%0 Journal Article %1 Geskus:2011:Biometrics:20377575 %A Geskus, R B %D 2011 %J Biometrics %K CompetingRisks SurvivalAnalysis statistics %N 1 %P 39-49 %R 10.1111/j.1541-0420.2010.01420.x %T Cause-specific cumulative incidence estimation and the fine and gray model under both left truncation and right censoring %U https://www.ncbi.nlm.nih.gov/pubmed/20377575 %V 67 %X Summary The standard estimator for the cause-specific cumulative incidence function in a competing risks setting with left truncated and/or right censored data can be written in two alternative forms. One is a weighted empirical cumulative distribution function and the other a product-limit estimator. This equivalence suggests an alternative view of the analysis of time-to-event data with left truncation and right censoring: individuals who are still at risk or experienced an earlier competing event receive weights from the censoring and truncation mechanisms. As a consequence, inference on the cumulative scale can be performed using weighted versions of standard procedures. This holds for estimation of the cause-specific cumulative incidence function as well as for estimation of the regression parameters in the Fine and Gray proportional subdistribution hazards model. We show that, with the appropriate filtration, a martingale property holds that allows deriving asymptotic results for the proportional subdistribution hazards model in the same way as for the standard Cox proportional hazards model. Estimation of the cause-specific cumulative incidence function and regression on the subdistribution hazard can be performed using standard software for survival analysis if the software allows for inclusion of time-dependent weights. We show the implementation in the R statistical package. The proportional subdistribution hazards model is used to investigate the effect of calendar period as a deterministic external time varying covariate, which can be seen as a special case of left truncation, on AIDS related and non-AIDS related cumulative mortality.

@article{Geskus:2011:Biometrics:20377575, abstract = {Summary The standard estimator for the cause-specific cumulative incidence function in a competing risks setting with left truncated and/or right censored data can be written in two alternative forms. One is a weighted empirical cumulative distribution function and the other a product-limit estimator. This equivalence suggests an alternative view of the analysis of time-to-event data with left truncation and right censoring: individuals who are still at risk or experienced an earlier competing event receive weights from the censoring and truncation mechanisms. As a consequence, inference on the cumulative scale can be performed using weighted versions of standard procedures. This holds for estimation of the cause-specific cumulative incidence function as well as for estimation of the regression parameters in the Fine and Gray proportional subdistribution hazards model. We show that, with the appropriate filtration, a martingale property holds that allows deriving asymptotic results for the proportional subdistribution hazards model in the same way as for the standard Cox proportional hazards model. Estimation of the cause-specific cumulative incidence function and regression on the subdistribution hazard can be performed using standard software for survival analysis if the software allows for inclusion of time-dependent weights. We show the implementation in the R statistical package. The proportional subdistribution hazards model is used to investigate the effect of calendar period as a deterministic external time varying covariate, which can be seen as a special case of left truncation, on AIDS related and non-AIDS related cumulative mortality.}, added-at = {2019-10-27T09:43:52.000+0100}, author = {Geskus, R B}, biburl = {https://www.bibsonomy.org/bibtex/28291bdb575a9a77326b70f559c129878/jkd}, description = {Cause-specific cumulative incidence estimation and the fine and gray model under both left truncation and right censoring. - PubMed - NCBI}, doi = {10.1111/j.1541-0420.2010.01420.x}, interhash = {667f9aaeffeee19337b4a3550509a6e7}, intrahash = {8291bdb575a9a77326b70f559c129878}, journal = {Biometrics}, keywords = {CompetingRisks SurvivalAnalysis statistics}, month = mar, number = 1, pages = {39-49}, pmid = {20377575}, timestamp = {2019-10-27T09:43:52.000+0100}, title = {Cause-specific cumulative incidence estimation and the fine and gray model under both left truncation and right censoring}, url = {https://www.ncbi.nlm.nih.gov/pubmed/20377575}, volume = 67, year = 2011 }