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Use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results

BACKGROUND: This work has investigated under what conditions confidence intervals around the differences in mean costs from a cluster RCT are suitable for estimation using a commonly used cluster-adjusted bootstrap in preference to methods that utilise the Huber-White robust estimator of variance. T...

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Autores principales: Flynn, Terry N, Peters, Tim J
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2004
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC535558/
https://www.ncbi.nlm.nih.gov/pubmed/15550169
http://dx.doi.org/10.1186/1472-6963-4-33
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author Flynn, Terry N
Peters, Tim J
author_facet Flynn, Terry N
Peters, Tim J
author_sort Flynn, Terry N
collection PubMed
description BACKGROUND: This work has investigated under what conditions confidence intervals around the differences in mean costs from a cluster RCT are suitable for estimation using a commonly used cluster-adjusted bootstrap in preference to methods that utilise the Huber-White robust estimator of variance. The bootstrap's main advantage is in dealing with skewed data, which often characterise patient costs. However, it is insufficiently well recognised that one method of adjusting the bootstrap to deal with clustered data is only valid in large samples. In particular, the requirement that the number of clusters randomised should be large would not be satisfied in many cluster RCTs performed to date. METHODS: The performances of confidence intervals for simple differences in mean costs utilising a robust (cluster-adjusted) standard error and from two cluster-adjusted bootstrap procedures were compared in terms of confidence interval coverage in a large number of simulations. Parameters varied included the intracluster correlation coefficient, the sample size and the distributions used to generate the data. RESULTS: The bootstrap's advantage in dealing with skewed data was found to be outweighed by its poor confidence interval coverage when the number of clusters was at the level frequently found in cluster RCTs in practice. Simulations showed that confidence intervals based on robust methods of standard error estimation achieved coverage rates between 93.5% and 94.8% for a 95% nominal level whereas those for the bootstrap ranged between 86.4% and 93.8%. CONCLUSION: In general, 24 clusters per treatment arm is probably the minimum number for which one would even begin to consider the bootstrap in preference to traditional robust methods, for the parameter combinations investigated here. At least this number of clusters and extremely skewed data would be necessary for the bootstrap to be considered in favour of the robust method. There is a need for further investigation of more complex bootstrap procedures if economic data from cluster RCTs are to be analysed appropriately.
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spelling pubmed-5355582004-12-12 Use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results Flynn, Terry N Peters, Tim J BMC Health Serv Res Research Article BACKGROUND: This work has investigated under what conditions confidence intervals around the differences in mean costs from a cluster RCT are suitable for estimation using a commonly used cluster-adjusted bootstrap in preference to methods that utilise the Huber-White robust estimator of variance. The bootstrap's main advantage is in dealing with skewed data, which often characterise patient costs. However, it is insufficiently well recognised that one method of adjusting the bootstrap to deal with clustered data is only valid in large samples. In particular, the requirement that the number of clusters randomised should be large would not be satisfied in many cluster RCTs performed to date. METHODS: The performances of confidence intervals for simple differences in mean costs utilising a robust (cluster-adjusted) standard error and from two cluster-adjusted bootstrap procedures were compared in terms of confidence interval coverage in a large number of simulations. Parameters varied included the intracluster correlation coefficient, the sample size and the distributions used to generate the data. RESULTS: The bootstrap's advantage in dealing with skewed data was found to be outweighed by its poor confidence interval coverage when the number of clusters was at the level frequently found in cluster RCTs in practice. Simulations showed that confidence intervals based on robust methods of standard error estimation achieved coverage rates between 93.5% and 94.8% for a 95% nominal level whereas those for the bootstrap ranged between 86.4% and 93.8%. CONCLUSION: In general, 24 clusters per treatment arm is probably the minimum number for which one would even begin to consider the bootstrap in preference to traditional robust methods, for the parameter combinations investigated here. At least this number of clusters and extremely skewed data would be necessary for the bootstrap to be considered in favour of the robust method. There is a need for further investigation of more complex bootstrap procedures if economic data from cluster RCTs are to be analysed appropriately. BioMed Central 2004-11-18 /pmc/articles/PMC535558/ /pubmed/15550169 http://dx.doi.org/10.1186/1472-6963-4-33 Text en Copyright © 2004 Flynn and Peters; licensee BioMed Central Ltd.
spellingShingle Research Article
Flynn, Terry N
Peters, Tim J
Use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results
title Use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results
title_full Use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results
title_fullStr Use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results
title_full_unstemmed Use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results
title_short Use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results
title_sort use of the bootstrap in analysing cost data from cluster randomised trials: some simulation results
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC535558/
https://www.ncbi.nlm.nih.gov/pubmed/15550169
http://dx.doi.org/10.1186/1472-6963-4-33
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