Comment on” Estimands and their Estimators for Clinical Trials Impacted by the COVID-19 Pandemic: A Report from the NISS Ingram Olkin Forum Series on Unplanned Clinical Trial Disruptions”

IF 1.5 4区医学 Q3 MATHEMATICAL & COMPUTATIONAL BIOLOGY

Statistics in Biopharmaceutical Research Pub Date : 2023-01-02 DOI:10.1080/19466315.2022.2128405

S. Vansteelandt

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Abstract

I would like to thank the editor, Prof. Hamasaki, for the opportunity to comment on the thought-provoking work by the NISS working group on unplanned clinical trial disruptions (Van Lancker et al. 2022). The working group’s proposals focus on two basic problems relevant to clinical trials affected by the COVID19 pandemic. The first problem is that, due to the pandemic, the patient population may change systematically over the course of the trial. This raises questions over what is the relevant patient population for which the effect is of interest. The second problem, which receives the major focus in the paper, relates to problems of intercurrent events fueled by the pandemic. The solutions proposed by the working group are interesting and useful. In this commentary, I will nonetheless raise two conceptual shortcomings, which I will attempt to resolve by making more explicit use of methods from causal inference (as opposed to missing data analysis). First, the data collected in a randomized clinical trial are so precious that it is generally difficult to justify ignoring the data collected before or after the start of the pandemic. Those data will often still carry useful information about treatment efficacy, and should ideally be used. Second, whenever possible, analyses of randomized clinical trials should protect the null hypothesis of no treatment effect in the sense that rejection rates should be no larger than the nominal (5%) rate, even when the adopted assumptions fail. Intercurrent events 6 and 7 appear such that they will occur with equal rates in both arms of the trial. If this is so, then this suggests that standard analyses that target the treatment policy estimand, thus ignoring intercurrent events, will protect the null hypothesis of no treatment effect; indeed, the treatment policy estimand then reduces to the balanced estimand of Michiels et al. (2021), which expresses what the treatment effect had been had intercurrent events occurred at “equal rates” in both arms. In this light, analyses that invoke Missing At Random (MAR) assumptions must be taken with caution, as they may be biased whenever the MAR assumption fails. More importantly, analyses that explicitly combine biased and unbiased estimators, as in

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评论“新冠肺炎大流行影响的临床试验的估计及其估计：NISS Ingram Olkin论坛系列关于计划外临床试验中断的报告”

我要感谢编辑滨崎步教授给我机会对NISS工作组关于计划外临床试验中断的发人深省的工作发表评论（Van Lancker等人，2022）。工作组的建议集中在与受新冠肺炎疫情影响的临床试验相关的两个基本问题上。第一个问题是，由于大流行，患者群体可能会在试验过程中发生系统性变化。这就提出了一个问题，即感兴趣的相关患者群体是什么。论文主要关注的第二个问题与疫情引发的并发事件有关。工作组提出的解决方案是令人感兴趣和有用的。然而，在这篇评论中，我将提出两个概念上的缺陷，我将试图通过更明确地使用因果推断的方法（而不是缺失的数据分析）来解决这两个缺陷。首先，随机临床试验中收集的数据非常宝贵，通常很难证明忽视在大流行开始之前或之后收集的数据是合理的。这些数据通常仍然会包含有关治疗效果的有用信息，并且应该在理想情况下使用。其次，在可能的情况下，随机临床试验的分析应保护无治疗效果的无效假设，即排斥率不应大于标称（5%），即使所采用的假设失败。并发事件6和7的出现使得它们在试验的两个阶段中的发生率相等。如果是这样的话，那么这表明针对治疗政策估计的标准分析，从而忽略并发事件，将保护没有治疗效果的无效假设；事实上，治疗政策的估计需求随后减少到Michiels等人的平衡估计需求。（2021），它表达了如果两组同时发生的事件以“相等的比率”发生，治疗效果是什么。有鉴于此，必须谨慎对待援引随机缺失（MAR）假设的分析，因为每当MAR假设失败时，这些分析可能会有偏差。更重要的是，明确结合有偏和无偏估计量的分析，如

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来源期刊

Statistics in Biopharmaceutical Research MATHEMATICAL & COMPUTATIONAL BIOLOGY-STATISTICS & PROBABILITY

CiteScore

3.90

自引率

16.70%

发文量

期刊介绍： Statistics in Biopharmaceutical Research ( SBR), publishes articles that focus on the needs of researchers and applied statisticians in biopharmaceutical industries; academic biostatisticians from schools of medicine, veterinary medicine, public health, and pharmacy; statisticians and quantitative analysts working in regulatory agencies (e.g., U.S. Food and Drug Administration and its counterpart in other countries); statisticians with an interest in adopting methodology presented in this journal to their own fields; and nonstatisticians with an interest in applying statistical methods to biopharmaceutical problems. Statistics in Biopharmaceutical Research accepts papers that discuss appropriate statistical methodology and information regarding the use of statistics in all phases of research, development, and practice in the pharmaceutical, biopharmaceutical, device, and diagnostics industries. Articles should focus on the development of novel statistical methods, novel applications of current methods, or the innovative application of statistical principles that can be used by statistical practitioners in these disciplines. Areas of application may include statistical methods for drug discovery, including papers that address issues of multiplicity, sequential trials, adaptive designs, etc.; preclinical and clinical studies; genomics and proteomics; bioassay; biomarkers and surrogate markers; models and analyses of drug history, including pharmacoeconomics, product life cycle, detection of adverse events in clinical studies, and postmarketing risk assessment; regulatory guidelines, including issues of standardization of terminology (e.g., CDISC), tolerance and specification limits related to pharmaceutical practice, and novel methods of drug approval; and detection of adverse events in clinical and toxicological studies. Tutorial articles also are welcome. Articles should include demonstrable evidence of the usefulness of this methodology (presumably by means of an application). The Editorial Board of SBR intends to ensure that the journal continually provides important, useful, and timely information. To accomplish this, the board strives to attract outstanding articles by seeing that each submission receives a careful, thorough, and prompt review. Authors can choose to publish gold open access in this journal.