Efficient Monte Carlo Estimation of the Expected Value of Sample Information Using Moment Matching

Overview

Journal Med Decis Making

Publisher Sage Publications

Date 2017 Nov 12

PMID 29126364

Citations 17

Authors

Anna Heath

Ioanna Manolopoulou

Gianluca Baio

Affiliations

Soon will be listed here.

Abstract

Background: The Expected Value of Sample Information (EVSI) is used to calculate the economic value of a new research strategy. Although this value would be important to both researchers and funders, there are very few practical applications of the EVSI. This is due to computational difficulties associated with calculating the EVSI in practical health economic models using nested simulations.

Methods: We present an approximation method for the EVSI that is framed in a Bayesian setting and is based on estimating the distribution of the posterior mean of the incremental net benefit across all possible future samples, known as the distribution of the preposterior mean. Specifically, this distribution is estimated using moment matching coupled with simulations that are available for probabilistic sensitivity analysis, which is typically mandatory in health economic evaluations.

Results: This novel approximation method is applied to a health economic model that has previously been used to assess the performance of other EVSI estimators and accurately estimates the EVSI. The computational time for this method is competitive with other methods.

Conclusion: We have developed a new calculation method for the EVSI which is computationally efficient and accurate.

Limitations: This novel method relies on some additional simulation so can be expensive in models with a large computational cost.

Citing Articles

Accurate EVSI Estimation for Nonlinear Models Using the Gaussian Approximation Method.

Li L, Jalal H, Heath A Med Decis Making. 2024; 44(7):787-801.

PMID: 39082512 PMC: 11492544. DOI: 10.1177/0272989X241264287.

Value of Information for Clinical Trial Design: The Importance of Considering All Relevant Comparators.

Heath A, Baio G, Manolopoulou I, Welton N Pharmacoeconomics. 2024; 42(5):479-486.

PMID: 38583100 PMC: 11039417. DOI: 10.1007/s40273-024-01372-0.

General-Purpose Methods for Simulating Survival Data for Expected Value of Sample Information Calculations.

Vervaart M, Aas E, Claxton K, Strong M, Welton N, Wisloff T Med Decis Making. 2023; 43(5):595-609.

PMID: 36971425 PMC: 10336715. DOI: 10.1177/0272989X231162069.

Calculating Expected Value of Sample Information Adjusting for Imperfect Implementation.

Heath A Med Decis Making. 2022; 42(5):626-636.

PMID: 35034542 PMC: 9189720. DOI: 10.1177/0272989X211073098.

Expected Value of Sample Information to Guide the Design of Group Sequential Clinical Trials.

Flight L, Julious S, Brennan A, Todd S Med Decis Making. 2021; 42(4):461-473.

PMID: 34859693 PMC: 9005835. DOI: 10.1177/0272989X211045036.