In this paper, we develop a general Bayesian hierarchical model for bridging across patient subgroups in phase I oncology trials, for which preliminary information about the dose–toxicity relationship can be drawn from animal studies. Parameters that re-scale the doses to adjust for intrinsic differences in toxicity, either between animals and humans or between human subgroups, are introduced to each dose–toxicity model. Appropriate priors are specified for these scaling parameters, which capture the magnitude of uncertainty surrounding the animal-to-human translation and bridging assumption. After mapping data onto a common, ‘average’ human dosing scale, human dose–toxicity parameters are assumed to be exchangeable either with the standard...
International audienceBayesian joint modeling, bivariate toxicity, cumulative probability of toxicit...
International audienceBridging studies are designed to fill the gap between two populations in terms...
Basing informed decisions on available, relevant information is essential in all phases of drug deve...
In this paper, we develop a general Bayesian hierarchical model for bridging across patient subgroup...
Leveraging preclinical animal data for a phase I oncology trial is appealing yet challenging. In thi...
Leveraging preclinical animal data for a phase I oncology trial is appealing yet challenging. In thi...
Many formal statistical procedures for phase I dose-finding studies have been proposed. Most concern...
My dissertation work primarily focuses on Bayesian adaptive design for phase I and phase II clinical...
In repeated dose-toxicity studies, many outcomes are repeatedly measured on the same animal to study...
Despite an enormous and growing statistical literature, formal procedures for dose-finding are only ...
International audiencePatient heterogeneity, in which patients can be grouped by risk of toxicity, i...
Bayesian hierarchical models are built to fit multiple health endpoints from a dose-response study o...
In phase I clinical trials, experimental drugs are administered to healthy volunteers in order to es...
This book discusses Bayesian dose-response modeling in small samples applied to two different settin...
A Bayesian adaptive design for dose finding of a combination of two drugs in cancer phase I clinical...
International audienceBayesian joint modeling, bivariate toxicity, cumulative probability of toxicit...
International audienceBridging studies are designed to fill the gap between two populations in terms...
Basing informed decisions on available, relevant information is essential in all phases of drug deve...
In this paper, we develop a general Bayesian hierarchical model for bridging across patient subgroup...
Leveraging preclinical animal data for a phase I oncology trial is appealing yet challenging. In thi...
Leveraging preclinical animal data for a phase I oncology trial is appealing yet challenging. In thi...
Many formal statistical procedures for phase I dose-finding studies have been proposed. Most concern...
My dissertation work primarily focuses on Bayesian adaptive design for phase I and phase II clinical...
In repeated dose-toxicity studies, many outcomes are repeatedly measured on the same animal to study...
Despite an enormous and growing statistical literature, formal procedures for dose-finding are only ...
International audiencePatient heterogeneity, in which patients can be grouped by risk of toxicity, i...
Bayesian hierarchical models are built to fit multiple health endpoints from a dose-response study o...
In phase I clinical trials, experimental drugs are administered to healthy volunteers in order to es...
This book discusses Bayesian dose-response modeling in small samples applied to two different settin...
A Bayesian adaptive design for dose finding of a combination of two drugs in cancer phase I clinical...
International audienceBayesian joint modeling, bivariate toxicity, cumulative probability of toxicit...
International audienceBridging studies are designed to fill the gap between two populations in terms...
Basing informed decisions on available, relevant information is essential in all phases of drug deve...