Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242706 (hyperoxia)
 5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examined the effect of acute changes in oxygen tension on responses evoked by the bronchoconstrictor methacholine and the dilators salbutamol, atrial natriuretic peptide and isosorbide dinitrate in isolated bovine bronchi. Cumulative concentration-response curves to methacholine (10(-9)-3 x 10(-4) M) were constructed in three oxygen tensions; hyperoxia (95%), normoxia (20%) and hypoxia (4% O2). Oxygen tensions of 20% and 4% each significantly enhanced contractions to methacholine compared to those in 95% O2. There was no significant difference, however, between responses in 20 and 4%. The ability of salbutamol, atrial natriuretic peptide and isosorbide dinitrate to reverse methacholine induced tone was also compared in the three oxygen tensions (95%, 20% and 4%). Lowering the oxygen tension from 95% enhanced the ability of each of the drugs to reverse contraction, however the pattern differed between drugs; salbutamol was more effective in 20% O2 than 4%, atrial natriuretic peptide was more effective in 4% than either 95 or 20% O2 and isosorbide dinitrate was more effective in both 4 and 20% than 95% O2. In conclusion, both bronchoconstrictor and bronchodilator responses in 95% O2 (hyperoxia) differed from those in 20% O2 (normoxia) and further changes occurred on moving to 4% (hypoxia), although the direction of the changes varied among the dilators. This suggests that the responses evoked by bronchodilators in 95% O2 may not necessarily predict those in the physiological range of oxygen tensions and that the relative effectiveness of bronchodilators may vary between normoxic and hypoxic conditions.
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PMID:The effect of oxygen tension on responses evoked by methacholine and bronchodilators in bovine isolated bronchial rings. 888 Sep 52

The ability of atrial natriuretic peptide, salbutamol, sodium nitroprusside and isosorbide dinitrate to protect against challenge with methacholine in bovine isolated bronchi was compared in different O2 tensions. Perfusing the Krebs-Henseleit solution with gas mixtures containing 95% O2 (hyperoxia), 20% O2 (approximately normoxia) and 0% O2 (hypoxia) produced O2 tensions in the organ-baths of 524, 147 and 26 mm Hg, respectively. In hyperoxia, pre-incubation of atrial natriuretic peptide at concentrations of 3 x 10(-7) M and 10(-6) M significantly attenuated responses to methacholine, whereas in normoxia, these concentrations of atrial natriuretic peptide had no effect. Furthermore, in hypoxia, 3 x 10(-7) M and 10(-6) M atrial natriuretic peptide significantly enhanced responses to methacholine. Salbutamol, at concentrations of 3 x 10(-7) M and 10(-6) M significantly attenuated responses to methacholine in hyperoxia, whereas in normoxia and hypoxia, pre-incubation of salbutamol did not alter the methacholine response. Pre-incubation of 10(-5) M sodium nitroprusside significantly attenuated methacholine-induced contractions in hyperoxia and when the oxygen tension in the gas mixture was lowered to 20% or 0%, the ability of sodium nitroprusside to protect against methacholine challenge was enhanced. In hyperoxia, isosorbide dinitrate, at the 10(-4) M level, evoked a rightward shift of the methacholine response curve. Lowering the oxygen tension to either 20% or 0% enhanced the protectant effect of isosorbide dinitrate, with the effect being greater in 20% O2. Thus, the effect of these bronchodilators on methacholine-induced challenge in hyperoxia O2 differed from those in normoxia and hypoxia, although the direction of the changes varied among the agents used. This suggests that the responses evoked by bronchodilators in 95% O2 may not necessarily predict those in the physiological range of oxygen tensions and that the relative effectiveness of bronchodilators may vary between normoxic and hypoxic conditions.
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PMID:Changing the oxygen tension alters the ability of bronchodilators to protect against methacholine-induced challenge in bovine isolated bronchial rings. 934 33

There is a complex interaction between pulmonary haemodynamics, hormonal, and salt and water balance in patients with chronic obstructive pulmonary disease (COPD) and in normal subjects exposed to hypoxia or high altitude. This study aims to investigate the effects of hypoxia on renal hormonal balance in normal subjects and patients with COPD, particularly the role of urinary dopamine and atrial natriuretic peptide (ANP). Urinary dopamine output, ANP, and plasma renin activity (PRA) were measured in 12 normal subjects exposed to hypoxia (12% O2) and hyperoxia (40% O2) for 1 h and in 15 patients with exacerbations of COPD while breathing air or O2. These measurements were repeated in six of the patients with exacerbations of COPD when they were clinically stable. Hypoxia caused an increase in ANP levels (49 +/- 6-62 +/- 6 pg ml-1, P < 0.05) and a fall in urinary dopamine output (277 +/- 39-205 +/- 33 ng h-1, P < 0.002) in normal subjects. Hyperoxia was associated with a return of plasma ANP to the baseline values. In patients with exacerbations of COPD plasma ANP levels were higher (181 +/- 36 pg ml-1) than in normal subjects (49.5 +/- 6.5 pg ml-1, P < 0.001). Urinary dopamine output breathing air (175 +/- 34 ng h-1) was similar to the levels when normal subjects were made hypoxaemic and PRA was elevated in comparison to normal values. There was no change in their levels following the acute administration of oxygen in patients presenting with exacerbations of COPD, but oxygen improved urinary sodium excretion (P < 0.05). In six patients re-studied when clinically stable there was a fall in urinary dopamine output, plasma ANP and PRA when breathing air in comparison to the acute stage of the disease (P < 0.05). These data suggest presence of renal hormonal imbalance including endogenous urinary dopamine output during hypoxic exacerbation of COPD and in normal subjects exposed to hypoxia.
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PMID:Effects of hypoxia on renal hormonal balance in normal subjects and in patients with COPD. 1019 26