BACKGROUND: In 2015, the Zika arbovirus (ZIKV) began circulating in the Americas, rapidly expanding its global geographic range in explosive outbreaks. Unusual among mosquito-borne diseases, ZIKV has been shown to also be sexually transmitted, although sustained autochthonous transmission due to sexual transmission alone has not been observed, indicating the reproduction number (R0) for sexual transmission alone is less than 1. Critical to the assessment of outbreak risk, estimation of the potential attack rates, and assessment of control measures, are estimates of the basic reproduction number, R0. METHODS: We estimated the R0 of the 2015 ZIKV outbreak in Barranquilla, Colombia, through an analysis of the exponential rise in clinically identified ZIKV cases (n=359 to the end of November, 2015). FINDINGS: The rate of exponential rise in cases was ρ=0.076days-1, with 95% CI [0.066,0.087] days-1. We used a vector-borne disease model with additional direct transmission to estimate the R0; assuming the R0 of sexual transmission alone is less than 1, we estimated the total R0=3.8 [2.4,5.6], and that the fraction of cases due to sexual transmission was 0.23 [0.01,0.47] with 95% confidence. INTERPRETATION: This is among the first estimates of R0 for a ZIKV outbreak in the Americas, and also among the first quantifications of the relative impact of sexual transmission.
BACKGROUND: In 2015, the Zika arbovirus (ZIKV) began circulating in the Americas, rapidly expanding its global geographic range in explosive outbreaks. Unusual among mosquito-borne diseases, ZIKV has been shown to also be sexually transmitted, although sustained autochthonous transmission due to sexual transmission alone has not been observed, indicating the reproduction number (R0) for sexual transmission alone is less than 1. Critical to the assessment of outbreak risk, estimation of the potential attack rates, and assessment of control measures, are estimates of the basic reproduction number, R0. METHODS: We estimated the R0 of the 2015 ZIKV outbreak in Barranquilla, Colombia, through an analysis of the exponential rise in clinically identified ZIKV cases (n=359 to the end of November, 2015). FINDINGS: The rate of exponential rise in cases was ρ=0.076days-1, with 95% CI [0.066,0.087] days-1. We used a vector-borne disease model with additional direct transmission to estimate the R0; assuming the R0 of sexual transmission alone is less than 1, we estimated the total R0=3.8 [2.4,5.6], and that the fraction of cases due to sexual transmission was 0.23 [0.01,0.47] with 95% confidence. INTERPRETATION: This is among the first estimates of R0 for a ZIKV outbreak in the Americas, and also among the first quantifications of the relative impact of sexual transmission.
Authors: Isabel Rodriguez-Barraquer; Federico Costa; Eduardo J M Nascimento; Nivison Nery; Priscila M S Castanha; Gielson Almeida Sacramento; Jaqueline Cruz; Mayara Carvalho; Daiana De Olivera; José E Hagan; Haritha Adhikarla; Elsio A Wunder; Danilo F Coêlho; Sasha R Azar; Shannan L Rossi; Nikos Vasilakis; Scott C Weaver; Guilherme S Ribeiro; Angel Balmaseda; Eva Harris; Maurício L Nogueira; Mitermayer G Reis; Ernesto T A Marques; Derek A T Cummings; Albert I Ko Journal: Science Date: 2019-02-08 Impact factor: 47.728
Authors: Timothy Carroll; Ming Lo; Marion Lanteri; Joseph Dutra; Katie Zarbock; Paola Silveira; Tracy Rourke; Zhong-Min Ma; Linda Fritts; Shelby O'Connor; Michael Busch; Christopher J Miller Journal: PLoS Pathog Date: 2017-07-26 Impact factor: 6.823
Authors: Jennifer L Spencer; Anismrita Lahon; Linda L Tran; Ravi P Arya; Alexander R Kneubehl; Megan B Vogt; Daniela Xavier; David R Rowley; Jason T Kimata; Rebecca R Rico-Hesse Journal: J Infect Dis Date: 2018-01-30 Impact factor: 5.226
Authors: Eli S Rosenberg; Kate Doyle; Jorge L Munoz-Jordan; Liore Klein; Laura Adams; Matthew Lozier; Kevin Weiss; Tyler M Sharp; Gabriela Paz-Bailey Journal: J Infect Dis Date: 2019-08-09 Impact factor: 5.226