Articles: closed-circuit-anesthesia.
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Anesthesia and analgesia · Nov 2021
The Effect of Low-Dose Intraoperative Ketamine on Closed-Loop-Controlled General Anesthesia: A Randomized Controlled Equivalence Trial.
Closed-loop control of propofol-remifentanil anesthesia using the processed electroencephalography depth-of-hypnosis index provided by the NeuroSENSE monitor (WAVCNS) has been previously described. The purpose of this placebo-controlled study was to evaluate the performance (percentage time within ±10 units of the setpoint during the maintenance of anesthesia) of a closed-loop propofol-remifentanil controller during induction and maintenance of anesthesia in the presence of a low dose of ketamine. ⋯ Because the 95% CI of the difference in controller performance lies entirely within the a priori equivalence range, we infer that this analgesic dose of ketamine did not alter controller performance. Further study is required to confirm the finding that mean propofol dosing was higher in the ketamine group, and to investigate the implication that this dose of ketamine may have affected the WAVCNS.
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Anesthesia and analgesia · Oct 2021
Randomized Controlled Trial Comparative StudyPostoperative Neurocognitive Disorders After Closed-Loop Versus Manual Target Controlled-Infusion of Propofol and Remifentanil in Patients Undergoing Elective Major Noncardiac Surgery: The Randomized Controlled Postoperative Cognitive Dysfunction-Electroencephalographic-Guided Anesthetic Administration Trial.
Although reducing excessive anaesthetic depth, closed-loop TIVA did not reduce postoperative neurocognitive complications when compared to manual BIS-guided TIVA.
pearl -
Anesthesia and analgesia · Apr 2021
Randomized Controlled Trial Comparative StudyReflection Versus Rebreathing for Administration of Sevoflurane During Minor Gynecological Surgery.
Use of the AnaConDa (Anaesthetic Conserving Device, Sedana Medical) is feasible for short procedures utilising open circuits & high FGF, and yet still allows low volatile consumption.
pearl -
Anesthesia and analgesia · Apr 2021
ReviewCarbon Dioxide Absorption During Inhalation Anesthesia: A Modern Practice.
CO2 absorbents were introduced into anesthesia practice in 1924 and are essential when using a circle system to minimize waste by reducing fresh gas flow to allow exhaled anesthetic agents to be rebreathed. For many years, absorbent formulations consisted of calcium hydroxide combined with strong bases like sodium and potassium hydroxide. When Sevoflurane and Desflurane were introduced, the potential for toxicity (compound A and CO, respectively) due to the interaction of these agents with absorbents became apparent. ⋯ Although absorbent formulations have been improved, practices persist that result in unnecessary waste of both anesthetic agents and absorbents. While CO2 absorbents may seem like a commodity item, differences in CO2 absorbent formulations can translate into significant performance differences, and the choice of absorbent should not be based on unit price alone. A modern practice of inhalation anesthesia utilizing a circle system to greatest effect requires reducing fresh gas flow to approach closed-circuit conditions, thoughtful selection of CO2 absorbent, and changing absorbents based on inspired CO2.