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

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

This study assessed the effects of experimentally elevated plasma catecholamine levels on gill ventilation in rainbow trout (Oncorhyncus mykiss) exposed to various external ventilatory stimulants. Trout were exposed to hypoxia (water PO2 (PwO2) = 90 Torr) or hypercapnia (water PCO2 (PwCO2) = 4.5 Torr) for 30 min. These conditions caused gill ventilation volume (Vw) to increase by 2.3- and 1.5-fold, respectively, but did not stimulate release of catecholamines into the blood. While the stimulus (hypoxia or hypercapnia) was maintained, fish were given a bolus injection (0.3 ml), followed by intra-arterial infusion (0.6 ml.h-1), of a catecholamine mixture (2 x 10(-5) mol.l-1 adrenaline + 5 x 10(-6) mol.l-1 noradrenaline) to mimic the physiological concentrations and ratios of these catecholamines observed under more severe hypoxic or hypercapnic conditions. In hypoxic fish, this treatment caused a significant, but transient (5 min) depression of ventilation while during hypercapnia, the administration of exogenous catecholamines caused a more prolonged hypoventilatory response. These hypoventilatory responses occurred despite a catecholamine-induced blood acidosis (a potential ventilatory stimulant). To assess the importance of initial Vw and/or blood respiratory status on catecholamine-mediated hypoventilation, these experiments were repeated under hyperoxic (PwO2 = 640 Torr) hyperoxic hypercapnic (PwO2 = 510 Torr, PwCO2 = 4.8 Torr) or normoxic (PwO2 = 151 Torr) conditions in which Vw was either depressed (3.9-fold during hyperoxia) or unaffected. Intra-arterial infusion of catecholamines did not affect Vw under either of these experimental conditions. These results demonstrate that during a respiratory challenge, such as hypoxia or hypercapnia, physiologically relevant levels of circulating catecholamines can depress Vw and therefore do not support a stimulatory role for circulating catecholamines in the control of ventilation in fish.
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PMID:The effects of catecholamines on ventilation in rainbow trout during hypoxia or hypercapnia. 190 29

The effect of normobaric hyperoxia on voluntary salt intake was investigated in 20 sham-operated and 11 carotid body-denervated SHR. While in sham-operated SHR the saline intake was enhanced during the whole hyperoxic period, the carotid body-denervated rats showed an increase in salt appetite only on the second and third day of hyperoxia. Water intake was not significantly different in sham-operated and carotid body-denervated SHR. These findings, together with our previous results, suggest that chemoreceptor activity determines salt appetite but not water intake in SHR.
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PMID:Hyperoxia increases salt intake in spontaneously hypertensive rats (SHR). 201 72

To test the hypothesis that administration of allopurinol could modify the response to prolonged hyperoxia in premature baboons (140 days gestation) with respiratory distress syndrome, we evaluated physiological, pathological, and lung biochemical parameters in groups of premature baboons treated with mechanical ventilation and exposed to various amounts of oxygen for 6 days. Three groups of experimental animals were studied, including animals that received oxygen as needed to maintain arterial oxygen between 60 and 80 Torr [inspiratory O2 concentration- (FIO2) PRN], animals that received 100% oxygen continuously but also received allopurinol intravenously at a dose of 10 mg.kg-1.day-1 (FIO2-1.0 + allopurinol), and animals that received 100% oxygen continuously and the vehicle for allopurinol administration (FIO2-1.0). Pathological examinations of the experimental animals showed evidence of lung injury in both 100% oxygen-exposed groups, but the allopurinol-treated animals had findings more compatible with the FIO2-PRN group, with relatively few macrophages or polymorphonuclear lymphocytes being present in lung tissue. Lungs of animals treated with allopurinol were also more distensible and had a trend toward decreased lung water compared with the FIO2-1.0 group. Allopurinol-treated animals were able to induce lung glutathione concentrations and glutathione-related and antioxidant enzyme activities compared with the normoxic control (FIO2-PRN) group. Ventilator pressure requirements were also decreased in the allopurinol-treated animals compared with the FIO2-1.0 controls after 42 h. These data suggest that treatment of hyperoxia-exposed premature baboons with allopurinol for the first 6 days of life results in significant changes in lung responses and antioxidant defenses compared with vehicle-treated baboons exposed to 100% oxygen for the same time period.
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PMID:Allopurinol-induced effects in premature baboons with respiratory distress syndrome. 203 82

