Articles: closed-circuit-anesthesia.
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Acta Anaesthesiol Taiwan · Mar 2007
Randomized Controlled TrialEarlier cessation of desflurane supply in closed-circuit anesthesia reduces emergence time in patients undergoing breast surgery.
Minimizing the time of anesthesia emergence can facilitate faster patient turnover in the operating rooms of a busy surgery center. According to Lin's new concept of inhalation uptake, after turning off the vaporizer under close-circuit anesthesia (CCA) with a very low fresh gas flow rate, the concentration of desflurane decreases at a slow rate. The aim of this study was to determine if earlier cessation of desflurane supply would shorten the emergence time and at the same time register the changes of desflurane concentration in the circuit after turning off the vaporizer. ⋯ Ceasing desflurane supply earlier in CCA (250 mL/min) significantly shortens emergence time without significant hemodynamic changes.
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Acta Anaesthesiol Taiwan · Mar 2006
Randomized Controlled TrialClosed-circuit anesthesia preserves skin blood flow during surgery.
Closed-circuit anesthesia (CCA) has been suggested to provide better hemodynamic stability, but the relative contribution of CCA to the control of blood flow in microcirculation is not defined. It is hypothesized that isoflurane-based CCA provides a favorable skin blood flow mediating via lesser circulatory response to surgical stimulation. This study was purposed to compare the effects of isoflurane conveyed by CCA with that by semiclosed anesthesia (SCA) on the preservation of skin blood flow in the forearm. ⋯ Closed circuit technique for isoflurane anesthesia is feasible and advantageous. It not only facilitates favorable skin blood flow but also provides better hemodynamic stability in comparison with semiclosed technique for isoflurane anesthesia.
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Journal of anesthesia · Jan 2006
Randomized Controlled TrialSite of fresh gas inlet and ratios of the delivered fraction and inspired fraction of inhaled isoflurane and sevoflurane in low-flow anesthesia.
The use of low-flow anesthesia causes a discrepancy between the delivered fraction (FD) and the inspired fraction (FI) of inhaled gases. We compared the FI/FD ratios of a new circle (fresh gas inlet located between the inspiratory valve and the patient) to those of the conventional circle (fresh gas inlet located between the inspiratory valve and the CO2 absorber) in low-flow isoflurane and sevoflurane anesthesia, using three anesthetic machines (Dräger NM-GS, Dräger Fabius-GS, and ACOMA KMA-1300-III). ⋯ The positioning of the fresh gas inlet between the inspiratory valve and the patient improved the FI/FD ratios of both isoflurane and sevoflurane during low-flow anesthesia in two decoupling-style anesthetic machines (ACOMA and Fabius).
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Randomized Controlled Trial Comparative Study Clinical Trial
Randomized comparison of three methods of induction of anaesthesia with sevoflurane.
Rebreathing will occur if a low gas flow and a Mapleson D circuit are used to induce anaesthesia with a volatile anaesthetic agent. This has the advantage that it allows ventilation to be sustained when consciousness is lost, and specific manoeuvres such as breath-holding or vital capacity breaths are not needed to facilitate induction of anaesthesia. However, if the fresh gas flow were too small, this would slow induction by limiting the rate of delivery of the anaesthetic agent. To assess the impact of fresh gas flow and rebreathing, we compared induction using sevoflurane 8% given by three different methods. ⋯ In adult patients allowed to breathe normally, prompt and consistent inhalation induction of anaesthesia with sevoflurane is obtained when fresh gas flow is limited to 6 litre min(-1) from a Mapleson D circuit, but smaller flows are impractical.
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Anesthesia and analgesia · Apr 2005
Randomized Controlled Trial Clinical TrialNon-zero basal oxygen flow a hazard to anesthesia breathing circuit leak test.
The non-zero basal flow (BF) of oxygen in anesthesia machines has been set to supply the basal metabolic requirement of oxygen. However, there is no scientific evidence of its necessity. In this study we sought to clarify whether non-zero BF affects leak detection during preanesthetic inspections. ⋯ The leak detection rate of leak test with BF was less than without BF (P < 0.01). We demonstrated that non-zero BF of oxygen decreases the leak detection rate and is an obstacle for leak detection, especially for small leaks. Therefore, we recommend that breathing circuit leak tests should be performed in the absence of BF of oxygen.