Detalles del proyecto
Description
The first objective of the study is to develop statistical procedures that
aid the planning and analysis of incomplete survival time. The second is
to develop a unified procedure of diagnostics, the jackknife and the
bootstrap for the Cox model and partial likelihood estimators. The study
contains five aims. The first four topics consider statistical inference
about different kinds of incomplete survival data. These are the mixture
of survival time and other variables (aim 1), doubly-censored data (aim 2),
truncated data with censoring (aim 3) and bivariate censored data (aim 4).
Aims 1-4 are not only important in their own right, they can be applied to
the AIDS data. Statistical inference for the long-term survivors and
Huntington's disease will be developed. In many cases, in the experiments,
a substantial proportion of the animals at some intoxicant levels do not
die by the end of the experiment. The same situation will happen in AIDS
incidence. A portion of infected individuals will never develop AIDS (or
will develop AIDS very late). We model these data by involving the mixture
of two populations. For an animal with covariate, we will use the logistic
model for the proportion of long-term survivors and Cox model for the
failure time of short-term survivors. A semi-nonparametric technique will
be employed to propose statistical analyses.
Linear rank statistic for doubly-censored data will be developed. These
statistics can be applied to tumorigenicity experiments with animals. It
is anticipated that the procedure will be statistically and computationally
more efficient than those in current use. The extension of these
statistics to the interval censored data will be investigated as well. The
interval censored data will fit the Hershey hemophiliacs cohort with AIDS
study naturally. Because the data of seroconversion could be only
determined to have occurred in the interval between the last seronegative
and the first seropositive serum sample. Truncation arises naturally when
individuals come under observation only some known time after the time
origin. For example, in the study of pediatric AIDS children who contract
AIDS can only be identified if they develop AIDS before current calendar
time. The major areas of research proposed for these kind of data are (i)
testing the independency assumption between truncation of time and failure
time, and (ii) providing statistical inference based on linear regression
model as well as the Cox model.
The properties of generalized self-consistent estimator of the survival
function for bivariate censored data will be studied. It is anticipated
that the estimator will be a genuine survival function and more efficient
than those in current use. Bootstrap method is a well-recognized
statistical tool even among the non-statisticians, but the bootstrap method
is not very successful for the Cox model. In the last aim, we propose a
unified and promising procedure of the resampling scheme for the Cox model
and the maximum partial likelihood estimators. The same idea can also be
used for diagnostic and jackknife. The most important feature is the
computationally efficient, because the procedure only form the risk set
once.
Estado | Finalizado |
---|---|
Fecha de inicio/Fecha fin | 1/1/90 → 12/31/94 |
Financiación
- National Institute of Allergy and Infectious Diseases
Keywords
- Estadística y probabilidad
Huella digital
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