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)

Reoxygenation injury that occurs when blood circulation is restored to previously ischemic tissues is currently discussed as a pathophysiological entity distinct from the primary anoxic injury that develops during ischemia per se. To test the hypothesis that reoxygenation injury in hepatocytes is caused by a postischemic burst of reactive oxygen species (ROS), including superoxide radicals, O2-., and hydrogen peroxide, H2O2, we performed a cytochemical study exploiting the peroxidase activity within peroxisomes as a sensitive ultrastructural detector of intracellular H2O2 generation. The osmiophilic polymer formed when tissue peroxidase is incubated with 3,3'-diaminobenzidine (DAB) and H2O2 was used as a marker for endogenous H2O2 in rat liver slices in short-term organ culture subjected to a cycle of 60-min ischemic anoxia and 30-min reoxygenation in the presence of DAB without exogenous H2O2. Peroxisomal reaction product was quantitatively evaluated in transmission electron micrographs of systematically sampled hepatocytes. Mean densities of positive peroxisomes per 1,000 micron2 (+/- SE) in liver slices subjected to various treatments were as follows: continuous anoxia (negative control) 0 +/- 0; normoxia + exogenous H2O2 (positive control) 45 +/- 12; normoxia only 26 +/- 2; ischemia-reoxygenation 13 +/- 6; ischemia-reoxygenation + xanthine oxidase inhibitor, oxypurinol 5 +/- 3; ischemia-reoxygenation + peroxidase inhibitor, aminotriazole 7 +/- 3. Endogenous H2O2 can be detected in hepatocytes by electron microscopic cytochemistry and may in part derive from xanthine oxidase, but it is not substantially increased in the postischemic state. We conclude that hepatocytes do not exhibit a postischemic burst of reactive oxygen species that could cause reoxygenation injury.
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PMID:Cytochemical studies of hydrogen peroxide generation in postischemic hepatocytes. 199 89

Hindlimb ischemia and reperfusion lead to lung injury dependent on activated polymorphonuclear neutrophils (PMN) adherence. This study tests whether elastase and oxygen radicals participate in PMN-induced injury once they have become sequestered in lungs. Anesthetized rats treated with saline (n = 9) or the specific elastase inhibitor methoxysuccinyl-L-Ala-L-Ala-L-Pro-L-Val-chloromethylketone (MAAPV, n = 6) underwent 4 h of bilateral hindlimb tourniquet ischemia followed by 4 h of reperfusion. At this time, in saline-treated rats, PMN were sequestered in lungs as assayed by myeloperoxidase activity [(MPO) 51 +/- 5 U/g tissue], higher than MPO in saline-treated sham rats (n = 9; 18 +/- 3 U/g MPO; P less than 0.01); bronchoalveolar lavage (BAL) fluid leukotriene (LT) B4 levels increased to 594 +/- 46 relative to 200 +/- 38 pg/ml in shams (P less than 0.01); increased permeability was documented by BAL fluid protein content of 599 +/- 91 compared with 214 +/- 35 micrograms/ml in sham animals (P less than 0.01); and edema was shown by increase in lung wet-to-dry weight ratio of 4.77 +/- 0.14 relative to 4.00 +/- 0.09 in sham rats (P less than 0.01). In MAAPV-treated animals, lung neutrophil sequestration (62 +/- 9 U/g MPO) and rise of LTB4 in BAL fluid (780 +/- 244 pg/ml) were not affected, but both BAL fluid protein (335 +/- 32 micrograms/ml) and lung wet-to-dry weight ratio (4.21 +/- 0.17) were reduced (both P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Neutrophil elastase and oxygen radicals: synergism in lung injury after hindlimb ischemia. 205 22

