BACKGROUND: Remifentanil has been implicated as causing intraoperative bradyarrhythmias, but little information is available regarding its cardiac electrophysiological effects. Thus, we evaluated the cardiac electrophysiological properties before and after remifentanil in a closed-chest porcine model. METHODS: Eighteen Landrace-Large pigs were premedicated with ketamine and anaesthetized with propofol (4.5 mg kg(-1) bolus followed by 13 mg kg(-1) h(-1)). After instrumentation, an electrophysiological evaluation was performed under propofol and repeated after remifentanil (bolus of 1 microg kg(-1), followed by an infusion of 0.5 microg kg(-1) min(-1)). We evaluated sinus node function [sinus node recovery time (SNRT) and sinoatrial conduction time (SACT)], atrioventricular (AV) nodal function [AH intervals during sinus rhythm (SR) and atrial pacing, Wenckebach cycle length (WCL), and effective refractory periods (ERP)], atrial, His-Purkinje, and ventricular conduction and refractoriness. Significant changes between 'propofol protocol' and 'propofol+remifentanil protocol' were evaluated. RESULTS: Remifentanil caused a significant increase in sinus cycle length (21%, P=0.001) and a significant prolongation of SNRT (43%, P=0.001), corrected SNRT (136%, P=0.003), SACT (40%, P=0.005), AH interval during SR (17%, P=0.02), AH interval during atrial pacing (25%, P=0.01), and ventricular ERP (12%, P=0.004). There was a tendency towards a prolongation of WCL and AV nodal refractoriness. Similar significant changes were observed in a reference group of seven animals in which sevoflurane was used instead of propofol. No significant changes were observed in atrial parameters, His-Purkinje function, parameters of intraventricular conduction, and QT intervals. CONCLUSIONS: Remifentanil depresses sinus node function and most parameters of AV nodal function. This contributes to an explanation for clinical observations of remifentanil-related severe bradyarrhythmias.
BACKGROUND:Remifentanil has been implicated as causing intraoperative bradyarrhythmias, but little information is available regarding its cardiac electrophysiological effects. Thus, we evaluated the cardiac electrophysiological properties before and after remifentanil in a closed-chest porcine model. METHODS: Eighteen Landrace-Large pigs were premedicated with ketamine and anaesthetized with propofol (4.5 mg kg(-1) bolus followed by 13 mg kg(-1) h(-1)). After instrumentation, an electrophysiological evaluation was performed under propofol and repeated after remifentanil (bolus of 1 microg kg(-1), followed by an infusion of 0.5 microg kg(-1) min(-1)). We evaluated sinus node function [sinus node recovery time (SNRT) and sinoatrial conduction time (SACT)], atrioventricular (AV) nodal function [AH intervals during sinus rhythm (SR) and atrial pacing, Wenckebach cycle length (WCL), and effective refractory periods (ERP)], atrial, His-Purkinje, and ventricular conduction and refractoriness. Significant changes between 'propofol protocol' and 'propofol+remifentanil protocol' were evaluated. RESULTS:Remifentanil caused a significant increase in sinus cycle length (21%, P=0.001) and a significant prolongation of SNRT (43%, P=0.001), corrected SNRT (136%, P=0.003), SACT (40%, P=0.005), AH interval during SR (17%, P=0.02), AH interval during atrial pacing (25%, P=0.01), and ventricular ERP (12%, P=0.004). There was a tendency towards a prolongation of WCL and AV nodal refractoriness. Similar significant changes were observed in a reference group of seven animals in which sevoflurane was used instead of propofol. No significant changes were observed in atrial parameters, His-Purkinje function, parameters of intraventricular conduction, and QT intervals. CONCLUSIONS:Remifentanil depresses sinus node function and most parameters of AV nodal function. This contributes to an explanation for clinical observations of remifentanil-related severe bradyarrhythmias.
Authors: Ka Hou Christien Li; Tian Sang; Cheng Chan; Mengqi Gong; Yingzhi Liu; Aaron Jesuthasan; Guangping Li; Tong Liu; Michael H S Lam; William Kk Wu; Matthew T V Chan; Fang-Zhou Liu; Cheng Chen; Jeffery Ho; Yunlong Xia; Gary Tse Journal: Heart Asia Date: 2019-08-14
Authors: Derek W Hanes; Maelene L Wong; C W Jenny Chang; Sterling Humphrey; J Kevin Grayson; Walter D Boyd; Leigh G Griffiths Journal: J Transl Med Date: 2015-06-06 Impact factor: 5.531