The role of vaccination coverage individual behaviors and the public health response in the control of measles epidemics an agent-based simulation for California

Tuesday, 27th of October 2015 Print

Abstract

BACKGROUND

Measles cases continue to occur among susceptible individuals despite the elimination of endemic measles transmission in the United States. Clustering of disease susceptibility can threaten herd immunity and impact the likelihood of disease outbreaks in a highly vaccinated population. Previous studies have examined the role of contact tracing to control infectious diseases among clustered populations but have not explicitly modeled the public health response using an agent-based model.

METHODS

We developed an agent-based simulation model of measles transmission using the Framework for Reconstructing Epidemiological Dynamics (FRED) and the Synthetic Population Database maintained by RTI International. The simulation of measles transmission was based on interactions among individuals in different places house-holds schools daycares workplaces and neighborhoods. The model simulated different levels of immunity clustering vaccination coverage and contact investigations with delays caused by individuals’ behaviors and/or the delay in a health departments response. We examined the effects of these characteristics on the probability of uncontrolled measles outbreaks and the outbreak size in 365 days after the introduction of one index case into a synthetic population.

RESULTS

We found that large measles outbreaks can be prevented with contact investigations and moderate contact rates by having (1) a very high vaccination coverage (≥ 95%) with a moderate to low level of immunity clustering (≤ 0.5) for individuals aged less than or equal to 18 years or (2) a moderate vaccination coverage (85% or 90%) with no immunity clustering for individuals (≤ 18 years of age) a short intervention delay and a high probability that a contact can be traced. Without contact investigations measles outbreaks may be prevented by the highest vaccination coverage with no immunity clustering for individuals (≤ 18 years of age) with moderate contact rates but for the highest contact rates even the highest coverage with no immunity clustering for individuals (≤ 18 years of age) cannot completely prevent measles outbreaks.

CONCLUSIONS

The simulation results demonstrated the importance of vaccination coverage clustering of immunity and contact investigations in preventing uncontrolled measles outbreaks.

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