The 2-sample problem for failure rates depending on a continuous mark: an application to vaccine efficacy

The efficacy of an HIV vaccine to prevent infection is likely to depend on the genetic variation of the exposing virus. This paper addresses the problem of using data on the HIV sequences that infect vaccine efficacy trial participants to (1) test for vaccine efficacy more powerfully than procedures...

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Published in:Biostatistics (Oxford, England) England), 2008-04, Vol.9 (2), p.263-276
Main Authors: Gilbert, Peter B., McKeague, Ian W., Sun, Yanqing
Format: Article
Language:English
Subjects:
AIDS Vaccines - genetics
AIDS Vaccines - therapeutic use
Biomedical research
Biometry - methods
Clinical Trials as Topic - methods
Clinical Trials as Topic - statistics & numerical data
Computer Simulation
Effectiveness
Genomics
HIV
HIV - genetics
HIV - immunology
HIV Infections - epidemiology
HIV Infections - prevention & control
Human immunodeficiency virus
Humans
Odds Ratio
Polymorphism, Genetic
Proportional Hazards Models
Simulation
Statistical analysis
Survival Analysis
Treatment Failure
Vaccination - statistics & numerical data
Vaccines
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container_title Biostatistics (Oxford, England)
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creator Gilbert, Peter B.
McKeague, Ian W.
Sun, Yanqing
description The efficacy of an HIV vaccine to prevent infection is likely to depend on the genetic variation of the exposing virus. This paper addresses the problem of using data on the HIV sequences that infect vaccine efficacy trial participants to (1) test for vaccine efficacy more powerfully than procedures that ignore the sequence data and (2) evaluate the dependence of vaccine efficacy on the divergence of infecting HIV strains from the HIV strain that is contained in the vaccine. Because hundreds of amino acid sites in each HIV genome are sequenced, it is natural to treat the genetic divergence as a continuous mark variable that accompanies each failure (infection) time. Problems (1) and (2) can then be approached by testing whether the ratio of the mark-specific hazard functions for the vaccine and placebo groups is unity or independent of the mark. We develop nonparametric and semiparametric tests for these null hypotheses and nonparametric techniques for estimating the mark-specific relative risks. The asymptotic properties of the procedures are established. In addition, the methods are studied in simulations and are applied to HIV genetic sequence data collected in the first HIV vaccine efficacy trial.
doi_str_mv 10.1093/biostatistics/kxm028
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source Oxford Journals Online
subjects AIDS Vaccines - genetics
AIDS Vaccines - therapeutic use
Biomedical research
Biometry - methods
Clinical Trials as Topic - methods
Clinical Trials as Topic - statistics & numerical data
Computer Simulation
Effectiveness
Genomics
HIV
HIV - genetics
HIV - immunology
HIV Infections - epidemiology
HIV Infections - prevention & control
Human immunodeficiency virus
Humans
Odds Ratio
Polymorphism, Genetic
Proportional Hazards Models
Simulation
Statistical analysis
Survival Analysis
Treatment Failure
Vaccination - statistics & numerical data
Vaccines
title The 2-sample problem for failure rates depending on a continuous mark: an application to vaccine efficacy
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