Time-varying, Serotype-specific Force of Infection of Dengue Virus

Authors

Kanya C. Long, Andrews UniversityFollow
Robert C. Reiner, University of California - Davis
Steven T. Stoddard, University of California - Davis
Brett M. Froshey
Aaron A. King, University of Michigan - Ann Arbor
Alicia M. Ellis, University of Vermont
Alun L. Lloyd, North Carolina State University at Raleigh
Claudio Rocha
Stalin Vilcarromero
Helvio Astete
Isabel Bazan
Audrey Lenhart, Liverpool School of Tropical Medicine
Gonzalo M. Vazquez-Prokopec, Emory University
Valerie A. Paz-Soldan, Tulane University of Louisiana
Phlip J. McCall, Liverpool School of Tropical Medicine
Uriel Kitron, Emory University
John P. Elder, San Diego State University
Eric S. Halsey
Amy C. Morrison, University of California - DavisFollow
Tadeusz J. Kochel
Thomas W. Scott, University of California - DavisFollow

Document Type

Article

Publication Date

5-20-2014

Abstract

Infectious disease models play a key role in public health planning. These models rely on accurate estimates of key transmission parameters such as the force of infection (FoI), which is the percapita risk of a susceptible person being infected. The FoI captures the fundamental dynamics of transmission and is crucial for gauging control efforts, such as identifying vaccination targets. Dengue virus (DENV) is a mosquito-borne, multiserotype pathogen that currently infects ∼390 million people a year. Existing estimates of the DENV FoI are inaccurate because they rely on the unrealistic assumption that risk is constant over time. Dengue models are thus unreliable for designing vaccine deployment strategies. Here, we present to our knowledge the first time-varying (daily), serotype-specific estimates of DENV FoIs using a spline-based fitting procedure designed to examine a 12-y, longitudinal DENV serological dataset from Iquitos, Peru (11,703 individuals, 38,416 samples, and 22,301 serotypespecific DENV infections from 1999 to 2010). The yearly DENV FoI varied markedly across time and serotypes (0–0.33), as did daily basic reproductive numbers (0.49–4.72). During specific time periods, the FoI fluctuations correlated across serotypes, indicating that different DENV serotypes shared common transmission drivers. The marked variation in transmission intensity that we detected indicates that intervention targets based on one-time estimates of the FoI could underestimate the level of effort needed to prevent disease. Our description of dengue virus transmission dynamics is unprecedented in detail, providing a basis for understanding the persistence of this rapidly emerging pathogen and improving disease prevention programs.

Comments

Retrieved July 8, 2015 from Proceedings of the National Academy of Sciences

Journal Title

Proceedings of the National Academy of Sciences

Volume

111

Issue

26

First Page

E2694

Last Page

E2702

Recommended Citation

Long, Kanya C.; Reiner, Robert C.; Stoddard, Steven T.; Froshey, Brett M.; King, Aaron A.; Ellis, Alicia M.; Lloyd, Alun L.; Rocha, Claudio; Vilcarromero, Stalin; Astete, Helvio; Bazan, Isabel; Lenhart, Audrey; Vazquez-Prokopec, Gonzalo M.; Paz-Soldan, Valerie A.; McCall, Phlip J.; Kitron, Uriel; Elder, John P.; Halsey, Eric S.; Morrison, Amy C.; Kochel, Tadeusz J.; and Scott, Thomas W., "Time-varying, Serotype-specific Force of Infection of Dengue Virus" (2014). Faculty Publications. 5.
https://digitalcommons.andrews.edu/biology-pubs/5