Your search keyword '"Rodrigues Faria N"' showing total 10 results

1. Genetic evidence of Zika virus in mother's breast milk and body fluids of a newborn with severe congenital defects

Author

Giovanetti, M., Goes de Jesus, J., Lima de Maia, M., Junior, J.X., Castro Amarante, M.F., Viana, P., Khouri Barreto, F., de Cerqueira, E.M., Pedreira Santos, N., Barreto Falcão, M., Machado Costa, M.C., Barros Faiçal, A.V., Andrade de Melo, A.L., Santos Amorim, L., de Siqueira, I.C., Macarenhas, D.L., Bispo de Filippis, A.M., Rodrigues Faria, N., Xavier Acosta, A., and Júnior Alcântara, L.C.

Published

2018

2. Yellow fever transmission in non-human primates, Bahia, Northeastern Brazil.

Author

Goes de Jesus J, Gräf T, Giovanetti M, Mares-Guia MA, Xavier J, Lima Maia M, Fonseca V, Fabri A, Dos Santos RF, Mota Pereira F, Ferraz Oliveira Santos L, Reboredo de Oliveira da Silva L, Pereira Gusmão Maia Z, Gomes Cerqueira JX, Thèze J, Abade L, Cordeiro MCS, Torquato SSC, Santana EB, de Jesus Silva NS, Dourado RSO, Alves AB, do Socorro Guedes A, da Silva Filho PM, Rodrigues Faria N, de Albuquerque CFC, de Abreu AL, Martins Romano AP, Croda J, do Carmo Said RF, Cunha GM, da Fonseca Cerqueira JM, Mello ALES, de Filippis AMB, and Alcantara LCJ

Subjects

Alouatta, Animals, Brazil epidemiology, Callithrix, Ecosystem, Genome, Viral, Humans, Phylogeny, Yellow Fever epidemiology, Yellow Fever prevention & control, Yellow Fever transmission, Yellow fever virus classification, Primate Diseases virology, Yellow Fever veterinary, Yellow fever virus genetics

Abstract

Yellow fever virus (YFV) causes a clinical syndrome of acute hemorrhagic hepatitis. YFV transmission involves non-human primates (NHP), mosquitoes and humans. By late 2016, Brazil experienced the largest YFV outbreak of the last 100 years, with 2050 human confirmed cases, with 681 cases ending in death and 764 confirmed epizootic cases in NHP. Among affected areas, Bahia state in Northeastern was the only region with no autochthonous human cases. By using next generation sequence approach, we investigated the molecular epidemiology of YFV in NHP in Bahia and discuss what factors might have prevented human cases. We investigated 47 YFV positive tissue samples from NHP cases to generate 8 novel YFV genomes. ML phylogenetic tree reconstructions and automated subtyping tools placed the newly generated genomes within the South American genotype I (SA I). Our analysis revealed that the YFV genomes from Bahia formed two distinct well-supported phylogenetic clusters that emerged most likely of an introduction from Minas Gerais and Espírito Santo states. Vegetation coverage analysis performed shows predominantly low to medium vegetation coverage in Bahia state. Together, our findings support the hypothesis of two independent YFV SA-I introductions. We also highlighted the effectiveness of the actions taken by epidemiological surveillance team of the state to prevented human cases., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

3. Correction for Giovanetti et al., "Yellow Fever Virus Reemergence and Spread in Southeast Brazil, 2016-2019".

Author

Giovanetti M, Lima de Mendonça MC, Fonseca V, Mares-Guia MA, Fabri A, Xavier J, Goes de Jesus J, Gräf T, Damasceno Dos Santos Rodrigues C, Cardoso Dos Santos C, Alves Sampaio S, Lowen Levy Chalhoub F, de Bruycker Nogueira F, Theze J, Pecego Martins Romano A, Garkauskas Ramos D, Luiz de Abreu A, Kleber Oliveira W, do Carmo Said RF, Campelo de Alburque CF, de Oliveira T, Fernandes CA, Ferreira Aguiar S, Chieppe A, Carvalho Sequeira P, Rodrigues Faria N, Venâncio Cunha R, Alcantara LCJ, and Bispo de Filippis AM

Published

2020

4. First report of Aedes albopictus infected by Dengue and Zika virus in a rural outbreak in Brazil.

Author

Ricas Rezende H, Malta Romano C, Morales Claro I, Santos Caleiro G, Cerdeira Sabino E, Felix AC, Bissoli J, Hill S, Rodrigues Faria N, Cardoso da Silva TC, Brioschi Santos AP, Cerutti Junior C, and Vicente CR

