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  1. 3481
    por Miranda, Miguel Ángel, Barceló, Carlos, Arnoldi, Daniele, Augsten, Xenia, Bakran-Lebl, Karin, Balatsos, George, Bengoa, Mikel, Bindler, Philippe, Boršová, Kristina, Bourquia, Maria, Bravo-Barriga, Daniel, Čabanová, Viktória, Caputo, Beniamino, Christou, Maria, Delacour, Sarah, Eritja, Roger, Fassi-Fihri, Ouafaa, Ferraguti, Martina, Flacio, Eleonora, Frontera, Eva, Fuehrer, Hans-Peter, García-Pérez, Ana L., Georgiades, Pantelis, Gewehr, Sandra, Goiri, Fátima, González, Mikel Alexander, Gschwind, Martin, Gutiérrez-López, Rafael, Horváth, Cintia, Ibáñez-Justicia, Adolfo, Jani, Viola, Kadriaj, Përparim, Kalan, Katja, Kavran, Mihaela, Klobucar, Ana, Kurucz, Kornélia, Lucientes, Javier, Lühken, Renke, Magallanes, Sergio, Marini, Giovanni, Martinou, Angeliki F., Michelutti, Alice, Mihalca, Andrei Daniel, Montalvo, Tomás, Montarsi, Fabrizio, Mourelatos, Spiros, Muja-Bajraktari, Nesade, Müller, Pie, Notarides, Gregoris, Osório, Hugo Costa, Oteo, José A., Oter, Kerem, Pajović, Igor, Palmer, John R. B., Petrinic, Suncica, Răileanu, Cristian, Ries, Christian, Rogozi, Elton, Ruiz-Arrondo, Ignacio, Sanpera-Calbet, Isis, Sekulić, Nebojša, Sevim, Kivanc, Sherifi, Kurtesh, Silaghi, Cornelia, Silva, Manuel, Sokolovska, Nikolina, Soltész, Zoltán, Sulesco, Tatiana, Šušnjar, Jana, Teekema, Steffanie, Valsecchi, Andrea, Vasquez, Marlen Ines, Velo, Enkelejda, Michaelakis, Antonios, Wint, William, Petrić, Dušan, Schaffner, Francis, della Torre, Alessandra
    Publicado 2022
    “…Six Aedes invasive mosquito (AIM) species were introduced to Europe since the 1970s: Aedes aegypti, Ae. albopictus, Ae. japonicus, Ae. koreicus, Ae. atropalpus and Ae. triseriatus. …”
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    AIMSurv: First pan-European harmonized surveillance of Aedes invasive mosquito species of relevance for human vector-borne diseases
  2. 3482
    “…It is caused by being bitten by a dengue virus-infected female mosquito, primarily Aedes aegypti and, lesser, Ae. albopictus. Dengue virus is a member of the Flavivirus genus of the Flaviviridae family and has four independent but antigen-related single-stranded positive-sense RNA virus serotypes. …”
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    Epidemiology, biology, pathogenesis, clinical manifestations, and diagnosis of dengue virus infection, and its trend in Ethiopia: a comprehensive literature review
  3. 3483
    “…We evaluated several Brassicaceae (mustard family) seed meals as sources of plant derived isothiocyanates produced from the enzymatic hydrolysis of biologically inactive glucosinolates for the control of Aedes aegypti (L., 1762). Five defatted seed meals (Brassica juncea (L) Czern., 1859, Lepidium sativum L., 1753, Sinapis alba L., 1753, Thlaspi arvense L., 1753, and Thlaspi arvense—heat inactivated and three major chemical products of enzymatic degradation (allyl isothiocyanate, benzyl isothiocyanate and 4-hydroxybenzyl isothiocyanate) were assayed to determine toxicity (LC(50)) to Ae. aegypti larvae. …”
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    Bioactivity of brassica seed meals and its compounds as ecofriendly larvicides against mosquitoes
  4. 3484
    “…METHODS: Fully balanced Latin square design experiments (no-choice and dual choice) were conducted in semi-field chambers using laboratory-reared female Anopheles gambiae sensu stricto, Anopheles funestus, Anopheles arabiensis, Culex quinquefasciatus and Aedes aegypti. There were 16 replicates, and 50 mosquitoes of each species were released in each chamber per replicate. …”
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    The MTego trap: a potential tool for monitoring malaria and arbovirus vectors
  5. 3485
    “…BACKGROUND: Aedes aegypti, the vector of arboviral diseases such as dengue and Zika virus infections, is difficult to control. …”
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    Contexts motivating protective behaviours related to Aedes-borne infectious diseases in Curaçao
  6. 3486
    “…The Torres Strait has both Aedes albopictus and Aedes aegypti and is close to Papua New Guinea where dengue fever is endemic. …”
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    Factors influencing the community participation approaches used in Aedes mosquito management in the Torres Strait, Australia
  7. 3487
    “…Having updated the database, all mosquitoes tested by MALDI-TOF MS were identified with scores greater than or equal to 1.7 as An. gambiae (n = 64), Anopheles coluzzii (n = 12), An. arabiensis (n = 1), An. funestus (n = 7), An. cf rivulorum (n = 1), Lutzia tigripes (n = 3), Cx. nebulosus (n = 211), Culex quinquefasciatus (n = 2), Culex duttoni (n = 1), Culex perfescus (n = 1), Culex tritaeniorhynchus (n = 1), and Aedes aegypti (n = 2). Blood meal identification by MALDI-TOF MS revealed that mosquitoes had fed on the blood of humans (n = 97), cows (n = 6), dogs (n = 2), goats (n = 1), sheep (n = 1), and bats (n = 1). …”
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    Using MALDI-TOF MS to Identify Mosquitoes from Senegal and the Origin of Their Blood Meals
  8. 3488
    “…How ATP and sucrose modulate the rate of toxicity in the yellow fever mosquito Aedes aegypti was also examined. METHODS: A no-choice feeding assay was used to investigate the phagostimulatory ability of ATP to override the aversive effects of structurally divergent antifeedant and toxicant compounds, and to modulate the rate of toxicity over 24 h. …”
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    Adenosine triphosphate overrides the aversive effect of antifeedants and toxicants: a model alternative phagostimulant for sugar-based vector control tools
  9. 3489
    “…Barcoding of the flavivirus positive mosquitoes revealed the mosquito species as Aedes aegypti (1), Mansonia uniformis (6), Anopheles spp (3), Culex pipiens (5), Culex spp (1), Coquilletidia metallica (2) and Culex quinquefasciatus (1). …”
