Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242706 (hyperoxia)
5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxygen-mediated lung injury can stimulate a fibroproliferative response resulting in the alteration of the pulmonary extracellular matrix and subsequent scarring of parenchymal tissue. Fibronectin (FN), a component of the extracellular matrix, appears in increased quantities in fibrotic lung disease. Alveolar macrophages (AMs) are a potential source of this molecule. Using quantitative in situ hybridization, we demonstrated that AMs from rabbits acutely exposed to 100% oxygen (hyperoxia) for up to 64 h have 20-fold greater levels of FN mRNA relative to cells from control animals. When animals were allowed to recover in room air for up to 72 h after maximal oxygen exposure, AM FN mRNA abundance approached baseline levels. Furthermore, in oxygen-exposed animals, the fraction of lavaged cells expressing FN mRNA was increased 10-fold relative to controls. Although there was marked cell-to-cell variation, we conclude that the AM is a potential source of FN in the events leading to hyperoxia-induced pulmonary fibrosis.
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PMID:Increased fibronectin mRNA in alveolar macrophages following in vivo hyperoxia. 141 30

We have studied the mode of ventilation and chemosentivity in 10 patients suffering from pulmonary fibrosis. The total lung capacity was on average 63.5 +/- 8% of the predicted. Their static compliance was 0.078 +/- 0.05 l.cm of water. The patients were studied in the prone position breathing ambient air then on hyperoxia. The response to CO2 was assessed according to the rebreathing method of Read. The results of these patients were compared with those of 11 normal subjects. The ventilation at rest was normal, with a shortened respiratory time and a Ti/Ttot ratio which was lowered. The occlusion pressure (P0.1) was very much higher than that in normal subjects. This rise was correlated with an increase in pulmonary elastance and a reduction in vital capacity. The correction of hypoxia was without effect on the respiratory parameters. In relation to normal subjects the ventilatory response to carbon dioxide in fibrotics was decreased whilst the response of the P0.1 was increased expressing central hyperactivity. In conclusion, fibrotic patients have normal ventilation in spite of an increase in inspiratory work. This normal ventilation results from hyperactivity of the respiratory centre, as in the hyperventilation induced by carbon dioxide when at rest.
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PMID:[The control of respiration in pulmonary fibrosis. The effect of O2 and CO2]. 190 51

Bleomycin is a commonly used antineoplastic agent which produces dose- and time-dependent pneumonitis and fibrosis in humans. The mechanism of bleomycin-induced lung injury is uncertain. However, current data shows that bleomycin can generate reactive oxygen species such as superoxide and hydroxyl radicals. We therefore investigated whether intraperitoneal (i.p.) injection of endotoxin, a protectant for hyperoxia, could modulate the biochemical and morphological estimates of bleomycin-induced lung fibrosis in rats. However, pretreatment with multiple i.p. injections of endotoxin, combined with intratracheal bleomycin instillation, resulted in increased lung collagen content compared to bleomycin treatment alone and controls. Furthermore, morphological estimates of the severity of lung lesions present in the endotoxin-bleomycin treatment group were increased when compared with saline and endotoxin control lung lesions. These data indicate, in the current study design, that endotoxin did not reduce, but instead increased the severity of bleomycin-induced pulmonary fibrosis in rats. The mechanism for this increase in fibrosis may be the result of pre-existing endotoxin-induced cell injury.
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PMID:The effect of endotoxin on bleomycin-induced lung fibrosis in the rat. 241 66

The concomitant treatment of rats with bleomycin and hyperoxia results in synergistic development of pulmonary injury. We exposed rats to 70% oxygen for 72 hr following an intratracheal instillation of bleomycin (0.2 U/kg body wt). Animals were killed 15, 30, 60 and 90 days after treatment for hydroxyproline, cell kinetics, and histopathologic analysis. A 16% increase in hydroxyproline over controls was seen 15 days after treatment which was manifested by the proliferation phase of diffuse alveolar damage and an increase in cell labeling by tritiated thymidine. Thirty days after treatment the hydroxyproline remained elevated while lung injury appeared to be healing with a residual focal interstitial pneumonitis and a drop in cell labeling. Between 60 and 90 days, there was an additional significant increase in hydroxyproline to 44% over controls. Diffuse interstitial pneumonitis with fibrosis was observed. Cell labeling remained constant between 60 and 90 days. We conclude that the treatment of rats with bleomycin and hyperoxia results in slowly progressive pulmonary fibrosis. The increase in hydroxyproline in the chronic phase was not accompanied by an increase in cell proliferation, and therefore may have resulted from an increase in cellular production of hydroxyproline rather than increased number of cells producing collagen.
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PMID:Progressive pulmonary fibrosis in rats: a biochemical, cell kinetic, and morphologic analysis. 241 89

