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Query: UMLS:C0242706 (hyperoxia)
 5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The acute manifestations of experimental bleomycin- and hyperoxia-induced lung damage were examined. Hamsters were treated with 5 U/kg bleomycin intratracheally followed by exposure to 80% oxygen (O2). As little as 12 hr of O2 exposure potentiated the bleomycin injury; however, the onset of mortality was 72 hr after treatment. The onset of pulmonary edema, measured by radiolabeled tracers, also occurred 72 hr after treatment. Cell kinetics studies showed that 24 hr exposure to 80% O2 did not alter early alveolar cell proliferation. Treatment with bleomycin alone did result in an early increase in alveolar macrophage and type II pneumocyte labeling. Animals treated with both bleomycin and hyperoxia had an increase in macrophage labeling, but not in type II pneumocyte labeling. We conclude that increased macrophage numbers associated with suppressed type II pneumocyte proliferation may play key roles in the potentiation and development of lung damage caused by bleomycin and hyperoxia treatment.
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PMID:Acute respiratory failure induced by bleomycin and hyperoxia: pulmonary edema, cell kinetics, and morphology. 244 50

We report a new protocol for inducing marked tolerance to prolonged exposure to hyperoxia in adult rats that entails the use of a single "rest period" between exposures to a usually lethal concentration of O2. Exposure of adult rats to greater than 95% O2 for 48 h followed by a rest in air, or a rest even in 50-75% O2, consistently resulted in 100% survival with evidence of only slight pulmonary edema during continuation of exposure to greater than 95% O2 for 3-7 more days (7-day survival for rats rested in room air for 24 h = 23/23; for rats rested in 50-75% O2 for 24 h = 27/27; for continuously O2-exposed control rats = 0/11). Induction of tolerance to hyperoxia was associated with significant increases in the lungs' antioxidant enzyme activities during the reexposure to greater than 95% O2 following the rest period. The molecular means by which the events in this protocol lead to increased lung antioxidant enzyme activity is only partially known, but because of the marked tolerance produced, the elucidation of the mechanisms must be important to our understanding of tolerance to hyperoxia.
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PMID:New "rest period" protocol for inducing tolerance to high O2 exposure in adult rats. 280 50

Prolonged exposure of C57B16 mice to pure O2 at 1 ATA induced pulmonary edema associated with involution of lymphoid system and depressed immunity. The consequences of these toxic events were evaluated by 1) mortality rate, 2) determination of pulmonary water, 3) thymic and splenic cellularity, and 4) humoral (primary antibodies) and cellular (mitogenic) immune responses. Pretreatment of mice with 125 mg kg-1 of diethyldithiocarbamate (DDC) several days before exposure to O2 resulted in 1) an increase in animal survival (92-100% vs. 59% O2 controls), 2) a reduction in pulmonary edema, 3) partial stabilization of thymus and spleen lymphocyte populations, and 4) restoration of the humoral response (specific antibodies appeared earlier than in O2 control animals) and improvement of the mitogenic proliferative response of the spleen cells after hyperoxia. None of these effects were observed when DDC treatment coincided with the beginning of exposure. Our results indicated that DDC protects mice from both pulmonary and lymphoid hyperoxic injury, but only in a partial manner. It is suggested that the mechanism of this antioxidative property is indirect.
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PMID:Diethyldithiocarbamate provides partial protection against pulmonary and lymphoid oxygen toxicity. 300 45

We recently reported that endotoxin infusion before O2 exposure significantly reduced or delayed the onset of pulmonary edema formation and respiratory failure by reducing the oxidant stress of O2 exposure. Despite these beneficial effects of endotoxin treatment, lung microvascular permeability eventually increased, but postmortem lung water content was less than expected. Prolonged O2 breathing blunts or abolishes the pulmonary constrictor response to alveolar hypoxia in some species, and it is possible that the loss of this response could contribute further to edema formation. To determine whether the reduction in lung edema observed in endotoxin-treated, O2-exposed lambs was linked to the preservation of hypoxic pulmonary vasoconstriction (HPV), we measured pulmonary vascular resistance before and after 8 min of isocarbic hypoxia (inspired O2 fraction 0.12) during each day of O2 exposure. In six control lambs, the pressor response to hypoxia was abolished after 72 h in O2, and the lambs developed respiratory failure shortly thereafter. In six endotoxin-treated lambs, HPV was preserved for as long as 144 h of O2 exposure. In two control O2-exposed lambs in whom HPV was abolished, the infusion of either angiotensin or prostaglandin H2 analogue increased pulmonary vascular resistance by greater than 75%. We conclude that in lambs 1) hyperoxia abolishes the pulmonary vascular response to hypoxia, 2) endotoxin pretreatment reduces acute O2-induced lung injury and preserves the pulmonary constrictor response to hypoxia, and 3) the loss of HPV during O2 exposure may be the result of oxidant-mediated injury to the hypoxia response itself and not the result of diffuse damage to the vasoconstrictor effector mechanism.
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PMID:Effect of endotoxin pretreatment on the pulmonary vascular response to hypoxia in O2-exposed lambs. 305 85

