Abstract
To determine whether breathing a mixture of 80% He-20% O2 affects the lung pressure-volume (PV) curve, eight anesthetized paralyzed dogs were studied in a volume-displacement plethysmograph. Static PV curves on air were compared with PV curves obtained after equilibration with He-O2. The He-O2 PV curves were significantly shifted upward by an average of 5% total lung capacity. There was no change in compliance, indicating that the shift was due to lung expansion rather than a change in elasticity. Pretreatment of the dogs with cyclooxygenase inhibitors abolished the PV shift with He-O2. Four dogs had PV curves recorded on air and a mixture of O2, SF6, and Ne, a gas mixture with the same density as air but with 45% greater viscosity. The PV curve shift was even greater than observed with He-O2 and could again be virtually abolished with a cyclooxygenase inhibitor. These results suggest that breathing a high-viscosity gas mixture results in alveolar duct dilatation due to the release of a prostaglandin bronchodilator. This may need to be taken into account in the analysis of flow augmentation with He-O2.
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