静脉注射氟哌啶醇对麻醉犬心室复极化及单相动作电位时程的影响。

Influence of i.v. haloperidol on ventricular repolarization and monophasic action potential duration in anesthetized dogs.

作者信息

Rasty Saeed, Amin Neeta B, Sabbah Hani N, Mishima Takayuki, Borzak Steven, Tisdale James E

机构信息

Department of Pharmacy Services, Henry Ford Hospital, Detroit, MI, USA.

出版信息

Chest. 2004 May;125(5):1821-9. doi: 10.1378/chest.125.5.1821.

DOI:10.1378/chest.125.5.1821

PMID:15136396

Abstract

INTRODUCTION

i.v. haloperidol is used commonly for sedation in critically ill patients. However, i.v. haloperidol has been shown to cause the life-threatening ventricular tachyarrhythmia torsades de pointes. Mechanisms by which haloperidol causes torsades de pointes have not been widely investigated in controlled studies.

STUDY OBJECTIVES

To determine the effects of i.v. haloperidol on electrophysiologic parameters known to promote torsades de pointes.

INTERVENTIONS

Monophasic action potential catheters were guided under fluoroscopy into the right and left ventricles of 14 chloralose-anesthetized dogs (haloperidol, nine dogs; placebo, five dogs). Effective refractory period (ERP), action potential duration at 90% repolarization (APD90), and QTc interval measurements were performed at baseline and after each of four doses of haloperidol (0.15, 0.5, 2.0, and 3.0 mg/kg) or placebo at three different pacing cycle lengths (450, 300, and 250 ms).

MEASUREMENTS AND RESULTS

i.v. haloperidol significantly prolonged left and right ventricular ERP by a magnitude of 12 to 20% at all pacing cycle lengths. ERP values in the placebo group did not change significantly from pretreatment values in either ventricle. Haloperidol significantly prolonged left ventricular APD90 at a pacing cycle length of 300 ms. The effects of haloperidol on right ventricular APD90 approached significance at a cycle length of 450 ms. Overall, haloperidol prolonged APD90 by 7 to 11%, with less consistent and more variable effects than those for the ERP. APD90 was not significantly altered in the placebo groups. Haloperidol produced significant prolongation in QTc intervals. The electrophysiologic effects of haloperidol were related to dose, with a plateau reached at the 0.5 mg/kg dose for ERP measurements and at the 2 mg/kg dose for the APD90 and QTc interval measurements.

CONCLUSIONS

i.v. haloperidol prolongs ventricular ERP and APD90 in intact canine hearts. These electrophysiologic effects are likely associated with the clinical torsades de pointes-inducing actions of i.v. haloperidol in critically ill patients.

摘要

引言

静脉注射氟哌啶醇常用于危重症患者的镇静。然而，静脉注射氟哌啶醇已被证明可导致危及生命的室性快速心律失常——尖端扭转型室速。在对照研究中，氟哌啶醇导致尖端扭转型室速的机制尚未得到广泛研究。

研究目的

确定静脉注射氟哌啶醇对已知可促进尖端扭转型室速的电生理参数的影响。

干预措施

在荧光透视引导下，将单相动作电位导管插入14只水合氯醛麻醉犬的右心室和左心室（氟哌啶醇组9只犬；安慰剂组5只犬）。在基线时以及在三个不同的起搏周期长度（450、300和250毫秒）下，分别给予四剂氟哌啶醇（0.15、0.5、2.0和3.0毫克/千克）或安慰剂中的每一剂后，测量有效不应期（ERP）、复极化90%时的动作电位持续时间（APD90）和QTc间期。

测量与结果

在所有起搏周期长度下，静脉注射氟哌啶醇均显著延长左、右心室ERP，延长幅度为12%至20%。安慰剂组任一心室的ERP值与预处理值相比均无显著变化。在起搏周期长度为300毫秒时，氟哌啶醇显著延长左心室APD90。在周期长度为450毫秒时，氟哌啶醇对右心室APD90的影响接近显著。总体而言，氟哌啶醇使APD90延长7%至11%，与ERP相比，其作用不太一致且变化更大。安慰剂组的APD90无显著改变。氟哌啶醇使QTc间期显著延长。氟哌啶醇的电生理效应与剂量相关，在ERP测量中，0.5毫克/千克剂量时达到平台期，在APD90和QTc间期测量中，2毫克/千克剂量时达到平台期。