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Literature DB >> 35075652

A nonparametric Bayesian method for dose finding in drug combinations cancer trials.

Zahra S Razaee¹, Galen Cook-Wiens¹, Mourad Tighiouart¹.

Abstract

We propose an adaptive design for early-phase drug-combination cancer trials with the goal of estimating the maximum tolerated dose (MTD). A nonparametric Bayesian model, using beta priors truncated to the set of partially ordered dose combinations, is used to describe the probability of dose limiting toxicity (DLT). Dose allocation between successive cohorts of patients is estimated using a modified continual reassessment scheme. The updated probabilities of DLT are calculated with a Gibbs sampler that employs a weighting mechanism to calibrate the influence of data vs the prior. At the end of the trial, we recommend one or more dose combinations as the MTD based on our proposed algorithm. We apply our method to a Phase I clinical trial of CB-839 and Gemcitabine that motivated this nonparametric design. The design operating characteristics indicate that our method is comparable with existing methods.

Entities: Chemical

Keywords: Phase I clinical trials; drug combinations; maximum tolerated dose; nonparametric adaptive design; partial ordering

Mesh：

Substances：
Drug Combinations

Year: 2022 PMID： 35075652 PMCID： PMC8881404 DOI： 10.1002/sim.9316

Source DB: PubMed Journal: Stat Med ISSN： 0277-6715 Impact factor: 2.373

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