidant drugs resulted in a necrotic area of 7%-15% and Sucralfate resulted in a necrotic area of only a 4%. It was concluded that Sucralfate, as antioxidant-cytoprotective drug, by enhancing the gastric defensive barrier was more important than the secondary aggression induced by free radicals.
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PMID:Sucralfate in the prevention of acute gastric lesions induced by ischemia-reperfusion. 182 Jun 93

Allopurinol (ALL) improves energy metabolism in organs subjected to ischemia-reperfusion injury. The importance of different administration schedules of ALL has been studied in a rat liver model exposed to 60 min of normothermic ischemia followed by reperfusion. ALL (100 mg/kg) that administered in two doses, one prior to ischemia and one prior to reperfusion, improved production of adenosine triphosphate in the liver as well as bile flow during reperfusion. ALL administered in a single dose, either prior to ischemia or prior to reperfusion, was less effective. The concentration of hypoxanthine during ischemia increased in the groups given ALL prior to induction of ischemia. Based on the present findings, we argue that the beneficial effect of ALL administration can be potentiated by different drug-administration schedules. Our data also suggest that the prime mechanism of action for ALL is not only related to inhibition of free-oxygen-radicals production but that preservation of hypoxanthine, which can be used for ATP resynthesis and the scavenging properties of ALL itself, may be equally important.
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PMID:Sixty-minute normothermic liver ischemia in rats. Evidence that allopurinol improves liver cell energy metabolism during reperfusion but that timing of drug administration is important. 187 94

Experimental and clinical data suggest that even a brief period of intestinal ischemia followed by reperfusion initiates a sequence of events that include release of inflammatory mediators and multiorgan failure. In this study, 41 rats were subjected to occlusion of the superior mesenteric artery (SMA) for 20 min and collateral arcade ligation. Twelve rats were sham operated and served as controls (group 1). Groups of rats with SMA occlusion were killed at several time intervals after reperfusion (group 2, 2-3 h; group 3, 4-5 h; group 4, 12-16 h). In group 5, rats were pretreated with enterally administered allopurinol (10 mg.kg-1.day-1) for 4 days before the intestinal ischemia episode and were studied 2-3 h after reperfusion. In vivo studies confirmed that 20 min of intestinal ischemia produced a transient bradycardia (P less than 0.05) and no change in systemic blood pressure, acid-base balance, or hematocrit. In vitro studies showed marked cardiac contractile depression as early as 2 h after ischemia-reperfusion as indicated by a fall in left ventricular pressure (LVP; from 77 +/- 3 to 63 +/- 4 mmHg, P = 0.01) and +dP/dtmax (from 1,827 +/- 59 to 1,557 +/- 99 mmHg/s, P less than 0.02) and -dP/dtmax (from 1,267 +/- 57 to 953 +/- 67 mmHg/s, P = 0.02), a rightward shift in LV function curves, and a decreased responsiveness to perfusate Ca2+. Allopurinol pretreatment prevented ischemia-reperfusion-mediated deficits in cardiac contraction and relaxation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cardiac contractile injury after intestinal ischemia-reperfusion. 192 98

Frostbite is characterized by acute tissue injury induced by freezing and thawing. Initial complete ischemia is followed by reperfusion and later, tissue necrosis. These vascular events support the hypothesis that free radical-mediated reperfusion injury at thawing might contribute to tissue necrosis after frostbite in a manner similar to that seen after normothermic ischemia. To test this hypothesis, rabbit ears were frozen at -21 degrees C for 30, 60, 90, or 120 s and rewarmed at room temperature (22 degrees C). Rabbits were treated "blindly" with saline alone, highly purified, pharmaceutical grade superoxide dismutase (SOD), allopurinol, or deferoxamine. The area of ear necrosis was determined 3 weeks after frostbite by "blinded" morphometry. The administration of SOD at the time of thawing significantly improved viability in ears frozen for 60 and 90 s, but not in those frozen for 30 or 120 s. Deferoxamine also improved viability in ears frozen for 60 s. Allopurinol did not significantly affect ear survival. Electron micrographs showed the appearance of severe endothelial cell injury beginning during freezing and extending through early reperfusion. Later, neutrophil adhesion, erythrocyte aggregation, and microvascular stasis were seen. These findings suggest that free radical-mediated reperfusion injury has a role in frostbite, and quantitate the proportion of the injury that is due to this mechanism.
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PMID:Evidence for an early free radical-mediated reperfusion injury in frostbite. 205 Feb 98

