Lu Hua Rong, Yan Gan-Xin, Gallacher David J
Janssen Research and Development, Janssen Pharmaceutica NV, Belgium.
Main Line Health Heart Center and Lankenau Institute for Medical Research, Wynnewood, PA, USA.
J Pharmacol Toxicol Methods. 2013 Sep-Oct;68(2):250-259. doi: 10.1016/j.vascn.2013.01.003. Epub 2013 Jan 19.
In the present study, we investigated whether a new biomarker - index of cardiac electrophysiological balance (iCEB=QT/QRS) - could predict drug-induced cardiac arrhythmias (CAs), including ventricular tachycardia/ventricular fibrillation (VT/VF) and Torsades de Pointes (TdPs).
The rabbit left ventricular arterially-perfused-wedge was used to investigate whether the simple iCEB measured from the ECG is reflective of the more difficult measurement of λ (effective refractory period×conduction velocity) for predicting CAs induced by a number of drugs.
Dofetilide concentration-dependently increased iCEB and λ, predicting potential risk of drug-induced incidence of early afterdepolarizations (EADs) starting at 0.01μM. Digoxin (1 and 5μM), encainide (5 and 20μM) and propoxyphene (10 and 100μM) markedly reduced both iCEB and λ, predicting their ability to induce non-TdP-like VT/VF. At 10μM, both NS1643 and levcromakalim significantly decreased λ and iCEB, which was preceded with presence of non-TdP-like VT/VF. Isoprenaline (0.05 to 0.5μM) significantly reduced both λ and iCEB, which was associated with a high incidence of non-TdP-like VT/VF in most preparations. Other biomarkers (i.e. transmural dispersion of T-wave and instability of the QT interval) predicted only dofetilide-induced long QT and EADs, but did not predict drug-induced risk of non-TdP-like VT/VF.
Our data from 7 reference drugs of known pro-arrhythmic effects suggests that 1) this non-invasive iCEB predicts potential risk of drug-induced CAs beyond long QT and TdP; 2) iCEB is more useful than the current biomarkers (i.e. transmural dispersion and instability) in predicting potential risks for drug-induced non-TdP-like VT/VF.
在本研究中,我们调查了一种新的生物标志物——心脏电生理平衡指数(iCEB = QT/QRS)——是否能够预测药物诱发的心律失常(CA),包括室性心动过速/心室颤动(VT/VF)和尖端扭转型室速(TdP)。
采用兔左心室动脉灌注楔形组织,研究从心电图测量得到的简单iCEB是否反映了预测多种药物诱发CA时更难测量的λ(有效不应期×传导速度)。
多非利特浓度依赖性地增加iCEB和λ,预测从0.01μM开始药物诱发早期后除极(EAD)的潜在风险。地高辛(1和5μM)、恩卡尼(5和20μM)和丙氧芬(10和100μM)显著降低iCEB和λ,预测它们诱发非TdP样VT/VF的能力。在10μM时,NS1643和左卡尼汀均显著降低λ和iCEB,在此之前出现非TdP样VT/VF。异丙肾上腺素(0.05至0.5μM)显著降低λ和iCEB,这与大多数制剂中非TdP样VT/VF的高发生率相关。其他生物标志物(即T波跨壁离散度和QT间期不稳定性)仅预测多非利特诱发的长QT和EAD,但不能预测药物诱发非TdP样VT/VF的风险。
我们来自7种已知有致心律失常作用的参考药物的数据表明:1)这种非侵入性的iCEB能够预测除长QT和TdP之外药物诱发CA 的潜在风险;2)在预测药物诱发非TdP样VT/VF的潜在风险方面,iCEB比目前的生物标志物(即跨壁离散度和不稳定性)更有用。
