Zika Virus Disease in Colombia — Preliminary Report

Pacheco, Óscar; Beltrán, Mauricio; Nelson, Christina; Valencia, Diana; Tolosa, Natalia; Farr, Sherry L.; Padilla, Ana V; Tong, Van T.; Cuevas, Esther Liliana; Espinosa-Bode, Andrés; Pardo, Lissethe; Rico, Angélica; Reefhuis, Jennita; González, Maribel Castellano; Mercado, Marcela; Chaparro, Pablo; Durán, Máncel Martínez; Rao, Carol Y.; Muñoz, María Mercedes; Powers, Ann M.; Cuéllar, Claudia; Helfand, Rita F.; Huguett, Claudia; Jamieson, Denise J.; Honein, Margaret A.; Martinez, Martha

doi:10.1056/nejmoa1604037

Cited by 253 publications

(173 citation statements)

References 13 publications

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“…Figure 5 shows the ratio AR W (120)/AR M (120) in terms of the intensities of both sexual and vectorial transmission. This effect has been observed in Zika incidence data 10,13,22 but it was frequently confounded with gender-related underreporting, but from our estimates of the male underreporting, we conclude that it can account for only a 20% drop, with the rest of the difference being explained by the excess in female cases due to sexual transmission. This is true even when R 0 < 1, as illustrated in figure 5.…”

Section: Discussionsupporting

confidence: 45%

Impact of Sexual Transmission to Sex-specific Attack Rates in Zika Epidemics

Barros

Santos

Massad

et al. 2018

Preprint

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In 2015 and 2016 South America went through the largest Zika epidemic in recorded history. One important aspect of this epidemic was the impact on newborns due to the effect of Zika on development of the central nervous system leading to severe malformations. Another aspect of the Zika epidemic which became evident from the data was the importance of the sexual route of transmission leading to increased risk for women. Here, we propose a mathematical model for the transmission of the Zika virus including sexual transmission in all possible directions, as well as simplified vector transmission, assuming a constant availability of mosquitoes. From this model we derive an expression for R 0 which can be used to study the the relative contributions of the different routes of Zika transmission and we analyze the relative importance of the male to female sexual transmission route vis-a-vis vectorial transmission. We conclude that when there is a sexual transmission rout from men to women, we can expect a higher burden on women even when R 0 is below one.

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Section: Discussionsupporting

confidence: 45%

Impact of Sexual Transmission to Sex-specific Attack Rates in Zika Epidemics

Barros

Santos

Massad

et al. 2018

Preprint

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“…The Zika epidemic started on August 9, 2015 ( 26 ). Up to the first epidemiologic week of 2017, Colombia reported 106,659 Zika cases (219 cases/100,000 population) that were suspected by clinical signs and confirmed by laboratory.…”

Section: Methodsmentioning

confidence: 99%

Joint Estimation of Relative Risk for Dengue and Zika Infections, Colombia, 2015–2016

Martínez-Bello¹,

López‐Quílez²,

Prieto³

2019

Emerg. Infect. Dis.

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We jointly estimated relative risk for dengue and Zika virus disease (Zika) in Colombia, establishing the spatial association between them at the department and city levels for October 2015–December 2016. Cases of dengue and Zika were allocated to the 87 municipalities of 1 department and the 293 census sections of 1 city in Colombia. We fitted 8 hierarchical Bayesian Poisson joint models of relative risk for dengue and Zika, including area- and disease-specific random effects accounting for several spatial patterns of disease risk (clustered or uncorrelated heterogeneity) within and between both diseases. Most of the dengue and Zika high-risk municipalities varied in their risk distribution; those for Zika were in the northern part of the department and dengue in the southern to northeastern parts. At city level, spatially clustered patterns of dengue high-risk census sections indicated Zika high-risk areas. This information can be used to inform public health decision making.

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“…Pacheco et al (2016), presented a study on the general context of ZIKV in Colombia, demonstrating the relationship between the virus and microcephaly. At the same time, he gave a report about asymptomatic people to this illness [19]. When the reproduction number varies between 1.9 and 2.8 based on estimates for Antioquia-Colombia, the attack rate varies between 4% and 26% for a low (below 10%) effectiveness of interventions in blunting the ZIKV transmission from symptomatic cases to mosquitoes [20].…”

Section: Introductionmentioning

confidence: 99%

Simulation Model to the Zika Virus Considering Asymptomatic Population

Jamboos¹,

Muñoz²,

Muñoz³

et al. 2018

OJMSi

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A simulation model based on nonlinear ordinary differential equations to interpret the transmission dynamics of Zika Virus (ZIKV), is formulated and analyzed, integrating the asymptomatic human population and coupled to the Aedes aegypti dynamics, the epidemic threshold Basic Reproduction Number R 0 is determined, as the spectral radius of Next-Generation Matrix and the system is simulated with MAPLE computing program taking the parameter values from literature.

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Zika Virus Disease in Colombia — Preliminary Report

Cited by 253 publications

References 13 publications

Impact of Sexual Transmission to Sex-specific Attack Rates in Zika Epidemics

Impact of Sexual Transmission to Sex-specific Attack Rates in Zika Epidemics

Joint Estimation of Relative Risk for Dengue and Zika Infections, Colombia, 2015–2016

Simulation Model to the Zika Virus Considering Asymptomatic Population

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