Background: We evaluated the relationship of dose of perflubron and gas tidal volume to oxygen dynamics during partial liquid ventilation in the setting of respiratory failure.
Methods: Lung injury was induced in 16 sheep by using right atrial injection of 0.15 ml/kg oleic acid. Animals were ventilated with 15 ml/kg gas tidal volume and stabilized. Animals were then divided into three groups: (1) gas ventilation with a tidal volume of 15 ml/kg (control, GV, n = 5); (2) partial liquid ventilation at a gas tidal volume of 15 ml/kg with 10 ml/kg incremental pulmonary dosage of perflubron from 10 to 50 ml/kg (best fill, BF, n = 6); (3) administration of 35 ml/kg perflubron pulmonary dose with 5 ml/kg incremental increase in gas tidal volume from 10 to 30 ml/kg (best tidal volume, BTV, n = 5).
Results: Arterial oxygen saturation increased with increasing dose of perflubron and gas tidal volume (BF, p = 0.01; BTV, p = 0.001). A simultaneous trend toward a reduction in cardiac index was observed with increasing dose of perflubron (BF, p = 0.01). Maximal increase in mixed venous oxygen saturation was observed in the BF and BTV groups at a cumulative perflubron dose of 40 ml/kg and a gas tidal volume of 20 ml/kg, respectively.
Conclusions: In this sheep lung injury model oxygenation improves with incremental increases in perflubron dose or gas tidal volume, and the mixed venous oxygen saturation appears to be optimal at a cumulative perflubron dose of 40 ml/kg and a gas tidal volume of 20 ml/kg.