Using a histochemical peroxidase technique, under conditions that preferentially stain erythrocytes, we have shown changes in the microcirculation of villi of neonatal mice infected with murine rotavirus. Between 18 and 48 h postinfection (PI), throughout all areas of the small intestine there occurred, sequentially, a marked ischemia and atrophy of villi. By 72 h PI, villi had recovered their normal height and showed incipient hyperemic microcirculation. At 96 h PI, hyperemic microcirculation was most marked. Between 120 and 144 h PI, a second phase of villus atrophy occurred, which was more attenuated and confined to the upper and middle regions of the intestine. This phase was not accompanied by a wide-spread ischemia of villi: a minority of villi were short and ischemic but many appeared hyperemic. Recovery of villus microcirculation occurred at 168 h PI, which coincided with recovery from diarrhea. These changes in villus microcirculation are discussed in relation to the pathology and pathophysiology of rotavirus infection. We make two novel suggestions. First, the reduction in red cells flowing through villi in the early stages of the infection instigates hypoxia and hence atrophy of villi. The ensuing but ephemeral increase in rate of cell division, necessary for the reconstitution of villi, induces hypersecretion. Second, the increase in numbers of erythrocytes found in villi during their regrowth phase and throughout the remaining time course of the infection perturbs the countercurrent system, lowering the osmolality of the hyperosmotic zone located at villus tips, thereby impairing water absorption and prolonging diarrhea.
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PMID:Rotavirus-induced changes in the microcirculation of intestinal villi of neonatal mice in relation to the induction and persistence of diarrhea. 206 65

The loss of protection by human recombinant (hr) Cu.Zn-superoxide dismutase (SOD) at higher doses reported previously may have been due to the weak peroxidase activity of this enzyme. To test this possibility we studied the dose-response relationship of hrMn-SOD, which lacks peroxidase activity. Isolated, buffer perfused rabbit hearts were subjected to 1 h of global ischemia followed by 1 h of reperfusion, and the percent recovery of developed tension (relative to preischemic) was measured via a left ventricular balloon connected through a pressure transducer to a polygraph recorder. The coronary effluent was assayed for lactate dehydrogenase (LDH) release. While hrMn-SOD almost completely protected against loss of function and LDH release at 2 and 5 mg/L (p less than 0.01), it exacerbated the damage at 50 mg/L concentration (p less than 0.05 against controls), thus giving an even sharper bell-shaped curve than seen with the hrCu,Zn-SOD. Therefore we conclude that, first, while the hrMn-SOD protects the reperfused heart at lower doses, it may exacerbate the damage at higher doses. Second, that the lack of protection seen at higher doses of hr-Cu,Zn-SOD is unlikely to be due only to its peroxidase activity.
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PMID:The cardioprotective effect of Mn-superoxide dismutase is lost at high doses in the postischemic isolated rabbit heart. 207 27

Kainic acid (KA) is a potent neuroexcitatory drug widely used in the experimental study of seizure activity. Subcutaneous injection of KA into rats (10 mg/kg in saline 10 mg/ml; pH 7.0) induced longlasting status epilepticus followed by damage of CNS tissue in the entorhinal/pyriform cortex and in the hippocampus. The studies covered by this report demonstrated the formation of cytotoxic brain edema characterized by massive swelling of perineuronal and perivascular astroglia with microcirculation disturbance after KA injection, resulting in parenchymal necrosis of the affected region; furthermore perivenous hemorrhages and necroses corresponding to herniation lesions of the brain appear. Tracer studies with Na-fluorescein, Evans blue, albumin, and horseradish peroxidase revealed only a mild increase in the permeability of cerebral vessels, topographically unrelated to areas of brain edema. Treatment of brain edema with dexamethasone did not influence the incidence and severity of edematous brain damage. Treatment with mannitol, however, completely prevented the lesion in 54% of animals injected with KA. The present results indicate that brain edema plays an important role in the pathogenesis of epileptic brain damage following systemic KA intoxication. It is suggested that in this model brain edema develops due to massive ionic imbalance caused by KA induced persistent neuronal excitation. In addition the model demonstrates the possible pathogenetic role of selective astrocytic swelling in the production of local hippocampal ischemia followed by herniation and its sequels. Such pathology originating from astrocytes probably may occur also in closed brain injury.
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PMID:Some mechanisms of brain edema studied in a kainic acid model. 213 Jun 48

