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Analysis of longitudinal data with drop‐out: objectives, assumptions and a proposal

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  • Peter Diggle
  • Daniel Farewell
  • Robin Henderson

Abstract

Summary. The problem of analysing longitudinal data that are complicated by possibly informative drop‐out has received considerable attention in the statistical literature. Most researchers have concentrated on either methodology or application, but we begin this paper by arguing that more attention could be given to study objectives and to the relevant targets for inference. Next we summarize a variety of approaches that have been suggested for dealing with drop‐out. A long‐standing concern in this subject area is that all methods require untestable assumptions. We discuss circumstances in which we are willing to make such assumptions and we propose a new and computationally efficient modelling and analysis procedure for these situations. We assume a dynamic linear model for the expected increments of a constructed variable, under which subject‐specific random effects follow a martingale process in the absence of drop‐out. Informal diagnostic procedures to assess the tenability of the assumption are proposed. The paper is completed by simulations and a comparison of our method and several alternatives in the analysis of data from a trial into the treatment of schizophrenia, in which approximately 50% of recruited subjects dropped out before the final scheduled measurement time.

Suggested Citation

  • Peter Diggle & Daniel Farewell & Robin Henderson, 2007. "Analysis of longitudinal data with drop‐out: objectives, assumptions and a proposal," Journal of the Royal Statistical Society Series C, Royal Statistical Society, vol. 56(5), pages 499-550, November.
    • Handle: RePEc:bla:jorssc:v:56:y:2007:i:5:p:499-550
    DOI: 10.1111/j.1467-9876.2007.00590.x
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    Cited by:

    1. Aidan G. O’Keeffe & Daniel M. Farewell & Brian D. M. Tom & Vernon T. Farewell, 2016. "Multiple Imputation of Missing Composite Outcomes in Longitudinal Data," Statistics in Biosciences, Springer;International Chinese Statistical Association, vol. 8(2), pages 310-332, October.
    2. Wang, Songfeng & Zhang, Jiajia & Lu, Wenbin, 2014. "Sample size calculation for the proportional hazards model with a time-dependent covariate," Computational Statistics & Data Analysis, Elsevier, vol. 74(C), pages 217-227.
    3. Shaun R. Seaman & Daniel Farewell & Ian R. White, 2016. "Linear Increments with Non-monotone Missing Data and Measurement Error," Scandinavian Journal of Statistics, Danish Society for Theoretical Statistics;Finnish Statistical Society;Norwegian Statistical Association;Swedish Statistical Association, vol. 43(4), pages 996-1018, December.
    4. Edward F. Vonesh & Tom Greene, 2022. "Biased estimation with shared parameter models in the presence of competing dropout mechanisms," Biometrics, The International Biometric Society, vol. 78(1), pages 399-406, March.
    5. Audrey Renson & Michael G. Hudgens & Alexander P. Keil & Paul N. Zivich & Allison E. Aiello, 2023. "Identifying and estimating effects of sustained interventions under parallel trends assumptions," Biometrics, The International Biometric Society, vol. 79(4), pages 2998-3009, December.
    6. Lin, Huazhen & Li, Yi & Tan, Ming T., 2013. "Estimating a unitary effect summary based on combined survival and quantitative outcomes," Computational Statistics & Data Analysis, Elsevier, vol. 66(C), pages 129-139.
    7. Hannes Kröger & Johan Fritzell & Rasmus Hoffmann, 2016. "The Association of Levels of and Decline in Grip Strength in Old Age with Trajectories of Life Course Occupational Position," PLOS ONE, Public Library of Science, vol. 11(5), pages 1-16, May.
    8. Walter Dempsey & Peter McCullagh, 2018. "Survival models and health sequences," Lifetime Data Analysis: An International Journal Devoted to Statistical Methods and Applications for Time-to-Event Data, Springer, vol. 24(4), pages 550-584, October.
    9. Mélanie Prague & Daniel Commenges & Jon Michael Gran & Bruno Ledergerber & Jim Young & Hansjakob Furrer & Rodolphe Thiébaut, 2017. "Dynamic models for estimating the effect of HAART on CD4 in observational studies: Application to the Aquitaine Cohort and the Swiss HIV Cohort Study," Biometrics, The International Biometric Society, vol. 73(1), pages 294-304, March.
    10. Spagnoli, Alessandra & Henderson, Robin & Boys, Richard J. & Houwing-Duistermaat, Jeanine J., 2011. "A hidden Markov model for informative dropout in longitudinal response data with crisis states," Statistics & Probability Letters, Elsevier, vol. 81(7), pages 730-738, July.

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