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

Increased plasma erythropoietin (ESF) activity, a rise in RBC 2,3-DPG, and a 'right shift' of the oxygen hemoglobin equilibrium curve following androgen administration to mice in ambient or hyperoxic conditions, was demonstrated. If androgens had a direct effect on the RBC metabolism, increased 2,3-DPG would result in a facilitated release of oxygen to the tissue. This would have been accompanied by a decrease rather than an increase in the level of ESF. Hyperoxia has abolished detectable rising levels of plasma ESF and RBC 2,3-DPG following androgen administration. These levels were close to those seen in the ambient nontreated mice.
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PMID:Effect of hyperoxia and androgen on red cell 2,3-diphosphoglycerate and oxygen affinity. 82 Dec 96

The influence of isobaric hyperoxia (99% O2, 760 mm Hg, 3 hours a day for 2 weeks) on the respiratory function of the mongrel adult cats blood was investigated. An increase of the reticulocyte count (by 170%), and a fall of methemoglobin concentration in the blood (by 33%), and a decrease of the affinity of cat hemoglobin oxygen affinity (by 13%)8 and of the cooperation effect of Hill's constant (by 16%) were observed. Dialysis of hemoglobin solutions eliminated the difference in the hemoglobin oxygen affinity of control and experimental animals. The number of hemoglobin fractions and their mobility was found to be unchanged (according to the agar electrophoresis method). A conclusion was drawn that the cat erythrocytes reaction to hyperoxia was a typical autoregulation; on its basis hemoglobin acquired a lesser oxygen affinity under conditions of an excess of this gas.
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PMID:[Respiratory function of the blood in the cat in hyperoxia]. 90 16

This study investigated the accuracy of laser-Doppler flowmetry (LDV) and reflectance spectrophotometry (RS) measurements as an index of blood flow in the gastric mucosa of the rat, in experimental conditions such as pharmacologically induced vasoconstriction, hypoxia, hyperoxia, and acute normovolemic anemia. Hydrogen gas clearance was used as a reference method. After vasopressin infusion, LDV signal and indexes of hemoglobin (IHb) and oxygen (ISO2) content in the gastric mucosa estimated by RS significantly decreased in parallel with the reduction of gastric mucosal blood flow (GMBF). Neither hypoxia (5% O2 administration) nor hyperoxia (100% O2) affected GMBF or LDV signal. However, both IHb and ISO2 significantly decreased or increased after hypoxia or hyperoxia, respectively. Acute normovolemic anemia induced a significant increase in GMBF, while LDV signal and ISO2 remained unchanged. IHb significantly decreased in linear relationship with the decrements in the hematocrit. It is concluded that 1) in pharmacologically induced GMBF changes, LDV and RS correlate with GMBF; 2) when changes in hemoglobin saturation are induced, LDV but not RS reflects GMBF; and 3) in acute normovolemic anemia, neither LDV nor RS reflects changes in GMBF.
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PMID:Limitations of laser-Doppler velocimetry and reflectance spectrophotometry in estimating gastric mucosal blood flow. 821 80

We asked whether lung innervation was essential for the normal postnatal development of the lung in conditions of normoxia, hypoxia, or hyperoxia. Litters of newborn rats were assigned to a normoxic [inspired oxygen partial pressure (PIO2) = 150 Torr, eight litters], hypoxic (PIO2 = 100 Torr, nine litters), or hyperoxic (PIO2 = 360 Torr, nine litters) group. Each litter consisted of 12 pups. Two days after birth, one-third of the litter had the vagus and sympathetic trunk cut in the neck on the left side [left denervated (L)], one-third was denervated on the right side (R), and one-third was sham-operated (S). From day 3, all pups were exposed to the designed PIO2, until day 8 or days 21-22. Almost all rats, whether S, R, or L, survived in normoxia and hyperoxia, whereas in hypoxia survival at day 22 of R and L was approximately 60-65%. Body growth was the same in S, R, and L and less in hypoxia than in normoxia or hyperoxia. At days 8 and 22, hematocrit and hemoglobin concentration, heart and lung dry and wet weights, and lung DNA content did not differ among S, R, and L, whether the pups were raised in normoxia, hypoxia, or hyperoxia. At days 21-22, aerobic metabolism and breathing pattern, both measured during air breathing, as well as compliance of isolated lungs, were also similar among S, R, and L for each of the conditions in which the pups were raised.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Postnatal development of the denervated lung in normoxia, hypoxia, or hyperoxia. 144 92

