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)

We recently found that exposure of 21-day-old rats to hyperoxia (> 95% O2 for 8 days) significantly increased in vivo airway cholinergic responsiveness and that O2 exposure also increased airway epithelial and smooth muscle layer thicknesses in a separate cohort of animals. There was substantial variation in the magnitude of both the functional and structural responses to hyperoxia. The present study was designed to test whether the magnitude of O2-induced airway remodeling could account for individual differences in airway responsiveness after O2 exposure, as well as for the difference in responsiveness between air- and O2-exposed animals. We assessed in vivo airway responsiveness to aerosolized acetylcholine (ACh) and airway architecture in 14 O2- and 5 air-exposed, immature rats. Total respiratory system resistance was determined using a plethysmographic method. The mean thicknesses and fractional areas of the airway epithelial and smooth muscle layers were determined by contour tracing using a digitizing pad and microcomputer. Both the small (circumference < 1,000 microns) and central (circumference 1,000 to 4,000 microns) airways were studied. For O2-exposed rats, individual values of EC200 ACh correlated negatively with small airway smooth muscle layer thickness (r = -0.59, p < 0.05; ANOVA), small airway smooth muscle layer fractional area (r = -0.75, p < 0.01), small airway epithelial thickness (r = -0.54, p < 0.05), small airway epithelial fractional area (r = -0.69, p < 0.01), and central airway smooth muscle layer thickness (r = -0.53, p < 0.05). When both air- and O2-exposed animals were considered, EC200 ACh correlated negatively with all eight parameters of airway layer thickness and fractional area.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hyperoxia-induced airway remodeling in immature rats. Correlation with airway responsiveness. 144 86

In order to evaluate further the physiological and inflammatory changes of meconium aspiration syndrome (MAS), 25 newborn piglets (1-2 days old, 1.5 +/- 0.4 kg) were studied. Piglets were briefly ventilated with 100% oxygen and then received an intratracheal bolus of 3 mL/kg of a 20% suspension of human meconium. They were then further ventilated, keeping PaCO2 at approximately 40 torr and PaCO2 at 70 torr during 4, 12, 24, and 48 h studies. Pulmonary function studies and tracheal aspirates were obtained at time zero and serially throughout the study. Bronchoalveolar lavage was performed at the end of the study to examine endogenous surfactant function. Control piglets received 3 mL/kg of intratracheal saline and were then ventilated for 48 h at an inspired oxygen concentration and mean airway pressure matched to the meconium treated group (to control for the effects of hyperoxia and barotrauma on the lung). MAS caused acute decreases in gas exchange and dynamic lung compliance, which returned toward baseline by 48 h (P < 0.001, ANOVA). Tracheal aspirate absolute neutrophil count, neutrophil chemotactic activity, albumin, and total protein concentrations also increased significantly over time (P < 0.001). Endogenous surfactant function appeared to be significantly inhibited by the meconium. All variables of lung injury were significantly higher in the meconium group compared to the saline control group over the 48 h study. Newborn piglets provide a clinically relevant model of MAS, demonstrating physiological and inflammatory changes with apparent alterations in endogenous surfactant function. Effective therapies for MAS may require interventions directed at all of these components of lung injury.
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PMID:Meconium aspiration syndrome: physiological and inflammatory changes in a newborn piglet model. 836 15

We tested the effect of caffeine, on hyperoxia-induced seizures. Thirty-seven rats with chronic cortical electrodes were injected i.p. with caffeine (1.25, 2.5, and 10 mg/kg) or vehicle before exposure to 0.5 MPa oxygen and 17 rats to oxygen with 5% CO2 at 0.5 MPa. EEG monitoring and spectral analysis of EEG activity were carried out. Caffeine significantly prolonged the latent period to the onset of seizures (P < 0.05 in ANOVA), in a dose-related manner. Our results suggest that caffeine may be used in low doses for protection against hyperoxia-induced seizures.
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PMID:Caffeine attenuates CNS oxygen toxicity in rats. 857 77

