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)

To explore the role of glutathione in protecting rats from hyperbaric hyperoxia, we administered buthionine sulfoximine (BSO) to block gamma-glutamyl cysteine synthase activity and decrease tissue glutathione synthesis. We then exposed these animals and their vehicle-treated matched controls to 100% oxygen at 4 ATA or room air at 1 ATA. After BSO treatment, glutathione concentrations in air-exposed controls decreased 62% in lung, 76% in liver, 28% in brain, and 62% in plasma. Paradoxically, BSO-treated rats were protected from hyperbaric hyperoxia. The BSO-treated animals seized significantly later and had a markedly prolonged time of survival compared with the vehicle-treated controls. We conclude that BSO treatment protects rats from hyperbaric hyperoxia, despite its effects of lowering plasma and tissue glutathione concentrations. This protection may be related to a direct effect of the compound in decreasing free radical-mediated tissue injury, increasing tissue antioxidant defenses, or increasing seizure threshold.
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PMID:Protection from hyperbaric oxidant stress by administration of buthionine sulfoximine. 168 Aug 46

Propofol was used for 1,350 sessions of electro-convulsive therapy (ECT). After 0.5 mg of intravenous atropine, patients received 1 to 1.5 mg.kg-1 bolus of propofol over a period of 20 seconds or less. This was convenient for loss of the eye-lash reflex. A bolus of 15 to 20 mg suxamethonium was given, in non allergic patients, to prevent trauma from the seizure. The patient was hyperventilated with pure oxygen through a facial mask. The electric shock was delivered bitemporally after a dental protection had been inserted. For each patient, the following data were noted: sex, use of tricyclic antidepressant drugs, atopy, amount of administered propofol and the effective intensity of the electric shock. The 99 patients were given 16.27 +/- 14 ECT sessions. Among them 26 took antidepressant drugs and 34 were atopic. There was no difference, except for weight, between the 25 men and 74 women. The mean dose of propofol was 1.37 +/- 0.3 mg.kg-1. The dose decreased with increasing age. There was no statistical relationship between the amount of propofol and intensity of the electric shock required to set off a seizure. The use of antidepressant drugs, and atopy did not influence the required amount of propofol. Speed of injection seemed to be the determining factor for narcosis with low doses of propofol. Hyperoxia and hypocapnia induced by hyperventilating with pure oxygen seemed to facilitate occurrence and duration of seizures. Although propofol has been said to reduce the length of seizures, there is controversy concerning the ECT efficacy criteria.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Use of propofol in 1350 anesthetized patients for electroconvulsive therapy]. 200 69

In rats poisoned with soman, an irreversible organophosphate anticholinesterase, acute changes in blood-brain barrier (BBB) permeability to proteins were investigated, using Evans Blue (EB)-labelled serum albumin and plasmatic gamma-immunoglobulin G (IgG) as indicators. Confirming previously published data, soman produced a conspicuous seizure-related and reversible BBB opening which was greatest after 30 to 60 min of paroxysmal electroencephalographic (EEG) discharges when signs of cerebral hyperactivity (epileptic EEG pattern, hyperoxia) were also at their height. Topographically, the protein leakage was bilateral and restricted to anatomically defined brain structures, some of which being thereafter sites of parenchymal edema and neuronal damage. In these areas (e.g., the thalamus), the edema is probably, at least in part, "vasogenic" in origin, and the possible contribution of the transient BBB opening to the neuronal lesions was questioned. On the other hand, the hippocampus, a region preferentially affected by the soman-induced acute neuropathology, was always free of any protein leakage, suggesting that the edema is unrelated to vascular damage and "cytotoxic" in nature. Finally, no topographic relationship was shown to exist between the increase in cerebrovascular permeability produced by soman and the histochemically-detected inhibition of the parenchymal total cholinesterases (ChE) or endothelial butyrylcholinesterase (BuChE).
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PMID:Seizure-related opening of the blood-brain barrier induced by soman: possible correlation with the acute neuropathology observed in poisoned rats. 228 54