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    Novel strains of Culex flavivirus and Hubei chryso-like virus 1 from the Anopheles mosquito in western Kenya
  10. 3490
    “…The most dominant species were Culex quinquefasciatus, Anopheles gambiae sensu lato and Aedes aegypti. Alpha diversity was similar in the two regions. …”
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    Mosquito (Diptera: Culicidae) populations in contrasting areas of the western regions of Burkina Faso: species diversity, abundance and their implications for pathogen transmission
  11. 3491
    “…RESULTS: Median lethal concentration (LC(50)) of the formulation against Anopheles stephensi, Culex quinquefasciatus and Aedes aegypti was found to be 1.6, 1.8 and 1.7 ppm respectively. …”
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    Larvicidal activity of neem oil (Azadirachta indica) formulation against mosquitoes
  12. 3492
    “…As blood sampling coincided with the peak of dengue transmission, we were also able to identify recent dengue infections and visually relate them to Aedes aegypti spatial distribution abundance. We analyzed individual and spatial factors associated with seroprevalence using Generalized Additive Model (GAM). …”
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    Spatial Evaluation and Modeling of Dengue Seroprevalence and Vector Density in Rio de Janeiro, Brazil
  13. 3493
    “…BACKGROUND: Angelica sinensis (Oliv.) hexane extract (AHE) has been reported as a proven and impressive repellent against laboratory-reared female Aedes aegypti mosquitoes. With the aim of promoting products of plant origin as a viable alternative to conventional synthetic substances, this study was designed to transform AHE-based repellents for exploitable commercial production by enhancing their efficacy and assessing their physical and biological stability as well as repellency against mosquitoes under laboratory and field conditions. …”
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    Assessment of Angelica sinensis (Oliv.) Diels as a repellent for personal protection against mosquitoes under laboratory and field conditions in northern Thailand
  14. 3494
    “…These novel sequences provided a basis to initiate gene expression analyses and determine if the proposed L. giganteum virulence factors are differentially expressed in the presence of mosquito larvae (Aedes aegypti). RESULTS: Sequence analyses revealed that L. giganteum express CRN13 transcripts. …”
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    Glycoside hydrolases family 20 (GH20) represent putative virulence factors that are shared by animal pathogenic oomycetes, but are absent in phytopathogens
  15. 3495
    “…Interventions had no apparent effect on pupil school absence due to diarrheal disease (p = 0.45) or on adult female Aedes aegypti density (p = 0.32) (primary outcomes). …”
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    A Cluster-Randomized Controlled Trial to Reduce Diarrheal Disease and Dengue Entomological Risk Factors in Rural Primary Schools in Colombia
  16. 3496
    “…In the Asian tiger mosquito, Aedes albopictus, at least four different mutations were described in the IIIS6 Na(V) segment in populations from Asia, North America and Europe. In contrast, in Aedes aegypti at least 12 non-synonymous mutations have been reported at nine different codons, mostly in the IIS6 and IIIS6 Na(V) segments. …”
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    First report of the Phe1534Cys kdr mutation in natural populations of Aedes albopictus from Brazil
  17. 3497
    “…BACKGROUND: Temephos in domestic water containers remains a mainstay of Latin American government programmes for control of Aedes aegypti and associated illnesses, including dengue. …”
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    Coverage and beliefs about temephos application for control of dengue vectors and impact of a community-based prevention intervention: secondary analysis from the Camino Verde trial in Mexico
  18. 3498
    “…Substantial outbreaks of yellow fever in Angola, Democratic Republic of the Congo, and Brazil, coupled with the global expansion of the range of its main urban vector, Aedes aegypti, suggest that yellow fever has the propensity to spread further internationally. …”
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    Existing and potential infection risk zones of yellow fever worldwide: a modelling analysis
  19. 3499
    “…BACKGROUND: Dengue and other arboviruses transmitted by Aedes aegypti mosquitoes, including Zika and chikungunya, present an increasing public health challenge in tropical regions. …”
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    The AWED trial (Applying Wolbachia to Eliminate Dengue) to assess the efficacy of Wolbachia-infected mosquito deployments to reduce dengue incidence in Yogyakarta, Indonesia: study protocol for a cluster randomised controlled trial
  20. 3500
    “…The present study was aimed to evaluate the neurobehavioral toxicity, knock-down effect, histopathology, ovicidal, adulticidal, and smoke toxicity effect of Aspergillus terreus extract against three mosquito species, namely Anopheles stephensi, Culex quinquefasciatus, and Aedes aegypti (Diptera: Culicidae). The isolated fungal strain was identified as A. terreus (GenBank accession no: KX694148.1) through morphological and molecular (phylogenetic) analysis. …”
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    Aspergillus terreus (Trichocomaceae): A Natural, Eco-Friendly Mycoinsecticide for Control of Malaria, Filariasis, Dengue Vectors and Its Toxicity Assessment Against an Aquatic Model Organism Artemia nauplii
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