Curve-free phase I/II clinical trial designs for molecularly targeted agents and immunotherapy
Indiana University Indianapolis, Indianapolis IN
Investigators
Linked publications & trials
Abstract
Project Summary/Abstract The primary goal of this proposal is to develop transparent, ï¬exible and efï¬cient phase I/II clinical trial designs identifying optimal doses for molecularly targeted agents (MTA) and immunotherapy (IT). Conventional phase I/II clinical trial designs often use sophisticated parametric models to characterize the joint toxicity-efï¬cacy distribu- tions and to conduct the trials. However, the parametric models are hard to justify in practice, and misspeciï¬cation of parametric models can lead to substantially undesirable performances of phase I/II trials. Moreover, it is difï¬cult for the physicians conducting the trials to clinically interpret the parameters of these sophisticated models, and such great learning costs impede the translation of novel statistical designs into real-world trial implementation. To solve these issues, in this proposal we will propose transparent curve-free phase I/II clinical trial designs. The proposed designs make no parametric assumptions on either dose-response relationship or toxicity-efï¬cacy correlation and therefore performs robustly under any clinically meaningful dose-response curves. The concise clinically interpretable model expression and dose-ï¬nding algorithm make the proposed designs highly transla- tional from the statistical community to the clinical community. The proposed designs are also highly ï¬exible because they are applicable for both single-agent trial and drug-combination trial with either quickly observable outcomes or delayed outcomes. The preliminary simulation studies show that the proposed designs are highly efï¬cient in optimal dose selection and patient allocation. In addition, we will develop user-friendly web apps to facilitate the widespread application of the proposed designs in clinical practice.
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