Spatio-temporal dynamics of dengue 2009 outbreak in Córdoba City, Argentina

•Córdoba city reported autochthonous dengue fever cases for the first time.•No autochthonous cases co-occurred in any neighborhood with imported cases.•In epidemiological week 15 the number of cases stabilized in the maximum.•Cases dropped for theoretical required number of days for transmission abo...

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Bibliographic Details
Published in:Acta tropica 2014-08, Vol.136, p.129-136
Main Authors: Estallo, E.L., Carbajo, A.E., Grech, M.G., Frías-Céspedes, M., López, L., Lanfri, M.A., Ludueña-Almeida, F.F., Almirón, W.R.
Format: Article
Language:English
Subjects:
Aedes - physiology
Aedes aegypti
Animals
Argentina
Córdoba
Dengue - epidemiology
Dengue outbreak
Disease Outbreaks
Geographic information system (GIS)
Humans
Insect Vectors - physiology
Time Factors
Urban Population
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Summary:•Córdoba city reported autochthonous dengue fever cases for the first time.•No autochthonous cases co-occurred in any neighborhood with imported cases.•In epidemiological week 15 the number of cases stabilized in the maximum.•Cases dropped for theoretical required number of days for transmission above 15.5. During 2009 the biggest dengue epidemic to date occurred in Argentina, affecting almost half the country. We studied the spatio-temporal dynamics of the outbreak in the second most populated city of the country, Córdoba city. Confirmed cases and the results of an Aedes aegypti monitoring during the outbreak were geolocated. The imported cases began in January, and the autochthonous in March. Thirty-three percent of the 130 confirmed cases were imported, and occurred mainly at the center of the city. The autochthonous cases were more frequent in the outskirts, specially in the NE and SE. Aedes aegypti infestation showed no difference between neighborhoods with or without autochthonous cases, neither between neighborhoods with autochthonous vs. imported cases. The neighborhoods with imported cases presented higher population densities. The majority of autochthonous cases occurred at ages between 25 and 44 years old. Cases formed a spatio-temporal cluster of up to 20 days and 12km. According to a mathematical model that estimates the required number of days needed for transmission according to daily temperature, the number of cases begun to fall when more than 15.5 days were needed. This may be a coarse estimation of mean mosquito survival in the area, provided that the study area is close to the global distribution limit of the vector, and that cases prevalence was very low.
ISSN:0001-706X
1873-6254
DOI:10.1016/j.actatropica.2014.04.024