2023
Tracking antimalarial drug resistance using mosquito blood meals: a cross-sectional study
Ehrlich H, Somé A, Bazié T, Ebou C, Dembélé E, Balma R, Goodwin J, Wade M, Bei A, Ouédraogo J, Foy B, Dabiré R, Parikh S. Tracking antimalarial drug resistance using mosquito blood meals: a cross-sectional study. The Lancet Microbe 2023, 4: e461-e469. PMID: 37086737, PMCID: PMC10365133, DOI: 10.1016/s2666-5247(23)00063-0.Peer-Reviewed Original ResearchConceptsMosquito blood mealsAntimalarial drug resistanceSurvey 3Blood-fed mosquitoesBlood samplesSurvey 1Survey 2Blood mealDrug resistanceUltrasensitive quantitative PCRHuman blood samplesCross-sectional studyMargin of equivalenceStrong surveillance systemCross-sectional surveySupplementary Materials sectionMarker of clonalityPragmatic thresholdAntimalarial resistanceDrug susceptibilityInfectious diseasesPlasmodium falciparumNational InstituteTolerabilityMaterial section
2021
Analyzing gut microbiota composition in individual Anopheles mosquitoes after experimental treatment
Fofana A, Gendrin M, Romoli O, Yarbanga G, Ouédraogo G, Yerbanga R, Ouédraogo J. Analyzing gut microbiota composition in individual Anopheles mosquitoes after experimental treatment. IScience 2021, 24: 103416. PMID: 34901787, PMCID: PMC8637483, DOI: 10.1016/j.isci.2021.103416.Peer-Reviewed Original ResearchMosquito microbiotaHigh-throughput sequencing studiesHigh-throughput sequencingMosquito microbiomeMicrobiota compositionBlood digestionSemi-field conditionsMajor generaSequencing studiesGut samplesReduced microbial loadRelative abundanceMalaria transmissionOverall microbiota compositionBlood mealGut microbiota compositionInfluence of amoxicillinAnopheles mosquitoesAdult femalesNegative control dataMicrobiotaAntibiotic treatmentSpecific decreaseAmoxicillin preparationsMicrobial load
2020
High Plasmodium infection intensity in naturally infected malaria vectors in Africa
Bompard A, Da D, Yerbanga S, Morlais I, Awono-Ambéné P, Dabiré R, Ouédraogo J, Lefèvre T, Churcher T, Cohuet A. High Plasmodium infection intensity in naturally infected malaria vectors in Africa. International Journal For Parasitology 2020, 50: 985-996. PMID: 32681932, DOI: 10.1016/j.ijpara.2020.05.012.Peer-Reviewed Original ResearchConceptsOocyst-positive mosquitoesInfectious blood mealEfficacy of transmissionControl of malariaWild malaria vectorsMalaria parasite transmissionCross-sectional surveyInfection loadSalivary gland sporozoitesMalaria vectorsMalaria endemicityNumber of oocystsInfected mosquitoesMalaria transmissionOocyst prevalenceStrong positive associationPrevalencePositive associationBlood mealOocyst loadInfection intensityEpidemiologyEfficacyParasite transmissionIntervention
2016
Differential Effects of Azithromycin, Doxycycline, and Cotrimoxazole in Ingested Blood on the Vectorial Capacity of Malaria Mosquitoes
Gendrin M, Yerbanga R, Ouedraogo J, Lefèvre T, Cohuet A, Christophides G. Differential Effects of Azithromycin, Doxycycline, and Cotrimoxazole in Ingested Blood on the Vectorial Capacity of Malaria Mosquitoes. Open Forum Infectious Diseases 2016, 3: ofw074. PMID: 27419152, PMCID: PMC4943539, DOI: 10.1093/ofid/ofw074.Peer-Reviewed Original ResearchIngested bloodMass drug administration programsMosquito lifespanEffect of doxycyclineDrug administration programsMosquito vectorial capacityAntibiotic treatmentMosquito microbiotaPlasmodium infectionBlood meal supplementationInfection loadVectorial capacityGut microbiotaMalaria transmissionAzithromycinMalaria parasitesPlasmodium falciparumDisease eliminationDoxycyclineMalaria vector mosquitoesAntibioticsBlood mealDifferential effectsInfection intensityMicrobiota
2006
Personal protection of long lasting insecticide-treated nets in areas of Anopheles gambiae s.s. resistance to pyrethroids
Dabiré R, Diabaté A, Baldet T, Paré-Toé L, Guiguemdé R, Ouédraogo J, Skovmand O. Personal protection of long lasting insecticide-treated nets in areas of Anopheles gambiae s.s. resistance to pyrethroids. Malaria Journal 2006, 5: 12. PMID: 16472385, PMCID: PMC1402300, DOI: 10.1186/1475-2875-5-12.Peer-Reviewed Original ResearchConceptsBlood-fed mosquitoesBlood feeding rateMalaria vector AnBetter efficacyGambiae s.Control housesLLINsELISA analysisEfficacyEntomological parametersAnopheles gambiae s.Personal protectionBlood mealNETT studyOlysetIntervention housesPermaNetKDR geneVector AnControl conditionMosquitoesPrevention capacityStudy villagesHigher numberMolecular forms