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This summary is machine-generated.

This study introduces an adaptive trial design for selecting the optimal biological dose (OBD) when it may vary between patient subgroups. The novel Bayesian approach effectively identifies subgroup-specific or common OBDs, enhancing precision in dose-finding studies.

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Area of Science:

  • Clinical Trial Design
  • Biostatistics
  • Pharmacology

Background:

  • Determining the optimal biological dose (OBD) is crucial for drug development.
  • Patient populations can exhibit heterogeneity, leading to subgroup-specific dose-response relationships.
  • Existing dose-finding designs may not optimally handle uncertainty in subgroup effects.

Purpose of the Study:

  • To propose a novel phase I/II trial design for optimal biological dose (OBD) selection.
  • To accommodate scenarios where the OBD may differ across two prespecified patient subgroups.
  • To provide a flexible design that adapts to emerging trial data regarding subgroup effects.

Main Methods:

  • A utility function was employed to balance efficacy and toxicity trade-offs.
  • A Bayesian model with spike and slab priors was utilized to estimate subgroup effects on toxicity and efficacy.
  • Simulation studies were conducted to evaluate the proposed design's performance.

Main Results:

  • The proposed design demonstrated strong performance, comparable to specialized designs under different assumptions.
  • It performed nearly as well as ignoring subgroups when relationships were similar across groups.
  • It performed nearly as well as independent subgroup dose-finding when relationships differed.

Conclusions:

  • The adaptive design effectively identifies optimal biological doses (OBDs) even with uncertainty about subgroup differences.
  • This approach offers a robust strategy for dose-finding in heterogeneous patient populations.
  • The design provides a unified framework for selecting common or subgroup-specific OBDs.