INSERM ERI22, Université Claude Bernard de Lyon, 8 Avenue Rockefeller, 69373 Lyon cedex 08, France.
Resuscitation. 2011 Aug;82(8):1092-9. doi: 10.1016/j.resuscitation.2011.03.032. Epub 2011 Apr 12.
We showed previously that ivabradine (IVA), a selective inhibitor of the cardiac pacemaker I(f) current, achieved protection against ischaemia-induced ventricular fibrillation (VF) in pigs by increasing the VF threshold (VFT). This was correlated to the heart rate reduction (HRR), the limitation of monophasic action potential shortening and the reduction of the hypoxic area. This study investigated myocyte ultrastructure and regional myocardial blood flow (RMBF), potentially involved in these cardioprotective effects of IVA.
Myocardial ischaemia was induced in pigs by total 1-min occlusion of the left anterior descending coronary artery following i.v. administration of saline (n=6) or IVA (0.25 mg/kg, n=6). Electrophysiological and haemodynamic parameters, the hypoxic area and the presence of myocyte ultrastructural lesions were evaluated. The RMBF was assessed using positron emission tomography following ischaemia/reperfusion in IVA (0.25 mg/kg, i.v., n=6) or vagal stimulation (n=4) groups. Compared with saline, IVA induced a 32% HRR (p<0.01), a 2.9-fold increase in the VFT (p<0.001) and a reduction of the hypoxic area without any change in left ventricular dP/dt(max). IVA preserved cardiomyocyte morphology, particularly mitochondrial ultrastructure. Compared with baseline, RMBF during reperfusion was increased in the hypoxic area following IVA administration (+218% vs. +97%, p<0.05) or vagal stimulation (+195% vs. +127%, p<0.05). This increase was sharply reduced by atrial pacing in IVA-group.
IVA exerts a cardioprotection from ischaemia-induced VF by increasing RMBF and preserving cardiomyocyte and mitochondrial ultrastructure, which opens new perspectives regarding potential targets that would be involved in the anti-ischaemic effects of IVA.
我们之前曾表明,心脏起搏电流 I(f)的选择性抑制剂伊伐布雷定(IVA)通过增加室颤(VF)阈值(VFT)来预防缺血引起的VF。这与心率降低(HRR)、单相动作电位缩短的限制和缺氧区域的减少有关。本研究调查了心肌细胞超微结构和局部心肌血流(RMBF),这些可能与 IVA 的这些心脏保护作用有关。
通过静脉内给予盐水(n=6)或 IVA(0.25mg/kg,n=6),在猪的左前降支冠状动脉完全闭塞 1 分钟后诱导心肌缺血。评估电生理和血液动力学参数、缺氧区域和心肌细胞超微结构病变的存在。在 IVA(0.25mg/kg,静脉内,n=6)或迷走神经刺激(n=4)组中,通过正电子发射断层扫描评估缺血/再灌注后的 RMBF。与盐水相比,IVA 诱导 32%的 HRR(p<0.01)、2.9 倍的 VFT 增加(p<0.001)和缺氧区域的减少,而左心室 dp/dt(max)没有变化。IVA 保持心肌细胞形态,特别是线粒体超微结构。与基线相比,在给予 IVA 或迷走神经刺激后,再灌注期间缺氧区域的 RMBF增加(IVA 组增加+218%比+97%,p<0.05;迷走神经刺激组增加+195%比+127%,p<0.05)。在 IVA 组中,心房起搏大大减少了这种增加。
IVA 通过增加 RMBF 和保持心肌细胞和线粒体超微结构来发挥对缺血引起的 VF 的心脏保护作用,这为 IVA 的抗缺血作用所涉及的潜在靶点开辟了新的前景。
