Transmission Dynamics of Zika Virus in Island Populations: A Modelling Analysis of the 2013–14 French Polynesia Outbreak

Kucharski, AJ; Funk, S; Eggo, RM; Mallet, H; Edmunds, WJ and Nilles, EJ (2016). Transmission Dynamics of Zika Virus in Island Populations: A Modelling Analysis of the 2013–14 French Polynesia Outbreak. [Dataset]. PLoS Neglected Tropical Diseases, London, United Kingdom. 10.1371/journal.pntd.0004726.

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Between October 2013 and April 2014, more than 30,000 cases of Zika virus (ZIKV) disease were estimated to have attended healthcare facilities in French Polynesia. ZIKV has also been reported in Africa and Asia, and in 2015 the virus spread to South America and the Caribbean. Infection with ZIKV has been associated with neurological complications including Guillain-Barré Syndrome (GBS) and microcephaly, which led the World Health Organization to declare a Public Health Emergency of International Concern in February 2015. To better understand the transmission dynamics of ZIKV, we used a mathematical model to examine the 2013-14 outbreak on the six major archipelagos of French Polynesia. Our median estimates for the basic reproduction number ranged from 2.6-4.8, with an estimated 11.5% (95% CI: 7.32-17.9%) of total infections reported. As a result, we estimated that 94% (95% CI: 91-97%) of the total population of the six archipelagos were infected during the outbreak. Based on the demography of French Polynesia, our results imply that if ZIKV infection provides complete protection against future infection, it would take 12-20 years before there are a sufficient number of susceptible individuals for ZIKV to re-emerge, which is on the same timescale as the circulation of dengue virus serotypes in the region. Our analysis suggests that ZIKV may exhibit similar dynamics to dengue virus in island populations, with transmission characterized by large, sporadic outbreaks with a high proportion of asymptomatic or unreported cases.

Keywords

Zika virus; French Polynesia; Mosquitoes; Guillain-Barre syndrome; Mathematical models; Microcephaly; Demography; Dengue virus; Zika

Item Type	Dataset
Resource Type	Resource Type Resource Description Dataset UNSPECIFIED
Description of data capture	We used weekly reported numbers of suspected ZIKV infections from the six main regions of French Polynesia between 11th October 2013 and 28th March 2014, as detailed in the Centre d’hygiène et de salubrité publique situation reports. Confirmed and suspected cases were reported from sentinel surveillance sites across the country; the number of such sentinel sites varied in number from 27–55 during the outbreak (raw data are provided in S1 Dataset). Clinical cases were defined as suspected cases if they presented to health practitioners with rash and/or mild fever and at least two of the following signs: conjunctivitis, arthralgia, or oedema. Suspected cases were defined as a confirmed case if they tested positive by RT-PCR on blood or saliva. In total, 8,744 suspected cases were reported from the sentinel sites. As there were 162 healthcare sites across all six regions, it has been estimated that around 30,000 suspected cases attended health facilities in total For each region, we calculated the proportion of total sites that acted as sentinels, to allow us to adjust for variation in reporting over time in the analysis. Population size data were taken from the 2012 French Polynesia Census. In our analysis, the first week with at least one reported case was used as the first observation date. We used a compartmental mathematical model to simulate vector-borne transmission. Both people and mosquitoes were modelled using a susceptible-exposed-infectious-removed (SEIR) framework. This model incorporated delays as a result of the intrinsic (human) and extrinsic (vector) incubation periods (Fig 1). Since there is evidence that asymptomatic DENV-infected individuals are capable of transmitting DENV to mosquitoes [26], we assumed the same for ZIKV: all people in the model transmitted the same, regardless of whether they displayed symptoms or were reported as cases.
Capture method	Simulation
Date	17 May 2016
Language(s) of written materials	English
Creator(s)	Kucharski, AJ; Funk, S; Eggo, RM; Mallet, H; Edmunds, WJ and Nilles, EJ
LSHTM Faculty/Department	Faculty of Epidemiology and Population Health > Dept of Infectious Disease Epidemiology (-2023)
Participating Institutions	London School of Hygiene & Tropical Medicine; Bureau de Veille Sanitaire, Direction de la Santé, Polynésie française; World Health Organization, Suva, Fiji
Funders	Project Funder Grant Number Funder URI UNSPECIFIED Medical Research Council MR/K021524/1; MR/K021680/1 UNSPECIFIED
Date Deposited	23 Jun 2016 10:44
Last Modified	28 Sep 2018 21:18
Publisher	PLoS Neglected Tropical Diseases

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Transmission Dynamics of Zika Virus in Island Populations: A Modelling Analysis of the 2013-14 French Polynesia Outbreak.

Medical Research Council

Dept of Infectious Disease Epidemiology (-2023)

Data / Code

S1_Dataset.csv

subject: Data
: Available under Creative Commons: Attribution 3.0
info: Raw data used in the analysis. Dataset contains number of suspected cases, number of sentinel sites reporting, and proportion of total sentinel sites reporting (i.e. κt) in each week for each of the six regions studied.
description: text/plain
folder_info: 2kB

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