Oxygen derived free radicals (OFR) arise in the course of normal cellular life, especially during cellular respiration. They are formed when molecular oxygen is reduced to water. These highly reactive species are controlled by a protective system both enzymatic and non enzymatic which helps to prevent the accumulation of peroxidative damage to the cell. Lipid peroxides result from the reaction of oxygen derived free radicals with polyinsatured fatty acids of membranes phospholipids and can be formed both non enzymatically and enzymatically (eicosanoids). Oxygen derived free radicals attack over-running beyond the protective system leads to oxidative stress. The cells involved in inflammation (polymorphonuclear, leucocytes, monocytes, platelets, endothelial cells) release oxygen derived free radicals and lipid peroxides and inflammatory diseases of infectious or non infectious origin can be considered as oxidative stress. Intracellular oxidative stress can lead to cellular death or trigger a strong inflammatory reaction. This occurs during ischemia reperfusion injury and hyperoxia. Exposure to ionizing radiation results in overproduction of oxygen derived free radicals both extra and intracellular. Oxidative stress may be involved in atheroma (where oxidised LDL are described), ageing and cancer.
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PMID:[Free radicals and lipid peroxidation in cell biology: physiopathologic prospects]. 206 58

Reactive oxygen species are a major cause of damage occurring in ischemic tissue after reperfusion. During reperfusion transitional metals such as iron are required for reactive oxygen species to mediate their major toxic effects. Xanthine oxidase is an important source of reactive oxygen species during ischemia-reperfusion injury, but not in all organs or species. Because cytochrome P-450 enzymes are an important pulmonary source of superoxide anion (O2-.) generation under basal conditions and during hyperoxia, and provide iron catalysts necessary for hydroxyl radical (.OH) formation and propagation of lipid peroxidation, we postulated that cytochrome P-450 might have a potential role in mediating ischemia-reperfusion injury. In this report, we explored the role of cytochrome P-450 enzymes in a rabbit model of reperfusion lung injury. The P-450 inhibitors 8-methoxypsoralen, piperonyl butoxide, and cimetidine markedly decreased lung edema from transvascular fluid flux. Cimetidine prevented the reperfusion-related increase in lung microvascular permeability, as measured by movement of 125I-albumin from the vascular space into lung water and alveolar fluid. P-450 inhibitors also prevented the increase in lung tissue levels of thiobarbituric acid reactive products in the model. P-450 inhibitors did not block enhanced O2-. generation by ischemic reperfused lungs, measured by in vivo reduction of succinylated ferricytochrome c in lung perfusate, but did prevent the increase in non-protein-bound low molecular weight chelates of iron after reperfusion. Thus, cytochrome P-450 enzymes are not likely a major source of enhanced O2-. generation, but serve as an important source of iron in mediating oxidant injury to the rabbit lung during reperfusion. These results suggest an important role of cytochrome P-450 in reperfusion injury to the lung and suggest potential new therapies for the disorder.
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PMID:Role of cytochrome P-450 in reperfusion injury of the rabbit lung. 217 18

The relative contributions of O2- and CO2-sensitive chemoreceptor information to centrally generated respiratory patterns have changed dramatically during vertebrate evolution. Chemoafferent input from branchial O2 chemoreceptors modulates centrally generated respiratory patterns but is not critical for respiratory rhythmogenesis in fishes. In air-breathing fishes, branchial O2 chemoreceptors monitoring internal and external stimuli control the relative contributions of the gills and air-breathing organ to net ventilation, and chemoafferent input is necessary for initiating air breathing. In the transition from water to air breathing by amphibious vertebrates, rhythmic patterns of branchial ventilation are completely replaced by arrhythmic and intermittent patterns of air breathing, and there is progressive dependence on CO2 as a source of respiratory drive. Periodic initiation of air breathing in resting animals appears to depend on attaining a threshold level of afferent activity from O2- and CO2/pH-sensitive chemoreceptors, since hyperoxia and/or hypocapnia can abolish air breathing in all air-breathing vertebrates. Conversely, chemoreceptor stimulation in amphibians and reptiles converts intermittent to more continuous air breathing patterns, suggesting that adequate biasing input from chemoreceptors activates a central rhythm generator. Chemoafferent input in homeotherms serves as one of several sources of drive for rhythmic breathing and supplies feedback for blood gas homeostasis in the face of metabolic or environmental change.
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PMID:Chemoreceptor modulation of endogenous respiratory rhythms in vertebrates. 224 Feb 73

