Escalation with Overdose Control is More Efficient and Safer than Accelerated Titration for Dose Finding
نویسندگان
چکیده
The standard 3 + 3 or "modified Fibonacci" up-and-down (MF-UD) method of dose escalation is by far the most used design in dose-finding cancer trials. However, MF-UD has always shown inferior performance when compared with its competitors regarding number of patients treated at optimal doses. A consequence of using less effective designs is that more patients are treated with doses outside the therapeutic window. In June 2012, the U S Food and Drug Administration (FDA) rejected the proposal to use Escalation with Overdose Control (EWOC), an established dose-finding method which has been extensively used in FDA-approved first in human trials and imposed a variation of the MF-UD, known as accelerated titration (AT) design. This event motivated us to perform an extensive simulation study comparing the operating characteristics of AT and EWOC. We show that the AT design has poor operating characteristics relative to three versions of EWOC under several practical scenarios. From the clinical investigator's perspective, lower bias and mean square error make EWOC designs preferable than AT designs without compromising safety. From a patient's perspective, uniformly higher proportion of patients receiving doses within an optimal range of the true MTD makes EWOC designs preferable than AT designs.
منابع مشابه
Seizurogenic Effects of Low-dose Naloxone in Tramadol Overdose
Tramadol is used in treatment of moderate to severe pain. Nowadays tramadol overdose is one of the common emergencies. Naloxone is an antagonist which is used as a first step of treatment in these patients. This study was designed to evaluate the seizurogenic effects of naloxone in tramadol overdose. A number of 124 patients with the diagnosis of tramadol overdose were divided to receive lo...
متن کاملNonparametric overdose control with late-onset toxicity in phase I clinical trials.
Under the framework of Bayesian model selection, we propose a nonparametric overdose control (NOC) design for dose finding in phase I clinical trials. Each dose assignment is guided via a feasibility bound, which thereby can control the number of patients allocated to excessively toxic dose levels. Several aspects of the NOC design are explored, including the coherence property in dose assignme...
متن کاملLow Molecular Weight Heparin Overdose: A 10 Year Case Series
Background: Low molecular weight heparin (LMWH) is used for the treatment and prevention of coagulative disorders. Few patients receiving therapeutic doses of LMWH develop major hemorrhage. Currently there are few reports in the literature on acute overdose on adults. In this study, clinical profile, treatment and outcome of 21 patients who acutely overdosed enoxaparin are described. Method...
متن کاملThe Integrated Web Portal for Escalation with Overdose Control (EWOC)
In this paper, we present the design and implementation of a novel web portal for the cancer phase I clinical trial design method Escalation with Overdose Control (EWOC). The web portal has two major components: a web-based dose finding calculator; and a standalone and downloadable dose finding software which can be installed on Windows operating systems. The web-based dose finding calculator u...
متن کاملEfficiency of New Dose Escalation Designs in Dose-Finding Phase I Trials of Molecularly Targeted Agents
BACKGROUND Statistical simulations have consistently demonstrated that new dose-escalation designs such as accelerated titration design (ATD) and continual reassessment method (CRM)-type designs outperform the standard "3+3" design in phase I cancer clinical trials. METHODS We evaluated the actual efficiency of different dose escalation methods employed in first-in-human phase I clinical tria...
متن کامل