Add to ORKGThis paper reviews Bayesian procedures for phase 1 dose-escalation studies and compares different dose schedules and cohort sizes. The methodology described is motivated by the situation of phase 1 dose-escalation studiesin oncology, that is, a single dose administered to each patient, with a single binary response ("toxicity"' or "no toxicity") observed. It is likely that a wider range of applications of the methodology is possible. In this paper, results from 10000-fold simulation runs conducted using the software package Bayesian ADEPT are presented. Four designs were compared under six scenarios. The simulation results indicate that there are slight advantages of having more dose levels and smaller cohort sizes
In oncology, dose escalation is often carried out to search for the maximum tolerated dose (MTD) in ...
Background/aims: Dose-escalation studies are essential in the early stages of developing novel treat...
This paper reviews state-of-art statistical designs for dose-escalation procedures in first-into-man...
This paper reviews Bayesian procedures for phase 1 dose-escalation studies and compares different do...
In dose escalation studies cohorts of subjects are given increasing doses of a candidate drug to ass...
In dose escalation studies cohorts of subjects are given increasing doses of a candidate drug to ass...
Despite an enormous and growing statistical literature, formal procedures for dose-finding are only ...
Recently, various approaches have been suggested for dose escalation studies based on observations o...
In phase I clinical trials, experimental drugs are administered to healthy volunteers in order to es...
Background/aims Dose-escalation studies are essential in the early stages of developing novel treatm...
Phase I clinical trials aim to identify a maximum tolerated dose (MTD), the highest possible dose th...
Phase I clinical trials aim to identify a maximum tolerated dose (MTD), the highest possible dose th...
Phase I clinical trials aim to identify a maximum tolerated dose (MTD), the highest possible dose th...
The product of independent beta probabilities escalation (PIPE) design for dual-agent phase I dose-e...
Dose escalation trials for identifying the maximum tolerable dose (MTD) is commonly considered in ph...
In oncology, dose escalation is often carried out to search for the maximum tolerated dose (MTD) in ...
Background/aims: Dose-escalation studies are essential in the early stages of developing novel treat...
This paper reviews state-of-art statistical designs for dose-escalation procedures in first-into-man...
This paper reviews Bayesian procedures for phase 1 dose-escalation studies and compares different do...
In dose escalation studies cohorts of subjects are given increasing doses of a candidate drug to ass...
In dose escalation studies cohorts of subjects are given increasing doses of a candidate drug to ass...
Despite an enormous and growing statistical literature, formal procedures for dose-finding are only ...
Recently, various approaches have been suggested for dose escalation studies based on observations o...
In phase I clinical trials, experimental drugs are administered to healthy volunteers in order to es...
Background/aims Dose-escalation studies are essential in the early stages of developing novel treatm...
Phase I clinical trials aim to identify a maximum tolerated dose (MTD), the highest possible dose th...
Phase I clinical trials aim to identify a maximum tolerated dose (MTD), the highest possible dose th...
Phase I clinical trials aim to identify a maximum tolerated dose (MTD), the highest possible dose th...
The product of independent beta probabilities escalation (PIPE) design for dual-agent phase I dose-e...
Dose escalation trials for identifying the maximum tolerable dose (MTD) is commonly considered in ph...
In oncology, dose escalation is often carried out to search for the maximum tolerated dose (MTD) in ...
Background/aims: Dose-escalation studies are essential in the early stages of developing novel treat...
This paper reviews state-of-art statistical designs for dose-escalation procedures in first-into-man...