Rennert Lior, Heo Moonseong, Litwin Alain H, De Gruttola Victor
Department of Public Health Sciences, Clemson University, Clemson, U.S.A.
University of South Carolina School of Medicine, Greenville, SC, USA.
medRxiv. 2020 Jul 29:2020.07.26.20162297. doi: 10.1101/2020.07.26.20162297.
Stepped-wedge designs (SWDs) are currently being used to investigate interventions to reduce opioid overdose deaths in communities located in several states. However, these interventions are competing with external factors such as newly initiated public policies limiting opioid prescriptions, media awareness campaigns, and social distancing orders due to the COVID-19 pandemic. Furthermore, control communities may prematurely adopt components of the proposed intervention as they become widely available. These types of events induce confounding of the intervention effect by time. Such confounding is a well-known limitation of SWDs; a common approach to adjusting for it makes use of a mixed effects modeling framework that includes both fixed and random effects for time. However, these models have several shortcomings when multiple confounding factors are present.
We discuss the limitations of existing methods based on mixed effects models in the context of proposed SWDs to investigate interventions intended to reduce mortality associated with the opioid epidemic, and propose solutions to accommodate deviations from assumptions that underlie these models. We conduct an extensive simulation study of anticipated data from SWD trials targeting the current opioid epidemic in order to examine the performance of these models under different sources of confounding. We specifically examine the impact of factors external to the study and premature adoption of intervention components.
When only external factors are present, our simulation studies show that commonly used mixed effects models can result in unbiased estimates of the intervention effect, but have inflated Type 1 error and result in under coverage of confidence intervals. These models are severely biased when confounding factors differentially impact intervention and control clusters; premature adoption of intervention components is an example of this scenario. In these scenarios, models that incorporate fixed intervention-by-time interaction terms and an unstructured covariance for the intervention-by-cluster-by-time random effects result in unbiased estimates of the intervention effect, reach nominal confidence interval coverage, and preserve Type 1 error, but may reduce power.
The incorporation of fixed and random time effects in mixed effects models require certain assumptions about the impact of confounding by time in SWD. Violations of these assumptions can result in severe bias of the intervention effect estimate, under coverage of confidence intervals, and inflated Type 1 error. Since model choice has considerable impact on study power as well as validity of results, careful consideration needs to be given to choosing an appropriate model that takes into account potential confounding factors.
目前,阶梯楔形设计(SWD)正被用于研究在多个州的社区中减少阿片类药物过量死亡的干预措施。然而,这些干预措施正与外部因素竞争,如新出台的限制阿片类药物处方的公共政策、媒体宣传活动以及因新冠疫情而实施的社交距离措施。此外,对照社区可能会在干预措施广泛可用时过早采用其部分内容。这类事件会导致干预效果随时间产生混杂。这种混杂是SWD众所周知的局限性;一种常见的调整方法是使用混合效应建模框架,该框架包含时间的固定效应和随机效应。然而,当存在多个混杂因素时,这些模型有几个缺点。
我们在拟议的SWD背景下讨论基于混合效应模型的现有方法的局限性,以研究旨在降低与阿片类药物流行相关死亡率的干预措施,并提出解决方案以适应偏离这些模型所依据假设的情况。我们针对当前阿片类药物流行情况对SWD试验的预期数据进行了广泛的模拟研究,以检验这些模型在不同混杂源下的性能。我们特别研究了研究外部因素和过早采用干预措施组成部分的影响。
当仅存在外部因素时,我们的模拟研究表明,常用的混合效应模型可得出无偏的干预效果估计值,但会使I型错误膨胀,并导致置信区间覆盖不足。当混杂因素对干预组和对照组产生不同影响时,这些模型会出现严重偏差;过早采用干预措施组成部分就是这种情况的一个例子。在这些情况下,纳入固定的干预与时间交互项以及干预、聚类和时间随机效应的非结构化协方差的模型可得出无偏的干预效果估计值,达到名义置信区间覆盖范围,并保持I型错误,但可能会降低检验效能。
在混合效应模型中纳入固定和随机时间效应需要对SWD中时间混杂的影响做出某些假设。违反这些假设可能会导致干预效果估计值出现严重偏差、置信区间覆盖不足以及I型错误膨胀。由于模型选择对研究效能以及结果的有效性有相当大的影响,因此需要仔细考虑选择一个考虑潜在混杂因素的合适模型。