We quantified the effects of continuous exposure to 100% O2 on the development of sublethal injury to the pulmonary alveolar epithelium of rabbits. There was a progressive increase in alveolar permeability to solute after 48 h in O2, which coincided with the onset of damage to the pulmonary microvasculature. Rabbits that were exposed to 100% O2 for 64 h and returned to room air for 24 h had, in addition to increased permeability to solute, decreased phospholipid levels, decreased total lung capacity, pulmonary edema, high minimum surface tensions in their bronchoalveolar lavage, and moderate hypoxemia. Intratracheal instillation of calf lung surfactant (CLSE) significantly ameliorated the progression of hyperoxic injury by increasing alveolar phospholipid levels and thus preventing the inhibition of lung surfactant activity by plasma proteins and other high molecular weight components of alveolar edema. We concluded that the alveolar epithelium and the pulmonary microvasculature show similar sensitivity to hyperoxia and that clinical manifestations of hyperoxic lung injury may be due, at least in part, to surfactant dysfunction.
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PMID:Sublethal hyperoxic injury to the alveolar epithelium and the pulmonary surfactant system. 320 25

Exposure to high concentrations of oxygen causes injury throughout the respiratory tract. Good markers for the earliest stages of injury are not available although the course of tissue and cell responses to injury has been well characterized in a variety of animal models including rats and subhuman primates. Exposure to subacute levels of hyperoxia (40%-60% O2) causes lung injury that is difficult to detect even after exposures of up to 7 days in duration unless animals are subsequently stressed with a second form of lung injury. Rats preexposed to 40% and 60% O2 die sooner when exposed to 100% O2 than do control animals, suggesting an increased susceptibility to a second injury. Rats exposed to 60% O2 are more susceptible to development of pulmonary edema during high tidal volume mechanical ventilation, suggesting an increased susceptibility to mechanical stress. Exposures to 60% O2 may set up chronic progressive inflammatory reactions in the lung interstitium manifested by an increase in interstitial cells and matrix occurring weeks after the hyperoxic exposure. Both rats and baboons show similar responses to acute lethal exposures to hyperoxia, although the time course is more prolonged in the baboon. Both species demonstrate increased numbers of neutrophils in the lung microvasculature as one of the earliest structural evidences of lung injury. Both species demonstrate an increase in interstitial cells, quantitative evidence of injury to alveolar epithelial cells, and a significant fall in the number of capillary endothelial cells during the late phases of hyperoxic lung injury. These changes are associated with significant decreases in the total lung capacity and residual volume, increases in pulmonary artery pressure and pulmonary vascular resistance, and tachycardia. Baboons develop a 30% reduction in cardiac output after 80 h of 100% oxygen exposure because of a diminished ejection fraction. The primary difference in the progression of lung injury between species is in the time course rather than in the basic pattern of morphologic and physiologic responses.
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PMID:Patterns of progression and markers of lung injury in rodents and subhuman primates exposed to hyperoxia. 320 26

The effects of cytochrome P-450 inducers on O2 toxicity were studied in mice. We first examined three cytochrome P-450 inducers, which differ by their specific tissue affinity: phenobarbital sodium (PB), essentially active in the liver, and 3-methylcholanthrene (3-MC) and beta-naphthoflavone (BNF), which are also active in the lung. Both BNF and 3-MC increased the survival rate and significantly decreased pulmonary edema (pulmonary water and wet-to-dry weight ratio) in C57BL/6J mice exposed to hyperoxia (O2 greater than or equal to 95%), whereas PB had no protective effect. In the second part of this study, we compared the action of BNF in two strains of mice. In one (C57BL/6J), cytochrome P-450 can be induced by aromatic hydrocarbons, whereas in the other (DBA/2J) cytochrome P-450 is not inducible by these compounds. Protection against O2 toxicity was assessed in terms of lethality and pulmonary edema and of lung lipid peroxidation (assessed by measuring malondialdehyde). BNF only protected against O2 toxicity in the inducible strain. This protective effect of BNF on O2 toxicity in C57BL/6J mice was associated mainly with a large increase in the components of the cytochrome P-450 system (cytochrome P-450 and cytochrome b5) in the lung. The activity of pulmonary superoxide dismutase was also slightly increased, but the enhancement was not statistically significant. In contrast, in DBA/2J mice neither the components of the cytochrome P-450 system nor the activity of superoxide dismutase showed any increase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic differences in response to pulmonary cytochrome P-450 inducers and oxygen toxicity. 337 72

