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M-DODII: Bayesian dose optimization design for randomized phase II study with multiple indications.

Sasha Amdur Kravets1, Ziji Yu2, Rachael Liu2

  • 1Statistics, Oncology, Eli Lilly and Company, Indianapolis, IN, USA, formerly at Division of Epidemiology and Biostatistics, School of Public Health, University of Illinois Chicago, Indianapolis, IN, USA.

Journal of Biopharmaceutical Statistics
|November 28, 2025
PubMed
Summary
This summary is machine-generated.

A new Bayesian design, M-DODII, optimizes drug doses and selects indications simultaneously for oncology trials. This approach improves dose selection accuracy and reduces sample size compared to traditional methods.

Keywords:
Bayesian adaptive designDose optimizationProject Optimusmaster protocolphase II trial

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Area of Science:

  • Oncology
  • Clinical Trial Design
  • Biostatistics

Background:

  • Oncology drug development is shifting towards novel agents like molecularly targeted therapies (MTA) and immunotherapies.
  • Traditional dose optimization methods may not suit these novel therapies, necessitating new approaches.
  • Current methodologies often fail to address dose optimization and indication selection concurrently in early-phase trials.

Purpose of the Study:

  • To propose a novel Bayesian Dose Optimization Design for Randomized Phase II trials with Multiple Indications (M-DODII).
  • To integrate Bayesian continuous monitoring and a Bayesian pick-the-winner strategy for simultaneous dose and indication selection.
  • To evaluate the operating characteristics of M-DODII in simulation studies.

Main Methods:

  • The M-DODII design utilizes both efficacy and toxicity endpoints.
  • It employs Bayesian continuous monitoring and a Bayesian pick-the-winner approach.
  • Simulation studies were conducted to assess performance against other adaptive designs.

Main Results:

  • M-DODII demonstrated favorable operating characteristics with controlled selection error.
  • The proposed design showed a lower probability of selecting suboptimal doses.
  • M-DODII achieved a higher probability of selecting the optimal dose and reduced the total sample size.

Conclusions:

  • M-DODII offers an effective solution for simultaneous dose optimization and indication selection in early-phase oncology trials.
  • The design improves upon existing adaptive methods by enhancing dose selection accuracy and efficiency.
  • This Bayesian approach is crucial for advancing the development of novel cancer therapies.