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Modeling the impact of vaccine campaigns on the epidemic transmission dynamics of chikungunya virus outbreaks

Pastor Pérez‐Estigarribia, Gabriel Ribeiro dos Santos, Simon Cauchemez, Cynthia Vázquez, Ana Karina Ibarrola-Vannucci, Guillermo Sequera, Shirley Villalba, María José Cilleruelo Ortega, José Luis Di Fábio, Danny Scarponi, Christinah Mukandavire, Arminder Deol, Águeda Cabello, Elsi Vargas, Carmen C. Fernandez, Lucie Léon, Henrik Salje

2025Nature Medicine20 citationsDOIOpen Access PDF

Abstract

A licensed chikungunya vaccine now exists; however, it remains unclear whether it could be deployed during outbreaks to reduce the health burden. We used an epidemic in Paraguay as a case study. We conducted a seroprevalence study and used models to reconstruct epidemic transmission dynamics, providing a framework to assess the theoretical impact of a vaccine had it been available. We estimated that 33.0% (95% confidence interval (CI) 30.1-36.0%) of the population became infected during the outbreak. Of these individuals, 6.3% (95% CI 5.8-6.9%) were detected by the surveillance system, with a mean infection fatality ratio of 0.013% (95% CI 0.012-0.014%). A disease-blocking vaccine with 75% efficacy deployed in 40% of individuals aged ≥12 years over a 3-month period would have prevented 34,200 (95% CI 30,900-38,000) cases, representing 23% of all cases, and 73 (95% CI 66-81) deaths. If the vaccine also leads to infection blocking, 88% of cases would have been averted. These findings suggest that the vaccine is an important new tool to control outbreaks.

Topics & Concepts

ChikungunyaOutbreakVirologyTransmission (telecommunications)Chikungunya feverVirusBiologyAlphavirus infectionComputer scienceTelecommunicationsMosquito-borne diseases and controlViral Infections and VectorsCOVID-19 epidemiological studies
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