Performance of adjustable pressure-limiting (APL) valves in two different modern anaesthesia machines.
Journal article

Performance of adjustable pressure-limiting (APL) valves in two different modern anaesthesia machines.

  • Thomas J Department of Anaesthesia and Children's Research Centre, University Children's Hospital, Zurich, Switzerland.
  • Weiss M Department of Anaesthesia and Children's Research Centre, University Children's Hospital, Zurich, Switzerland.
  • Schmidt AR Department of Anaesthesia and Children's Research Centre, University Children's Hospital, Zurich, Switzerland.
  • Buehler PK Department of Anaesthesia and Children's Research Centre, University Children's Hospital, Zurich, Switzerland.
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  • 2016-12-19
Published in:
  • Anaesthesia. - 2017
English The ability to gently ventilate a patient's lungs using a self-inflating bag requires a properly working adjustable pressure-limiting (APL) valve. We compared the performance of the APL valves of the GE Aisys CS2 and the Draeger Fabius anaesthetic machines during closure and opening from 1-20 and from 20-1 cmH2 O, using standardised experimental baby and adolescent patient lung models. Airway pressures and inspiratory tidal volumes were measured using an ASL-5000 test lung and a GE Aisys CS2 near-patient spirometry sensors. In both lung models, the GE Aisys CS2 APL valves demonstrated non-linear behaviours for airway pressures and for inspiratory tidal volumes, with a sharp increase at set APL pressure levels of 8-10 cmH2 O. With further closure of the GE Aisys CS2 APL valves up to 20 cmH2 O, inspiratory tidal volumes decreased to ~50% of the highest values measured. Airway pressures in the Draeger Fabius APL valves demonstrated a near linear increase and decrease. Airway pressure values measured in the Draeger Fabius were never higher than those set by the APL valves, whereas in the GE Aisys CS2 , they considerably exceeded set pressures (by up to 27 cmH2 O). We conclude that the performance of the GE Aisys CS2 APL valve does not allow safe bag-assisted ventilation of a patient's lungs.
Language
  • English
Open access status
closed
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Persistent URL
https://sonar.ch/global/documents/7308
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