Hippocampal and neocortical blood flows and tissue pO2 were investigated by mass spectrometry in unanaesthetized spontaneously breathing rats during kainic acid-induced seizures to determine whether adenosine is involved in the coupling of cerebral blood flow to metabolism during enhanced metabolic demand. The possible involvement of adenosine in the neuronal damage induced by seizures was also analyzed. The intrinsic effects of theophylline and the duration of the adenosine receptor blockade by this xanthine were first tested in 8 rats. Two groups of rats were then compared: one (n = 6) received kainic acid, and the other (n = 10) theophylline 15 min prior to kainic acid administration. An additional group of 10 rats was taken for classical histology 48 h after kainic acid treatment. Theophylline significantly reduced the hyperaemia observed during seizures, prevented any tissue hyperoxia and enhanced brain damage. This strongly suggests that adenosine is partly responsible for the increase in cerebral blood flow during kainic acid-induced seizures and has neuroprotective properties.
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PMID:Theophylline reduces cerebral hyperaemia and enhances brain damage induced by seizures. 233 48

Exposure of rats to 100% O2 at high pressure (greater than 2.0 ATA) results in generalized convulsions and death within several hours. The tripeptide, glutathione, has been shown to protect rats exposed to hyperbaric hyperoxia with delayed onset of seizures and prolonged survival. To investigate the hypothesis that glutathione exerts its protective effects via the glutathione redox cycle, we injected selenium-deficient rats and their selenium-supplemented controls with either glutathione (1 mmol/kg) or an equivolume of saline before exposure to 100% O2 at 4 ATA. Selenium-deficient rats exhibit marked reduction in liver glutathione peroxidase activity (GSH-Px). Glutathione administration significantly delayed both the onset of seizures and time to death in the control animals. In selenium-deficient rats, however, glutathione administration was not protective, having no significant effects on time to seizure or time to death. We also measured changes in glutathione concentrations in lung, liver, and brain of these same groups of animals exposed either to hyperbaric hyperoxia or to room air. In control rats, lung and brain glutathione concentrations did not change with the hyperbaric exposure regardless of glutathione pretreatment status, but hepatic glutathione concentration declined significantly during the exposure when glutathione was not supplied. If these animals were pretreated with glutathione, the decline in hepatic glutathione concentrations did not occur. In selenium-deficient rats, the hyperbaric exposure did not result in changes in lung, brain, or liver glutathione concentrations either in the glutathione-pretreated or in the saline-pretreated animals. Exogenous GSH administration does not protect selenium-deficient rats from hyperbaric hyperoxia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of selenium deficiency on glutathione-induced protection from hyperbaric hyperoxia in rat. 261 Feb 68

To explore the role of the glutathione oxidation-reduction cycle in altering the sensitivity of rats to the effects of hyperbaric hyperoxia, we administered N,N-bis(2-chloroethyl)-N-nitrosourea (BCNU) to decrease tissue glutathione reductase activity. We then exposed these animals and their matched vehicle-treated controls to 100% O2 at 4 ATA. Animals that received BCNU and were immediately exposed to hyperbaric O2 showed enhanced toxicity by seizing earlier in the exposure than controls. Animals that received BCNU 18 h before the hyperbaric O2 exposure were paradoxically protected from the effects of the exposure with a prolongation of their time to initial seizure and a marked increase in their survival time during the exposure. Tissue glutathione concentrations were also measured in the various groups and the hyperbaric O2 exposure produced marked decreases in hepatic glutathione levels in all control animals. In animals treated with BCNU 18 h before exposure, hepatic glutathione concentrations also decreased, but the concentrations had significantly increased during the 18-h waiting period, allowing these animals to maintain hepatic levels in the normal range even during their hyperbaric exposures. We conclude that treatment of rats with BCNU 18 h before exposure to hyperbaric hyperoxia results in enhanced protection of the animals during the exposure.
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PMID:BCNU-induced protection from hyperbaric hyperoxia: role of glutathione metabolism. 321 53

