Abstract
Vaccination is the most efficient means of preventing influenza infection and its complications. While previous studies have considered the externalities of vaccination that arise from indirect protection against influenza infection, they have often neglected another key factor–the spread of vaccination behavior among social contacts. We modeled influenza vaccination as a socially contagious process. Our model uses a contact network that we developed based on aggregated and anonymized mobility data from the cellphone devices of ~1.8 million users in Israel. We calibrated the model to high-quality longitudinal data of weekly influenza vaccination uptake and influenza diagnoses over seven years. We demonstrate how a simple coupled-transmission model accurately captures the spatiotemporal patterns of both influenza vaccination uptake and influenza incidence. Taking the identified complex underlying dynamics of these two processes into account, our model determined the optimal timing of influenza vaccination programs. Our simulation shows that in regions where high vaccination coverage is anticipated, vaccination uptake would be more rapid. Thus, our model suggests that vaccination programs should be initiated later in the season, to mitigate the effect of waning immunity from the vaccine. Our simulations further show that optimally timed vaccination programs can substantially reduce disease transmission without increasing vaccination uptake.
Highlights
Influenza continues to be a significant cause of morbidity and mortality worldwide, imposing substantial health and economic burdens
As vaccination is a socially contagious process, it can be modeled to improve our understanding of influenza transmission. We demonstrate how such improved understanding is beneficial for planning the timing of the initiation of vaccination programs
By modeling the coupling between vaccination spread and disease transmission, we identified complex underlying dynamics that would otherwise have remained hidden
Summary
Influenza continues to be a significant cause of morbidity and mortality worldwide, imposing substantial health and economic burdens. In the United States alone, there are over 26 million influenza infections annually, with the consequential overall economic burden estimated at $11 billion per year [1]. In Israel, influenza is responsible for over 800,000 infections annually, translating into an economic burden of ~ $261 million per annum [2]. Vaccination is the most efficient and cost-effective way to prevent influenza and its complications [3, 4]. Vaccination provides unvaccinated individuals with indirect protection by reducing disease transmission.
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