2024
Travel surveillance uncovers dengue virus dynamics and introductions in the Caribbean
Taylor-Salmon E, Hill V, Paul L, Koch R, Breban M, Chaguza C, Sodeinde A, Warren J, Bunch S, Cano N, Cone M, Eysoldt S, Garcia A, Gilles N, Hagy A, Heberlein L, Jaber R, Kassens E, Colarusso P, Davis A, Baudin S, Rico E, Mejía-Echeverri Á, Scott B, Stanek D, Zimler R, Muñoz-Jordán J, Santiago G, Adams L, Paz-Bailey G, Spillane M, Katebi V, Paulino-Ramírez R, Mueses S, Peguero A, Sánchez N, Norman F, Galán J, Huits R, Hamer D, Vogels C, Morrison A, Michael S, Grubaugh N. Travel surveillance uncovers dengue virus dynamics and introductions in the Caribbean. Nature Communications 2024, 15: 3508. PMID: 38664380, PMCID: PMC11045810, DOI: 10.1038/s41467-024-47774-8.Peer-Reviewed Original ResearchMeSH KeywordsCaribbean RegionDengueDengue VirusDisease OutbreaksEpidemiological MonitoringHumansPhylogenySerogroupTravelConceptsDengue virusDENV-3Rates of severe diseaseMosquito-borne viral diseasePublic health threatPattern of spreadSevere diseaseLocal surveillanceGenomic epidemiologyEpidemiological patternsVirus surveillanceSurveillanceHealth threatSerotypesDiseaseIncreased rateDengueViral diseasesVirusInfected travelersFrequent outbreaks
2023
Dynamics of eastern equine encephalitis virus during the 2019 outbreak in the Northeast United States
Hill V, Koch R, Bialosuknia S, Ngo K, Zink S, Koetzner C, Maffei J, Dupuis A, Backenson P, Oliver J, Bransfield A, Misencik M, Petruff T, Shepard J, Warren J, Gill M, Baele G, Vogels C, Gallagher G, Burns P, Hentoff A, Smole S, Brown C, Osborne M, Kramer L, Armstrong P, Ciota A, Grubaugh N. Dynamics of eastern equine encephalitis virus during the 2019 outbreak in the Northeast United States. Current Biology 2023, 33: 2515-2527.e6. PMID: 37295427, PMCID: PMC10316540, DOI: 10.1016/j.cub.2023.05.047.Peer-Reviewed Original ResearchToward a global virus genomic surveillance network
Hill V, Githinji G, Vogels C, Bento A, Chaguza C, Carrington C, Grubaugh N. Toward a global virus genomic surveillance network. Cell Host & Microbe 2023, 31: 861-873. PMID: 36921604, PMCID: PMC9986120, DOI: 10.1016/j.chom.2023.03.003.Peer-Reviewed Original Research
2021
Reproducing the Rift Valley fever virus mosquito-lamb-mosquito transmission cycle
Wichgers Schreur PJ, Vloet RPM, Kant J, van Keulen L, Gonzales JL, Visser TM, Koenraadt CJM, Vogels CBF, Kortekaas J. Reproducing the Rift Valley fever virus mosquito-lamb-mosquito transmission cycle. Scientific Reports 2021, 11: 1477. PMID: 33446733, PMCID: PMC7809480, DOI: 10.1038/s41598-020-79267-1.Peer-Reviewed Original ResearchMeSH KeywordsAedesAnimalsDisease OutbreaksDisease VectorsModels, AnimalMosquito VectorsRift Valley FeverRift Valley fever virusSheep, DomesticConceptsRift Valley fever virusAnimal modelsFeeding of mosquitoesNatural target speciesMortality of newbornsEfficacy of vaccinesHigher infection rateViremia levelsIntravenous inoculationTransmission of mosquitoVector competence experimentsAedes aegypti mosquitoesBlood-feeding behaviorRVFV infectionInfected mosquitoesExtrinsic incubation periodInfection rateMembrane feedingFever virusRVFV transmissionAbortion stormsAegypti mosquitoesBlood mealVirusTransmission cycle
2019
Arbovirus coinfection and co-transmission: A neglected public health concern?
Vogels CBF, Rückert C, Cavany SM, Perkins TA, Ebel GD, Grubaugh ND. Arbovirus coinfection and co-transmission: A neglected public health concern? PLOS Biology 2019, 17: e3000130. PMID: 30668574, PMCID: PMC6358106, DOI: 10.1371/journal.pbio.3000130.Peer-Reviewed Original ResearchConceptsImpact of coinfectionPublic health concernPublic healthEpidemiological synergyVirus coinfectionAedes aegypti mosquitoesClinical diseaseSuch coinfectionsZika virusCoinfectionOutbreaks of virusesHealth concernAegypti mosquitoesMultiple virusesTransmission dynamicsVirusHealthHumansMosquitoesDiseaseDengue
2017
Modelling West Nile virus transmission risk in Europe: effect of temperature and mosquito biotypes on the basic reproduction number
Vogels CBF, Hartemink N, Koenraadt CJM. Modelling West Nile virus transmission risk in Europe: effect of temperature and mosquito biotypes on the basic reproduction number. Scientific Reports 2017, 7: 5022. PMID: 28694450, PMCID: PMC5504010, DOI: 10.1038/s41598-017-05185-4.Peer-Reviewed Original Research
2016
Latitudinal Diversity of Culex pipiens Biotypes and Hybrids in Farm, Peri-Urban, and Wetland Habitats in Europe
Vogels CB, Möhlmann TW, Melsen D, Favia G, Wennergren U, Koenraadt CJ. Latitudinal Diversity of Culex pipiens Biotypes and Hybrids in Farm, Peri-Urban, and Wetland Habitats in Europe. PLOS ONE 2016, 11: e0166959. PMID: 27870890, PMCID: PMC5117740, DOI: 10.1371/journal.pone.0166959.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsChimeraCulexDisease OutbreaksEuropeRisk AssessmentUrban RenewalWest Nile FeverWest Nile virusWetlandsConceptsHabitat typesPipiens mosquitoesPipiens biotypesPopulation dynamics studiesMosquito Magnet Liberty Plus trapsWest Nile virusCulex pipiens mosquitoesLatitudinal diversityWetland habitatsCulex pipiens biotypesReal-time PCRRelative abundanceBiotype levelSpecies CxBiotypesSurveillance trapsPipiensMolestusWNV outbreaksHybrids