Rates of O2 uptake across isolated perfused skin of bullfrogs (Rana catesbeiana) were measured in relation to blood flow at three levels of ambient O2 tension: normoxia (O2 tension = 152 torr), hypoxia (12% O2, 87 torr) and hyperoxia (42% O2, 306 torr). At bulk perfusion rates ranging from 3.4 to 10.1 microliters.cm-2 x min-1, O2 uptake was positively correlated with hemoglobin delivery rate in both normoxia and hyperoxia, but was independent of delivery rate in hypoxia. Mean O2 uptake in normoxia was 3.8 nmol O2 x cm-2 x min-1 at a delivery rate of 9.8 nmol.cm-2 x min-1 and 6.5 nmol O2 x cm-2 x min-1 at a delivery rate of 28.3 nmol.cm-2 x min-1. At any given bulk perfusion rate, oxygen uptake averaged about 49% lower in hypoxia than in normoxia, decreasing in proportion to the reduction of O2 tension difference between medium and blood. In hyperoxia, O2 uptake did not increase proportionally with the difference in O2 tension between blood and medium, averaging only 50% higher at a 2.4-fold greater O2 tension difference. Cutaneous diffusing capacity for O2 averaged 0.041 nmol O2 x cm-2 x torr-1 x min-1 during the first hour of perfusion in normoxia, and was not affected by reduction of ambient O2 tension. The results indicate that cutaneous O2 uptake in hypoxia is highly diffusion limited, and consequently, increases in cutaneous perfusion can not effectively compensate for reduction of ambient O2 tension. In hyperoxia, O2 uptake may be substantially perfusion limited because of reduced blood O2 capacitance at high O2 saturations.
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PMID:Dependence of oxygen uptake on ambient PO2 in isolated perfused frog skin. 146 56

The rate at which CO displaces oxygen from combination with hemoglobin in intact red cells was measured spectrophotometrically in whole blood thin films that minimize unstirred layer extra-cellular diffusion barriers. A step-change was made in CO tension from zero to one of four values (2, 7, 21 and 70 Torr) during a constant background of one of eight O2 tensions (0, 40, 70, 100, 153, 214, 285 and 428 Torr). For PO2 greater than 100 Torr measured red cell initial CO uptake rates were compared with calculated rates at the same PCO-PO2 based on the Gibson-Roughton rate equation (Gibson and Roughton, Proc. R. Soc. B 143: 310-334, 1955) for a well mixed Hb solution. Measured CO uptake rates expressed as initial rate of saturation change (delta S/delta t) quantitatively followed the theoretical rate equation (time in seconds) [sequence: see text] These measurements provide new values for theta CO, the specific conductance of whole blood (ml.min-1.Torr-1; PCO, PO2 in Torr): [sequence: see text] These results signify that in vivo, in normoxia and hyperoxia, red cell CO uptake rate is wholly reaction rate limited and that pulmonary capillary red cell CO diffusion equilibrium is rapidly achieved. The Bohr-Krogh assumption that red cell PCO = 0 during CO uptake is untrue.
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PMID:CO uptake kinetics of red cells and CO diffusing capacity. 162 29

