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Query: UMLS:C0242706 (hyperoxia)
 5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The time course of change in 'air hunger', the uncomfortable urge to breathe, was assessed following sudden increases and decreases in PETCO2. Healthy normal men and women were mechanically ventilated at constant tidal volume and frequency, and were required to rate the perceived intensity of air hunger every 10-15 sec. PETCO2 was changed by altering FICO2 unbeknownst to the subject. Air hunger changed to its new level following steps with a median time constant of about 50 sec during hyperoxia. Changes in air hunger following PETCO2 steps were slightly faster when background gas was slightly hypoxic. Although the present results are consistent with the hypothesis that air hunger and ventilatory drive share the same receptors and central neural processes, analysis of dynamic response is probably not sensitive enough to disprove the hypothesis.
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PMID:Dynamic response characteristics of CO2-induced air hunger. 889 50

Anecdotal observations suggest that hypoxia does not elicit dyspnea. An opposing view is that any stimulus to medullary respiratory centers generates dyspnea via "corollary discharge" to higher centers; absence of dyspnea during low inspired Po(2) may result from increased ventilation and hypocapnia. We hypothesized that, with fixed ventilation, hypoxia and hypercapnia generate equal dyspnea when matched by ventilatory drive. Steady-state levels of hypoxic normocapnia (end-tidal Po(2) = 60-40 Torr) and hypercapnic hyperoxia (end-tidal Pco(2) = 40-50 Torr) were induced in naive subjects when they were free breathing and during fixed mechanical ventilation. In a separate experiment, normocapnic hypoxia and normoxic hypercapnia, "matched" by ventilation in free-breathing trials, were presented to experienced subjects breathing with constrained rate and tidal volume. "Air hunger" was rated every 30 s on a visual analog scale. Air hunger-Pet(O(2)) curves rose sharply at Pet(O(2)) <50 Torr. Air hunger was not different between matched stimuli (P > 0.05). Hypercapnia had unpleasant nonrespiratory effects but was otherwise perceptually indistinguishable from hypoxia. We conclude that hypoxia and hypercapnia have equal potency for air hunger when matched by ventilatory drive. Air hunger may, therefore, arise via brain stem respiratory drive.
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PMID:Hypoxic and hypercapnic drives to breathe generate equivalent levels of air hunger in humans. 1239 Oct 41