Search results for "Mosquito Control"

showing 3 items of 13 documents

Proposed use of spatial mortality assessments as part of the pesticide evaluation scheme for vector control

2013

Background: The WHO Pesticide Evaluation Scheme to evaluate the efficacy of insecticides does not include the testing of a lethal effect at a distance. A tool was developed to evaluate the spatial mortality of an insecticide product against adult mosquitoes at a distance under laboratory and field conditions. Operational implications are discussed. Methods: Insecticide paint, Inesfly 5A IGR (TM), containing two organophosphates (OPs): chlorpyrifos and diazinon, and one insect growth regulator (IGR): pyriproxyfen, was the product tested. Laboratory tests were performed using "distance boxes" with surfaces treated with one layer of control or insecticide paint at a dose of 1 kg/6 sq m. Field …

Scheme (programming language)WHOPESInsecticidesMosquito ControlBiologyToxicologyIndoor residual spraying (IRS)Insecticide paintMass effectStatisticsAnophelesInsecticide-treated nets (ITNs)Animalscomputer.programming_languageSpatial AnalysisVector controlResearchLong-lasting insecticidal nets (LLINs)insecticidal nets (LLINs)PesticideSurvival AnalysisVector controlCulexInfectious DiseasesLong-lastingParasitologycomputerField conditionsMalaria Journal
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From the Field to the Laboratory: Quantifying Outdoor Mosquito Landing Rate to Better Evaluate Topical Repellents.

2021

Abstract Vector-borne diseases are a worldwide threat to human health. Often, no vaccines or treatments exist. Thus, personal protection products play an essential role in limiting transmission. The World Health Organization (WHO) arm-in-cage (AIC) test is the most common method for evaluating the efficacy of topical repellents, but it remains unclear whether AIC testing conditions recreate the mosquito landing rates in the field. This study aimed to estimate the landing rate outdoors, in an area of Europe highly infested with the Asian tiger mosquito (Aedes albopictus (Skuse, 1894, Diptera: Culididae)), and to determine how to replicate this rate in the laboratory. To assess the landing ra…

Veterinary medicineAedes albopictusMosquito Control030231 tropical medicineCommon methodMosquito VectorsWorld health03 medical and health sciencesHuman health0302 clinical medicineAedesparasitic diseasesAnimals030304 developmental biology0303 health sciencesGeneral VeterinarybiologyfungiReplicateFeeding Behaviorbiology.organism_classificationInfectious DiseasesItalyInsect ScienceReference valuesFlight AnimalInsect RepellentsTiger mosquitoParasitologyFemaleField conditionsJournal of medical entomology
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Global change and human vulnerability to vector-borne diseases

2013

This e-book presents a collection of research and review articles related to the spread, control and basic understanding of vector borne diseases all over the world. It is well known that a multidisciplinary point of view is necessary in order to develop a global vision of this emergent problem. Therefore, in order to promote this holistic approach to the knowledge of vector borne diseases, this e-book contains a total of 19 collaborations of entomologists, epidemiologists, virologists, parasitologists, bacteriologists, zoologists and veterinarians of Europe, Africa, Asia, and America. The title perfectly reflects some of the global factors that are behind the emergence and/or reemergence o…

medicine.medical_specialtyOperations researchlcsh:QP1-981Transmission (medicine)PhysiologyPublic healthBiodiversityEditorial ArticleClimate changeGlobal changeBiologyWork relatedMosquitoeslcsh:PhysiologyMosquito controlTicksPhysiology (medical)Vector (epidemiology)vector-borne diseasesmedicinePublic HealthEnvironmental planningglobal changeFrontiers in Physiology
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