| Literature DB >> 34357296 |
Kun Luan1,2, Andre J West3, Marian G McCord1, Emiel A DenHartog2, Quan Shi2, Isa Bettermann4, Jiayin Li3, Nicholas V Travanty5, Robert D Mitchell5, Grayson L Cave5, John B Strider5, Yongxin Wang2, Florian Neumann4, Tobias Beck4, Charles S Apperson5,6, R Michael Roe5,6.
Abstract
Garments treated with chemical insecticides are commonly used to prevent mosquito bites. Resistance to insecticides, however, is threatening the efficacy of this technology, and people are increasingly concerned about the potential health impacts of wearing insecticide-treated clothing. Here, we report a mathematical model for fabric barriers that resist bites from Aedes aegypti mosquitoes based on textile physical structure and no insecticides. The model was derived from mosquito morphometrics and analysis of mosquito biting behavior. Woven filter fabrics, precision polypropylene plates, and knitted fabrics were used for model validation. Then, based on the model predictions, prototype knitted textiles and garments were developed that prevented mosquito biting, and comfort testing showed the garments to possess superior thermophysiological properties. Our fabrics provided a three-times greater bite resistance than the insecticide-treated cloth. Our predictive model can be used to develop additional textiles in the future for garments that are highly bite resistant to mosquitoes.Entities:
Keywords: bite-proof garment; model; mosquito; non-insecticidal; physical barrier; textile
Year: 2021 PMID: 34357296 DOI: 10.3390/insects12070636
Source DB: PubMed Journal: Insects ISSN: 2075-4450 Impact factor: 2.769