Abstract
BackgroundAnesthesia machines have been developed by the application of new technology for rapid and easier control of anesthetic concentration. In this study, we used a test lung to investigate whether the time taken to reach the target sevoflurane concentration varies with the rate of fresh gas flow (FGF) and type of anesthesia machine (AM).MethodsWe measured the times taken to reach the target sevoflurane concentration (2 minimum alveolar concentration = 4%) at variable rates of FGF (0.5, 1, or 3 L/min) and different types of AM (Primus®, Perseus®, and Zeus® [Zeus®-F; Zeus® fresh gas mode, Zeus®-A; Zeus® auto-mode]). Concomitant ventilation was supplied using 100% O2. The AMs were connected to a test lung. A sevoflurane vaporizer setting of 6% was used in Primus®, Perseus®, and Zeus®-F; a target end-tidal setting of 4% was used in Zeus®-A (from a vaporizer setting of 0%). The time taken to reach the target concentration was measured in every group.ResultsWhen the same AM was used (Primus®, Perseus®, or Zeus®-F), the times to target concentration shortened as the FGF rate increased (P < 0.05). Conversely, when the same FGF rate was used, but with different AMs, the time to target concentration was shortest in Perseus®, followed by Primus®, and finally by Zeus®-F (P < 0.05). With regards to both modes of Zeus®, at FGF rates of 0.5 and 1 L/min, the time to target concentration was shorter in Zeus®-A than in Zeus®-F; however, the time was longer in Zeus®-A than in Zeus®-F at FGF rate of 3 L/min (P < 0.05).ConclusionShorter times taken to reach the target concentration were associated with high FGF rates, smaller internal volume of the AM, proximity of the fresh gas inlets to patients, absence of a decoupling system, and use of blower-driven ventilators in AM.
Highlights
Anesthesia machines have been developed by the application of new technology for rapid and easier control of anesthetic concentration
At different fresh gas flow (FGF) rates, but in the same type of anesthesia machine (AM) (Perseus®, Primus®, and Zeus® fresh gas mode (Zeus®-F)), the time to target concentration shortened as the FGF rate increased (P < 0.05; Table 2A, Fig. 1)
At the same FGF rate in different types of AM (Perseus®, Primus®, and Zeus®-F), the time to target concentration was shortest in Perseus®, followed by Primus®, and by Zeus®-F (P < 0.05; Table 2A)
Summary
Anesthesia machines have been developed by the application of new technology for rapid and easier control of anesthetic concentration. We used a test lung to investigate whether the time taken to reach the target sevoflurane concentration varies with the rate of fresh gas flow (FGF) and type of anesthesia machine (AM). Technological advancements in anesthesia machines (AM) have enabled rapid and easier control of anesthetic concentration and reduced the risks or errors associated with machine operation. To rapidly reach target concentrations of inhalational anesthetics, anesthesiologists generally use either higher fresh gas flow (FGF) or the overpressure technique. The time taken to reach the target concentration is influenced by patient-, inhalational agent-, and equipmentfactors. Some factors that slow anesthetic uptake will hasten the rate-of-rise of anesthetic concentration within the lung. Patient- and inhalational agent-factors that decrease anesthetic uptake hasten anesthetic
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