Comparison of methods for analysing cluster randomized trials: an example involving a factorial design

doi:10.1093/ije/dyg228

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International Journal of Epidemiology 2003;32:840-846
© International Epidemiological Association 2003

Methodology

Comparison of methods for analysing cluster randomized trials: an example involving a factorial design

TJ Peters¹^,2, SH Richards³^,4, CR Bankhead⁵, AE Ades⁶ and JAC Sterne²

¹ Division of Primary Health Care,
² Department of Social Medicine, University of Bristol.
³ Department of Primary Care and General Practice, University of Birmingham.
⁴ Current affiliation: Department of Primary Care, Peninsula Medical School, Universities of Exeter and Plymouth.
⁵ Cancer Research UK Primary Care Education Research Group, University of Oxford.
⁶ MRC Health Services Research Collaboration, Department of Social Medicine, University of Bristol.

Professor Tim J Peters, Division of Primary Health Care, University of Bristol, Cotham House, Cotham Hill, Bristol BS6 6JL, UK. E-mail: tim.peters{at}bristol.ac.uk

Background Studies involving clustering effects are common,but there is little consistency in their analysis. Various analyticalmethods were compared for a factorial cluster randomized trial(CRT) of two primary care-based interventions designed to increasebreast screening attendance.

Methods Three cluster-level and five individual-level optionswere compared in respect of log odds ratios of attendance andtheir standard errors (SE), for the two intervention effectsand their interaction. Cluster-level analyses comprised: (C1)unweighted regression of practice log odds; (C2) regressionof log odds weighted by their inverse variance; (C3) random-effectsmeta-regression of log odds with practice as a random effect.Individual-level analyses comprised: (I1) standard logisticregression ignoring clustering; (I2) robust SE; (I3) generalizedestimating equations; (I4) random-effects logistic regression;(I5) Bayesian random-effects logistic regression. Adjustmentsfor stratification and baseline variables were investigated.

Results As expected, method I1 was highly anti-conservative.The other, valid, methods exhibited considerable differencesin parameter estimates and standard errors, even between thevarious random-effects methods based on the same statisticalmodel. Method I4 was particularly sensitive to between-clustervariation and was computationally stable only after controllingfor baseline uptake.

Conclusions Commonly used methods for the analysis of CRT cangive divergent results. Simulation studies are needed to compareresults from different methods in situations typical of clustertrials but when the true model parameters are known.

Keywords Cluster randomized trial, factorial trial, data analysis, logistic regression

Accepted 7 May 2003

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