Jeffrey R. Eisele scite author profile

Consider the problem of finding the dose that is as high as possible subject to having a controlled rate of toxicity. The problem is commonplace in oncology Phase I clinical trials. Such a dose is often called the maximum tolerated dose (MTD) since it represents a necessary trade-off between efficacy and toxicity. The continual reassessment method (CRM) is an improvement over traditional up-and-down schemes for estimating the MTD. It is based on a Bayesian approach and on the assumption that the dose-toxicity relationship follows a specific response curve, e.g., the logistic or power curve. The purpose of this paper is to illustrate how the assumption of a specific curve used in the CRM is not necessary and can actually hinder the efficient use of prior inputs. An alternative curve-free method in which the probabilities of toxicity are modeled directly as an unknown multidimensional parameter is presented. To that purpose, a product-of-beta prior (PBP) is introduced and shown to bring about logical improvements. Practical improvements are illustrated by simulation results.

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Central Limit Theorems for Doubly Adaptive Biased Coin Designs

Eisele¹,

Woodroofe²

1995

Ann. Statist.

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Using Highly Concentrated Gadobutrol as an MR Contrast Agent in Patients Also Requiring Hemodialysis

Tombach

Bremer

Reimer

et al. 2002

American Journal of Roentgenology

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Biased coin designs: some properties and applications

Eisele¹

1995

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Jeffrey R. Eisele

The doubly adaptive biased coin design for sequential clinical trials

A Curve‐Free Method for Phase I Clinical Trials

Central Limit Theorems for Doubly Adaptive Biased Coin Designs

Using Highly Concentrated Gadobutrol as an MR Contrast Agent in Patients Also Requiring Hemodialysis

Biased coin designs: some properties and applications

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