BACKGROUND: In medical research, one common competing risks situation is the study of different types of events, such as disease recurrence and death. We focused on that situation but considered death under two aspects: "expected death" and "excess death", the latter could be directly or indirectly associated with the disease. METHODS: The excess hazard method allows estimating an excess mortality hazard using the population (expected) mortality hazard. We propose models combining the competing risks approach and the excess hazard method. These models are based on a joint modelling of each event-specific hazard, including the event-free excess death hazard. The proposed models are parsimonious, allow time-dependent hazard ratios, and facili...
BACKGROUND: Large and complex population-based cancer data are becoming broadly available, thanks to...
Background: Progression of a cancer disease and dying without progression can be understood as compe...
OBJECTIVE: Elaborate and test a method to extrapolate the population attributable fraction (benefit ...
BACKGROUND: In medical research, one common competing risks situation is the study of different type...
In chronic diseases, such as cancer, recurrent events (such as relapses) are commonly observed; thes...
Relative survival provides a measure of the proportion of patients dying from the disease under stud...
Hazard regression models and cure rate models can be advantageously used in cancer relative survival...
Relative survival assesses the effects of prognostic factors on disease-specific mortality when the ...
“Competing Risks” refers to the study of the time to event where there is more than one type of fail...
In cancer epidemiology using population-based data, regression models for the excess mortality hazar...
The thesis concerns regression models related to the competing risks setting in survival analysis an...
BACKGROUND: District-level cancer incidence estimation is an important issue in countries without a ...
The availability of longstanding collection of detailed cancer patient information makes multivariab...
BACKGROUND: Large and complex population-based cancer data are becoming broadly available, thanks to...
Background: Progression of a cancer disease and dying without progression can be understood as compe...
OBJECTIVE: Elaborate and test a method to extrapolate the population attributable fraction (benefit ...
BACKGROUND: In medical research, one common competing risks situation is the study of different type...
In chronic diseases, such as cancer, recurrent events (such as relapses) are commonly observed; thes...
Relative survival provides a measure of the proportion of patients dying from the disease under stud...
Hazard regression models and cure rate models can be advantageously used in cancer relative survival...
Relative survival assesses the effects of prognostic factors on disease-specific mortality when the ...
“Competing Risks” refers to the study of the time to event where there is more than one type of fail...
In cancer epidemiology using population-based data, regression models for the excess mortality hazar...
The thesis concerns regression models related to the competing risks setting in survival analysis an...
BACKGROUND: District-level cancer incidence estimation is an important issue in countries without a ...
The availability of longstanding collection of detailed cancer patient information makes multivariab...
BACKGROUND: Large and complex population-based cancer data are becoming broadly available, thanks to...
Background: Progression of a cancer disease and dying without progression can be understood as compe...
OBJECTIVE: Elaborate and test a method to extrapolate the population attributable fraction (benefit ...