Healthy adult baboons exposed to 100% oxygen for 5 to 7 days maintained on continuous mechanical ventilation develop severe bilateral noncardiogenic pulmonary edema that resembles in many aspects the human adult respiratory distress syndrome (ARDS). In the present study, we evaluated the effects of hyperoxia for 5 to 6 days in 8 baboons to compare changes in abnormalities in bronchoalveolar lavage fluid (BALF) biochemical markers, hemodynamic measurements, and pulmonary function tests in order to find early predictors of lung injury. All animals had bilateral alveolar infiltrates, severe hypoxemia, and progressive deterioration of pulmonary function tests. Diffuse alveolar damage and mild-moderate pneumonias were found and were associated with low-grade bacterial infection. Total lung capacity, diffusing capacity for carbon monoxide, pulmonary static compliance, and oxygenation were significantly impaired after Day 5; BALF proteins, elastase, and total polymorphonuclear leukocytes increased significantly at least 24 h before (Day 4) any abnormalities in chest radiographs, pulmonary function tests, and hemodynamic measurements were detected. We conclude that exposure to 100% oxygen in this model causes marked gas exchange, hemodynamic, biochemical, cytologic, radiographic, and pathologic changes similar to those noted in patients with ARDS. Bronchoalveolar lavage abnormalities precede hemodynamic and gas exchange abnormalities.
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PMID:One hundred percent oxygen lung injury in adult baboons. 363 38

Endotoxin (500 micrograms/kg)-treated rats are very tolerant to hyperoxia (greater than 95% O2, 1 ATA). We have now attempted to determine if dexamethasone given to rats 1 h before a usually lethal dose of endotoxin would diminish endotoxin's lethality without substantially abrogating its capacity to confer tolerance to hyperoxia. Endotoxin (20 mg/kg) given alone killed 70-80% of air- or O2-breathing rats within 24 h; dexamethasone (0.6 mg) given 1 h before endotoxin decreased mortality at 24 h to 10-15%. About 90% of the rats that were alive 24 h after receiving dexamethasone plus endotoxin (20 mg/kg) survived 72 h of hyperoxia. Dexamethasone plus endotoxin (10 mg/kg) provided as much protection against pulmonary edema resulting from 72 h of hyperoxia as did 500 micrograms/kg endotoxin alone. Tolerance to hyperoxia produced by dexamethasone plus high-dose endotoxin was accompanied by a rise in the activity in the lung of antioxidant enzymes. We conclude that dexamethasone protects rats against the lethal effects of high doses of endotoxin without interfering with endotoxin's capacity to engender tolerance to hyperoxia.
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PMID:Dexamethasone protects against high-dose endotoxin without loss of tolerance to oxygen. 370 Mar 5

Hyperoxia and infused granulocytes act synergistically in producing a nonhydrostatic high-permeability lung edema in the isolated perfused rabbit lung within 4 h, which is substantially greater than that seen with hyperoxia alone. We hypothesized that the interaction between hyperoxia and granulocytes was principally due to a direct effect of hyperoxia on the lung itself. Isolated perfused rabbit lungs that were preexposed to 2 h of hyperoxia (95% O2-5% CO2) prior to the infusion of unstimulated granulocytes (under normoxic conditions) developed significant nonhydrostatic lung edema (P = 0.008) within 2 h when compared with lungs that were preexposed to normoxia (15% O2-5% CO2) prior to granulocyte perfusion. The edema in the hyperoxic-preexposed lungs was accompanied by significant increases in bronchoalveolar lavage (BAL) protein, BAL granulocytes, BAL thromboxane and prostacyclin levels, perfusate chemotactic activity, and lung lipid peroxidation. These findings suggest that the synergistic interaction between hyperoxia and granulocytes in producing acute lung injury involves a primary effect of hyperoxia on the lung itself.
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PMID:Mechanisms of interaction between oxygen and granulocytes in hyperoxic lung injury. 383 44


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