Your search keyword '"Valério, Danielle"' showing total 8 results

1. Prescribed stimulant medications: Trends in the last decade, pre and post COVID-19 response

Author

Kim, Meelee L., Dalvi, Netrali, Valerio, Danielle DeNufrio, Strickler, Gail K., and Young, Leonard D.

Published

2023

2. Microclimate and the vertical stratification of potential bridge vectors of mosquito‑borne viruses captured by nets and ovitraps in a central Amazonian forest bordering Manaus, Brazil

Author

Hendy, Adam, Valério, Danielle, Fé, Nelson Ferreira, Hernandez-Acosta, Eduardo, Mendonça, Claudia, Andrade, Eloane, Pedrosa, Igor, Costa, Edson Rodrigues, Júnior, José Tenaçol Andes, Assunção, Flamarion Prado, Chaves, Bárbara Aparecida, Scarpassa, Vera Margarete, Gordo, Marcelo, Buenemann, Michaela, de Lacerda, Marcus Vinícius Guimarães, Hanley, Kathryn A., and Vasilakis, Nikos

Published

2021

3. The vertical stratification of potential bridge vectors of mosquito-borne viruses in a central Amazonian forest bordering Manaus, Brazil

Author

Hendy, Adam, Hernandez-Acosta, Eduardo, Valério, Danielle, Mendonça, Claudia, Costa, Edson Rodrigues, Júnior, José Tenaçol Andes, Assunção, Flamarion Prado, Scarpassa, Vera Margarete, Gordo, Marcelo, Fé, Nelson Ferreira, Buenemann, Michaela, de Lacerda, Marcus Vinícius Guimarães, Hanley, Kathryn A., and Vasilakis, Nikos

Published

2020

4. Detection of Zika Virus in Aedes aegypti and Aedes albopictus Mosquitoes Collected in Urban Forest Fragments in the Brazilian Amazon.

Author

Gomes, Erika Oliveira, Sacchetto, Lívia, Teixeira, Maurício, Chaves, Bárbara Aparecida, Hendy, Adam, Mendonça, Claudia, Guimarães, Izabele, Linhares, Ramon, Brito, Daniela, Valério, Danielle, Cordeiro, Jady Shayenne Mota, Neto, Alexandre Vilhena Silva, Sampaio, Vanderson Souza, Scarpassa, Vera Margarete, Buenemann, Michaela, Vasilakis, Nikos, Baia-da-Silva, Djane Clarys, Nogueira, Maurício Lacerda, Mourão, Maria Paula Gomes, and Lacerda, Marcus Vinícius Guimarães

Subjects

AEDES aegypti, ZIKA virus, AEDES albopictus, MOSQUITOES, ZIKA virus infections, AEDES, CELL culture

Abstract

Zika virus (ZIKV) is an RNA flavivirus (Flaviviridae family) endemic in tropical and subtropical regions that is transmitted to humans by Aedes (Stegomyia) species mosquitoes. The two main urban vectors of ZIKV are Aedes aegypti and Aedes albopictus, which can be found throughout Brazil. This study investigated ZIKV infection in mosquito species sampled from urban forest fragments in Manaus (Brazilian Amazon). A total of 905 non-engorged female Ae. aegypti (22 specimens) and Ae. albopictus (883 specimens) were collected using BG-Sentinel traps, entomological hand nets, and Prokopack aspirators during the rainy and dry seasons between 2018 and 2021. All pools were macerated and used to inoculate C6/36 culture cells. Overall, 3/20 (15%) Ae. aegypti and 5/241 (2%) Ae. albopictus pools screened using RT-qPCR were positive for ZIKV. No supernatants from Ae. aegypti were positive for ZIKV (0%), and 15 out of 241 (6.2%) Ae. albopictus pools were positive. In this study, we provide the first-ever evidence of Ae. albopictus naturally infected with ZIKV in the Amazon region. [ABSTRACT FROM AUTHOR]

Published

2023

5. Where boundaries become bridges: Mosquito community composition, key vectors, and environmental associations at forest edges in the central Brazilian Amazon.

Author

Hendy, Adam, Hernandez-Acosta, Eduardo, Valério, Danielle, Fé, Nelson Ferreira, Mendonça, Claudia Reis, Costa, Edson Rodrigues, Andrade, Eloane Silva de, Andes Júnior, José Tenaçol, Assunção, Flamarion Prado, Scarpassa, Vera Margarete, Lacerda, Marcus Vinícius Guimarães de, Buenemann, Michaela, Vasilakis, Nikos, and Hanley, Kathryn A.

