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)

A rise of hemoglobin concentration accompanied by an increase of the total iron in the blood serum of white mice was found under oxygen pressure of 4 atm for an hour (preconvulsive state) and 6 atm (convulsive state). Changes in correlations of hemoglobin fractions in the blood serum were detected in both stages of oxygen poisoning by disc-electrophoresis in 7.5% polyacrylamide gel. A rise of transferrin concentration under these conditions (hyperoxia) was observed. The deflections occurred were less pronounced following administration of urea to the animals before hyperbaric oxygenation.
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PMID:[Hemoglobin, transferrin and total iron content in the blood serum in hyperoxia and during the protective action of urea]. 46 81

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

This study was undertaken to compare phrenic motoneuron responses to hypercapnia and isocapnic hypoxia. Efferent activity of single phrenic nerve fibers was recorded with that of the contralateral phrenic nerve in decerebrate cats which were vagotomized, paralyzed, and artificially ventilated. At normocapnia in hyperoxia, single phrenic fibers were distributed into approximately equal "early" and "late" populations according to their onset of activity relative to the period of the phrenic burst. Elevations of PACO2 or diminutions of PAO2 resulted in progressive increases in the number of spikes per respiratory cycle and decreases in the modal interspike interval for both early and late units. Moreover, either stimulus caused an onset of late unit activity at progressively earlier portions of inspiration. At equivalent levels of peak integrated phrenic discharge achieved at normocapnia or hypercapnia as compared to normoxia or hypoxia, there were no differences in activity patterns for either early or late units. It is concluded that hypoxia-induced alterations in the activity of single phrenic motoneurons are identical to those changes resulting from hypercapnia.
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PMID:Comparison of phrenic motoneuron responses to hypercapnia and isocapnic hypoxia. 46 30

Published reports of oxygen consumption (VO2) during exercise in hyperoxia are equivocal. By and large, when measured at the lung using respiratory gas equations, VO2 is elevated in hyperoxia and, when measured at the blood-tissue level using the cardiovascular Fick (CVF) equation, it is unchanged. We sought to provide some insight into this problem by making through the use of both equations simultaneous determinations of VO2 during hyperoxia in exercising ponies. In normoxia, during treadmill exercise (115 m/min, 10% grade) of seven ponies, there was no difference in exercise VO2, whether it was measured by the Haldane transformation (HT) or CVF equations (P greater than 0.05). In hyperoxia, the exercise VO2 was significantly increased from the normoxia condition (P less than 0.05) when measured by the HT equation but not when measured by the CVF equation (P greater than 0.05). By use of the CVF equation as the method of choice for VO2 determinations in hyperoxia, the present data show no change in exercise VO2 in the hyperoxic condition.
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PMID:Effect of hyperoxia on oxygen consumption in exercising ponies. 46 33

We have investigated the effects of chronic oral administration of two anorectic substances, fenfluramine and aminorex, especially on the pulmonary circulation in young pigs with one ligated pulmonary artery. The pulmonary vascular reactivity was tested by alveolar hypoxia, alveolar hyperoxia and infusion of prostaglandin F2ALPHA. No elevation of pulmonary arterial pressures or resistances were found due to the intake of fenfluramine or aminorex over a three month period. The responses to the vasoconstrictor stimuli, hypoxia and prostaglandin F2alpha, and to the vasodilator stimulus, hyperoxia, were equal and not augmented in the drug groups. Fenfluramine or aminorex could therefore could therefore not be shown to have an adverse effect on the pulmonary circulation or on the reactivity of the pulmonary vascular bed in the pig, but fenfluramine elevated systemic arterial pressure.
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PMID:Long term effects of the anorectic agent fenfluramine alone and in combination with aminorex on pulmonary and systemic circulation in the pig. 47 36

Using ten normal dogs, the right upper lobe of the lung was isolated in vivo by a balloon catheter and was artificially ventilated with nitrogen, air, 60% oxygen in nitrogen, and 60% oxygen and 20% carbon dioxide in nitrogen, while the rest of the lungs maintained a spontaneous breathing of ambient air. Aminophylline did not show a vasodilating action under severe alveolar hypoxia (PAO2: ca. 40 mmHg); on the contrary, it seemed to potentiate hypoxic pulmonary vasoconstriction. When the regional alveolar oxygen tension became less hypoxic (PAO2: ca. 70 mmHg) or higher than that in the rest of the lungs which spontaneously breathed ambient air, aminophylline showed a definite vasodilating action. Aminophylline also showed a vasodilating action in alveolar hypercapnia in the presence of alveolar hyperoxia.
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PMID:Effect of aminophylline on regional perfusion distribution in the lungs. 48 2

