UMLS:C0242706 - FACTA Search

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

Experiments in 104 white mice subjected to hyperoxia at different regimens of oxygenation, carried out by means of mathematical modelling of three hyperoxic effects (bradypnea, convulsions, lethality) revealed the dependence of biological (physiological, toxic) effects of hyperoxia upon both components of the oxygenation regimen (oxygen pressure, time of exposure). The proposed concept of integral dose allows to determine pressure-exposure correlations corresponding to a given biological phenomenon and to prognosticate the effects of hyperoxia.
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PMID:[Quantitative evaluation and prognosis of the biological effects of hyperoxia]. 399 61

Correlation between a pro-oxidant activity of blood, estimated by means of chemoluminescence in the system H2O2-luminol-blood plasma, and individual sensitivity of rabbits to the effect of oxygen was studied. Alterations in the blood pro-oxidant activity, as shown by treatment of the blood sample with 0.7 MPa of oxygen in vitro, correlated distinctly with the period of convulsions as well as with viability of animals during acute hyperoxia.
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PMID:[Biochemical estimation of individual sensitivity to oxygen intoxication in rabbits]. 650 86

The content of spermidine and spermine polyamines in the rat brain under hyperoxic convulsions and four hours after convulsions decreases sharply. The intraperitoneal administration of polyamines before hyperbaric oxygenation decreased the rate of development of hyperoxic convulsions in rats. In the model experiments polyamines prevented changes in the acid peptide-hydrolase activity in the lysosomal and soluble fractions, which occur under hyperoxia.
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PMID:[Polyamines and activity of acid peptide-hydrolases in hyperoxia]. 675 82

Hyperoxia beyond 1.8 ATA results in a striking reduction of high-pressure neurological syndrome (HPNS) type I convulsion threshold pressures but is without measurable effect on type II convulsions. The synergism is partially or completely reversed by increasing alveolar or tissue CO2 levels. High total pressures (PI) result in striking reductions in the duration of hyperoxic exposure preceding seizure onset (tc). The interaction of hyperoxia and high pressure gives rise to three zones on the PO2-Pt plane. In zone I, Pt less than 30 ATA, the duration of hyperoxia prior to convulsion onset is given by the equation PO2 -- PO2 lim = K/(tc -- tc lim), where PO2 lim and tc lim both decrease with increasing total pressure. Zone II, Pt = 30-50 ATA and PO2 1.8-2.3 ATA, is characterized by a sharp drop in tc, as Pt is increased beyond 30 ATA, to a value near 15 min that is constant within the PO2 limits given. In zone III, Pt greater than 50 ATA and PO2 greater than 0.2 ATA, tc is of the order of 2 min, and the seizures are essentially HPNS seizures only slightly modified by hyperoxia. The data are interpreted as suggesting that zone I represents hyperoxic seizures facilitated by high pressures, whereas zone II represents HPNS type I seizures facilitated by hyperoxia.
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PMID:Synergism of hyperoxia and high helium pressures in the causation of convulsions. 681 23

Different regimens of oxygenation were studied in rats: acute hypoxia (9,000 m, 3 hrs), acute hyperoxia (0.7 MPa O2), which caused convulsions, and their simultaneous effects. Under these conditions the following parameters were evaluated: the rate of Fe(2+)-induced chemiluminescence, content of nitrogen and peptide catabolism products (urea, urates and middle molecule peptides) as well as total peroxidase activity, content of extraerythrocyte hemoglobin and lactic acid in blood plasma. Distinct inhibition of the chemiluminescence rate was found in all the three experimental groups studied; accumulation of uric acid, middle mass peptides, extraerythrocyte hemoglobin, lactic acid as well as an increase in the total peroxidase activity were observed in hyperoxia and in simultaneous effect of hypo- and hyperoxia; total peroxidase activity was decreased in rats with acute hypoxia. Accumulation of urates and middle mass peptides was considered according to these substances capacity to inhibit free radical oxidation in vivo.
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PMID:[Chemiluminescent analysis and some indicators of nitrogen catabolism in rat blood plasma in hypoxia with subsequent hyperoxia]. 797 75

The levels of tissue antioxidant uric acid in relation to chromosomal aberrations and leaving erythrocytic chromatin were determined in the spleen, bone marrow and blood of rats exposed to toxic hyperoxia (0.7 MPa O2, convulsions). Considerable growth of the uric acid levels and the rate of chromosomal aberrations in all tissues was observed within the first hours after treatment. The article discusses mechanisms of uric acid formation, redistribution and disintegration in tissues under extreme conditions. Specificity of the uric acid metabolism in tissues was shown with the help of the correlation analysis of uric acid concentrations. Inverse relationship between uric levels and chromosomal impairments noted in some cases permits to make a supposition about genoprotective properties and adaptogenic role of uric acid during oxidative stress.
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PMID:[Changes of uric acid levels in rat tissues as a systemic reaction to hyperoxia]. 804 50