The specific ventilatory flow rate (Vw), cardiac output (Vb) and blood respiratory parameters were determined in the carp (Cyprinus carpio) during hyperoxia. Vb changed little during moderate hyperoxia (240-330 Torr) but slightly increased during extreme hyperoxia (430-490 Torr) while Vw decreased. This means that the ventilation-perfusion ratio considerably decreased during hyperoxia. The CO2 tension (PCO2) of blood rose, causing a corresponding decrease in blood pH. The O2 tensions (PO2) of arterial and mixed venous blood increased but remained low (about 40 Torr and 15 Torr, respectively). Consequently, the hemoglobin in the arterial and mixed venous blood was not saturated with O2 (about 80 and 55%, respectively) even during extreme hyperoxia. This indicates that most of the O2 which is consumed by the fish remains transported in a combined form during hyperoxia. During hyperoxia, when the decreased Vw was artificially elevated to the normoxic level, the PO2 of arterial blood (PaO2) rose further and the PCO2 and pH of arterial blood became restored to the normoxic levels. This suggests that the CO2 retention and the depressed increase in PaO2 during hyperoxia are mainly due to the decrease in Vw in the carp.
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PMID:Ventilation, cardiac output and blood respiratory parameters in the carp, Cyprinus carpio, during hyperoxia. 212 16

The noninvasive determination of biochemical parameters has become an important aspect of intensive care medicine. The newly developed monitors for laser reflectometry provide the possibility of spectroscopic monitoring. The equipment consists of a near-infrared data collection unit and a personal computer. The four laser diodes emit light at wavelengths of 775, 805, 845 and 904 nm. By analyzing the changes in optical density during laser irradiation of biological tissue, information is obtained about the relative changes in the concentration of hemoglobin and the blood volume. In animal experiments with ten fetal lambs we evaluated the reliability of near infrared laser spectroscopy. Fetal hyperoxia was achieved by means of an extracorporeal circuit with interposition of a membrane oxygenator (0.8 m2, Scimed). During the induced hyperoxia the laser spectroscopic tracings showed a rise in the HbO2 signal with a synchronous decrease in the HbR signal. Additionally, the spectroscopic pattern showed a characteristic initial rise in the intracerebral blood volume, which stabilized after 4 minutes. We found a significant correlation between the intermittently measured PO2 values of the arterial blood samples and the laser spectroscopic HbO2 and HbR signals (r = 0.87, and r = -0.82, respectively; p less than 0.001). Furthermore, hyperoxia was indicated by the laser system with a short lag time. We conclude that laser spectroscopy is a reliable method with a high potential for clinical routine use in intensive care, as it provides noninvasive continuous information at comparatively low costs using portable monitors.
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PMID:[Laser spectroscopic assessment of induced hyperoxia--an animal experiment in lambs]. 222 38

The effect of graded systemic hyperoxia on vitreal PO2 distribution has been determined for the rat eye. Oxygen tension profiles were measured, using oxygen-sensitive microelectrodes, as a function of distance from the internal limiting membrane as the inspired oxygen percentage was increased in 10% steps from 20-100%. Depending on the original touching location of the microelectrode on the retina, there could be substantial PO2 gradients within 500 microns of the retina; at greater distances vitreal PO2 was constant and a function of the inspired oxygen percentage. Whatever the location of the microelectrode in the vitreous, PO2 rose with increasing hyperoxia. The relationship between vitreal PO2 and inspired oxygen was nonlinear with a central relatively flat region between 50-80% inspired oxygen. The ratio between vitreal PO2 during 100% O2 breathing and air breathing was 3.42 +/- 1.08 (standard deviation, n = 7). Possible explanations for the plateau region are the maintenance of a relatively constant PO2 by vascular autoregulation and/or the buffering of capillary PO2 by hemoglobin. The rat eye, therefore, responds to hyperoxia similarly to that of the cat and monkey but differs from that of the miniature pig where there is no rise in preretinal PO2 during hyperoxia.
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PMID:The response of rat vitreal oxygen tension to stepwise increases in inspired percentage oxygen. 226 89

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