Your search keyword '"Cardoso, Jader da C."' showing total 5 results

1. Yellow fever virus in Haemagogus leucocelaenus and Aedes serratus mosquitoes, Southern Brazil, 2008

Author

Cardoso, Jader da C., Almeida, Marco A.B. de, Santos, Edmilson dos, Fonseca, Daltro F. da, Sallum, Maria A.M., Noll, Carlos A., Monteiro, Hamilton A. de O., Cruz, Ana C.R., Carvalho, Valeria L., Pinto, Eliana V., Castro, Francisco C., Neto, Joaquim P. Nunes, Segura, Maria N.O., and Vasconcelos, Pedro F.C.

Subjects

Viral genetics -- Research, Yellow fever -- Genetic aspects -- Diagnosis, Mosquitoes -- Identification and classification -- Genetic aspects, Health

Abstract

Yellow fever is an acute, often fulminant, disease caused by Yellow fever virus (YFV), the prototype member of the family Flaviviridae, genus Flavivirus. YFV is endemic to tropical regions of [...]

Published

2010

2. Mapping environmental suitability of Haemagogus and Sabethes spp. mosquitoes to understand sylvatic transmission risk of yellow fever virus in Brazil.

Author

Li, Sabrina L., Acosta, André L., Hill, Sarah C., Brady, Oliver J., de Almeida, Marco A. B., Cardoso, Jader da C., Hamlet, Arran, Mucci, Luis F., Telles de Deus, Juliana, Iani, Felipe C. M., Alexander, Neil S., Wint, G. R. William, Pybus, Oliver G., Kraemer, Moritz U. G., Faria, Nuno R., and Messina, Jane P.

Subjects

YELLOW fever, AEDES aegypti, ARBOVIRUSES, ENVIRONMENTAL mapping, PHYTOPLASMAS, ARBOVIRUS diseases, MOSQUITOES

Abstract

Background: Yellow fever (YF) is an arboviral disease which is endemic to Brazil due to a sylvatic transmission cycle maintained by infected mosquito vectors, non-human primate (NHP) hosts, and humans. Despite the existence of an effective vaccine, recent sporadic YF epidemics have underscored concerns about sylvatic vector surveillance, as very little is known about their spatial distribution. Here, we model and map the environmental suitability of YF's main vectors in Brazil, Haemagogus spp. and Sabethes spp., and use human population and NHP data to identify locations prone to transmission and spillover risk. Methodology/Principal findings: We compiled a comprehensive set of occurrence records on Hg. janthinomys, Hg. leucocelaenus, and Sabethes spp. from 1991–2019 using primary and secondary data sources. Linking these data with selected environmental and land-cover variables, we adopted a stacked regression ensemble modelling approach (elastic-net regularized GLM, extreme gradient boosted regression trees, and random forest) to predict the environmental suitability of these species across Brazil at a 1x1 km resolution. We show that while suitability for each species varies spatially, high suitability for all species was predicted in the Southeastern region where recent outbreaks have occurred. By integrating data on NHP host reservoirs and human populations, our risk maps further highlight municipalities within the region that are prone to transmission and spillover. Conclusions/Significance: Our maps of sylvatic vector suitability can help elucidate potential locations of sylvatic reservoirs and be used as a tool to help mitigate risk of future YF outbreaks and assist in vector surveillance. Furthermore, at-risk regions identified from our work could help disease control and elucidate gaps in vaccination coverage and NHP host surveillance. Author summary: Yellow fever virus (YFV) is an arbovirus transmitted to humans from mosquitoes and can lead to severe disease and death. Recent sporadic outbreaks coupled with low vaccination coverage have highlighted the importance of mosquito surveillance for preventing future outbreaks and potential virus spillover into dense urban areas. Yet, very little is known about the spatial distribution of mosquitoes known to transmit YFV and the factors that contribute to their environmental suitability in Brazil. We compiled an occurrence database of primary and secondary mosquito vectors belonging to Haemagogus and Sabethes species' collected between 1991–2019 and integrated this data with environmental and land-use data to predict their spatial suitability at 1x1km resolution. Using this information, we identified suitable regions for their co-existence. We overlaid this information with human population density and locations of non-human primate host reservoirs to identify areas at risk of transmission and spillover. Our study provides high-resolution mapping tools to assist with mosquito and arbovirus surveillance which is especially useful in low-resource settings. [ABSTRACT FROM AUTHOR]

Published

2022

3. Surveillance for Yellow Fever Virus in Non-Human Primates in Southern Brazil, 2001–2011: A Tool for Prioritizing Human Populations for Vaccination.

Author

Almeida, Marco A. B., Cardoso, Jader da C., dos Santos, Edmilson, da Fonseca, Daltro F., Cruz, Laura L., Faraco, Fernando J. C., Bercini, Marilina A., Vettorello, Kátia C., Porto, Mariana A., Mohrdieck, Renate, Ranieri, Tani M. S., Schermann, Maria T., Sperb, Alethéa F., Paz, Francisco Z., Nunes, Zenaida M. A., Romano, Alessandro P. M., Costa, Zouraide G., Gomes, Silvana L., and Flannery, Brendan

Subjects

*YELLOW fever, *PHYTOPLASMAS, *PRIMATES, *VACCINATION coverage, *VACCINATION, *COMMUNICATIVE disorders