The influence of arterial O2 and CO2 tensions on electroconvulsive seizure duration was investigated in five mongrel dogs under consistent anaesthetic conditions. Seizure durations were measured in a randomized protocol of nine possible combinations of arterial gas tension spanning increased, normal or decreased levels of PaO2 and PaCO2. Seizure duration was directly related to PaO2 (p less than 0.00001) and inversely related to PaCO2 (p less than 0.0001). A significant synergism was evident at the extremes of PaO2 and PaCO2, with seizure duration being greater than predicted for hyperoxia-hypocapnia and hypoxia-hypercapnia and shorter than predicted for hypoxia-hypocapnia and hyperoxia-hypercapnia. We conclude that arterial gas tensions strongly influence ECT-induced seizure duration and through this may influence the therapeutic efficacy of electroconvulsive therapy.
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PMID:Arterial PaO2 and PaCO2 influence seizure duration in dogs receiving electroconvulsive therapy. 366 9

During hyperoxia monoamine oxidase type A acquires the ability to deaminate polyamines and histamine. A preliminary injection of clorgyline (a monoamine oxidase type A inhibitor) before hyperoxic exposure leads to a significant removal of oxygen seizures and prevents changes in the cerebral spermidine and histamine content observed in the unprotected animals. The data confirm the important role of modification of catalytic properties in monoamine oxidase in the mechanism of oxygen intoxication.
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PMID:[Monoamine oxidase activity and effect of clorgyline on the polyamine level during hyperoxia in rats]. 372 40

Hyperoxia brought about substantial accumulation of primary and end products of lipid peroxidation (LPO) and a significant lowering of alpha-tocopherol content in rat brain tissues. Preinjection of animals with synthetic and natural antioxidants (4-methyl-2,6-ditretbutylphenol and alpha-tocopherol) prevented LPO activation and decreased the frequency of epileptiform seizures induced by hyperoxia. Administration of a mixture of unsaturated fatty acids led to an opposite effect. The changes in the properties of serotonin receptors were found to be dependent on the hyperoxia-induced LPO. These changes were marked by the reduced specific binding of serotonin with neuronal membranes of the rat brain cortex. The data obtained allowed the conclusion about the key role played by LPO activation in toxic action of hyperbaric activation on the brain.
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PMID:[Role of lipid peroxidation in damage to serotonin receptors and development of epileptiform seizures during hyperoxia]. 666 40

We analyzed brain tissue in 139 rats for adenosine and its metabolites, inosine and hypoxanthine, during the initial 120 seconds of seizures induced by bicuculline. We also measured ATP, ADP, AMP, phosphocreatine (PCr), and lactate. We divided the rats into four groups by adjustment of their preictal arterial oxygen tension: group I, PaO2 > 200 mm Hg; group II PaO2 = 50 mm Hg; and group III: PaO2 = 100 mm Hg. We treated a fourth group whose PaO2 = 100 mm Hg with phentolamine to block the 44% rise in blood pressure which occurred with the onset of seizures. PaCO2 was maintained between 30 anf 40 mm Hg in all groups. Brain tissue was sampled rapidly after 0, 10, 20, 30, 60, and 120 seconds of seizures by the freeze-blow technique. With normoxia (PaO2 = 100 mm Hg) or hyperoxia (PaO2 > 200 mm Hg), adenosine increased within ten seconds of the onset of seizures and remained elevated even after 120 seconds. Elevations in inosine and hypoxanthine were delayed compared to the increases in adenosine. A reduction in PaO2 (50 mm Hg) or systemic blood pressure during seizures caused a further augmentation in the increase in brain adenosine levels. During the seizure period, transient changes in adenine nucleotides and energy charge were observed, but PCr remained depressed and lactate continued to rise. The rapid and sustained increase in cerebral adenosine levels, temporally paralleling the changes in cerebral blood flow, supports the role for adenosine in the regulation of cerebral blood flow.
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PMID:Changes in brain adenosine during bicuculline-induced seizures in rats. Effects of hypoxia and altered systemic blood pressure. 677 98

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