Chlorpyrifos (Dursban) is an organophosphate insecticide widely used mainly for control of mosquito larvae. This study used the dominant freshwater leech Nephelopsis obscura as a representative aquatic invertebrate to test toxicity of chlorpyrifos on a nontarget species. RNA synthesis in neurons of the cerebral ganglion, epithelial cells of the intestine, and the tegument of small immature (50-70 mg) and large mature (300-400 mg) N. obscura was examined histochemically with acridine orange fluorochrome after exposure to chlorpyrifos in concentrations of 16, 32, 64, 128, and 144 ppb for as long as 6 weeks. The maximum environmental concentration of this insecticide in lake water, when used properly, is 4.25 ppb. There was no mortality, and no behavioral changes were observed in experimental animals, except for transient curling and cutaneous mucus secretion at the highest concentrations of chlorpyrifos. No pathological changes were observed in the intensity of RNA fluorescence or in the distribution of RNA within the cytoplasm of neurons or epithelial cells in any specimens, unlike N. obscura exposed to anoxia, hyperoxia, or salinity. Chlorpyrifos in the concentrations studied does not appear to adversely affect nucleic acid metabolism in N. obscura.
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PMID:Unimpaired RNA synthesis in neurons and epithelial cells in a freshwater leech exposed to the organophosphate insecticide chlorpyrifos. 247 46

We previously reported that pretreatment with endotoxin significantly reduced acute pulmonary O2 toxicity in lambs (J. Appl. Physiol. 65: 1579-1585, 1988). One of endotoxin's many effects is to inhibit cytochrome P-450 mono-oxygenation reactions, which are believed to produce toxic O2 species. Therefore, one possible explanation for endotoxin's beneficial effect is that it inhibited P-450-mediated O2 radical production during hyperoxia. To test this hypothesis, we administered a single dose of cimetidine, a noncompetitive inhibitor of P-450 activity, to nine lambs before continuous exposure to greater than 95% O2. Compared with six control O2-exposed lambs, the cimetidine-treated O2-exposed lambs maintained normal gas exchange for a longer period of time (P less than 0.01), accumulated lung water at a slower rate (P less than 0.01), and had normal microvascular permeability after 72 h of O2 exposure. Postmortem levels of antioxidant enzymes in blood-free lung homogenate were not increased in cimetidine-treated lambs. However, the levels of oxidized glutathione were significantly lower in cimetidine-treated lambs, and the ratio of reduced to oxidized glutathione concentrations (GSH/GSSG ratio) was sevenfold higher than the ratio measured in control O2-exposed lambs (P less than 0.001). In four lambs, pretreatment with ranitidine (a drug chemically related to cimetidine but without P-450 inhibitory activity) had no effect either on the time course of O2 injury or on postmortem antioxidants. Microsomes were isolated from blood-free lung of all study animals and P-450 activity of the form 2 isozyme was measured.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cimetidine reduces hyperoxic lung injury in lambs. 260 66

Although oxygen has been known to be toxic for more than 200 years, the clinical importance of oxygen toxicity was not appreciated until an epidemic of retrolental fibroplasia occurred in the early 1950s. Oxygen at high partial pressures is toxic to the respiratory, cardiovascular, nervous, and gastrointestinal systems. Toxicity results from the formation of oxygen-free radicals. These arise within mitochondria as oxygen is reduced to water, as byproducts of prostaglandin and thromboxane synthesis, and by the xanthine oxidase catalyzed reduction of xanthine or hypoxanthine. They are also produced by activated macrophages as part of the immune response. Superoxide anion is the radical most commonly produced. It dismutes to hydrogen peroxide, which is able to diffuse through lipid membranes. Hydrogen peroxide reacts with transition metals to produce the highly reactive hydroxyl radical which can initiate chain reactions of lipid peroxidation leading to cell rupture. Oxygen radical scavengers such as superoxide dismutase and catalase protect the body against normal levels of oxygen-free radicals. Oxygen toxicity can result from either reperfusion of ischemic tissue or prolonged exposure to high concentrations of oxygen. Limiting hyperoxia to maintain arterial oxygen percent saturation (SaO2) greater than or equal to 90% is recommended.
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PMID:Oxygen toxicity: an introduction. 267 91


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