Sero-epidemiological study of arbovirus infection following the 2015-2016 Zika virus epidemic in Cape Verde
Rasmussen, SA, Jamieson, DJ, Honein, MA & Petersen, LR Zika Virus and Birth Defects – Review of Evidence for Causality. N.Engl. J.Med. 3741981-1987 (2016).
Ximenes, R. et al. Health outcomes associated with Zika virus infection in humans: a systematic review of systematic reviews. BMJ open 9e032275 (2019).
Dos Santos, T. et al. Zika virus and Guillain-Barré syndrome – Case series from seven countries. N.Engl. J.Med. 3751598-1601 (2016).
Cao-Lormeau, V.-M. et al. Guillain-Barré syndrome epidemic associated with Zika virus infection in French Polynesia: a case-control study. Lancet 3871531-1539 (2016).
Metsky, HC et al. Evolution and spread of the Zika virus in the Americas. Nature 546411–415 (2017).
Zhang, Q. et al. Spread of the Zika virus in the Americas. proc. Natl. Acad. Science. UNITED STATES 114E4334–E4343 (2017).
Faria, RN et al. Establishment and cryptic transmission of the Zika virus in Brazil and the Americas. Nature 546406–410 (2017).
Duffy, M. et al. Zika virus outbreak in Yap Island, Federated States of Micronesia. N.Engl. J.Med. 3602536-2543 (2009).
Musso, D. et al. Zika virus in French Polynesia 2013-2014: Anatomy of a finished epidemic. Lancet infected. Say. 18e172–e182 (2018).
Dupont-Rouzeyrol, Mr. et al. Zika and dengue virus co-infection in 2 patients, New Caledonia, 2014. Emergency Infect. Say. 21381–382 (2015).
Faria, RN et al. Zika virus in the Americas: first epidemiological and genetic results. Science 352345–349 (2016).
WHO. Countries and territories with current or past Zika virus transmission. https://www.who.int/emergencies/diseases/zika/countries-with-zika-and-vectors-table.pdf (2019).
WHO. Cumulative Zika cases. PAHO-WHO http://www.paho.org/hq/index.php?option=com_content&view=article&id=12390&Itemid=42090&lang=en (2018).
Vogels, FCB et al. Co-infection and co-transmission by arboviruses: a neglected public health problem? PLoS Biol. 17e3000130 (2019).
Magalhaes, T. et al. Sequential infection of Aedes Egyptian mosquitoes carrying the chikungunya virus and the Zika virus enhance the early transmission of the Zika virus. Insects 9177 (2018).
Campos, MC et al. Zika may not be acting alone: using an ecological study approach to investigate potential co-acting risk factors for an unusual model of microcephaly in Brazil. PLoS One 13e0201452 (2018).
from Vasconcelos, ZFM et al. Challenges for molecular and serological confirmation of ZIKV infection. The child’s nerve. System 3479–84 (2018).
Sharp, TM, Fischer, M. & Muñoz-Jordán, JL Diagnostic tests for dengue fever and Zika virus for patients with clinically compatible disease and at risk of infection with both viruses. MMWR Recommend. representing 681–10 (2019).
Piantadosi, A. & Kanjilal, S. Diagnostic approach to arbovirus infections in the United States. J. Clin. Microbiol. 58e01926–19 (2020).
Dai, L. et al. Structures of the Zika virus envelope protein and its complex with a broadly protective flavivirus antibody. Microbe Host Cell 19696–704 (2016).
Karin, S. et al. Specificity, cross-reactivity and function of antibodies induced by Zika virus infection. Science 353823–826 (2016).
Mora-Cardenas, E. et al. Comparative specificity and sensitivity of NS1-based serological tests for the detection of flavivirus immune response. PLoS Negl. Too. Say. 14e0008039 (2020).
Cleton, N.B. et al. Spot the difference—Development of a syndrome-based protein microarray for the specific serological detection of multiple flavivirus infections in travelers. PLoS Negl. Too. Say. 9e0003580 (2015).
Tedder, RS et al. The modulated Zika virus NS1 conjugate offers advantages for the accurate detection of Zika virus-specific antibody in enzyme antigen double-binding and Ig-capture immunoassays. PLoS One 14e0215708 (2019).
