Litcius/Paper detail

Considerations for Human Blood-Feeding and Arthropod Exposure in Vector Biology Research: An Essential Tool for Investigations and Disease Control

Laura C. Harrington, Brian D. Foy, Michael J. Bangs

2020Vector-Borne and Zoonotic Diseases19 citationsDOIOpen Access PDF

Abstract

Eventually there may be a broadly acceptable, even perfected, substitute for the human host requirement for direct feeding experiments by arthropods, most notably mosquitoes. However, for now, direct and indirect feeding on human volunteers is an important, if not essential, tool in vector biology research (VBR). This article builds on the foundational publication by Achee et al. (2015) covering considerations for the use of human participants in VBR pursuits. The authors introduced methods involving human participation in VBR, while detailing human-landing collections (catches) as a prime example. Benedict et al. (2018) continued this theme with an overview of human participation and considerations for research that involves release of mosquito vectors into the environment. In this study, we discuss another important aspect of human use in VBR activities: considerations addressing studies that require an arthropod to feed on a live human host. Using mosquito studies as our principal example, in this study, we discuss the tremendous importance and value of this approach to support and allow study of a wide variety of factors and interactions related to our understanding of vector-borne diseases and their control. This includes establishment of laboratory colonies for test populations, characterization of essential nutrients that contribute to mosquito fitness, characterization of blood-feeding (biting) behavior and pathogen transmission, parameterization for modeling transmission dynamics, evaluation of human host attraction and/or agents that repel, and the effectiveness of antivector or parasite therapeutic drug studies.

Topics & Concepts

BiologyVector (molecular biology)Transmission (telecommunications)Host (biology)Human bloodVariety (cybernetics)Principal (computer security)Human diseaseEcologyComputer scienceArtificial intelligenceBiochemistryRecombinant DNAOperating systemTelecommunicationsGenePhysiologyMosquito-borne diseases and controlInsect symbiosis and bacterial influencesViral Infections and Vectors