The effects of acidified sodium nitrite (NaNO2) which releases nitric oxide, a substance which is thought to be indistinguishable from endothelium-derived relaxing factor, were investigated in a 6-h model of myocardial ischemia (MI) with reperfusion in open-chest, anesthetized cats. Acidified NaNO2 (12.5-50 mmol/kg/hr) was infused i.v., starting 30 min postocclusion followed by reperfusion 1 hr later, in cats subjected to MI by occlusion of the left anterior descending coronary artery. Acidified NaNO2 infusion (25 and 50 mmol/kg/hr) resulted in significantly lower plasma creatine kinase activities at every time beyond 1 hr for the MI + vehicle group, and was not significantly different when compared to sham MI + NaNO2 controls. The areas at risk expressed as percentage of the total left ventricular weights were not significantly different between the MI + vehicle and MI + acidified NaNO2 groups. However, the necrotic area expressed as a percentage of the myocardial area at risk was significantly lower in the 25 and 50 mmol/kg/hr NaNO2-treated cats. Cardiac myeloperoxidase activities indicated that significantly fewer neutrophils were attracted to the ischemic zone of the NaNO2-treated MI cats when compared to the vehicle-infused MI cats. Acidified NaNO2 significantly inhibited platelet aggregation in a dose-dependent manner in cat platelet-rich plasma. Thus, acidified NaNO2 exerts a significant protective action during ischemia and reperfusion injury, which suggests that endothelium-derived relaxing factor has a cardioprotective effect in MI.
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PMID:Cardioprotective effects of acidified sodium nitrite in myocardial ischemia with reperfusion. 215 7

The objective of this study was to determine whether hydrogen peroxide, iron, and/or hydroxyl radicals play a role in ischemia/reperfusion (I/R)-induced granulocyte infiltration in the feline small intestine and whether a chemoattractant is formed when superoxide or hydrogen peroxide reacts with feline extracellular fluid. In vivo determinations of granulocyte infiltration consisted of measurements of tissue myeloperoxidase activity in either the intestinal mucosa (I/R studies) or dermis (chemotaxis studies), whereas in vitro measurements of granulocyte migration were obtained using a Boyden chamber. Treatment with either catalase or the iron chelator deferoxamine significantly attenuated granulocyte infiltration into the mucosa induced by reperfusion of the ischemic intestine. Two hydroxyl radical scavengers, dimethyl sulfoxide (DMSO) and dimethylthiourea (DMTU), were also evaluated for their ability to modulate I/R-induced granulocyte infiltration. DMTU significantly attenuated the I/R-induced granulocyte accumulation, whereas DMSO had no effect. In other experiments, we were unable to stimulate granulocyte migration with feline plasma exposed to superoxide-generating systems using both in vitro and in vivo models of leukocyte chemotaxis. However, hydrogen peroxide in the presence of either ferrous iron or hemoglobin did significantly increase the chemotactic activity of cat plasma. The results obtained from our studies suggest that either hydrogen peroxide or radical species derived from the interaction of superoxide and hydrogen peroxide with iron elicit I/R-induced granulocyte infiltration in the intestine.
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PMID:Role of oxidants in ischemia/reperfusion-induced granulocyte infiltration. 215 38

