Isocapnic hyperventilation shortens washout time for sevoflurane – an experimental in vivo study

Background Isocapnic hyperventilation ( IHV ) is a method that fastens weaning from inhalation anaesthesia by increasing airway concentration of carbon dioxide ( CO 2 ) during hyperventilation ( HV ). In an animal model, we evaluated a technique of adding CO 2 directly to the breathing circuit of a standard anaesthesia apparatus. Methods Eight anaesthetised pigs weighing 28 ± 2 kg were intubated and mechanically ventilated. From a baseline ventilation of 5 l/min, HV was achieved by doubling minute volume and fresh gas flow. Respiratory rate was increased from 15 to 22/min. The CO 2 absorber was disconnected and CO 2 was delivered ( DCO 2 ) to the inspiratory limb of a standard breathing circuit via a mixing box. Time required to decrease end‐tidal sevoflurane concentration from 2.7% to 0.2% was defined as washout time. Respiration and haemodynamics were monitored by blood gas analysis, spirometry, electric impedance tomography and pulse contour analysis. Results A DCO 2 of 261 ± 19 ml/min was necessary to achieve isocapnia during HV . The corresponding FICO 2 ‐level remained stable at 3.1 ± 0.3%. During IHV , washout of sevoflurane was three times faster, 433 ± 135 s vs. 1387 ± 204 s ( P < 0.001). Arterial CO 2 tension and end‐tidal CO 2 , was 5.2 ± 0.4 kP a and 5.6 ± 0.4%, respectively, before IHV and 5.1 ± 0.3 kP a and 5.7 ± 0.3%, respectively, during IHV . Conclusions In this experimental in vivo model of isocapnic hyperventilation, the washout time of sevoflurane anaesthesia was one‐third compared to normal ventilation. The method for isocapnic hyperventilation described can potentially be transferred to a clinical setting with the intention to decrease emergence time from inhalation anaesthesia.