1. Ventilatory chemoreflex responses have been studied at rest during the recovery from a brief period of heavy exercise. 2. Six young, healthy male subjects each undertook four experimental studies. In each study measurements were made at rest during recovery from an exhaustive 1-2 min sprint on a bicycle ergometer with a workload of 400 W. Three levels of end-tidal O2 pressure (Po2) were employed. Continuous ventilatory measurements were made during euoxia (end-tidal Po2, 100 Torr), hypoxia (end-tidal Po2, 50 Torr) and hyperoxia (end-tidal Po2, 300 Torr). Arterialized venous blood samples were drawn during each of the measurement periods for the estimation of arterial pH. In two of the studies, end-tidal CO2 pressure (Pco2) was maintained throughout at 1-2 Torr above the eucapnic level that existed prior to exercise (isocapnic post-exercise protocol, IPE). In the other two studies, end-tidal Pco2 was allowed to vary (poikilocapnic post-exercise protocol, PPE). Data from a previously published study on the same subjects involving an infusion of hydrochloric acid were used to provide control data with a varying level of metabolic acidosis, but with no prior exercise. 3. Ventilation-pH slopes in the IPE protocol were no different from control. Ventilation-pH slopes in the PPE protocol were significantly lower than in the IPE and control protocols (P < 0.05, ANOVA). This difference may be due to the progressive change in end-tidal Pco2 in the PPE protocol compared with the constant end-tidal Pco2 in the IPE and control protocols. 4. An arterial pH value of 7.35 was attained 30.4 +/- 2.7 min (mean +/- S.E.M.) after the end of exercise in the IPE protocol and 17.1 +/- 1.4 min after the end of exercise in the PPE protocol. 5. Hypoxic sensitivities at an arterial pH of 7.35 were not significantly different between the IPE, PPE and control protocols (ANOVA). 6. Euoxic ventilation at an arterial pH 7.35 was significantly greater than control for the IPE protocol (P < 0.001, Student's paired t test) and no different from control for the PPE protocol. 7. The results suggest that 30 min after heavy exercise, ventilation remains stimulated by processes other than the post-exercise metabolic acidosis, and that changes in peripheral chemoreflex sensitivity to hypoxia and acid are not implicated in this.
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PMID:Ventilatory chemoreflexes at rest following a brief period of heavy exercise in man. 888 89

This study examines the effects of prolonged hypoxia, with and without control of end-tidal CO2 partial pressure (PET,CO2), on the intensity-weighted mean velocity of blood flow in the middle cerebral artery (VIWM) and on heart rate (HR). Specifically, the time course of the responses, their reversibility with brief periods of hyperoxia and the recovery phase following prolonged hypoxia were all investigated. Twelve subjects were studied, of whom nine provided satisfactory data. A purpose-built chamber was used for the prolonged control of the end-tidal gases, and an end-tidal forcing system was used for generating the brief variations in end-tidal gases. Three 16 h protocols were employed: (1) 8 h eucapnic (average PET,CO2 = 39 mmHg) hypoxia (end-tidal O2 partial pressure, PET,O2 = 55 mmHg) followed by 8 h eucapnic euoxia (PET,O2 = 100 mmHg); (2) 8 h poikilocapnic (average PET,CO2 4 mmHg below eucapnia) hypoxia (PET,O2 = 55 mmHg) followed by 8 h poikilocapnic euoxia (PET,O2 = 100 mmHg); and (3) control (air inspired throughout). VIWM (using Doppler ultrasound) and HR were measured during brief exposures to hypoxic/euoxic and hyperoxic conditions with PET,CO2 held 1-2 mmHg above eucapnia, at 0, 20, 240 and 480 min in the first 8 h, and at the same times in the second 8 h. There were no significant trends in VIWM under hypoxic conditions for either hypoxic protocol (ANOVA) and no significant differences between the three protocols for VIWM in hyperoxia (ANOVA). In contrast to VIWM, there was a significant increase in HR over time during both hypoxic exposures (P < 0.01, ANOVA). HR increased to a similar extent for the two types of hypoxia, and there was some suggestion that HR remained elevated after the relief of hypoxia. The results suggest that, with the level of hypoxia employed, progressive changes in HR occur, but that this level and duration of hypoxia has little sustained effect on VIWM.
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PMID:Effects of 8h of eucapnic and poikilocapnic hypoxia on middle cerebral artery velocity and heart rate in humans. 925 19

