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Related Concept Videos

Experimental Designs01:16

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An experimental design is a systematic process that allows researchers to evaluate the relationship between dependent and independent variables. There are three widely used types of experimental design - pre-experimental design, true experimental design, and quasi-experimental design. In pre-experimental design, the researcher compares the data before and after some interventions or treatments. The true-experimental design has more than one purposefully created group, a commonly measured...
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Experimental Investigation of the Hierarchical Control in DC Microgrids Using a Real-time Simulator
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A Bayesian platform trial design with hybrid control based on multisource exchangeability modelling.

Wei Wei1, Ondrej Blaha1, Denise Esserman1

  • 1Department of Biostatistics, Yale School of Public Health, New Haven, Connecticut, USA.

Statistics in Medicine
|April 10, 2024
PubMed
Summary
This summary is machine-generated.

This study introduces a Bayesian platform trial design using multisource exchangeability modeling (MEM) to effectively use historical data for rare disease trials. This approach reduces sample size for the standard of care (SOC) arm by borrowing information from past studies.

Keywords:
Bayesian adaptive designshistorical datainformative priorplatform trialrare disease

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Area of Science:

  • Clinical Trials Methodology
  • Biostatistics
  • Rare Disease Research

Background:

  • Enrolling patients to standard of care (SOC) arms in clinical trials, particularly for rare diseases, faces significant challenges including limited resources, patient availability, and ethical concerns.
  • Historical trials often provide well-documented evidence of SOC therapeutic effects, presenting an opportunity to leverage this data.

Purpose of the Study:

  • To propose a novel Bayesian platform trial design with a hybrid control arm that utilizes historical control data.
  • To employ the multisource exchangeability modeling (MEM) framework for efficient computation and formal evaluation of data source exchangeability.

Main Methods:

  • The proposed design incorporates a Bayesian platform trial with a hybrid control arm.
  • Multisource Exchangeability Modelling (MEM) is used to assess the compatibility of historical and concurrent data, informing data borrowing decisions.
  • Extensive simulation studies were conducted to evaluate the performance of the proposed hybrid design.

Main Results:

  • The proposed MEM-based hybrid design demonstrated a significant reduction in sample size for the internal control arm.
  • The design effectively borrows more information compared to other Bayesian approaches when historical and internal data are compatible.
  • MEM provides a computationally efficient method for evaluating exchangeability between different data sources.

Conclusions:

  • The proposed Bayesian platform trial design with MEM offers an efficient and effective strategy for rare disease clinical trials by leveraging historical data.
  • This approach can lead to substantial sample size reductions and improved data utilization in the internal control arm.
  • The MEM framework facilitates informed data borrowing decisions, enhancing the reliability of trial results.