K Jonkman1, E van Rijnsoever1, E Olofsen1, L Aarts1, E Sarton1, M van Velzen1, M Niesters1, A Dahan2. 1. Department of Anesthesiology, Leiden University Medical Center, Leiden, The Netherlands. 2. Department of Anesthesiology, Leiden University Medical Center, Leiden, The Netherlands. Electronic address: a.dahan@lumc.nl.
Abstract
BACKGROUND:Opioids can produce life-threatening respiratory depression. This study tested whether subanaesthetic doses of esketamine stimulate breathing in an established human model of opioid-induced respiratory depression. METHODS: In a study with a randomised, double blind, placebo controlled, crossover design, 12 healthy, young volunteers of either sex received a dose escalating infusion of esketamine (cumulative dose 40 mg infused in 1 h) on top of remifentanil-induced respiratory depression. A population pharmacokinetic-pharmacodynamic analysis was performed with sites of drug action at baseline ventilation, ventilatory CO2-chemosensitivity, or both. RESULTS:Remifentanil reduced isohypercapnic ventilation (end-tidal PCO2 6.5 kPa) by approximately 40% (from 20 to 12 litre min-1) in esketamine and placebo arms of the study, through an effect on baseline ventilation and ventilatory CO2 sensitivity. The reduction in ventilation was related to a remifentanil effect on ventilatory CO2 sensitivity (~39%) and on baseline ventilation (~61%). Esketamine increased breathing through an exclusive stimulatory effect on ventilatory CO2 sensitivity. The remifentanil concentration that reduced ventilatory CO2 sensitivity by 50% (C50) was doubled at an esketamine concentration of 127 (84-191) ng ml-1 [median (interquartile range)]; the esketamine effect was rapid and driven by plasma pharmacokinetics. Placebo had no systematic effect on opioid-induced respiratory depression. CONCLUSIONS: Esketamine effectively countered remifentanil-induced respiratory depression, an effect that was attributed to an increase in remifentanil-reduced ventilatory CO2 chemosensitivity.
RCT Entities:
BACKGROUND: Opioids can produce life-threatening respiratory depression. This study tested whether subanaesthetic doses of esketamine stimulate breathing in an established human model of opioid-induced respiratory depression. METHODS: In a study with a randomised, double blind, placebo controlled, crossover design, 12 healthy, young volunteers of either sex received a dose escalating infusion of esketamine (cumulative dose 40 mg infused in 1 h) on top of remifentanil-induced respiratory depression. A population pharmacokinetic-pharmacodynamic analysis was performed with sites of drug action at baseline ventilation, ventilatory CO2-chemosensitivity, or both. RESULTS:Remifentanil reduced isohypercapnic ventilation (end-tidal PCO2 6.5 kPa) by approximately 40% (from 20 to 12 litre min-1) in esketamine and placebo arms of the study, through an effect on baseline ventilation and ventilatory CO2 sensitivity. The reduction in ventilation was related to a remifentanil effect on ventilatory CO2 sensitivity (~39%) and on baseline ventilation (~61%). Esketamine increased breathing through an exclusive stimulatory effect on ventilatory CO2 sensitivity. The remifentanil concentration that reduced ventilatory CO2 sensitivity by 50% (C50) was doubled at an esketamine concentration of 127 (84-191) ng ml-1 [median (interquartile range)]; the esketamine effect was rapid and driven by plasma pharmacokinetics. Placebo had no systematic effect on opioid-induced respiratory depression. CONCLUSIONS:Esketamine effectively countered remifentanil-induced respiratory depression, an effect that was attributed to an increase in remifentanil-reduced ventilatory CO2 chemosensitivity.
Authors: Marijke H Algera; Joseph F Cotten; Monique van Velzen; Marieke Niesters; Martijn Boon; Daniel S Shoham; Kaye E Dandrea; Rutger van der Schrier; Albert Dahan Journal: Br J Anaesth Date: 2022-04-19 Impact factor: 11.719
Authors: Marieke Hyke Algera; Joseph F Cotten; Monique van Velzen; Marieke Niesters; Martijn Boon; Daniel S Shoham; Kaye E Dandrea; Rutger van der Schrier; Albert Dahan Journal: Pharmacol Res Perspect Date: 2022-06
Authors: Nan Song; Xi-Sheng Shan; Yi Yang; Zhong Zheng; Wen-Cheng Shi; Xiao-Yan Yang; Yang Li; Ai-Ping Tan; Hong Liu; Ke Peng; Fu-Hai Ji Journal: Int J Gen Med Date: 2022-05-06