The effect of a previous exposure to hyperbaric oxygen (HBO) on the synthesis capacity of prostaglandin (PG) and thromboxane (TX) was investigated in the brain of male rats. Three groups of rats were used: 1. Neurotoxic HBO (n = 11): The rats were exposed to sixfold the atmospheric pressure (101.3 kPa), i.e., 6 absolute atmospheres (ATA), of pure O2 up to the first convulsion (6 ATA O2); 2. Mild hyperoxia (n = 10): The rats were exposed to compressed air at the same absolute pressure and for a similar time than that of the neurotoxic HBO group (here PO2 is 1.26 ATA); 3. Normoxia at atmospheric pressure (PO2 is 0.21 ATA) for control. There was no convulsion in groups 2 and 3. Decompression of the high pressure groups lasted 15 min. After decapitation, samples of the frontal cortex and the striatum were taken, weighed, washed, and then incubated in Krebs-Ringer bicarbonate for 1 h. The release of eicosanoids in the medium was determined by enzyme immunoassay. Mild hyperoxia only significantly reduced in the striatum the release of 6-keto-PGF1 alpha (1.3 +/- 2.4 vs 10.9 +/- 6.6 pg/mg wet tissue, p < 0.001; mean +/- SD) and PGE2 (3.2 +/- 2.7 vs 7.8 +/- 6.5 pg/mg wet tissue, p < 0.05), whereas TXB2 did not change.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of hyperbaric oxygen on prostaglandin and thromboxane synthesis in the cortex and the striatum of rat brain. 829 21

Time to onset of hyperbaric oxygen-induced convulsions was measured in mice and rats exposed to hyperbaric oxygen (515-585 kPa) under conditions of low humidity (dry gas, < 10% relative humidity) or in a humidified environment (60% relative humidity). At all pressures tested, the duration of convulsive activity was markedly increased (P < 0.001), because of the earlier onset of severe generalized convulsions, in the groups of rodents exposed to the higher humidity. Pulmonary oxygen poisoning was determined by increases in lung wet and dry weights. Such pulmonary damage was also significantly (P < 0.001) increased in the humidified groups. Hyperoxic toxicity was also measured in rats and mice exposed to approximately 100% oxygen (normobaric hyperoxia) under conditions of 30 or 62% relative humidity. In contrast to the results obtained with hyperbaric oxygen exposure, there was slightly less toxicity in the rodents maintained at 62% compared with 30% humidity in normobaric hyperoxia.
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PMID:Effect of humidity on hyperoxic toxicity. 830 49

CNS oxygen (O2) toxicity is complex, and the etiology of its most severe manifestation, O2 convulsions, is yet to be determined. A role for depletion of the brain GABA pool has been proposed, although recent data have implicated production of reactive O2 species, e.g. H2O2, in this process. We hypothesized that the production of H2O2 and NH3 produced by monoamine oxidase (MAO) would lead to depletion of GABA and production of nitric oxide (NO.) respectively, and thereby enhance CNS O2 toxicity. In this study, rats treated with an MAO inhibitor (pargyline) or a nitric oxide synthase inhibitor (LNNA) were protected against O2-induced convulsions. Selected cerebral amino acids including arginine were measured in control and O2 treated rats (6 ATA, 20 min) with or without drug pretreatment. After O2 exposure, the cerebral pools of glutamate, aspartate, and GABA decreased significantly while glutamine content increased relative to control (P < 0.05). After treatment with either enzyme inhibitor, glutamine, glutamate and aspartate concentrations were maintained near control levels. Remarkably, GABA depletion by O2 was not prevented despite protection from seizures by both pargyline and LNNA. The NO. precursor, arginine, was increased significantly in the brain by toxic O2 exposure, but both pargyline and LNNA inhibited this effect. Simultaneous norepinephrine measurements indicated that its storage substantially decreased during hyperoxia (P < 0.05), but this effect too was blocked by either pargyline or LNNA. These data indicate that protection against O2 by these inhibitors is not related to preservation of the GABA pool. More importantly, O2 dependent norepinephrine metabolism and NO. synthesis appear to be interactive during CNS O2 toxicity.
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PMID:Cerebral amino acid, norepinephrine and nitric oxide metabolism in CNS oxygen toxicity. 846 4

Nitric oxide (NO) production is involved in the development of oxygen toxicity of the central nervous system (CNS) since inhibition of nitric oxide synthase (NOS) significantly protects animals from hyperbaric oxygen (HBO)-mediated convulsions. One potential mechanism for this protection is that NOS inhibition decreases cerebral O2 delivery thereby limiting the PO2 of brain tissues during hyperoxia. To investigate this hypothesis, anesthetized rats were exposed to 7, 100, and 7% O2 under 3 atm abs for 15-min periods. Cortical blood flow (CBF) and O2 tension were measured with a laser-Doppler flowprobe and an O2 electrode, respectively, with and without pretreatment with the NOS doppler, N omega-nitro-L-arginine methyl ester (L-NAME). We found that HBO exposure significantly increased the brain O2 tension whereas changes in CBF were not significant. Compared with control rats, L-NAME administration did not change either brain O2 tension or CBF during the period of the experiment. We conclude that the effects of L-NAME on cortical oxygenation and CBF during HBO exposure in rats do not seem to provide a physiologic explanation for protection from CNS O2 toxicity by the drug.
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PMID:Inhibition of nitric oxide synthase on brain oxygenation in anesthetized rats exposed to hyperbaric oxygen. 857 25

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