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The Wally plot approach to assess the calibration of clinical prediction models

Author

Listed:
  • Paul Blanche

    (University of South Brittany)

  • Thomas A. Gerds

    (University of Copenhagen)

  • Claus T. Ekstrøm

    (University of Copenhagen)

Abstract

A prediction model is calibrated if, roughly, for any percentage x we can expect that x subjects out of 100 experience the event among all subjects that have a predicted risk of x%. Typically, the calibration assumption is assessed graphically but in practice it is often challenging to judge whether a “disappointing” calibration plot is the consequence of a departure from the calibration assumption, or alternatively just “bad luck” due to sampling variability. We propose a graphical approach which enables the visualization of how much a calibration plot agrees with the calibration assumption to address this issue. The approach is mainly based on the idea of generating new plots which mimic the available data under the calibration assumption. The method handles the common non-trivial situations in which the data contain censored observations and occurrences of competing events. This is done by building on ideas from constrained non-parametric maximum likelihood estimation methods. Two examples from large cohort data illustrate our proposal. The ‘wally’ R package is provided to make the methodology easily usable.

Suggested Citation

  • Paul Blanche & Thomas A. Gerds & Claus T. Ekstrøm, 2019. "The Wally plot approach to assess the calibration of clinical prediction models," Lifetime Data Analysis: An International Journal Devoted to Statistical Methods and Applications for Time-to-Event Data, Springer, vol. 25(1), pages 150-167, January.
    • Handle: RePEc:spr:lifeda:v:25:y:2019:i:1:d:10.1007_s10985-017-9414-3
    DOI: 10.1007/s10985-017-9414-3
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    References listed on IDEAS

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    1. Mahbubul Majumder & Heike Hofmann & Dianne Cook, 2013. "Validation of Visual Statistical Inference, Applied to Linear Models," Journal of the American Statistical Association, Taylor & Francis Journals, vol. 108(503), pages 942-956, September.
    2. Li, Gang & Sun, Yanqing, 2000. "A simulation-based goodness-of-fit test for survival data," Statistics & Probability Letters, Elsevier, vol. 47(4), pages 403-410, May.
    3. Adam Loy & Lendie Follett & Heike Hofmann, 2016. "Variations of Q -- Q Plots: The Power of Our Eyes!," The American Statistician, Taylor & Francis Journals, vol. 70(2), pages 202-214, May.
    4. Stuart Barber & Christopher Jennison, 1999. "Symmetric Tests and Confidence Intervals for Survival Probabilities and Quantiles of Censored Survival Data," Biometrics, The International Biometric Society, vol. 55(2), pages 430-436, June.
    5. Paul Blanche & Cécile Proust-Lima & Lucie Loubère & Claudine Berr & Jean-François Dartigues & Hélène Jacqmin-Gadda, 2015. "Quantifying and comparing dynamic predictive accuracy of joint models for longitudinal marker and time-to-event in presence of censoring and competing risks," Biometrics, The International Biometric Society, vol. 71(1), pages 102-113, March.
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