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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 circulatory response to 100% O2 at 1 and 3 atm, using unanesthetized rabbits in which a systemic artery and the right heart had been cannulated previously. One group of animals served as controls; the other was infused with a flurocarbon emulsion that boosted blood O2 solubility to approximately 5 ml.100 ml-1.atm-1. Exposure to hyperoxia caused an identical sustained rise in arterial PO2 in both groups. O2 uptake was measured during normobaric exposure to 100% O2 and was found to be the same as in control conditions. There was an immediate rise in right heart PO2, more marked in infused animals, but this increase was only temporary, and PO2 dropped, while the right heart-arterial PCO2 difference rose, indicating a gradual fall in cardiac output. This readjustment occurred at a faster rate in the infused animals, a difference that led us to conclude that the peripheral response to hyperoxia is influenced by factors other than arterial PO2. The pronounced decrease in cardiac output seen in infused rabbits was accompanied by lactic acidosis, implying that some of the animals' tissues were becoming hypoxic in the presence of arterial hyperoxia.
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PMID:Circulatory response to arterial hyperoxia. 46 16

In peripherally chemodenervated and vagotomized cats and rabbits, either spontaneously breathing or artificially ventilated, we studied the reaction of the respiratory control system to changes in the extracellular fluid (ECF) pH at the ventral surface of the medulla oblongata. The brainstem ECF-pH was varied either by alternating periods of hypoxia and hyperoxia or by intravenous infusion of lactic acid to achieve endogenous or exogenous lactacidosis, respectively. Additionally, the arterial PCO2 was changed by varying the inspiratory CO2-fraction or the respirator's pumping rate. When pulmonary ventilation or central respiratory drive (in terms of phrenic nerve activity) was related to brainstem ECF-pH, no unique function resulted for respiratory (CO2-induced) and metabolic (lactic acid induced) acid-base changes, thus contradicting the "reaction theory" for central respiratory chemosensitivity. Under steady state conditions, there was no ventilatory reaction to endogenous or exogenous metabolic brainstem acidosis at all. However, the apneic threshold was shifted towards the acid range, although the sensitivity of the respiratory system to CO2 remained nearly unchanged, no matter whether CO2 was inhaled or increased by acetazolamide. This points to a dominating role of CO2 or at least carbonic acid over fixed acids for the central chemosensitive control of pulmonary ventilation.
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PMID:Hypoxia and the "reaction theory" of central respiratory chemosensitivity. 128 96

Previous work has shown that irrespective of the route of exposure methyl isocyanate (MIC) caused acute lactic acidosis in rats (Jeevaratnam et al., Arch. Environ. Contam. Toxicol. 19, 314-319, 1990) and the hypoxia was of stagnant type due to tissue hypoperfusion resulting from hypovolemic hypotension in rabbits administered MIC subcutaneously (Jeevarathinam et al., Toxicology 51, 223-240, 1988). The present study was designed to investigate whether MIC could induce histotoxic hyperoxia through its effects on mitochondrial respiration. Male Wistar rats were used for liver mitochondrial and submitochondrial particle (SMP) preparation. Addition of MIC to tightly coupled mitochondria in vitro resulted in stimulation of state 4 respiration, abolition of respiratory control, decrease in ADP/O ratio, and inhibition of state 3 oxidation. The oxidation of NAD(+)-linked substrates (glutamate + malate) was more sensitive (five- to sixfold) to the inhibitory action of MIC than succinate while cytochrome oxidase remained unaffected. MIC induced twofold delay in the onset of anerobiosis, and cytochrome b reduction in SMP with NADH in vitro confirms inhibition of electron transport at complex I region. MIC also stimulated the ATPase activity in tightly coupled mitochondria while lipid peroxidation remained unaffected. As its hydrolysis products, methylamine and N,N'-dimethylurea failed to elicit any change in vitro; these effects reveal that MIC per se acts as an inhibitor of electron transport and a weak uncoupler. Administration of MIC sc at lethal dose caused a similar change only with NAD(+)-linked substrates, reflecting impairment of mitochondrial respiration at complex I region and thereby induction of histotoxic hypoxia in vivo.
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PMID:In vitro and in vivo effect of methyl isocyanate on rat liver mitochondrial respiration. 147 Nov 48

A critical review of the literature of retrolental fibroplasia indicates that the cause of this disease is not yet known. Oxygen is certainly a critical factor but it is still not possible to make precise recommendations as to the amount or the duration of therapy that is safe. We have overemphasized the role of oxygen in the past, and as a result of this the false impression has been created that RLF is a disease that can be prevented. This gross oversimplification of a complex disease with multiple causes has resulted in many unjustified malpractice claims. A study of the present epidemic indicates that excessive oxygen administration probably plays a minor role, in contrast to the first epidemic in which prolonged oxygen administration was clearly a major factor. A reasonable working hypothesis is that the developing retina is highly sensitive to any disturbance in its oxygen supply, either hyperoxemic or hypoxemic. The retinal circulation is subject to the same wide fluctuations as the cerebral circulation in newborn infants. The very low-birth-weight, sick premature infant suffers from a number of conditions, many of which can seriously disturb the retinal circulation, resulting in hypoperfusion and ischemia. These factors (immaturity, hyperoxia, hypoxia, blood transfusions, intraventricular hemorrhage, apnea, infection, hypercarbia, hypocarbia, patent ductus arteriosus, prostaglandin synthetase inhibitors, vitamin E deficiency, lactic acidosis, prenatal complications, genetic factors) may all be present in an infant. They may interact to produce various degrees of retinal damage. Nearly all of these factors cannot be prevented or controlled by our present methods of care. Unfortunately, this means that RLF is an extremely difficult disease to prevent, treat, or investigate. A disease of this complexity with multiple causes will require very large numbers of infants in any controlled study of a therapy. Retrolental fibroplasia should not be considered an avoidable iatrogenic disease in very low-birth-weight infants. Its cause in these infants is not known.
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PMID:A reexamination of the role of oxygen in retrolental fibroplasia. 641 99

