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1. Estimating a population cumulative incidence under calendar time trends.

Author

Hansen, Stefan N., Overgaard, Morten, Andersen, Per K., and Parner, Erik T.

Subjects

PATHOLOGICAL psychology, KAPLAN-Meier estimator, DISEASE risk factors, PROPORTIONAL hazards models, MATHEMATICAL models, PSYCHIATRIC diagnosis, DIAGNOSIS of obsessive-compulsive disorder, PSYCHIATRIC epidemiology, ALGORITHMS, ATTENTION-deficit hyperactivity disorder, COMPUTER simulation, OBSESSIVE-compulsive disorder, RISK assessment, TIME, THEORY, TOURETTE syndrome, DISEASE incidence, DISEASE prevalence, DIAGNOSIS

Abstract

Background: The risk of a disease or psychiatric disorder is frequently measured by the age-specific cumulative incidence. Cumulative incidence estimates are often derived in cohort studies with individuals recruited over calendar time and with the end of follow-up governed by a specific date. It is common practice to apply the Kaplan-Meier or Aalen-Johansen estimator to the total sample and report either the estimated cumulative incidence curve or just a single point on the curve as a description of the disease risk.Methods: We argue that, whenever the disease or disorder of interest is influenced by calendar time trends, the total sample Kaplan-Meier and Aalen-Johansen estimators do not provide useful estimates of the general risk in the target population. We present some alternatives to this type of analysis.Results: We show how a proportional hazards model may be used to extrapolate disease risk estimates if proportionality is a reasonable assumption. If not reasonable, we instead advocate that a more useful description of the disease risk lies in the age-specific cumulative incidence curves across strata given by time of entry or perhaps just the end of follow-up estimates across all strata. Finally, we argue that a weighted average of these end of follow-up estimates may be a useful summary measure of the disease risk within the study period.Conclusions: Time trends in a disease risk will render total sample estimators less useful in observational studies with staggered entry and administrative censoring. An analysis based on proportional hazards or a stratified analysis may be better alternatives. [ABSTRACT FROM AUTHOR]

Published

2017