Subjects

Animals, Brazil, Disease Outbreaks, Humans, Phylogeny, Aedes virology, Dengue transmission, Dengue Virus isolation & purification, Mosquito Vectors virology, Zika Virus isolation & purification, Zika Virus Infection transmission

Abstract

In Brazil, Dengue (DENV) and Zika (ZIKV) viruses are reported as being transmitted exclusively by Aedes aegypti in urban settings. This study established the vectors and viruses involved in an arbovirus outbreak that occurred in 2019 in a rural area of Espírito Santo state, Brazil. Mosquitoes collected were morphologically identified, sorted in samples, and submitted to molecular analysis for arboviruses detection. Phylogenetic reconstruction was performed for the viral sequence obtained. All 393 mosquitoes were identified as Aedes albopictus. DENV-1 genotype V was present in one sample and another sample was positive for ZIKV. The DENV-1 clustered with viruses that have circulated in previous years in large urban centers of different regions in Brazil. This is the first report of A. albopictus infected by DENV and ZIKV during an outbreak in a rural area in Brazil, indicating its involvement in arboviral transmission. The DENV-1 strain found in the A. albopictus was not new in Brazil, being involved previously in epidemics related to A. aegypti, suggesting the potential to A. albopictus in transmitting viruses already circulating in the Brazilian population. This finding also indicates the possibility of these viruses to disperse across urban and rural settings, imposing additional challenges for the control of the diseases., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

5. Persistence of chikungunya ECSA genotype and local outbreak in an upper medium class neighborhood in Northeast Brazil.

Author

Goes de Jesus J, da Luz Wallau G, Lima Maia M, Xavier J, Oliveira Lima MA, Fonseca V, Salgado de Abreu A, Fraga de Oliveira Tosta S, Ramos do Amaral H, Andrade Barbosa Lima I, Viana Silva P, Carlos Dos Santos D, Sousa de Oliveira A, Campos de Souza S, Barreto Falcão M, Cerqueira E, Ceschini Machado L, Sobral MC, Teodoro Rezende TM, Ribeiro Pereira M, Mota Pereira F, Pereira Gusmão Maia Z, Freitas de Oliveira França R, Luiz de Abreu A, Campelo de Albuquerque E Melo CF, Rodrigues Faria N, Venâncio da Cunha R, Giovanetti M, and Alcantara LCJ

Subjects

Adult, Brazil epidemiology, Chikungunya virus classification, Female, Humans, Male, Phylogeny, Young Adult, Chikungunya Fever epidemiology, Chikungunya virus genetics, Chikungunya virus physiology, Disease Outbreaks, Genotype, Residence Characteristics statistics & numerical data, Social Class

Abstract

The chikungunya East/Central/South/Africa virus lineage (CHIKV-ECSA) was first detected in Brazil in the municipality of Feira de Santana (FS) by mid 2014. Following that, a large number of CHIKV cases have been notified in FS, which is the second-most populous city in Bahia state, northeastern Brazil, and plays an important role on the spread to other Brazilian states due to climate conditions and the abundance of competent vectors. To better understand CHIKV dynamics in Bahia state, we generated 5 complete genome sequences from a local outbreak raised in Serraria Brasil, a neighbourhood in FS, by next-generation sequencing using Illumina approach. Phylogenetic reconstructions revealed that the new FS genomes belongs to the ECSA genotype and falls within a single strongly supported monophyletic clade that includes other older CHIKV sequences from the same location, suggesting the persistence of the virus during distinct epidemic seasons. We also performed minor variants analysis and found a small number of SNPs per sample (b_29L and e_45SR = 16 SNPs, c_29SR = 29 and d_45PL and f_45FL = 21 SNPs). Out of the 93 SNPs found, 71 are synonymous, 21 are non-synonymous and one generated a stop codon. Although those mutations are not related to the increase of virus replication and/or infectivity, some SNPs were found in non-structural proteins which may have an effect on viral evasion from the mammal immunological system. These findings reinforce the needing of further studies on those variants and of continued genomic surveillance strategies to track viral adaptations and to monitor CHIKV epidemics for improved public health control., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

6. Acute Vector-Borne Viral Infection: Zika and MinION Surveillance.

Author

de Jesus JG, Giovanetti M, Rodrigues Faria N, and Alcantara LCJ

Subjects

Animals, Epidemiological Monitoring, Genome, Viral, High-Throughput Nucleotide Sequencing instrumentation, High-Throughput Nucleotide Sequencing methods, Humans, Zika Virus classification, Zika Virus isolation & purification, Vector Borne Diseases virology, Zika Virus genetics, Zika Virus Infection virology

