Dynamic prediction of cumulative incidence functions by direct binomial regression

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Dynamic prediction of cumulative incidence functions by direct binomial regression. / Grand, Mia K; de Witte, Theo J M; Putter, Hein.

I: Biometrical Journal, Bind 60, Nr. 4, 2018, s. 734-747.

Publikation: Bidrag til tidsskriftTidsskriftartikelfagfællebedømt

Harvard

Grand, MK, de Witte, TJM & Putter, H 2018, 'Dynamic prediction of cumulative incidence functions by direct binomial regression', Biometrical Journal, bind 60, nr. 4, s. 734-747. https://doi.org/10.1002/bimj.201700194

APA

Grand, M. K., de Witte, T. J. M., & Putter, H. (2018). Dynamic prediction of cumulative incidence functions by direct binomial regression. Biometrical Journal, 60(4), 734-747. https://doi.org/10.1002/bimj.201700194

Vancouver

Grand MK, de Witte TJM, Putter H. Dynamic prediction of cumulative incidence functions by direct binomial regression. Biometrical Journal. 2018;60(4):734-747. https://doi.org/10.1002/bimj.201700194

Author

Grand, Mia K ; de Witte, Theo J M ; Putter, Hein. / Dynamic prediction of cumulative incidence functions by direct binomial regression. I: Biometrical Journal. 2018 ; Bind 60, Nr. 4. s. 734-747.

Bibtex

@article{11ebc1e7c27940f4817229882f407ff5,
title = "Dynamic prediction of cumulative incidence functions by direct binomial regression",
abstract = "In recent years there have been a series of advances in the field of dynamic prediction. Among those is the development of methods for dynamic prediction of the cumulative incidence function in a competing risk setting. These models enable the predictions to be updated as time progresses and more information becomes available, for example when a patient comes back for a follow-up visit after completing a year of treatment, the risk of death, and adverse events may have changed since treatment initiation. One approach to model the cumulative incidence function in competing risks is by direct binomial regression, where right censoring of the event times is handled by inverse probability of censoring weights. We extend the approach by combining it with landmarking to enable dynamic prediction of the cumulative incidence function. The proposed models are very flexible, as they allow the covariates to have complex time-varying effects, and we illustrate how to investigate possible time-varying structures using Wald tests. The models are fitted using generalized estimating equations. The method is applied to bone marrow transplant data and the performance is investigated in a simulation study.",
author = "Grand, {Mia K} and {de Witte}, {Theo J M} and Hein Putter",
year = "2018",
doi = "10.1002/bimj.201700194",
language = "English",
volume = "60",
pages = "734--747",
journal = "Biometrical Journal",
issn = "0323-3847",
publisher = "Wiley - V C H Verlag GmbH & Co. KGaA",
number = "4",

}

RIS

TY - JOUR

T1 - Dynamic prediction of cumulative incidence functions by direct binomial regression

AU - Grand, Mia K

AU - de Witte, Theo J M

AU - Putter, Hein

PY - 2018

Y1 - 2018

N2 - In recent years there have been a series of advances in the field of dynamic prediction. Among those is the development of methods for dynamic prediction of the cumulative incidence function in a competing risk setting. These models enable the predictions to be updated as time progresses and more information becomes available, for example when a patient comes back for a follow-up visit after completing a year of treatment, the risk of death, and adverse events may have changed since treatment initiation. One approach to model the cumulative incidence function in competing risks is by direct binomial regression, where right censoring of the event times is handled by inverse probability of censoring weights. We extend the approach by combining it with landmarking to enable dynamic prediction of the cumulative incidence function. The proposed models are very flexible, as they allow the covariates to have complex time-varying effects, and we illustrate how to investigate possible time-varying structures using Wald tests. The models are fitted using generalized estimating equations. The method is applied to bone marrow transplant data and the performance is investigated in a simulation study.

AB - In recent years there have been a series of advances in the field of dynamic prediction. Among those is the development of methods for dynamic prediction of the cumulative incidence function in a competing risk setting. These models enable the predictions to be updated as time progresses and more information becomes available, for example when a patient comes back for a follow-up visit after completing a year of treatment, the risk of death, and adverse events may have changed since treatment initiation. One approach to model the cumulative incidence function in competing risks is by direct binomial regression, where right censoring of the event times is handled by inverse probability of censoring weights. We extend the approach by combining it with landmarking to enable dynamic prediction of the cumulative incidence function. The proposed models are very flexible, as they allow the covariates to have complex time-varying effects, and we illustrate how to investigate possible time-varying structures using Wald tests. The models are fitted using generalized estimating equations. The method is applied to bone marrow transplant data and the performance is investigated in a simulation study.

U2 - 10.1002/bimj.201700194

DO - 10.1002/bimj.201700194

M3 - Journal article

C2 - 29577376

VL - 60

SP - 734

EP - 747

JO - Biometrical Journal

JF - Biometrical Journal

SN - 0323-3847

IS - 4

ER -

ID: 225661291