Changes in lung structure and collagen metabolism were studied at 1, 2, 3, 4, 6, and 8 weeks in a model of pulmonary fibrosis induced in rats with paraquat plus hyperoxia. Morphologic examination of the lungs revealed that the earliest lesions consisted of severe and irreversible endothelial and alveolar epithelial cell damage. Afterward, an inflammatory process took place, initially dominated by polymorphonuclear leukocytes and then by mononuclear cells, but with the constant presence of granulocytes. From the fourth week on there were fibroblast proliferation and a moderate increase of mast cells. In the early stages alveolitis was focal, but from the second week the lungs were diffusely affected with severe distortion of the architecture. Collagen content was moderately increased in the first 2 weeks and then showed a progressive increment until the end of the experiment. Collagen synthesis was significantly elevated from the fourth week, coinciding with interstitial fibroblast proliferation, although there were some animals that showed increased collagen production from the first week. Collagenolytic activity occurred in 3 stages: at 2 weeks there was increased collagen degradation, at 3, 4, and 6 weeks the values showed a trimodal behavior, and at 8 weeks almost all experimental rats presented an important decrease of collagenolysis. Thus, the development of lung fibrosis was associated first with increased rates of collagen synthesis and later with a decrease of collagen degradation.
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PMID:Experimental pulmonary fibrosis induced by paraquat plus oxygen in rats: a morphologic and biochemical sequential study. 270 80

The systemic administration of O,S,S-trimethyl phosphorodithioate (OSS), a contaminant of various organophosphorus insecticides, induces delayed damage to rat and mouse lung tissue. The lesion, particularly in the rat, closely resembles that produced by butylated hydroxytoluene (BHT) in mice. Although the time course of cell damage and repair has been studied in both species, it is not clear whether excess collagen, indicative of fibrosis, is deposited. Changes in pulmonary hydroxyproline content and synthesis, indices of collagen metabolism, were analysed in mice treated with 45 mg/kg OSS. A significant increase in total lung hydroxyproline was evident 21 days after treatment compared to both pair-fed and ad libitum controls. This increase was not augmented by subsequent treatment with 35 mg/kg 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) or exposure to 70% oxygen for 7 days. The rate at which lung tissue synthesized hydroxyproline was increased 7-14 days after treatment with OSS. These data demonstrate that treatment of mice with OSS results in changes indicative of pulmonary fibrosis. However, in contrast to some other lung-toxic chemicals, this lesion was not enhanced by subsequent treatment with BCNU or hyperoxia.
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PMID:Pulmonary hydroxyproline content and production following treatment of mice with O,S,S-trimethyl phosphorodithioate. 366 Apr 35

Paraquat (PQ) is a herbicide known to generate O2 radicals and to injure lung epithelial cells, leading eventually to pulmonary fibrosis. To test for the possible existence of a direct cytotoxic action of PQ on endothelial cells, we have studied, for up to 5 days, the action of 10(-6) to 10(-4) M PQ on primary cultures of pig aortic endothelial cells and compared these effects to those obtained with exposure to 95% O2-5% CO2. The decrease in DNA and protein content of Petri dishes and the increase in lactate dehydrogenase release were found to depend on PQ concentration and the duration of exposure to PQ. The toxic effects of hyperoxia were intermediate, ranging between those obtained with 10(-5) and 10(-4) M PQ. Hyperoxia and 10(-4) M PQ produced a similar marked inhibition of DNA synthesis after a 1-day period of exposure. Combined exposure to both PQ and hyperoxia resulted in changes comparable to those obtained with hyperoxia alone (decrease in protein and DNA content) or PQ alone (lactate dehydrogenase release). Additive effects were seen only for the inhibition of DNA synthesis. The selenomethionine-related increase in glutathione peroxidase activity had a protective effect against hyperoxia-induced lactate dehydrogenase release but not against PQ induced cytolysis. Finally, shorter exposures to O2 and PQ revealed the existence of a trend toward recovery only for cells exposed to hyperoxia. The prolonged toxic action of PQ could not be related to PQ accumulation and storage by endothelial cells. These studies indicate that PQ can exert a direct, dose-dependent, and prolonged cytotoxic effect on cultured endothelial cells.
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PMID:Direct toxic effects of paraquat and oxygen on cultured endothelial cells. 396 1