The effects of acidified sodium nitrite (NaNO2), a releaser of nitric oxide (NO), combined with human superoxide dismutase (hSOD), were investigated in a 6-hour model of myocardial ischemia (MI) with reperfusion in open-chest, anesthetized cats. Acidified NaNO2 (12.5 mmol/kg/hr) was infused intravenously in cats starting 0.5 hour after occlusion of the left anterior descending (LAD) coronary artery, which was reperfused 1.5 hour following occlusion. Significantly lower plasma creatine phosphokinase activities were observed at all times beyond 3 hours for MI cats given NaNO2 + hSOD when compared with the other MI groups. The areas-at-risk expressed as percentages of the total left ventricular weights were not significantly different among any of the MI groups. However, the necrotic area expressed as a percentage of the myocardial area-at-risk was significantly lower in the MI + NaNO2 + hSOD-treated cats compared with all other MI groups. The NaNO2-treated group also produced a significant decrease in the necrotic area relative to the area-at-risk. Cardiac myeloperoxidase (MPO) activities indicated no significant difference in number of neutrophils attracted to the ischemic zone in the NaNO2 + hSOD-treated MI cats when compared with the other MI groups. Acidified NaNO2 + hSOD together exert significant protection on the myocardium subjected to ischemia and reperfusion injury. NaNO2 may act synergistically with hSOD to prolong the action of NO by scavenging free radicals that inactivate NO.
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PMID:Synergism between superoxide dismutase and sodium nitrite in cardioprotection following ischemia and reperfusion. 215 21

In the present study we have evaluated the activity of myeloperoxidase (MPO) in ischemic reperfused skeletal muscle of rats, as an index of polymorphonuclear leukocyte (PMNL) accumulation and its time course. A tourniquet model for temporary ischemia was used, in which one hindleg was made ischemic for 1.5, 3 or 5 hours. Muscle biopsies were taken after 12 hours reperfusion from both the injured and the uninjured legs. Controls received anesthesia only. No increase in the MPO levels was observed after 1.5 hours of ischemia followed by 12 hours of reperfusion. With the same reperfusion time and 3 or 5 hours of ischemia, there was a five-fold increase in MPO activity. Prolonging the ischemia from 3 to 5 hours did not cause any further significant MPO increase. With 3 hours of ischemia, biopsies were also taken after 0, 1, 5, 24 and 74 hours reperfusion. The results showed a time dependent increase in MPO activity. A significant increase was first seen after 5 hours reperfusion with the peak at 24 hours. After 74 hours of reperfusion the MPO activity had almost returned to control levels. The uninjured leg had MPO levels similar to those in the control. However, there was a small reduction at 5 and 12 hours of reperfusion. During the ischemic period before reperfusion, the ischemic leg showed a significant decrease in MPO activity. Severe ischemia in skeletal muscle results in a time dependent accumulation of PMNLs during reperfusion, as measured by the changes in MPO activity in the tissue.
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PMID:The accumulation of polymorphonuclear leukocytes in post-ischemic skeletal muscle in the rat, measured by quantitating tissue myeloperoxidase. 215 41

The effects of taprostene, a synthetic prostacyclin analogue, were investigated in a 6-hour model of myocardial ischemia (MI) with reperfusion in anesthetized cats. Taprostene (100 ng/kg/min) was infused intravenously starting 30 minutes postocclusion of the left anterior descending coronary artery followed by reperfusion 1 hour later, and the cats were observed for an additional 4.5 hours. Taprostene infusion resulted in significantly lower plasma creatine phosphokinase activities at every time from 3 to 6 hours for the MI + taprostene group compared with the MI + vehicle group and were not significantly different when compared with sham MI controls. The areas at risk, expressed as a percentage of the total left ventricular weights, were not significantly different between the MI groups. However, the necrotic area expressed as a percentage of the myocardial area at risk was significantly lower in the taprostene-treated cats compared with the untreated MI group (p less than 0.01). Cardiac myeloperoxidase activities indicated that significantly fewer neutrophils were attracted to the area at risk and to the ischemic zone of the MI + taprostene cats when compared with the MI cats given only the vehicle. Data from isolated left anterior descending coronary artery ring preparations removed from hearts after 6 hours of ischemia indicated that the endothelium was damaged by ischemia-reperfusion injury in the untreated cats. However, endothelial dysfunction was not observed in circumflex coronary arteries of ischemic cats or in coronary rings isolated from MI + taprostene cats. Thus, taprostene exerted a significant cardioprotection in cats subjected to ischemia and reperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endothelium and myocardial protecting actions of taprostene, a stable prostacyclin analogue, after acute myocardial ischemia and reperfusion in cats. 215 89

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