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

The effect of ischemia reperfusion or hypoxia reoxygenation on pulmonary vascular permeability and resistance was studied in 25 isolated blood-perfused dog lungs. Vascular permeability, assessed by determining filtration coefficient (Kf), and vascular resistances were measured at the beginning and end of the experiment. Ischemia reperfusion was produced by occluding blood flow to the lung for 3 h and reperfusing for 1 h, whereas hypoxia reoxygenation was obtained by ventilating the lung with 95% N2-5% CO2 for 3 h and then ventilating with 95% O2-5% CO2 for 1 h with no interruption of perfusion. There was a significant increase in Kf in both ischemia reperfusion and hypoxia reoxygenation groups (51 and 85%, respectively), and total vascular resistance increased greatly in both groups (386 and 532%, respectively). Two additional groups were also studied in which the ischemia reperfusion or hypoxia reoxygenation lungs were pretreated with allopurinol (20 micrograms/ml). The Kf did not significantly increase in either the allopurinol ischemia reperfusion or the allopurinol hypoxia reoxygenation groups (22 and 6%, respectively). However, total vascular resistance significantly increased in both groups (239 and 224%, respectively). Although vascular permeability is modestly increased by both ischemia reperfusion and hypoxia reoxygenation, the predominant change in these conditions is the increased vascular resistance, which predominantly affects the postcapillary resistance and would result in a greater tendency for edema to develop in these slightly damaged lungs. Allopurinol, which inhibits xanthine oxidase, attenuated the permeability changes in both groups and may be useful in preventing ischemia reperfusion injury in certain conditions.
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PMID:Effect of ischemia reperfusion or hypoxia reoxygenation on lung vascular permeability and resistance. 222 71

Allopurinol, a xanthine-oxidase (XO) inhibitor, has been used to improve the resistance to ischemia with disappointing results that have been attributed to administration regimen of the drug. Our aim was to investigate the effect of different administration schedules of allopurinol on the survival in rats undergoing intestinal ischemia testing the blockade of XO. Intestinal ischemia was achieved by 90 min of clamping the superior mesenteric artery (SMA) close to its origin from the aorta. Three groups of animals were evaluated: A-group: only the allopurinol solvent was given; B-group: the full dose of allopurinol (100 mg/k b.w.) was given iv and C-group: the 75% dose was administered orally 24 hr before and the remaining 25% was administered 30 min before. Survival was evaluated at 48 hr and the blockade of XO was assayed by High Efficacy Liquid Chromatography (HELC) in homogenate of intestinal wall. Survival was only improved in the C-group (P = 0.02). Levels of hypoxanthine were significantly increased both in B-group and C-group (P = 0.003) when compared with the A-group. Levels of uric acid in B-group (P = 0.0003) and C-group (P = 0.0009) were significantly decreased with respect to A-group. That means that an effective blockade of XO is achieved whichever the regimen of administration. Allopurinol and oxypurinol levels were significantly increased (P = 0.05 and P = 0.008) in C-group when compared with B-group. We conclude that the protective effect of allopurinol on survival in intestinal ischemia in rats is not related to the blockade of XO but rather to the allopurinol and oxypurinol levels in intestinal wall.
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PMID:Improved survival in intestinal ischemia by allopurinol not related to xanthine-oxidase inhibition. 230 42

In the present study, the effects of alpha-tocopherol and allopurinol in liver ischemia and reperfusion injury on lipid peroxidation and mitochondrial respiratory function were investigated in rats. Ischemia was induced in the left and median liver lobes clamping the vessels for 90 minutes. After declamping reperfusion was continued for 60 minutes. Liver tissue was taken before and 90 minutes after ischemia and 60 minutes after reperfusion to measure lipid peroxides and mitochondrial respiratory function. In one group of rats alpha-tocopherol (10mg/kg) was given intraperitoneally for three consecutive days preoperatively and in the other group allopurinol (50mg/kg) was given intravenously 10 minutes before ischemia. alpha-Tocopherol caused inhibition of increase in lipid peroxides at reperfusion and improvement in lowering of mitochondrial respiratory function. This improvement was less than previously reported, probably due to not only reperfusion injury but also ischemic injury. Allopurinol, on the other hand, caused neither such inhibition nor such improvement, suggesting the other source of oxygen-derived free radicals than xanthine oxidase system.
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PMID:[The role of alpha-tocopherol and allopurinol in lipid peroxidation and mitochondrial respiration in the ischemic rat liver]. 231 86


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