Comparing Biomarkers As Trial Level General Surrogates

Overview

Journal Biometrics

Publisher Oxford University Press

Specialty Public Health

Date 2016 Apr 3

PMID 27038302

Citations 8

Authors

Erin E Gabriel

Michael J Daniels

M Elizabeth Halloran

Affiliations

Soon will be listed here.

Abstract

An intermediate response measure that accurately predicts efficacy in a new setting can reduce trial cost and time to product licensure. In this article, we define a trial level general surrogate, which is an intermediate response that can be used to accurately predict efficacy in a new setting. Methods for evaluating general surrogates have been developed previously. Many methods in the literature use trial level intermediate responses for prediction. However, all existing methods focus on surrogate evaluation and prediction in new settings, rather than comparison of candidate general surrogates, and few formalize the use of cross validation to quantify the expected prediction error. Our proposed method uses Bayesian non-parametric modeling and cross-validation to estimate the absolute prediction error for use in evaluating and comparing candidate trial level general surrogates. Simulations show that our method performs well across a variety of scenarios. We use our method to evaluate and to compare candidate trial level general surrogates in several multi-national trials of a pentavalent rotavirus vaccine. We identify at least one immune measure that has potential value as a trial level general surrogate and use it to predict efficacy in a new trial where the clinical outcome was not measured.

Citing Articles

Four statistical frameworks for assessing an immune correlate of protection (surrogate endpoint) from a randomized, controlled, vaccine efficacy trial.

B Gilbert P, Fong Y, Hejazi N, Kenny A, Huang Y, Carone M Vaccine. 2024; 42(9):2181-2190.

PMID: 38458870 PMC: 10999339. DOI: 10.1016/j.vaccine.2024.02.071.

Flexible evaluation of surrogate markers with Bayesian model averaging.

Duan Y, Parast L Stat Med. 2023; 43(4):774-792.

PMID: 38081586 PMC: 10897582. DOI: 10.1002/sim.9986.

Flexible evaluation of surrogacy in platform studies.

Sachs M, Gabriel E, Crippa A, Daniels M Biostatistics. 2023; 25(1):220-236.

PMID: 36610075 PMC: 10939396. DOI: 10.1093/biostatistics/kxac053.

An alternative trial-level measure for evaluating failure-time surrogate endpoints based on prediction error.

Belhechmi S, Michiels S, Paoletti X, Rotolo F Contemp Clin Trials Commun. 2019; 15:100402.

PMID: 31338479 PMC: 6627581. DOI: 10.1016/j.conctc.2019.100402.

Optimizing and evaluating biomarker combinations as trial-level general surrogates.

Gabriel E, Sachs M, Daniels M, Halloran M Stat Med. 2018; 38(7):1135-1146.

PMID: 30306600 PMC: 6399061. DOI: 10.1002/sim.7996.

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