1. The maturation of carotid chemoreceptor steady-state and dynamic responses to CO2 in newborn lambs was measured. In total, sixteen fibres (13 lambs) were studied at 3-4 days, nineteen fibres (13 lambs) at 5-9 days and twenty-one fibres (17 lambs) at 10-24 days after birth. 2. Steady-state CO2 sensitivity was measured over a range of arterial CO2 pressures (Pa,CO2) at four levels of arterial O2 pressure (Pa,O2): hyperoxia (Hyp), 115-150 mmHg; normoxia (Nx), 90-105 mmHg; moderate hypoxia (ModHx), 40-60 mmHg; and severe hypoxia (SvHx), 20-35 mmHg. 3. Steady-state CO2 sensitivity was present at all ages, and a significant effect of age (P < 0.001) and Pa,O2 (P < 0.025) (ANOVA) was observed. Older lambs were unable to sustain an increase in chemoreceptor discharge during SvHx as CO2 was increased. 4. Dynamic CO2 sensitivity was measured by producing alternations in end-tidal CO2 levels (etCO2) (alternation amplitude, 1.23 +/- 0.07% (mean +/- S.E.M.); etCO2, 7.56 +/- 0.15%) over 2-8 s at two Pa,O2 levels only: 80-100 (Nx) and 40-60 mmHg (ModHx). Peak and trough values of the oscillation in chemoreceptor discharge were plotted against maximum and minimum etCO2 for the control and CO2-loaded breaths. Dynamic CO2 sensitivity was calculated as the slope between these points. 5. Dynamic CO2 sensitivity was greater than steady-state sensitivity in Nx (P < 0.05) and ModHx (P < 0.01, Student's paired t test). Unlike steady-state CO2 sensitivity, there was no significant effect of age or Pa,O2 on dynamic sensitivity (P > 0.39 and P > 0.68, respectively, ANOVA). 6. Our results show that the neonatal lamb possesses a carotid body steady-state CO2 sensitivity within a few days of birth, an age when hypoxia sensitivity is low. This CO2 sensitivity increases with age, perhaps due to the increasing interaction between CO2 and O2. Dynamic sensitivity of the carotid body to CO2 is mature at birth and does not increase with age, as predicted if the response of the carotid body to rapid changes in CO2 is independent of the sensitivity to the partial pressure of O2 (PO2).
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PMID:Development of carotid chemoreceptor dynamic and steady-state sensitivity to CO2 in the newborn lamb. 928 86

Six male rowers rowed maximally for 2500 m in ergometer tests during normoxia (fractional concentration of oxygen in inspired air, F(I)O2 0.209), in hyperoxia (F(I)O2 0.622) and in hypoxia (F(I)O2 0.158) in a randomized single-blind fashion. Oxygen consumption (VO2), force production of strokes as well as integrated electromyographs (iEMG) and mean power frequency (MPF) from seven muscles were measured in 500-m intervals. The iEMG signals from individual muscles were summed to represent overall electrical activity of these muscles (sum-iEMG). Maximal force of a stroke (Fmax) decreased from the 100% pre-exercise maximal value to 67 (SD 12)%, 63 (SD 15)% and 76 (SD 13)% (P < 0.05 to normoxia, ANOVA) and impulse to 78 (SD 4)%, 75 (SD 14)% and 84 (SD 7)% (P < 0.05) in normoxia, hypoxia and hyperoxia, respectively. A strong correlation between Fmax and VO2 was found in normoxia but not in hypoxia and hyperoxia. The mean sum-iEMG tended to be lower (P < 0.05) in hypoxia than in normoxia but hyperoxia had no significant effect on it. In general, F(I)O2 did not affect MPF of individual muscles. In conclusion, it was found that force output during ergometer rowing was impaired during hypoxia and improved during hyperoxia when compared with normoxia. Moreover, the changes in force output were only partly accompanied by changes in muscle electrical activity as sum-iEMG was affected by hypoxic but not by hyperoxic gas. The lack of a significant correlation between Fmax and VO2 during hypoxia and hyperoxia may suggest a partial uncoupling of these processes and the existence of other limiting factors in addition to VO2.
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PMID:Effects of oxygen fraction in inspired air on force production and electromyogram activity during ergometer rowing. 940 60

Inhaled nitric oxide (NO) is an important new therapeutic agent used to treat pulmonary arterial hypertension in a variety of disease states. However, the effects of NO on cells in the lung are uncertain. Previously, we have shown that NO gas depresses neutrophil oxidative cell function and increases neutrophil cell death. The purpose of this in vitro study was to determine the mechanism of neutrophil death. We hypothesized that NO hastened cell death by inducing apoptosis. To mimic the clinical environment of patients with respiratory failure, we also studied the effects of hyperoxia on neutrophil cell viability and apoptosis. Isolated human neutrophils were exposed to 80% O2 (O2), NO at 20 ppm in room air (NO/RA), 20 ppm NO blended with 80% O2 (NO/O2), or RA alone (control) for 2 to 24 h. Experiments were repeated with NO concentrations of 5 and 50 ppm and with 20 ppm in the presence of superoxide dismutase (SOD). Neutrophils were also incubated in the absence or presence of neutrophil stimulant fMLP (10 nM). Neutrophil cell viability was measured by fluorescence viability/cytotoxicity assay. Neutrophil apoptosis was assessed by cell death detection ELISA for histone-associated DNA fragments, TdT transferase-mediated fluorescence-labeled dUTP nick end labeling (TUNEL) assay, and DNA fragmentation gel electrophoresis. NO/O2-exposed neutrophils showed decreased viability at 2 h (31.7 +/- 3.7%, mean % viability +/- SD) compared with control (94.7 +/- 4.7%), O2 (75.6 +/- 9.3%), and NO/RA (62.8 +/- 14.9%; P < 0.05 by ANOVA; n = 9). Although control neutrophils demonstrated marked apoptosis at 24 h, there was no significant apoptosis at 2, 4, or 6 h (P < 0.001 by Kruskal-Wallis, n = 20) as assessed by ELISA and TUNEL assays. When compared with RA controls at 2 h, neutrophils exposed to NO/O2 showed significantly more apoptosis (292% of control, range: 106 to 2,488%, P < 0.001 by ANOVA and Kruskal-Wallis) but not with exposure to NO/RA or O2 alone. These findings were confirmed by TUNEL assay (n = 4, P < 0.05). NO/ RA and NO/O2-exposed neutrophils demonstrated both evidence of necrosis and enhanced DNA fragmentation at 2 h by gel electrophoresis (n = 2). Fifty parts per million NO produced similar findings, but exposure to 5 ppm NO did not induce significant DNA fragmentation. Coincubation with SOD inhibited NO/ O2-associated apoptosis, suggesting peroxynitrite contributed to cell death. Stimulation with fMLP did not alter apoptosis induced in neutrophils exposed to NO/RA or NO/O2. We conclude that exogenous NO gas, at clinically relevant concentrations under hyperoxic conditions, induces cell death in neutrophils in part by enhancing DNA fragmentation.
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PMID:Exogenous nitric oxide enhances neutrophil cell death and DNA fragmentation. 949 Jun 60