The modification of early and late radiation damage to the mouse lung by oxygen and WR 2721 has been studied by measurement of breathing rate, lethality, pleural fluid and hydroxyproline content. Protection by hypoxia and sensitization by hyperoxia of early radiation pneumonitis were demonstrated. There was a tendency for the protective effect of WR 2721 to decrease as the breathed oxygen concentration was raised above normal levels. WR 2721 protection of the late damage was higher (PF = 1.6-1.65) than was seen for early pneumonitis (PF = 1.3-1.35) when either breathing rate or lethality were used. Protection factors (PF) gained from measurements of pleural fluid at a year after treatment were similar to those for other endpoints of late damage (PF = 1.7). In contrast, the measurement of fibrosis through determination of lung hydroxyproline at 1 year gave a somewhat lower protection factor for WR 2721. In the same experiments the degree of epilation on the dorsal thorax was scored at 6 weeks. One hundred per cent oxygen gave enhancement (dose enhancement factor (DEF) = 1.2), 9 per cent oxygen reduced damage (DEF less than 0.7) and WR 2721 gave PF values in excess of 1.4 at all oxygen concentrations used. This showed that the radiation response of hair follicles was more sensitive to WR 2721 or to changes of oxygen than the lung. The results presented indicate a competitive interaction between WR 2721 and oxygen for the same injury site causing a shift in the oxygen K curve to higher oxygen concentrations. The validity of applying functional or survival measurements to assess the extent of pulmonary fibrosis is discussed.
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PMID:Oxygen-dependent protection of radiation lung damage in mice by WR 2721. 609 59

The concomitant treatment of hamsters with bleomycin and hyperoxia results in a synergistic development of pulmonary injury. We exposed hamsters for 72 hr to 70% oxygen following a single intratracheal instillation of bleomycin (0.16 U/100 g body weight). Groups of 10 animals were killed at 3, 6, 10, 30, 60, 90, and 120 days after instillation for histopathologic and morphometric assessment. Diffuse alveolar damage developed acutely. At 30 days, the intense acute cellular infiltrate had subsided, leaving a focal interstitial pneumonitis. Morphometric quantitation at 10 days revealed that 33.5 +/- 5.3% (x +/- SE) of the lung was diseased; there was apparent healing by 30 days, when 10.5 +/- 2.0% of the lung was diseased. However, progression to diffuse pneumonitis with fibrosis was seen at 60, 90, and 120 days, when 30.2 +/- 4.9%, 38.5 +/- 5.8%, and 38.8 +/- 4.5% of the lung was diseased, respectively. In vivo pulmonary function studies on treated animals at 25 and 55 days showed decreasing dynamic compliance and increased minute ventilation, which corroborates the presence of interstitial fibrosis. We conclude that simultaneous treatment of hamsters with bleomycin and hyperoxia results in interstitial fibrosis with a distribution and progression that mimics human pulmonary fibrosis. This model appears ideally suited for the study of progressive fibrosis and will be useful when development of a widely distributed lesion is crucial.
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PMID:Progressive pulmonary fibrosis in hamsters. 619 99

Several reports have suggested that patients treated with bleomycin may be at greater risk of developing respiratory failure when exposed to elevated concentrations of oxygen. We studied the interactions of bleomycin and hyperoxia in Syrian golden hamsters. Animals were instilled intratracheally with bleomycin at a dose of 0.5 unit/100 g of body weight, followed immediately by exposure to 70% oxygen for 72 hours. Mortality was 90% in these hamsters, compared to 15% in an age-matched control group treated with bleomycin alone. Postmortem studies revealed that pathologic changes were confined to the lungs which showed severe, hemorrhagic, diffuse alveolar damage. To determine the effect of delaying exposure to hyperoxia, bleomycin at a dose of 0.5 unit/100 g of body weight was instilled and animals were kept in room air for 1 and 2 months before exposure to 70% or 100% oxygen for 72 hours. No significant increase in mortality or interstitial pneumonitis and fibrosis was seen in these groups during or after the hyperoxic exposures. Mortality in controls treated with saline and hyperoxia was zero. We conclude that simultaneous treatment with bleomycin and hyperoxia results in a synergistic effect on mortality and on the development of pulmonary fibrosis. However, there is no synergism if the hyperoxic exposure is delayed for at least 1 month following bleomycin treatment.
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PMID:Differences in effects of immediate and delayed hyperoxia exposure on bleomycin-induced pulmonary injury. 620 6


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