Optimal designs using generalized estimating equations in cluster randomized crossover and stepped wedge trials.

IF 1.6 3区 医学 Q3 HEALTH CARE SCIENCES & SERVICES
Statistical Methods in Medical Research Pub Date : 2024-08-01 Epub Date: 2024-05-30 DOI:10.1177/09622802241247717
Jingxia Liu, Fan Li
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引用次数: 0

Abstract

Cluster randomized crossover and stepped wedge cluster randomized trials are two types of longitudinal cluster randomized trials that leverage both the within- and between-cluster comparisons to estimate the treatment effect and are increasingly used in healthcare delivery and implementation science research. While the variance expressions of estimated treatment effect have been previously developed from the method of generalized estimating equations for analyzing cluster randomized crossover trials and stepped wedge cluster randomized trials, little guidance has been provided for optimal designs to ensure maximum efficiency. Here, an optimal design refers to the combination of optimal cluster-period size and optimal number of clusters that provide the smallest variance of the treatment effect estimator or maximum efficiency under a fixed total budget. In this work, we develop optimal designs for multiple-period cluster randomized crossover trials and stepped wedge cluster randomized trials with continuous outcomes, including both closed-cohort and repeated cross-sectional sampling schemes. Local optimal design algorithms are proposed when the correlation parameters in the working correlation structure are known. MaxiMin optimal design algorithms are proposed when the exact values are unavailable, but investigators may specify a range of correlation values. The closed-form formulae of local optimal design and MaxiMin optimal design are derived for multiple-period cluster randomized crossover trials, where the cluster-period size and number of clusters are decimal. The decimal estimates from closed-form formulae can then be used to investigate the performances of integer estimates from local optimal design and MaxiMin optimal design algorithms. One unique contribution from this work, compared to the previous optimal design research, is that we adopt constrained optimization techniques to obtain integer estimates under the MaxiMin optimal design. To assist practical implementation, we also develop four SAS macros to find local optimal designs and MaxiMin optimal designs.

在分组随机交叉试验和阶梯楔形试验中使用广义估计方程进行优化设计。
聚类随机交叉试验和阶梯楔形聚类随机试验是纵向聚类随机试验的两种类型,它们利用聚类内和聚类间的比较来估计治疗效果,在医疗保健服务和实施科学研究中的应用越来越广泛。虽然以前已经从广义估计方程的方法中开发出了估计治疗效果的方差表达式,用于分析分组随机交叉试验和阶梯楔形分组随机试验,但很少有人指导如何进行优化设计以确保最大效率。在这里,最优设计是指在固定总预算下,能提供最小治疗效果估计方差或最高效率的最优分组期规模和最优分组数的组合。在这项工作中,我们开发了多期分组随机交叉试验和连续结果的阶梯楔形分组随机试验的最优设计,包括封闭队列和重复横截面抽样方案。在已知工作相关结构中的相关参数时,提出了局部优化设计算法。MaxiMin 优化设计算法是在无法获得精确值,但研究者可以指定相关值范围的情况下提出的。对于多期群组随机交叉试验,群组周期大小和群组数量均为十进制,推导出局部优化设计和 MaxiMin 优化设计的闭式公式。根据闭合形式公式得出的十进制估计值可用于研究局部优化设计和 MaxiMin 优化设计算法的整数估计值的性能。与以往的优化设计研究相比,这项工作的一个独特贡献是,我们采用了约束优化技术来获取 MaxiMin 优化设计下的整数估计值。为了帮助实际应用,我们还开发了四个 SAS 宏,用于查找局部最优设计和 MaxiMin 最佳设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Statistical Methods in Medical Research
Statistical Methods in Medical Research 医学-数学与计算生物学
CiteScore
4.10
自引率
4.30%
发文量
127
审稿时长
>12 weeks
期刊介绍: Statistical Methods in Medical Research is a peer reviewed scholarly journal and is the leading vehicle for articles in all the main areas of medical statistics and an essential reference for all medical statisticians. This unique journal is devoted solely to statistics and medicine and aims to keep professionals abreast of the many powerful statistical techniques now available to the medical profession. This journal is a member of the Committee on Publication Ethics (COPE)
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