Effect of ventilation by high-frequency oscillation on lung and chest wall mechanics in the dog.

Abstract

High-frequency oscillation (HFO) has been shown to be effective in maintaining gas exchange, but the effects of high-frequency, small-volume ventilation on the mechanical properties of the respiratory system are unknown. A volume displacement plethysmograph was used to study lung volumes and static pressure-volume (PV) curves during HFO in pentobarbital-anesthetized dogs. During long-term studies, adequate gas exchange was maintained with a stroke volume of 2.5 ml/kg and frequencies between 15 and 30 Hz. The effect of 5–7 hours of HFO on lung and chest wall mechanics was studied in 8 dogs. In another 8 dogs the relationship of volume history and respiratory muscle tone to occlusion airway pressure and lung volume during short-term HFO was investigated. With prolonged HFO, a small but significant decrease in total lung capacity occurred by 5 hours and the static respiratory system PV curve shifted slightly to the right. These changes were reversed by muscle paralysis and may be explained by a change in respiratory muscle tone. Static lung compliance and the hysteresis ratio (an index of tissue properties) remained unchanged. The relationship of occlusion airway pressure and lung volume during short-term HFO was dependent on the lung volume history and was influenced by respiratory muscle tone only at low airway pressures. These findings suggest that during prolonged HFO a small increase in chest wall stiffness may result. However, occlusion airway pressure and lung volume at the onset of HFO are mainly dependent on the volume history of the lung.