Abstract

The MinION sequencer was launched by the Oxford Nanopore Technologies start-up as a disruptive technology for genome sequencing based on single-molecule synthesis. Its characteristics as a portable device, low cost, and simple library preparation have made it a good candidate for field researchers. MinION has been used to sequence a number of microorganisms, such as bacteria, viruses, and fungi. Based on the experience that characterized the Ebola virus genetic diversity in Guinea during the 2014-2015 outbreak, the ZiBRA (Zika in Brazil Real-time Analysis) project aimed to sequence a large number of Zika virus genomes during a mobile laboratory trip in northeast Brazil to provide important epidemiological information about the spread of this disease in this country. In response to the positive and rapid results obtained by the ZiBRA project, the Brazilian Ministry of Health and many leading institutions, such as the Pan American Health Organization and WHO, have shown interest in expanding the strategy used in this project to other countries dealing with arbovirus infection. *This article is part of a curated collection.

Published

2019

7. Circulation of chikungunya virus East/Central/South African lineage in Rio de Janeiro, Brazil.

Author

Xavier J, Giovanetti M, Fonseca V, Thézé J, Gräf T, Fabri A, Goes de Jesus J, Lima de Mendonça MC, Damasceno Dos Santos Rodrigues C, Mares-Guia MA, Cardoso Dos Santos C, Fraga de Oliveira Tosta S, Candido D, Ribeiro Nogueira RM, Luiz de Abreu A, Kleber Oliveira W, Campelo de Albuquerque CF, Chieppe A, de Oliveira T, Brasil P, Calvet G, Carvalho Sequeira P, Rodrigues Faria N, Bispo de Filippis AM, and Alcantara LCJ

Subjects

Adult, Africa epidemiology, Brazil epidemiology, Chikungunya Fever epidemiology, Chikungunya Fever transmission, Female, Humans, Male, Middle Aged, Chikungunya Fever genetics, Chikungunya virus genetics, High-Throughput Nucleotide Sequencing, Phylogeny

Abstract

The emergence of chikungunya virus (CHIKV) has raised serious concerns due to the virus' rapid dissemination into new geographic areas and the clinical features associated with infection. To better understand CHIKV dynamics in Rio de Janeiro, we generated 11 near-complete genomes by means of real-time portable nanopore sequencing of virus isolates obtained directly from clinical samples. To better understand CHIKV dynamics in Rio de Janeiro, we generated 11 near-complete genomes by means of real-time portable nanopore sequencing of virus isolates obtained directly from clinical samples. Our phylogenetic reconstructions indicated the circulation of the East-Central-South-African (ECSA) lineage in Rio de Janeiro. Time-measured phylogenetic analysis combined with CHIKV notified case numbers revealed the ECSA lineage was introduced in Rio de Janeiro around June 2015 (95% Bayesian credible interval: May to July 2015) indicating the virus was circulating unnoticed for 5 months before the first reports of CHIKV autochthonous transmissions in Rio de Janeiro, in November 2015. These findings reinforce that continued genomic surveillance strategies are needed to assist in the monitoring and understanding of arbovirus epidemics, which might help to attenuate public health impact of infectious diseases., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

8. Epidemiology of the Zika Virus Outbreak in the Cabo Verde Islands, West Africa.

Author

Lourenço J, de Lourdes Monteiro M, Valdez T, Monteiro Rodrigues J, Pybus O, and Rodrigues Faria N

Abstract

Introduction: The Zika virus (ZIKV) outbreak in the island nation of Cabo Verde was of unprecedented magnitude in Africa and the first to be associated with microcephaly in the continent., Methods: Using a simple mathematical framework we present a first epidemiological assessment of attack and observation rates from 7,580 ZIKV notified cases and 18 microcephaly reports between July 2015 and May 2016., Results: In line with observations from the Americas and elsewhere, the single-wave Cabo Verdean ZIKV epidemic was characterized by a basic reproductive number of 1.85 (95% CI, 1.5 - 2.2), with overall the attack rate of 51.1% (range 42.1 - 61.1) and observation rate of 2.7% (range 2.29 - 3.33)., Conclusion: Current herd-immunity may not be sufficient to prevent future small-to-medium epidemics in Cabo Verde. Together with a small observation rate, these results highlight the need for rapid and integrated epidemiological, molecular and genomic surveillance to tackle forthcoming outbreaks of ZIKV and other arboviruses., Competing Interests: We declare none.

