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Main Authors: Jia, Katherine M., Boyer, Christopher B., Bilinski, Alyssa, Lipsitch, Marc
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.05508
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author Jia, Katherine M.
Boyer, Christopher B.
Bilinski, Alyssa
Lipsitch, Marc
author_facet Jia, Katherine M.
Boyer, Christopher B.
Bilinski, Alyssa
Lipsitch, Marc
contents During the COVID-19 pandemic, estimating the total deaths averted by vaccination has been of great public health interest. Instead of estimating total deaths averted by vaccination among both vaccinated and unvaccinated individuals, some studies empirically estimated only "directly averted" deaths among vaccinated individuals, typically suggesting that vaccines prevented more deaths overall than directly due to the indirect effect. Here, we define the causal estimand to quantify outcomes "directly averted" by vaccination$\unicode{x2014}$i.e., the impact of vaccination for vaccinated individuals, holding vaccination coverage fixed$\unicode{x2014}$for vaccination at multiple time points, and show that this estimand is a lower bound on the total outcomes averted when the indirect effect is non-negative. We develop an unbiased estimator for the causal estimand in a one-stage randomized controlled trial (RCT) and explore the bias of a popular "hazard difference" estimator frequently used in empirical studies. We show that even in an RCT, the hazard difference estimator is biased if vaccination has a non-null effect, as it fails to incorporate the greater depletion of susceptibles among the unvaccinated individuals. In simulations, the overestimation is small for averted deaths when infection-fatality rate is low, as for many important pathogens. However, the overestimation can be large for averted infections given a high basic reproduction number. Additionally, we define and compare estimand and estimators for avertible outcomes (i.e., outcomes that could have been averted by vaccination, but were not due to failure to vaccinate). Future studies can explore the identifiability of the causal estimand in observational settings.
format Preprint
id arxiv_https___arxiv_org_abs_2509_05508
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Defining and Estimating Outcomes Directly Averted by a Vaccination Program when Rollout Occurs Over Time
Jia, Katherine M.
Boyer, Christopher B.
Bilinski, Alyssa
Lipsitch, Marc
Populations and Evolution
During the COVID-19 pandemic, estimating the total deaths averted by vaccination has been of great public health interest. Instead of estimating total deaths averted by vaccination among both vaccinated and unvaccinated individuals, some studies empirically estimated only "directly averted" deaths among vaccinated individuals, typically suggesting that vaccines prevented more deaths overall than directly due to the indirect effect. Here, we define the causal estimand to quantify outcomes "directly averted" by vaccination$\unicode{x2014}$i.e., the impact of vaccination for vaccinated individuals, holding vaccination coverage fixed$\unicode{x2014}$for vaccination at multiple time points, and show that this estimand is a lower bound on the total outcomes averted when the indirect effect is non-negative. We develop an unbiased estimator for the causal estimand in a one-stage randomized controlled trial (RCT) and explore the bias of a popular "hazard difference" estimator frequently used in empirical studies. We show that even in an RCT, the hazard difference estimator is biased if vaccination has a non-null effect, as it fails to incorporate the greater depletion of susceptibles among the unvaccinated individuals. In simulations, the overestimation is small for averted deaths when infection-fatality rate is low, as for many important pathogens. However, the overestimation can be large for averted infections given a high basic reproduction number. Additionally, we define and compare estimand and estimators for avertible outcomes (i.e., outcomes that could have been averted by vaccination, but were not due to failure to vaccinate). Future studies can explore the identifiability of the causal estimand in observational settings.
title Defining and Estimating Outcomes Directly Averted by a Vaccination Program when Rollout Occurs Over Time
topic Populations and Evolution
url https://arxiv.org/abs/2509.05508