Biostatistics 1:423-439 (2000)
© 2000 Oxford University Press
Estimating average regression effect under non-proportional hazards
1 Department of Biostatistics, Harvard
School of Public Health and Dana-Farber Cancer Institute, MA 02115,
Boston, USArxu{at}jimmy.harvard.edu
2 Department of Mathematics, University of
California at San Diego, La Jolla, CA 92093, USA
We present an estimator of average regression effect under a
non-proportional hazards model, where the regression effect of the
covariates on the log hazard ratio changes with time. In the absence
of censoring, the new estimate coincides with the usual partial
likelihood estimate, both estimates being consistent for a parameter
having an interpretation as an average population regression effect.
In the presence of an independent censorship, the new estimate is
still consistent for this same population parameter, whereas the
partial likelihood estimate will converge to a different quantity
that depends on censoring. We give an approximation of the population
average effect as 
. The new estimate is
easy to compute, requiring only minor modifications to existing
softwares. We illustrate the use of the average effect estimate on a
breast cancer dataset from Institut Curie. The behavior of the
estimator, its comparison with the partial likelihood estimate, as
well as the approximation by are studied
via simulation.
Keywords: Average regression effect; Cox model; Kaplan–Meier estimate; Non-proportional hazards; Time-varying effects; Weighted score equation