A mev-1(kn1) mutant of the nematode Caenorhabditis elegans is defective in the cytochrome b large subunit (Cyt-1/ceSDHC) in complex II of the mitochondrial electron transport chain. We have previously shown that a mutation in mev-1 causes shortened life span and rapid accumulation of aging markers such as fluorescent materials and protein carbonyls in an oxygen-dependent fashion. However, it remains unclear as to whether this hypersensitivity is caused by direct toxicity of the exogenous oxygen or by the damage of endogenous reactive oxygen species derived from mitochondria. Here we report important biochemical changes in mev-1 animals that serve to explain their abnormalities under normoxic conditions: (i) an overproduction of superoxide anion from mitochondria; and (ii) a reciprocal reduction in glutathione content even under atmospheric oxygen. In addition, unlike wild type, the levels of superoxide anion production from mev-1 mitochondria were significantly elevated under hyperoxia. Under normal circumstances, it is well known that superoxide anion is produced at complexes I and III in the electron transport system. Our data suggest that the mev-1(kn1) mutation increases superoxide anion production at complex II itself rather than at complexes I and III. The mev-1 mutant also had a lactate level 2-fold higher than wild type, indicative of lactic acidosis, a hallmark of human mitochondrial diseases. These data indicate that Cyt-1/ceSDHC plays an important role not only in energy metabolism but also in superoxide anion production that is critically involved in sensitivity to atmospheric oxygen.
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PMID:A defect in the cytochrome b large subunit in complex II causes both superoxide anion overproduction and abnormal energy metabolism in Caenorhabditis elegans. 1152 63

A giant hemangioma of the tongue was resected in a 16-year-old otherwise healthy young man (ASA I). Despite a total blood loss of 4,300 ml, corresponding to 105% of the patients intravascular blood volume, no allogeneic red blood cells had to be transfused intraoperatively. Besides minimization of intraoperative blood loss with preoperative alcohol injections into the tumor, ligation of large tumor-perfusing arteries, application of fibrin glue, skillful surgical technique, positioning of the surgical field above the level of the heart, controlled hypotension and maintenance of normothermia, acute normovolemic hemodilution (augmented by preoperative administration of recombinant human erythropoetin - rhEpo) and autotransfusion of lost blood were used for recovery of autologous blood. Under the protection of hyperoxia, a decrease of the hemoglobin (Hb) concentration to 4.2 g/dl was bridged by extreme normovolemic hemodilution. No signs of immanent or manifest tissue hypoxia were encountered. Retransfusion of autologous red blood cells was only started when surgical control of bleeding was achieved. Additionally a total of 4 units of fresh frozen plasma were infused for stabilization of plasma coagulation. After a 9-hour surgical duration, the patient was transferred to the intensive care unit, normotensive (with low-dose infusion of norepinephrin) and normothermic with a Hb concentration of 5.6 g/dl. In the face of an increasing lactacidosis 2 units of packed red blood cells were transfused on post surgical day 1.
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PMID:[Giant hemangioma of the tongue: combined use of perioperative blood conservation procedures]. 1239 34

To investigate the pathogenesis of oxygen toxicity in the newborn brain, we exposed one-day-old Sprague-Dawley albino rats to 100% O(2) and measured whole-brain high-energy phosphates, glucose, lactate, and free fatty acids (FFA) after 0, 15, 30, 60 and 120 min. Whole-brain adenosine triphosphate and creatine phosphate fell significantly from about 4.5 to 2.5 ?mol-mg(?1) protein. Brain lactate remained at about 0.3 ?mol.mg(?1) protein in hyperoxic rats, but increased in normoxic rats, from 0.3 to 1.3 ?mol.mg(?1) protein at 120 min. Total FFA decreased from 30 to 15 nmol.mg(?1) protein during normoxia, but increased to 40 nmol.mg(?1) protein during hyperoxia. Undetectable in normoxic rats, arachidonic acid increased to between 4 and 6 nmol.mg(?1) protein during hyperoxia while oleic acid increased by two to threefold. In normoxia, palmitate decreased by 70% from 12 to 4 nmol.mg(?1) protein whereas in hyperoxia it remained at 10 nmol.mg(?1) protein. Normobaric 100% O(2) has detrimental metabolic effects on the neonatal brain which cannot be attributed to cerebral vasospasm or seizure-induced cerebral anoxia because lactic acidosis was not observed. FFA changes suggest that a likely explanation is membrane lipid peroxidation from O(2)-induced free radicals.
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PMID:Detrimental cerebrometabolic effects of hyperoxia in newborn rats. 2050 Nov 6