Bayesian Sequential Design for Identifying and Ranking Effective Patient Subgroups in Precision Medicine in the Case of Counting Outcome Data with Inflated Zeros

Author:

Vinnat Valentin1ORCID,Annane Djillali2ORCID,Chevret Sylvie13

Affiliation:

1. ECSTRRA Team, INSERM U1153, Université Paris Cité, 75010 Paris, France

2. Intensive Care Unit, Raymond Poincaré Hospital, 78266 Garches, France

3. Institut Universitaire de France (IUF), 75231 Paris, France

Abstract

Precision medicine is revolutionizing health care, particularly by addressing patient variability due to different biological profiles. As traditional treatments may not always be appropriate for certain patient subsets, the rise of biomarker-stratified clinical trials has driven the need for innovative methods. We introduced a Bayesian sequential scheme to evaluate therapeutic interventions in an intensive care unit setting, focusing on complex endpoints characterized by an excess of zeros and right truncation. By using a zero-inflated truncated Poisson model, we efficiently addressed this data complexity. The posterior distribution of rankings and the surface under the cumulative ranking curve (SUCRA) approach provided a comprehensive ranking of the subgroups studied. Different subsets of subgroups were evaluated depending on the availability of biomarker data. Interim analyses, accounting for early stopping for efficacy, were an integral aspect of our design. The simulation study demonstrated a high proportion of correct identification of the subgroup which is the most predictive of the treatment effect, as well as satisfactory false positive and true positive rates. As the role of personalized medicine grows, especially in the intensive care setting, it is critical to have designs that can manage complicated endpoints and that can control for decision error. Our method seems promising in this challenging context.

Funder

Programme d’Investissements d’Avenir

ERA PerMed

Publisher

MDPI AG

Subject

Medicine (miscellaneous)

Reference47 articles.

1. Precision medicine: A new paradigm in therapeutics;Akhoon;Int. J. Prev. Med.,2021

2. Clinical trial designs for predictive biomarker validation: One size does not fit all;Mandrekar;J. Biopharm. Stat.,2009

3. Clinical trial designs for predictive biomarker validation: Theoretical considerations and practical challenges;Mandrekar;J. Clin. Oncol.,2009

4. Bayesian baskets: A novel design for biomarker-based clinical trials;Trippa;J. Clin. Oncol.,2016

5. Biomarker-driven oncology clinical trials: Key design elements, types, features, and practical considerations;Hu;JCO Precis. Oncol.,2019

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