Published

2018

9. Epidemiology of Chikungunya Virus in Bahia, Brazil, 2014-2015.

Author

Rodrigues Faria N, Lourenço J, Marques de Cerqueira E, Maia de Lima M, Pybus O, and Carlos Junior Alcantara L

Abstract

Chikungunya is an emerging arbovirus that is characterized into four lineages. One of these, the Asian genotype, has spread rapidly in the Americas after its introduction in the Saint Martin island in October 2013. Unexpectedly, a new lineage, the East-Central-South African genotype, was introduced from Angola in the end of May 2014 in Feira de Santana (FSA), the second largest city in Bahia state, Brazil, where over 5,500 cases have now been reported. Number weekly cases of clinically confirmed CHIKV in FSA were analysed alongside with urban district of residence of CHIKV cases reported between June 2014 and October collected from the municipality's surveillance network. The number of cases per week from June 2014 until September 2015 reveals two distinct transmission waves. The first wave ignited in June and transmission ceased by December 2014. However, a second transmission wave started in January and peaked in May 2015, 8 months after the first wave peak, and this time in phase with Dengue virus and Zika virus transmission, which ceased when minimum temperature dropped to approximately 15°C. We find that shorter travelling times from the district where the outbreak first emerged to other urban districts of FSA were strongly associated with incidence in each district in 2014 (R(2)).

Published

2016

10. Dispersion of the HIV-1 Epidemic in Men Who Have Sex with Men in the Netherlands: A Combined Mathematical Model and Phylogenetic Analysis.

Author

Bezemer D, Cori A, Ratmann O, van Sighem A, Hermanides HS, Dutilh BE, Gras L, Rodrigues Faria N, van den Hengel R, Duits AJ, Reiss P, de Wolf F, and Fraser C

Subjects

Adult, Age Distribution, Base Sequence, Cohort Studies, Epidemiological Monitoring, HIV Infections transmission, Humans, Likelihood Functions, Male, Markov Chains, Monte Carlo Method, Netherlands epidemiology, Phylogeny, Epidemics, HIV Infections epidemiology, HIV-1 genetics, Homosexuality, Male statistics & numerical data, Models, Theoretical

Abstract

Background: The HIV-1 subtype B epidemic amongst men who have sex with men (MSM) is resurgent in many countries despite the widespread use of effective combination antiretroviral therapy (cART). In this combined mathematical and phylogenetic study of observational data, we aimed to find out the extent to which the resurgent epidemic is the result of newly introduced strains or of growth of already circulating strains., Methods and Findings: As of November 2011, the ATHENA observational HIV cohort of all patients in care in the Netherlands since 1996 included HIV-1 subtype B polymerase sequences from 5,852 patients. Patients who were diagnosed between 1981 and 1995 were included in the cohort if they were still alive in 1996. The ten most similar sequences to each ATHENA sequence were selected from the Los Alamos HIV Sequence Database, and a phylogenetic tree was created of a total of 8,320 sequences. Large transmission clusters that included ≥10 ATHENA sequences were selected, with a local support value ≥ 0.9 and median pairwise patristic distance below the fifth percentile of distances in the whole tree. Time-varying reproduction numbers of the large MSM-majority clusters were estimated through mathematical modeling. We identified 106 large transmission clusters, including 3,061 (52%) ATHENA and 652 Los Alamos sequences. Half of the HIV sequences from MSM registered in the cohort in the Netherlands (2,128 of 4,288) were included in 91 large MSM-majority clusters. Strikingly, at least 54 (59%) of these 91 MSM-majority clusters were already circulating before 1996, when cART was introduced, and have persisted to the present. Overall, 1,226 (35%) of the 3,460 diagnoses among MSM since 1996 were found in these 54 long-standing clusters. The reproduction numbers of all large MSM-majority clusters were around the epidemic threshold value of one over the whole study period. A tendency towards higher numbers was visible in recent years, especially in the more recently introduced clusters. The mean age of MSM at diagnosis increased by 0.45 years/year within clusters, but new clusters appeared with lower mean age. Major strengths of this study are the high proportion of HIV-positive MSM with a sequence in this study and the combined application of phylogenetic and modeling approaches. Main limitations are the assumption that the sampled population is representative of the overall HIV-positive population and the assumption that the diagnosis interval distribution is similar between clusters., Conclusions: The resurgent HIV epidemic amongst MSM in the Netherlands is driven by several large, persistent, self-sustaining, and, in many cases, growing sub-epidemics shifting towards new generations of MSM. Many of the sub-epidemics have been present since the early epidemic, to which new sub-epidemics are being added.

Published

2015