Subjects

COMMUNITIES, MOSQUITOES, YELLOW fever, AEDES albopictus, SPECIES diversity

Abstract

Risk of spillover and spillback of mosquito-borne viruses in the neotropics, including yellow fever, dengue, Zika (Flaviviridae: Flavivirus), chikungunya, and Mayaro (Togaviridae: Alphavirus) viruses, is highest at ecotones where humans, monkeys, and mosquitoes coexist. With a view to identifying potential bridge vectors, we investigated changes in mosquito community composition and environmental variables at ground level at distances of 0, 500, 1000, and 2000 m from the edge of a rainforest reserve bordering the city of Manaus in the central Brazilian Amazon. During two rainy seasons in 2019 and 2020, we sampled 9,467 mosquitoes at 244 unique sites using BG-Sentinel traps, hand-nets, and Prokopack aspirators. Species richness and diversity were generally higher at 0 m and 500 m than at 1000 m and 2000 m, while mosquito community composition changed considerably between the forest edge and 500 m before stabilizing by 1000 m. Shifts in environmental variables mainly occurred between the edge and 500 m, and the occurrence of key taxa (Aedes albopictus, Ae. scapularis, Limatus durhamii, Psorophora amazonica, Haemagogus, and Sabethes) was associated with one or more of these variables. Sites where Ae. aegypti and Ae. albopictus were detected had significantly higher surrounding mean NDBI (Normalized Difference Built-up Index) values than sites where they were not detected, while the opposite was true for Sabethes mosquitoes. Our findings suggest that major changes in mosquito communities and environmental variables occur within 500 m of the forest edge, where there is high risk for contact with both urban and sylvatic vectors. By 1000 m, conditions stabilize, species diversity decreases, and forest mosquitoes predominate. Environmental variables associated with the occurrence of key taxa may be leveraged to characterize suitable habitat and refine risk models for pathogen spillover and spillback. Author summary: Mosquito-borne viruses, including yellow fever, dengue, Zika, chikungunya, and Mayaro viruses, derive from sylvatic transmission cycles involving forest mosquitoes and wild animals. Occasionally, these sylvatic viruses spill over into humans, which can lead to limited disease outbreaks or sustained human transmission by urban mosquitoes. When translocated by humans to new geographic regions, these viruses have potential to spill back into novel sylvatic cycles, creating a lasting threat to human health. Ecotones, such as forest edges, where humans, mosquitoes, and monkeys coexist, are at high risk of spillover and spillback. We investigated changes in mosquito community composition at incremental distances up to 2000 m into rainforest bordering the Amazonian city of Manaus, where the above viruses circulate in urban and sylvatic cycles. We also characterized mosquito habitat and analyzed associations between key vector species and environmental variables like temperature and vegetation. Our results show that mosquito communities and environmental variables change abruptly within 500 m of the forest edge, where there is high risk for contact of both monkeys and humans with both urban and forest mosquitoes. By 1000 m, conditions stabilize, and forest mosquitoes predominate. Environmental variables associated with the presence of particular mosquito taxa will help characterize suitable habitat for key vector species and refine spillover and spillback risk models for these viruses. [ABSTRACT FROM AUTHOR]

Published

2023

6. Towards the Laboratory Maintenance of Haemagogus janthinomys (Dyar, 1921), the Major Neotropical Vector of Sylvatic Yellow Fever.

Author

Hendy, Adam, Fé, Nelson Ferreira, Valério, Danielle, Hernandez-Acosta, Eduardo, Chaves, Bárbara A., da Silva, Luís Felipe Alho, Santana, Rosa Amélia Gonçalves, da Costa Paz, Andréia, Soares, Matheus Mickael Mota, Assunção, Flamarion Prado, Andes Jr., José Tenaçol, Andolina, Chiara, Scarpassa, Vera Margarete, de Lacerda, Marcus Vinícius Guimarães, Hanley, Kathryn A., and Vasilakis, Nikos

Subjects

YELLOW fever, BLOOD substitutes, ARTIFICIAL feeding, CHIKUNGUNYA virus, PHYTOPLASMAS

Abstract

Haemagogus (Haemagogus) janthinomys (Dyar, 1921), the major neotropical vector of sylvatic yellow fever virus, is notoriously difficult to maintain in captivity. It has never been reared beyond an F1 generation, and almost no experimental transmission studies have been performed with this species since the 1940s. Herein we describe installment hatching, artificial blood feeding, and forced-mating techniques that enabled us to produce small numbers of F3 generation Hg. janthinomys eggs for the first time. A total of 62.8% (1562/2486) F1 generation eggs hatched during ≤10 four-day cycles of immersion in a bamboo leaf infusion followed by partial drying. Hatching decreased to 20.1% (190/944) in the F2 generation for eggs laid by mosquitoes copulated by forced mating. More than 85% (79/92) female F2 mosquitoes fed on an artificial blood feeding system. While we were unable to maintain a laboratory colony of Hg. janthinomys past the F3 generation, our methods provide a foundation for experimental transmission studies with this species in a laboratory setting, a critical capacity in a region with hyper-endemic transmission of dengue, Zika, and chikungunya viruses, all posing a risk of spillback into a sylvatic cycle. [ABSTRACT FROM AUTHOR]

Published

2023

7. Into the woods: Changes in mosquito community composition and presence of key vectors at increasing distances from the urban edge in urban forest parks in Manaus, Brazil.

