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Poststratification fusion learning in longitudinal data analysis

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  • Lu Tang
  • Peter X.‐K. Song

Abstract

Stratification is a very commonly used approach in biomedical studies to handle sample heterogeneity arising from, for examples, clinical units, patient subgroups, or missing‐data. A key rationale behind such approach is to overcome potential sampling biases in statistical inference. Two issues of such stratification‐based strategy are (i) whether individual strata are sufficiently distinctive to warrant stratification, and (ii) sample size attrition resulted from the stratification may potentially lead to loss of statistical power. To address these issues, we propose a penalized generalized estimating equations approach to reducing the complexity of parametric model structures due to excessive stratification. Specifically, we develop a data‐driven fusion learning approach for longitudinal data that improves estimation efficiency by integrating information across similar strata, yet still allows necessary separation for stratum‐specific conclusions. The proposed method is evaluated by simulation studies and applied to a motivating example of psychiatric study to demonstrate its usefulness in real world settings.

Suggested Citation

  • Lu Tang & Peter X.‐K. Song, 2021. "Poststratification fusion learning in longitudinal data analysis," Biometrics, The International Biometric Society, vol. 77(3), pages 914-928, September.
  • Handle: RePEc:bla:biomet:v:77:y:2021:i:3:p:914-928
    DOI: 10.1111/biom.13333
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    References listed on IDEAS

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