There is in vitro evidence to support the notion that directed migration (chemotaxis) is involved in the recruitment of alveolar macrophages in vivo. Because O2 is widely used in the treatment of pulmonary diseases, we examined the effect of hyperoxia on migration of guinea pig alveolar macrophages in vitro. Migration was measured in blind-well chambers incubated in either room air or hyperoxia. N-formyl-methionyl-phenylalanine was used to stimulate random migration and to produce directed migration. Migration was quantified by counting the number of mononuclear cells per oil immersion field that had migrated completely through a polycarbonate filter with 5-micrometer pores. The average PO2 in the cell suspensions incubated in room air was 100 mm Hg. In the hyperoxic environments, the average PO2 at 1 h was 260 mm Hg, whereas at 2 and 3 h, it was 410 and 425 mm Hg, respectively. In 6 separate experiments, there was no significant difference between the mean response to N-formyl-methionyl phenylalanine in hyperoxia and in room air after 1 h of incubation. After 2 and 3h of incubation, however, the response in hyperoxia was significantly (P less than 0.002) lower than that in room air. The decreased response in hyperoxia did not appear to result from loss of viability of responding cells, diminished adherence of cells to the filters, loss of activity of N-formyl-methionyl phenylalanine exposed to high PO2, or failure of the cells to exhibit directed migration. Instead, it appeared that hyperoxia decreased the response of alveolar macrophages primarily by impairing random migration.
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PMID:The effect of hyperoxia on migration of alveolar macrophages in vitro. 48 31

The effect of hyperoxia on pig articular tissue has been studied in organ culture. Hyperoxia (55% O2) causes an increased release of hydroxyproline and collagenolytic activity from synovial tissue as compared with control explants in 20% O2, but neither 55% nor 95% O2 has any effect on the breakdown of isolated cartilage during 10 days in culture. When synovium and cartilage are cultured in contact, the breakdown of cartilage collagen is greater in the hyperoxic (55% O2) group than in the controls (20% O2), but the breakdown of proteoglycan is not increased. The enhanced collagenolytic action is due to an increase in the direct effect of the synovial tissue on the cartilage matrix. In 20% O2 the synovium causes the chondrocytes to degrade the cartilage matrix, but this effect is inhibited by 55% O2.
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PMID:Effect of hyperoxia on articular tissues in organ culture. 48 84

Friedreich's Ataxia (F.A.) is a degenerative disease which commonly leads to premature death of cardiorespiratory origin. To explain the early death of these patients, previous investigations have established the existence of 1) a cardiomyopathy in nearly 100% of cases, 2) a restrictive pulmonary syndrome of scoliotic origin and 3) a mild hypoxemia associated with slight respiratory alkalosis and a normal oxyhemoglobin dissociation curve. To further assess the cause of early death in patients with such neuromyopathy, we evaluated, in eleven F.A. patients, the sensitivity of the respiratory centers to hypercapnia, hypoxia, and hyperoxia. Ventilatory (VE, VT, F, VT/Ti) and occlusion pressure (P0.1) responses were taken as indices of the respiratory centers output during progressive hypercapnia (Read's method) and isocarbic hypoxia (Weil's method). We studied 11 Friedreich's Ataxia patients and 11 age, sex, and armspan matched controls. The responses of patients to hypercapnia were significantly greater than controls but their responses to hypoxia were similar to controls. Our study establishes that the respiratory centers are functioning adequately in early Friedreich's Ataxia and do not contribute to cardio-respiratory insufficiency in such neuromyopathy.
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PMID:Regulation of respiration in Friedreich's ataxia. 48 4

Previous studies have shown that endurance athletes are endowed with low ventilatory responses to chemical stimuli. The implications of this association have never been clear. Although recent evidence shows that exercise ventilation (VE) correlates with ventilatory chemoresponsiveness in a group of athletes, the extent to which non-athletes may differ from athletes in this regard is unknown. We have examined the relationship between ventilatory chemoresponsiveness and exercise VE in a group of 7 non-athletes, and contrasted these findings with those obtained previously from 8 endurance and 8 non-endurance athletes. Correlation lines of exercise VE with chemical responses were similar in slope and intercept for both athletes and non-athletes. However, we found that non-athletes had greater exercise VE per unit metabolic rate (VO2 or VCO2), and greater ventilatory responses to O2 and CO2, when compared with endurance athletes at equal relative work loads (P less than 0.05). The lower exercise VE/VCO2 of endurance athletes as compared with non-athletes persisted in hyperoxia, indicating that factors other than differences in hypoxic sensitivity explain the lower exercise VE of endurance athletes. Low exercise VE may be the link between low ventilatory chemosensitivity and outstanding endurance athletic performance.
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PMID:Low exercise ventilation in endurance athletes. 49 78

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