Author

Hendy, Adam, Hernandez-Acosta, Eduardo, Chaves, Bárbara Aparecida, Fé, Nelson Ferreira, Valério, Danielle, Mendonça, Claudia, Lacerda, Marcus Vinícius Guimarães de, Buenemann, Michaela, Vasilakis, Nikos, and Hanley, Kathryn A.

Subjects

*AEDES aegypti, *FOREST reserves, *URBAN parks, *NORMALIZED difference vegetation index, *AEDES albopictus, *COMMUNITY change, *EDGE effects (Ecology)

Abstract

• Mosquito diversity is similar between urban forest park edge and interior. • Mosquito community composition changes substantially between edge and interior. • Urban arbovirus vectors Ae. aegypti and Ae. albopictus penetrate 100 m into forests. • Urban parks are potential refugia for Ae. albopictus and Ae. aegypti from control. • Both urban and sylvatic mosquitoes may act as arbovirus bridge vectors in parks. Mosquito-borne Zika virus (ZIKV) was recently introduced into the Americas and now has the potential to spill back into a sylvatic cycle in the region, likely involving non-human primates and Aedes, Haemagogus , and Sabethes species mosquitoes. We investigated potential routes of mosquito-borne virus exchange between urban and sylvatic transmission cycles by characterizing mosquito communities in three urban forest parks that receive heavy traffic from both humans and monkeys in Manaus, Brazil. Parks were stratified by both distance from the urban-forest edge (0, 50, 100, and 500 m) and relative Normalized Difference Vegetation Index (NDVI) (low, medium, or high), and mosquitoes were sampled at randomly selected sites within each stratum using BG-Sentinel traps. Additionally, temperature, relative humidity, and other environmental data were collected at each site. A total of 1,172 mosquitoes were collected from 184 sites sampled in 2018, of which 98 sites were resampled in 2019. Using park as the unit of replication (i.e. 3 replicates per sampling stratum), a two-way ANOVA showed no effect of distance or NDVI on the mean number of identified species (P > 0.05 for both comparisons) or on species diversity as measured by the Shannon-Wiener diversity index (P > 0.10 for both comparisons). However, the Morisita overlap index revealed that mosquito communities changed substantially with increasing distance from edge, with communities at 0 m and 500 m being quite distinct. Aedes albopictus and Ae. aegypti penetrated at least 100 m into the forest, while forest specialists including Haemagogus janthinomys, Sabethes glaucodaemon , and Sa. tridentatus were detected in low numbers within 100 m from the forest edge. Trichoprosopon digitatum and Psorophora amazonica were among the most abundant species collected, and both showed distributions extending from the forest edge to its interior. Our results show overlapping distributions of urban and forest mosquitoes at park edges, which highlights the risk of arbovirus exchange via multiple bridge vectors in Brazilian urban forest parks. These parks may also provide refugia for both Ae. albopictus and Ae. aegypti from mosquito control programs. Image, graphical abstract [ABSTRACT FROM AUTHOR]

Published

2020

8. Towards the Laboratory Maintenance of Haemagogus janthinomys (Dyar, 1921), the Major Neotropical Vector of Sylvatic Yellow Fever.

Author

Hendy A, Fé NF, Valério D, Hernandez-Acosta E, Chaves BA, da Silva LFA, Santana RAG, da Costa Paz A, Soares MMM, Assunção FP, Andes JT Jr, Andolina C, Scarpassa VM, de Lacerda MVG, Hanley KA, and Vasilakis N

Subjects

Animals, Female, Mosquito Vectors, Yellow fever virus, Brazil, Yellow Fever, Blood Substitutes, Culicidae, Zika Virus Infection, Zika Virus

Abstract

Haemagogus (Haemagogus) janthinomys (Dyar, 1921), the major neotropical vector of sylvatic yellow fever virus, is notoriously difficult to maintain in captivity. It has never been reared beyond an F 1 generation, and almost no experimental transmission studies have been performed with this species since the 1940s. Herein we describe installment hatching, artificial blood feeding, and forced-mating techniques that enabled us to produce small numbers of F 3 generation Hg. janthinomys eggs for the first time. A total of 62.8% (1562/2486) F 1 generation eggs hatched during ≤10 four-day cycles of immersion in a bamboo leaf infusion followed by partial drying. Hatching decreased to 20.1% (190/944) in the F 2 generation for eggs laid by mosquitoes copulated by forced mating. More than 85% (79/92) female F 2 mosquitoes fed on an artificial blood feeding system. While we were unable to maintain a laboratory colony of Hg. janthinomys past the F 3 generation, our methods provide a foundation for experimental transmission studies with this species in a laboratory setting, a critical capacity in a region with hyper-endemic transmission of dengue, Zika, and chikungunya viruses, all posing a risk of spillback into a sylvatic cycle.

Published

2022