To better understand the biochemical events accompanying lung alveolarization and development, we studied the specific activity of the cAMP-dependent protein kinase (PKA) and the type 2A protein phosphastase (PP2A), and the activity and protein content of the calcium- and lipid-dependent protein kinase (PKC) in cytosolic preparations of lungs. Lungs were obtained from rat pups on day 2 of life and on days 7, 14, and 27 from pups exposed to hyperoxia (> 95% O2, days 4-14; 65% O2 days 15-27) or normoxia from day 4 onwards. There were no significant changes in PKA specific activity with developmental age or hyperoxic exposure. PKC specific activity increased significantly (P < .05) in normoxic animals from day 2 (64 +/- 13.5 pmol phosphate released/min/mg protein) to day 14 (105 +/- 9). The increase was sustained to day 27. There was no effect on PKC activity due to hyperoxia alone (ANOVA). This increase in PKC activity was accompanied by an increase in the mass of the delta, epsilon and zeta isoforms of PKC in normoxic pups. The gamma isoform of PKC was undetectable in all samples whereas the alpha and beta isoforms were detectable but showed no changes with developmental age. PP2A specific activity increased significantly (P < .05) from 13.3 +/- 0.5 nmol phosphate released/min/mg protein on day 2 to 17.7 +/- 0.9 on day 7 in normoxic pups, then returned to day 2 level at advanced developmental age. Hyperoxia exposure prevented the increase in enzyme activity observed on day 7 in normoxic animals. These data suggest that protein phosphorylation may be one mechanism by which alveolarization is regulated in developing lungs.
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PMID:Effect of developmental age and hyperoxia exposure on kinase and phosphatase activities in newborn rat lungs. 963 55

In humans, the hypoxic ventilatory response (HVR) is augmented when preceded by a short hyperoxic exposure (Y. Honda, H. Tani, A. Masuda, T. Kobayashi, T. Nishino, H. Kimura, S. Masuyama, and T. Kuriyama. J. Appl. Physiol. 81: 1627-1632, 1996). To examine whether neuronal nitric oxide synthase (nNOS) is involved in such hyperoxia-induced HVR potentiation, 17 male Sprague-Dawley adult rats underwent hypoxic challenges (10% O2-5% CO2-balance N2) preceded either by 10 min of room air (-O2) or of 100% O2 (+O2). At least 48 h later, similar challenges were performed after the animals received the selective nNOS inhibitor 7-nitroindazole (25 mg/kg ip). In -O2 runs, minute ventilation (VE) increased from 121.3 +/- 20.5 (SD) ml/min in room air to 191.7 +/- 23.8 ml/min in hypoxia (P < 0.01). After +O2, VE increased from 114.1 +/- 19.8 ml/min in room air to 218.4 +/- 47. 0 ml/min in hypoxia (+O2 vs. -O2: P < 0.005, ANOVA). After 7-nitroindazole administration, HVR was not affected in the -O2 treatment group with VE increasing from 113.7 +/- 17.8 ml/min in room air to 185.8 +/- 35.0 ml/min in hypoxia (P < 0.01). However, HVR potentiation in +O2-exposed animals was abolished (111.8 +/- 18. 0 ml/min in room air to 184.1 +/- 35.6 ml/min in hypoxia; +O2 vs. -O2: P not significant). We conclude that in the conscious rat nNOS activation mediates essential components of the HVR potentiation elicited by a previous short hyperoxic exposure.
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PMID:Potentiation of hypoxic ventilatory response by hyperoxia in the conscious rat: putative role of nitric oxide. 965 65

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