Bayesian Analytical Methods in Cardiovascular Clinical Trials: Why, When, and How

Quarto

Academia

publication

Bayesian analysis

Author

Affiliation

Andrea Gabrio

Maastricht University

Published

May 7, 2024

Abstract

After an introduction of the concepts of frequentist and Bayesian statistical inference and reasons to apply Bayesian methods, key steps in performing a Bayesian analysis are presented, …

Keywords

Systematic Review, Meta-analysis, Randomised Trial

Abstract

The Bayesian analytical framework is clinically intuitive, characterised by the incorporation of previous evidence into the analysis and allowing an estimation of treatment effects and their associated uncertainties. The application of Bayesian statistical inference is not new to the cardiovascular field, as illustrated by various recent randomised trials that have applied a primary Bayesian analysis. Given the guideline-shaping character of trials, a thorough understanding of the concepts and technical details of Bayesian statistical methodology is of utmost importance to the modern practicing cardiovascular physician.

This review presents a step-by-step guide to interpreting and performing a Bayesian (re)analysis of cardiovascular clinical trials, while highlighting the main advantages of Bayesian inference for the clinical reader. After an introduction of the concepts of frequentist and Bayesian statistical inference and reasons to apply Bayesian methods, key steps in performing a Bayesian analysis are presented, including verification of the clinical appropriateness of the research question, quality and completeness of the trial design, and adequate elicitation of the prior (ie, one’s belief toward a certain treatment before the current evidence becomes available); identification of the likelihood; and their combination into a posterior distribution. Examination of this posterior distribution offers not only the possibility of determining the probability of treatment superiority, but also the probability of exceeding any chosen minimal clinically important difference. Multiple priors should be transparently prespecified, limiting post hoc manipulations. Using this guide, 3 cardiovascular randomised controlled trials are reanalysed, demonstrating the clarity and versatility of Bayesian inference.

Citation

BibTeX citation:

@online{gabrio2024,
  author = {Gabrio, Andrea},
  title = {Bayesian {Analytical} {Methods} in {Cardiovascular}
    {Clinical} {Trials:} {Why,} {When,} and {How}},
  volume = {41},
  number = {1},
  date = {2024-05-07},
  url = {https://www.sciencedirect.com/science/article/pii/S0828282X24011309?via%3Dihub},
  doi = {10.1016/j.cjca.2024.11.002},
  langid = {en},
  abstract = {{[}After an introduction of the concepts of frequentist
    and Bayesian statistical inference and reasons to apply Bayesian
    methods, key steps in performing a Bayesian analysis are presented,
    ...{]}\{style=“font-size: 85\%”\}}
}

For attribution, please cite this work as:

Gabrio, Andrea. 2024. “Bayesian Analytical Methods in Cardiovascular Clinical Trials: Why, When, and How.” Canadian Journal of Cardiology. May 7, 2024. https://doi.org/10.1016/j.cjca.2024.11.002.