A class of asymptotically distribution-free tests for the equality of the k risks in a competing risks model is considered. The tests can be derived by martingale theory or by a marginal likelihood approach. When the risks are dependent, the quantities to be compared would be the cause-specific hazard rates or equivalently the pseudosurvivor functions related to the cause-specific hazard rates. This class of tests allows one to compare k risks simultaneously for k > 2, is able to handle possibly right-censored data and is extremely simple to apply. Choices of the optimal weight functions leading to the locally most powerful rank tests for a general class of semiparametric alternative hypotheses are discussed. The performances of the tests a...
The assumption of proportional hazards in different populations leads to elegant analy-sis of surviv...
Standard tests for the Cox model, such as the likelihood ratio test or the Wald test, do not perform...
This paper is intended as an investigation of estimating cause-specific cumulative hazard and cumula...
Testing for equality of competing risks based on their cumulative incidence functions (CIFs) or thei...
This paper is concerned with testing for the equality of failure rates in a competing risks model wi...
class of tests for the equality of k cause-specific hazard rates in a competing risks mode
We consider the competing risks model with grouped data or with discrete Failure times where a unit ...
AbstractWe consider the competing risks model with grouped data or with discrete Failure times where...
Competing risks occur frequently in survival analysis, and in some cases, the competing risks are no...
In the competing risks model, a unit is exposed to several risks at the same time, but it is assumed...
Tests for proportional hazards assumption concerning specified covariates or groups of covariates ar...
We consider a nonparametric and a semiparametric (in presence of covariates) additive hazards rate c...
Parametric estimation of cause-specific hazard functions in a competing risks model is considered. A...
Competing risk or "multiple cause" survival data arise in medical, criminological, financial, engine...
AbstractA general model involving k competing risks is studied and the hazard rates of these risks a...
The assumption of proportional hazards in different populations leads to elegant analy-sis of surviv...
Standard tests for the Cox model, such as the likelihood ratio test or the Wald test, do not perform...
This paper is intended as an investigation of estimating cause-specific cumulative hazard and cumula...
Testing for equality of competing risks based on their cumulative incidence functions (CIFs) or thei...
This paper is concerned with testing for the equality of failure rates in a competing risks model wi...
class of tests for the equality of k cause-specific hazard rates in a competing risks mode
We consider the competing risks model with grouped data or with discrete Failure times where a unit ...
AbstractWe consider the competing risks model with grouped data or with discrete Failure times where...
Competing risks occur frequently in survival analysis, and in some cases, the competing risks are no...
In the competing risks model, a unit is exposed to several risks at the same time, but it is assumed...
Tests for proportional hazards assumption concerning specified covariates or groups of covariates ar...
We consider a nonparametric and a semiparametric (in presence of covariates) additive hazards rate c...
Parametric estimation of cause-specific hazard functions in a competing risks model is considered. A...
Competing risk or "multiple cause" survival data arise in medical, criminological, financial, engine...
AbstractA general model involving k competing risks is studied and the hazard rates of these risks a...
The assumption of proportional hazards in different populations leads to elegant analy-sis of surviv...
Standard tests for the Cox model, such as the likelihood ratio test or the Wald test, do not perform...
This paper is intended as an investigation of estimating cause-specific cumulative hazard and cumula...