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Citation |
Zheng H, Kimber A, Goodwin VA, Pickering RM. Biom. J. 2018; 60(1): 66-78. |
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Affiliation |
Medical Statistics Group, Faculty of Medicine, University of Southampton, Southampton, England. |
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Copyright |
(Copyright © 2018, John Wiley and Sons) |
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DOI |
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PMID |
29067697 |
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Abstract |
A common design for a falls prevention trial is to assess falling at baseline, randomize participants into an intervention or control group, and ask them to record the number of falls they experience during a follow-up period of time. This paper addresses how best to include the baseline count in the analysis of the follow-up count of falls in negative binomial (NB) regression. We examine the performance of various approaches in simulated datasets where both counts are generated from a mixed Poisson distribution with shared random subject effect. Including the baseline count after log-transformation as a regressor in NB regression (NB-logged) or as an offset (NB-offset) resulted in greater power than including the untransformed baseline count (NB-unlogged). Cook and Wei's conditional negative binomial (CNB) model replicates the underlying process generating the data. In our motivating dataset, a statistically significant intervention effect resulted from the NB-logged, NB-offset, and CNB models, but not from NB-unlogged, and large, outlying baseline counts were overly influential in NB-unlogged but not in NB-logged. We conclude that there is little to lose by including the log-transformed baseline count in standard NB regression compared to CNB for moderate to larger sized datasets. Language: en |
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Keywords |
baseline counts; negative binomial; regression; simulations |