Optimal design of cluster randomized crossover trials with a continuous outcome: Optimal number of time periods and treatment switches under a fixed number of clusters or fixed budget

In the cluster randomized crossover trial, a sequence of treatment conditions, rather than just one treatment condition, is assigned to each cluster. This contribution studies the optimal number of time periods in studies with a treatment switch at the end of each time period, and the optimal number...

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Published in	Behavior research methods Vol. 56; no. 8; pp. 8820 - 8830
Main Author	Moerbeek, Mirjam
Format	Journal Article
Language	English
Published	New York Springer US 01.12.2024 Springer Nature B.V
Subjects	Behavioral Science and Psychology Budgets - methods Cluster Analysis Cognitive Psychology Cross-Over Studies Cross-Sectional Studies Design optimization Humans Original Manuscript Psychology Randomized Controlled Trials as Topic - economics Randomized Controlled Trials as Topic - methods Research Design Time Factors Crossover design Treatment switches Relative efficiency Cluster randomized trial Budgetary constraint Optimal design
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Abstract	In the cluster randomized crossover trial, a sequence of treatment conditions, rather than just one treatment condition, is assigned to each cluster. This contribution studies the optimal number of time periods in studies with a treatment switch at the end of each time period, and the optimal number of treatment switches in a trial with a fixed number of time periods. This is done for trials with a fixed number of clusters, and for trials in which the costs per cluster, subject, and treatment switch are taken into account using a budgetary constraint. The focus is on trials with a cross-sectional design where a continuous outcome variable is measured at the end of each time period. An exponential decay correlation structure is used to model dependencies among subjects within the same cluster. A linear multilevel mixed model is used to estimate the treatment effect and its associated variance. The optimal design minimizes this variance. Matrix algebra is used to identify the optimal design and other highly efficient designs. For a fixed number of clusters, a design with the maximum number of time periods is optimal and treatment switches should occur at each time period. However, when a budgetary constraint is taken into account, the optimal design may have fewer time periods and fewer treatment switches. The Shiny app was developed to facilitate the use of the methodology in this contribution.
AbstractList	In the cluster randomized crossover trial, a sequence of treatment conditions, rather than just one treatment condition, is assigned to each cluster. This contribution studies the optimal number of time periods in studies with a treatment switch at the end of each time period, and the optimal number of treatment switches in a trial with a fixed number of time periods. This is done for trials with a fixed number of clusters, and for trials in which the costs per cluster, subject, and treatment switch are taken into account using a budgetary constraint. The focus is on trials with a cross-sectional design where a continuous outcome variable is measured at the end of each time period. An exponential decay correlation structure is used to model dependencies among subjects within the same cluster. A linear multilevel mixed model is used to estimate the treatment effect and its associated variance. The optimal design minimizes this variance. Matrix algebra is used to identify the optimal design and other highly efficient designs. For a fixed number of clusters, a design with the maximum number of time periods is optimal and treatment switches should occur at each time period. However, when a budgetary constraint is taken into account, the optimal design may have fewer time periods and fewer treatment switches. The Shiny app was developed to facilitate the use of the methodology in this contribution. In the cluster randomized crossover trial, a sequence of treatment conditions, rather than just one treatment condition, is assigned to each cluster. This contribution studies the optimal number of time periods in studies with a treatment switch at the end of each time period, and the optimal number of treatment switches in a trial with a fixed number of time periods. This is done for trials with a fixed number of clusters, and for trials in which the costs per cluster, subject, and treatment switch are taken into account using a budgetary constraint. The focus is on trials with a cross-sectional design where a continuous outcome variable is measured at the end of each time period. An exponential decay correlation structure is used to model dependencies among subjects within the same cluster. A linear multilevel mixed model is used to estimate the treatment effect and its associated variance. The optimal design minimizes this variance. Matrix algebra is used to identify the optimal design and other highly efficient designs. For a fixed number of clusters, a design with the maximum number of time periods is optimal and treatment switches should occur at each time period. However, when a budgetary constraint is taken into account, the optimal design may have fewer time periods and fewer treatment switches. The Shiny app was developed to facilitate the use of the methodology in this contribution.In the cluster randomized crossover trial, a sequence of treatment conditions, rather than just one treatment condition, is assigned to each cluster. This contribution studies the optimal number of time periods in studies with a treatment switch at the end of each time period, and the optimal number of treatment switches in a trial with a fixed number of time periods. This is done for trials with a fixed number of clusters, and for trials in which the costs per cluster, subject, and treatment switch are taken into account using a budgetary constraint. The focus is on trials with a cross-sectional design where a continuous outcome variable is measured at the end of each time period. An exponential decay correlation structure is used to model dependencies among subjects within the same cluster. A linear multilevel mixed model is used to estimate the treatment effect and its associated variance. The optimal design minimizes this variance. Matrix algebra is used to identify the optimal design and other highly efficient designs. For a fixed number of clusters, a design with the maximum number of time periods is optimal and treatment switches should occur at each time period. However, when a budgetary constraint is taken into account, the optimal design may have fewer time periods and fewer treatment switches. The Shiny app was developed to facilitate the use of the methodology in this contribution.
Author	Moerbeek, Mirjam
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Cites_doi	10.1002/9780470746912 10.2307/2530496 10.1002/sim.2740 10.1002/sim.8958 10.1002/9781119966241 10.3102/1076998610379 10.3758/s13428-020-01529-7 10.1002/sim.8349 10.1002/(SICI)1097-0258(19960615)15:11<1069::AID-SIM220>3.0.CO;2-Q 10.1002/sim.8519 10.1177/0962280217734981 10.3390/ijerph18179292 10.1002/0470854596 10.1177/17407745211020852 10.1007/s12630-018-1130-2 10.1093/oso/9780199296590.001.0001 10.1002/sim.8089 10.1002/9781118763452 10.1186/s13063-017-2113-2 10.1002/bjs5.50177 10.1177/1740774520913042 10.3102/1076998609360774 10.1002/sim.3383 10.1002/sim.7995 10.1198/000313005X20727 10.1186/s13063-017-1871-1
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Keywords	Crossover design Treatment switches Relative efficiency Cluster randomized trial Budgetary constraint Optimal design
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Snippet	In the cluster randomized crossover trial, a sequence of treatment conditions, rather than just one treatment condition, is assigned to each cluster. This...
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SubjectTerms	Behavioral Science and Psychology Budgets - methods Cluster Analysis Cognitive Psychology Cross-Over Studies Cross-Sectional Studies Design optimization Humans Original Manuscript Psychology Randomized Controlled Trials as Topic - economics Randomized Controlled Trials as Topic - methods Research Design Time Factors
Title	Optimal design of cluster randomized crossover trials with a continuous outcome: Optimal number of time periods and treatment switches under a fixed number of clusters or fixed budget
URI	https://link.springer.com/article/10.3758/s13428-024-02505-1 https://www.ncbi.nlm.nih.gov/pubmed/39271634 https://www.proquest.com/docview/3122603865 https://www.proquest.com/docview/3104540128 https://pubmed.ncbi.nlm.nih.gov/PMC11525278
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