Abstract
Traditional dose-finding designs are substantially inefficient for targeted agents and cancer immunotherapies by failing to incorporate efficacy signals, mild and moderate adverse events, and late, cumulative toxicities. However, the lack of user-friendly software is a barrier to the practical use of the novel phase I designs, despite their demonstrated superiority of traditional 3+3 designs. To overcome these barriers, we present an R package, phase1RMD, which provides a comprehensive implementation of novel designs with repeated toxicity measures and early efficacy. A novel phase I repeated measures design that used a continuous toxicity score from multiple treatment cycles was implemented. Furthermore, in studies where preliminary efficacy is evaluated, an adaptive, multi-stage design to identify the most efficacious dose with acceptable toxicity was demonstrated. Functions are provided to recommend the next dose based on the data collected in a phase I trial, as well as to assess trial characteristics given design parameters via simulations. The repeated measure designs accurately estimated both the magnitude and direction of toxicity trends in late treatment cycles, and allocated more patients at therapeutic doses. The R package for implementing these designs is available from the Comprehensive R Archive Network. To our best knowledge, this is the first software that implement novel phase I dose-finding designs that simultaneously accounts for the multiple-grade toxicity events over multiple treatment cycles and a continuous early efficacy outcome. With the software published on CRAN, we will pursue the implementation of these designs in phase I trials in real-life settings.
Highlights
Phase I clinical trials in oncology are designed to identify the recommended phase II dose (RP2D) for follow-up trials
Using a TTP-based toxicity endpoint is an improvement from using the traditional DLTbased endpoint in that it takes into account clinical multidimensionality of multiple types/ grades of toxicities for a given toxicity profile, as well as the moderate toxicity events commonly ignored by using dose limiting toxicity (DLT) endpoint. We further extended it to a repeated measures design (RMD) modeling longitudinal toxicity data with TTP-based endpoints to incorporate toxicity scores from multiple treatment cycles [2]
Suppose a drug is to be tested in an oncology phase I trial where the phase1RMD: An R package for dose-finding designs with novel toxicity and efficacy endpoints primary objective is to find the MTD
Summary
Phase I clinical trials in oncology are designed to identify the recommended phase II dose (RP2D) for follow-up trials. The unique features of the Molecularly Targeted Agents (MTAs) and cancer immunotherapies require that novel toxicity endpoints are considered in the phase. Phase1RMD: An R package for dose-finding designs with novel toxicity and efficacy endpoints ‘author contributions’ section. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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