Abstract

In Brazil, epizootics among New World monkey species may indicate circulation of yellow fever (YF) virus and provide early warning of risk to humans. Between 1999 and 2001, the southern Brazilian state of Rio Grande do Sul initiated surveillance for epizootics of YF in non-human primates to inform vaccination of human populations. Following a YF outbreak, we analyzed epizootic surveillance data and assessed YF vaccine coverage, timeliness of implementation of vaccination in unvaccinated human populations. From October 2008 through June 2009, circulation of YF virus was confirmed in 67 municipalities in Rio Grande do Sul State; vaccination was recommended in 23 (34%) prior to the outbreak and in 16 (24%) within two weeks of first epizootic report. In 28 (42%) municipalities, vaccination began more than two weeks after first epizootic report. Eleven (52%) of 21 laboratory-confirmed human YF cases occurred in two municipalities with delayed vaccination. By 2010, municipalities with confirmed YF epizootics reported higher vaccine coverage than other municipalities that began vaccination. In unvaccinated human populations timely response to epizootic events is critical to prevent human yellow fever cases. Author Summary: Yellow fever (YF) is a viral hemorrhagic disease that affects humans as well as several species of non-human primates, especially New World monkeys found in South America. Yellow fever virus (YFV) is maintained in a natural cycle involving tree-hole breeding mosquitoes and non-human primates hosts. Because YF is often fatal in susceptible New World monkey populations, sudden die-offs of New World monkeys or epizootics can signal YFV circulation in an environment where humans may be exposed. Surveillance for such events is an important tool to prevent human disease. The state of Rio Grande do Sul in southern Brazil was one of the first states to conduct passive and active surveillance for yellow fever virus circulation in non-human primates. During a rapidly-spreading YF outbreak in 2008–2009, surveillance for epizootics involving non-human primates informed vaccination of human populations in areas previously free of YF. In this study, we analyzed surveillance data to evaluate vaccine coverage, timeliness of notification, investigation and confirmation of epizootic events in relation to occurrence of human cases of YF. Epizootic surveillance is useful for directing the efforts of vaccine distribution. Prevention of YF in susceptible human populations requires immediate risk communication and implementation of vaccine recommendations after the first reports of epizootic activity when YF is suspected. [ABSTRACT FROM AUTHOR]

Published

2014

4. Yellow fever virus in Haemagogus leucocelaenus and Aedes serratus mosquitoes, southern Brazil, 2008.

Author

da C Cardoso J, de Almeida MA, Dos Santos E, da Fonseca DF, Sallum MA, Noll CA, de O Monteiro HA, Cruz AC, Carvalho VL, Pinto EV, Castro FC, Nunes Neto JP, Segura MN, Vasconcelos PF, Cardoso, Jader da C, de Almeida, Marco A B, dos Santos, Edmilson, da Fonseca, Daltro F, Sallum, Maria A M, and Noll, Carlos A

Abstract

Yellow fever virus (YFV) was isolated from Haemagogus leucocelaenus mosquitoes during an epizootic in 2001 in the Rio Grande do Sul State in southern Brazil. In October 2008, a yellow fever outbreak was reported there, with nonhuman primate deaths and human cases. This latter outbreak led to intensification of surveillance measures for early detection of YFV and support for vaccination programs. We report entomologic surveillance in 2 municipalities that recorded nonhuman primate deaths. Mosquitoes were collected at ground level, identified, and processed for virus isolation and molecular analyses. Eight YFV strains were isolated (7 from pools of Hg. leucocelaenus mosquitoes and another from Aedes serratus mosquitoes); 6 were sequenced, and they grouped in the YFV South American genotype I. The results confirmed the role of Hg. leucocelaenus mosquitoes as the main YFV vector in southern Brazil and suggest that Ae. serratus mosquitoes may have a potential role as a secondary vector. [ABSTRACT FROM AUTHOR]

Published

2010

5. Real-Time Genomic Surveillance during the 2021 Re-Emergence of the Yellow Fever Virus in Rio Grande do Sul State, Brazil.

Author

Andrade, Miguel de S., Campos, Fabrício S., Campos, Aline A. S., Abreu, Filipe V. S., Melo, Fernando L., Sevá, Anaiá da P., Cardoso, Jader da C., Dos Santos, Edmilson, Born, Lucas C., Silva, Cláudia M. D. da, Müller, Nicolas F. D., Oliveira, Cirilo H. de, Silva, Alex J. J. da, Simonini-Teixeira, Danilo, Bernal-Valle, Sofía, Mares-Guia, Maria A. M. M., Albuquerque, George R., Romano, Alessandro P. M., Franco, Ana C., and Ribeiro, Bergmann M.

Subjects

YELLOW fever, PHYTOPLASMAS, PRIMATES, MONKEYS, PUBLIC health

Abstract

The 2021 re-emergence of yellow fever in non-human primates in the state of Rio Grande do Sul (RS), southernmost Brazil, resulted in the death of many howler monkeys (genus Alouatta) and led the state to declare a Public Health Emergency of State Importance, despite no human cases reported. In this study, near-complete genomes of yellow fever virus (YFV) recovered from the outbreak were sequenced and examined aiming at a better understanding of the phylogenetic relationships and the spatio-temporal dynamics of the virus distribution. Our results suggest that the most likely sequence of events involved the reintroduction of YFV from the state of São Paulo to RS through the states of Paraná and Santa Catarina, by the end of 2020. These findings reinforce the role of genomic surveillance in determining the pathways of distribution of the virus and in providing references for the implementation of preventive measures for populations in high risk areas. [ABSTRACT FROM AUTHOR]

Published

2021