Using Bayesian hierarchical models for controlled post hoc subgroup analysis of clinical trials: application to smoking cessation treatment in American Indians and Alaska Natives.

IF 1.2 4区 医学 Q4 PHARMACOLOGY & PHARMACY
Elena Shergina, Kimber P Richter, Christine Makosky Daley, Babalola Faseru, Won S Choi, Byron J Gajewski
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引用次数: 0

Abstract

Clinical trials powered to detect subgroup effects provide the most reliable data on heterogeneity of treatment effect among different subpopulations. However, pre-specified subgroup analysis is not always practical and post hoc analysis results should be examined cautiously. Bayesian hierarchical modelling provides grounds for defining a controlled post hoc analysis plan that is developed after seeing outcome data for the population but before unblinding the outcome by subgroup. Using simulation based on the results from a tobacco cessation clinical trial conducted among the general population, we defined an analysis plan to assess treatment effect among American Indians and Alaska Natives (AI/AN) enrolled in the study. Patients were randomized into two arms using Bayesian adaptive design. For the opt-in arm, clinicians offered a cessation treatment plan after verifying that a patient was ready to quit. For the opt-out arm, clinicians provided all participants with free cessation medications and referred them to a Quitline. The study was powered to test a hypothesis of significantly higher quit rates for the opt-out arm at one-month post randomization. Overall, one-month abstinence rates were 15.9% and 21.5% (opt-in and opt-out arm, respectively). For AI/AN, one-month abstinence rates were 10.2% and 22.0% (opt-in and opt-out arm, respectively). The posterior probability that the abstinence rate in the treatment arm is higher is 0.96, indicating that AI/AN demonstrate response to treatment at almost the same probability as the whole population.

使用贝叶斯分层模型对临床试验进行控制性事后亚组分析:应用于美国印第安人和阿拉斯加原住民的戒烟治疗。
可检测亚组效应的临床试验可提供关于不同亚组人群治疗效果异质性的最可靠数据。然而,预先指定的亚组分析并不总是切实可行的,因此应谨慎审查事后分析结果。贝叶斯分层模型为确定受控的事后分析计划提供了依据,该计划是在看到人群的结果数据后,但在解除亚组结果的约束之前制定的。我们根据一项在普通人群中开展的戒烟临床试验的结果进行模拟,确定了一项分析计划,以评估参与研究的美国印第安人和阿拉斯加原住民(AI/AN)的治疗效果。采用贝叶斯适应性设计将患者随机分为两组。在选择接受治疗组,临床医生在确认患者准备戒烟后提供戒烟治疗计划。对于选择退出组,临床医生为所有参与者提供免费戒烟药物,并将他们转介到戒烟热线。该研究对随机分组后一个月内选择退出治疗组的戒烟率明显较高这一假设进行了检验。总体而言,一个月的戒烟率分别为 15.9% 和 21.5%(选择加入组和选择退出组)。对于阿拉斯加原住民/印第安人,一个月的戒断率分别为 10.2% 和 22.0%(选择加入和选择退出治疗组)。治疗组戒断率更高的后验概率为 0.96,这表明阿拉斯加原住民/印第安人对治疗做出反应的概率几乎与整个人群相同。
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来源期刊
Journal of Biopharmaceutical Statistics
Journal of Biopharmaceutical Statistics 医学-统计学与概率论
CiteScore
2.50
自引率
18.20%
发文量
71
审稿时长
6-12 weeks
期刊介绍: The Journal of Biopharmaceutical Statistics, a rapid publication journal, discusses quality applications of statistics in biopharmaceutical research and development. Now publishing six times per year, it includes expositions of statistical methodology with immediate applicability to biopharmaceutical research in the form of full-length and short manuscripts, review articles, selected/invited conference papers, short articles, and letters to the editor. Addressing timely and provocative topics important to the biostatistical profession, the journal covers: Drug, device, and biological research and development; Drug screening and drug design; Assessment of pharmacological activity; Pharmaceutical formulation and scale-up; Preclinical safety assessment; Bioavailability, bioequivalence, and pharmacokinetics; Phase, I, II, and III clinical development including complex innovative designs; Premarket approval assessment of clinical safety; Postmarketing surveillance; Big data and artificial intelligence and applications.
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