缺氧、高钾血症和酸中毒对一系列抗心律失常药物心脏电生理效应的影响。
Modification by hypoxia, hyperkalaemia and acidosis of the cardiac electrophysiological effects of a range of antiarrhythmic drugs.
作者信息
Pacini D J, Boachie-Ansah G, Kane K A
机构信息
Department of Physiology and Pharmacology, University of Strathclyde, Glasgow.
出版信息
Br J Pharmacol. 1992 Nov;107(3):665-70. doi: 10.1111/j.1476-5381.1992.tb14504.x.
Abstract
- The electrophysiological effects of a series of drugs with Class I antiarrhythmic activity were examined in sheep Purkinje fibres, superfused in vitro with either a normal or hypoxic, hyperkalaemic and acidotic physiological salt solution (PSS). 2. In normal sheep Purkinje fibres, lignocaine, disopyramide, nicainoprol and propranolol all significantly reduced action potential height and the maximum rate of depolarization of phase zero (MRD) and abbreviated the action potential, without modifying resting membrane potential (RMP). 3. Verapamil at the highest concentration studied, 8 microM, significantly reduced MRD with an associated slight membrane depolarization and abbreviated action potential duration measured at 50% repolarization (APD50). 4. Superfusion of sheep Purkinje fibres with a hypoxic, hyperkalaemic and acidotic PSS resulted in marked reductions in resting membrane potential, upstroke and duration of the action potential. 5. In the presence of modified PSS, lignocaine, propranolol and verapamil all reduced MRD to a greater extent than in normal PSS. The effects of nicainoprol on MRD were not affected whereas those of disopyramide were significantly attenuated. 6. Under simulated ischaemic conditions, lignocaine, propranolol and nicainoprol did not produce a concentration-dependent reduction in action potential duration whereas disopyramide and verapamil, respectively, prolonged and abbreviated both APD50 and APD90. 7. The Na+ channel blocking actions of the different subtypes of Class I antiarrhythmic agents studied, as well as their effects on action potential duration, were modified differently by simulated ischaemia.
摘要
- 在体外以正常或缺氧、高钾和酸中毒的生理盐溶液(PSS)灌流的绵羊浦肯野纤维中,研究了一系列具有Ⅰ类抗心律失常活性药物的电生理效应。2. 在正常绵羊浦肯野纤维中,利多卡因、丙吡胺、尼卡洛尔和普萘洛尔均显著降低动作电位高度和0期最大去极化速率(MRD),并缩短动作电位,而不改变静息膜电位(RMP)。3. 在所研究的最高浓度8μM的维拉帕米显著降低MRD,伴有轻微的膜去极化,并缩短50%复极化时测量的动作电位持续时间(APD50)。4. 用缺氧、高钾和酸中毒的PSS灌流绵羊浦肯野纤维导致静息膜电位、动作电位的上升支和持续时间显著降低。5. 在改良PSS存在的情况下,利多卡因、普萘洛尔和维拉帕米对MRD的降低程度均大于正常PSS。尼卡洛尔对MRD的作用未受影响,而丙吡胺的作用则显著减弱。6. 在模拟缺血条件下,利多卡因、普萘洛尔和尼卡洛尔未产生浓度依赖性的动作电位持续时间缩短,而丙吡胺和维拉帕米分别延长和缩短了APD50和APD90。7. 所研究的Ⅰ类抗心律失常药物不同亚型的Na+通道阻滞作用及其对动作电位持续时间的影响,在模拟缺血条件下有不同的改变。
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