Journal ArticleDOI
Continual reassessment method: a practical design for phase 1 clinical trials in cancer.
TLDR
A new approach to the design and analysis of Phase 1 clinical trials in cancer and a particularly simple model is looked at that enables the use of models whose only requirements are that locally they reasonably well approximate the true probability of toxic response.Abstract:
This paper looks at a new approach to the design and analysis of Phase 1 clinical trials in cancer. The basic idea and motivation behind the approach stem from an attempt to reconcile the needs of dose-finding experimentation with the ethical demands of established medical practice. It is argued that for these trials the particular shape of the dose toxicity curve is of little interest. Attention focuses rather on identifying a dose with a given targeted toxicity level and on concentrating experimentation at that which all current available evidence indicates to be the best estimate of this level. Such an approach not only makes an explicit attempt to meet ethical requirements but also enables the use of models whose only requirements are that locally (i.e., around the dose corresponding to the targeted toxicity level) they reasonably well approximate the true probability of toxic response. Although a large number of models could be contemplated, we look at a particularly simple one. Extensive simulations show the model to have real promise.read more
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Bayesian approaches to clinical trials and health-care evaluation
TL;DR: In this paper, the authors present a survey of Bayesian methods for health-care evaluation, focusing on the following: 1.1 What is probability? 2.2 Random variables, parameters and likelihood.
Journal ArticleDOI
Dose Escalation Methods in Phase I Cancer Clinical Trials
TL;DR: Dose escalation methods for phase I trials are reviewed, including the rule-based and model-based dose escalation methods that have been developed to evaluate new anticancer agents and specific methods for drug combinations as well as methods that use a time-to-event endpoint or both toxicity and efficacy as endpoints.
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Sample Size Calculations in Clinical Research
TL;DR: In this paper, the authors present a survey of sample sizes for single-arm and multiple-arm clinical trials, focusing on the following issues: Confounding and interaction: 1-Sided Test Versus Two-Sides Test Crossover Design Versus Parallel Design Subgroup/Interim Analyses Data Transformation Practical Issues COMPARING MEANS One-Sample Design Two-Sample Parallel Design 2-Sample Crossover design Multiple-Sample One-Way ANOVA Multiple-sample Williams Design Practical issues LARGE SAMPLE TESTS for PROPORTIONS
Journal ArticleDOI
Accelerated Titration Designs for Phase I Clinical Trials in Oncology
Richard M. Simon,Boris Freidlin,Larry Rubinstein,Susan G. Arbuck,Jerry M. Collins,Michaele C. Christian +5 more
TL;DR: Accelerated titration (i.e., rapid intrapatient drug dose escalation) designs appear to effectively reduce the number of patients who are under-treated, speed the completion of phase I trials, and provide a substantial increase in the information obtained.
Journal ArticleDOI
Better reporting of randomised controlled trials: the CONSORT statement
TL;DR: It is entirely reasonable to require higher standards for papers reporting randomised trials than those describing other types of study, since randomised controlled trials are the best way to compare the effectiveness of different interventions.
References
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Journal ArticleDOI
Design and analysis of phase I clinical trials.
TL;DR: In Monte Carlo simulations, two two-stage designs are found to provide reduced bias in maximum likelihood estimation of the MTD in less than ideal dose-response settings and several designs to be nearly as conservative as the standard design in terms of the proportion of patients entered at higher dose levels.
Book
Bayesian reliability analysis
TL;DR: In this paper, the authors present a real-world reliability example that illustrates the Bayesian approach and demonstrate how to use Markov chain Monte Carlo sampling techniques to numerically perform the required calculations.
Journal Article
Potential roles for preclinical pharmacology in phase I clinical trials.
TL;DR: Retrospective analyses indicate that 20%-50% savings in the total number of dose escalations are possible, and potential strategies for controlling the rate of dose escalation based upon pharmacokinetic determinations in mouse and man are explored.