Him, J. et al. Double antigen sandwich ELISA for the detection of hepatitis C virus antibodies. J. Virol. Methods 171163-168 (2011).
Balmasada, A. et al. The antibody-based test distinguishes Zika virus infection from other flaviviruses. proc. Natl. Acad. Science. UNITED STATES 1148384–8389 (2017).
Franco, L. et al. Recent expansion of dengue virus serotype 3 in West Africa. Eurosurveillance 1519490 (2010).
Fay, O. et al. Genomic epidemiology of the 2015-2016 Zika virus outbreak in Cape Verde. Emergency Infect. Say. 261084 (2020).
Da Veiga Leal, S. et al. Drug resistance profile and clonality of Plasmodium falciparum parasites in Cape Verde: the 2017 malaria epidemic. Malar. J 20172 (2021).
Ministry of Saude. Ministerio da Saúde confirms infection by Vírus Zika no concelho da Praia. http://www.minsaude.gov.cv/index.php/rss-noticias/912-ministerio-da-saude-confirma-infeccao-por-virus-zika-no-concelho-da-praia (2015).
Lourenco, J. et al. Epidemiology of the Zika virus outbreak in the Cape Verde Islands, West Africa. PLoS current. ten (2018).
Campo, M. et al. Monitoring Aedes aegypti populations in the city of Praia, Cape Verde: Zika virus infection, insecticide resistance and genetic diversity. Parasite vectors 13481 (2020).
Instituto Nacional De Estatstica. V RECENSEAMENTO GERAL DA POPULAÇÃO ET HABITITAÇÃO (RGPH-2021) PRELIMINARY RESULTS Praia, August 6, 2021. 2021 CENSUS. https://ine.cv/en/publicacoes/resultados-preliminares-do-v-recensamento-geral-da-populacao-habitacao-rgph-2021/ (2021).
Schloerke, B. et al. Ggally: extension to ggplot2. Packing R.version 1 (2018).
Pedrogosa, F. et al. Scikit-learn: Machine learning in Python. J.Mach. Learn. Res. 122825–2830 (2011).
Vanderplas, J., Connolly, AJ, Ivezic, Z. & Gray, A. Introduction to astroML: Machine Learning for Astrophysics. proc. 2012 Conf. Information. Understanding Data, CIDU 2012 47–54. https://doi.org/10.1109/CIDU.2012.6382200 (2012).
Sund-Levander, M., Forsberg, C., and Wahren, LK Normal oral, rectal, tympanic, and axillary body temperature in adult men and women: a systematic review of the literature. Scan. J. Caring Sci. 16122-128 (2002).
Ministério da Saúde e da Segurança Social. ESTATE RELATIONSHIP—2019. https://www.minsaude.gov.cv/index.php/documentosite/-1/577-relatorio-estatistico-de-2019/file (2020).
Coelho, FC et al. A higher incidence of Zika in adult women than in adult men in Rio de Janeiro suggests a significant contribution of male-to-female sexual transmission. Int. J. Infect. Say. 51128-132 (2016).
Weaver, SC, Charlier, C., Vasilakis, N. & Lecuit, M. Zika, Chikungunya and other vector-borne emerging viral diseases. Ann. Rev. Med. 69395–408 (2018).
Wilke, ABB et al. Urbanization creates diverse aquatic habitats for immature mosquitoes in urban areas. Science. representing 2019(9), 1–11 (2019).
Forshey, BM et al. Arboviral etiologies of acute febrile illness in western South America, 2000–2007. PLoS Negl. Too. Say. 4e787 (2010).
Depina, AJ et al. Clinical and epidemiological characterization of the dengue epidemic in Cabo Verde in 2009-2010. J. Too much. Say. seven296. https://doi.org/10.4172/2329-891X.1000296 (2009).
Guedes, DRD et al. Circulation of DENV2 and DENV4 in Aedes Egyptian (Diptera: Culicidae) mosquitoes from Praia, Santiago Island, Cabo Verde. J. Insect Sci. 1786 (2017).
Rogers, TF et al. Zika virus activates de novo and cross-reactive memory B cell responses in donors with dengue fever. Science. Immunol. 2eaan6809 (2017).
Slon Campos, JL, Mongkolsapaya, J. & Screaton, GR The immune response against flaviviruses. Nat. Immunol. 2018(19), 1189-1198 (2018).