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在不使用阳性对照的QT研究中,通过暴露-反应分析进行偏倚评估能否防止出现假阴性结果?

Can Bias Evaluation Provide Protection Against False-Negative Results in QT Studies Without a Positive Control Using Exposure-Response Analysis?

作者信息

Ferber Georg, Zhou Meijian, Dota Corina, Garnett Christine, Keirns James, Malik Marek, Stockbridge Norman, Darpo Borje

机构信息

Statistik Georg Ferber GmbH, Riehen, Switzerland.

iCardiac Technologies, Inc, Rochester, NY, USA.

出版信息

J Clin Pharmacol. 2017 Jan;57(1):85-95. doi: 10.1002/jcph.779. Epub 2016 Jul 7.

DOI:10.1002/jcph.779
PMID:27271102
Abstract

The revised ICH E14 document allows the use of exposure-response analysis to exclude a small QT effect of a drug. If plasma concentrations exceeding clinically relevant levels is achieved, a positive control is not required. In cases when this cannot be achieved, there may be a need for metrics to protect against false-negative results. The objectives of this study were to create bias in electrocardiogram laboratory QT-interval measurements and define a metric that can be used to detect bias severe enough to cause false-negative results using exposure-response analysis. Data from the IQ-CSRC study, which evaluated the QT effect of 5 QT-prolonging drugs, were used. Negative bias using 3 deterministic and 2 random methods was introduced into the reported QTc values and compared with fully automated data from the underlying electrocardiogram algorithm (COMPAS). The slope estimate of the Bland-Altman plot was used as a bias metric. With the deterministic bias methods, negative bias, measured between electrocardiogram laboratory values and COMPAS, had to be larger than approximately -20 milliseconds over a QTcF range of 100 milliseconds to cause failures to predict the QT effect of ondansetron, quinine, dolasetron, moxifloxacin, and dofetilide. With the random methods, the rate of false-negatives was ≤5% with bias severity < -10 milliseconds for all 5 drugs when plasma levels exceeded those of interest. Severe and therefore detectable bias has to be introduced into reported QTc values to cause false-negative predictions with exposure-response analysis.

摘要

修订后的ICH E14文件允许使用暴露-反应分析来排除药物的小QT效应。如果达到超过临床相关水平的血浆浓度,则不需要阳性对照。在无法达到这一浓度的情况下,可能需要一些指标来防止出现假阴性结果。本研究的目的是在心电图实验室QT间期测量中制造偏差,并定义一个指标,该指标可用于检测偏差严重到足以使用暴露-反应分析导致假阴性结果的情况。使用了IQ-CSRC研究的数据,该研究评估了5种延长QT药物的QT效应。采用3种确定性方法和2种随机方法将负偏差引入报告的QTc值中,并与基础心电图算法(COMPAS)的全自动数据进行比较。Bland-Altman图的斜率估计用作偏差指标。对于确定性偏差方法,在心电图实验室值与COMPAS之间测量的负偏差,在QTcF范围为100毫秒时,必须大于约-20毫秒,才会导致无法预测昂丹司琼、奎宁、多拉司琼、莫西沙星和多非利特的QT效应。对于随机方法,当血浆水平超过感兴趣水平时,所有5种药物在偏差严重程度<-10毫秒时假阴性率≤5%。必须将严重且因此可检测到的偏差引入报告的QTc值中,才会在暴露-反应分析中导致假阴性预测。

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