Title of article
Bias from the use of generalized estimating equations to analyze incomplete longitudinal binary data
Author/Authors
Andrew J. Copas & Shaun R. Seaman، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
12
From page
911
To page
922
Abstract
Patient dropout is a common problem in studies that collect repeated binary measurements. Generalized
estimating equations (GEE) are often used to analyze such data. The dropout mechanism may be plausibly
missing at random (MAR), i.e. unrelated to future measurements given covariates and past measurements.
In this case, various authors have recommended weighted GEE with weights based on an assumed dropout
model, or an imputation approach, or a doubly robust approach based on weighting and imputation. These
approaches provide asymptotically unbiased inference, provided the dropout or imputation model (as
appropriate) is correctly specified. Other authors have suggested that, provided the working correlation
structure is correctly specified, GEE using an improved estimator of the correlation parameters (‘modified
GEE’) show minimal bias. These modified GEE have not been thoroughly examined. In this paper, we
study the asymptotic bias under MAR dropout of these modified GEE, the standard GEE, and also GEE
using the true correlation.We demonstrate that all three methods are biased in general. The modified GEE
may be preferred to the standard GEE and are subject to only minimal bias in many MAR scenarios but in
others are substantially biased. Hence, we recommend the modified GEE be used with caution.
Keywords
Binary data , Missing data , Generalized estimating equations , Missing at random , Repeatedmeasures
Journal title
JOURNAL OF APPLIED STATISTICS
Serial Year
2010
Journal title
JOURNAL OF APPLIED STATISTICS
Record number
712436
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