Your search keyword '"Nicholas V. Travanty"' showing total 3 results

1. Mosquito Blood Feeding Prevention Using an Extra-Low DC Voltage Charged Cloth

Author

Kun Luan, Marian G. McCord, Andre J. West, Grayson Cave, Nicholas V. Travanty, Charles S. Apperson, and R. Michael Roe

Subjects

mosquito, electric, textile, probing, protection, low-voltage, Science

Abstract

Mosquito vector-borne diseases such as malaria and dengue pose a major threat to human health. Personal protection from mosquito blood feeding is mostly by treating clothing with insecticides and the use of repellents on clothing and skin. Here, we developed a low-voltage, mosquito-resistant cloth (MRC) that blocked all blood feeding across the textile and was flexible and breathable. The design was based on mosquito head and proboscis morphometrics, the development of a novel 3-D textile with the outer conductive layers insulated from each other with an inner, non-conductive woven mesh, and the use of a DC (direct current; extra-low-voltage) resistor-capacitor. Blockage of blood feeding was measured using host-seeking Aedes aegypti adult female mosquitoes and whether they could blood feed across the MRC and an artificial membrane. Mosquito blood feeding decreased as voltage increased from 0 to 15 volts. Blood feeding inhibition was 97.8% at 10 volts and 100% inhibition at 15 volts, demonstrating proof of concept. Current flow is minimal since conductance only occurs when the mosquito proboscis simultaneously touches the outside layers of the MRC and is then quickly repelled. Our results demonstrated for the first time the use of a biomimetic, mosquito-repelling technology to prevent blood feeding using extra-low energy consumption.

Published

2023

2. Mosquito-Textile Physics: A Mathematical Roadmap to Insecticide-Free, Bite-Proof Clothing for Everyday Life

Author

Kun Luan, Andre J. West, Marian G. McCord, Emiel A. DenHartog, Quan Shi, Isa Bettermann, Jiayin Li, Nicholas V. Travanty, Robert D. Mitchell, Grayson L. Cave, John B. Strider, Yongxin Wang, Florian Neumann, Tobias Beck, Charles S. Apperson, and R. Michael Roe

Subjects

mosquito, bite-proof garment, model, textile, non-insecticidal, physical barrier, Science

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.

Published

2021

3. Mosquito-Textile Physics: A Mathematical Roadmap to Insecticide-Free, Bite-Proof Clothing for Everyday Life

Author

Marian McCord, John B. Strider, Emiel DenHartog, Kun Luan, Grayson Cave, Jiayin Li, Yongxin Wang, R. Michael Roe, Quan Shi, Robert D. Mitchell, Isa Bettermann, Florian Neumann, Tobias Beck, Nicholas V. Travanty, Andre J. West, and Charles S. Apperson

Subjects

Architectural engineering, Textile, non-insecticidal, Science, mosquito, 02 engineering and technology, Aedes aegypti, Biology, Article, Model validation, 03 medical and health sciences, Physical structure, ddc:570, parasitic diseases, 030304 developmental biology, 0303 health sciences, model, textile, business.industry, fungi, 021001 nanoscience & nanotechnology, biology.organism_classification, Clothing, bite-proof garment, Biting, physical barrier, Physical Barrier, Insect Science, 0210 nano-technology, business

Abstract

Insects : open access journal 12(7), 636 (2021). doi:10.3390/insects12070636 special issue: "Special issue "Insecticides for mosquito control: strengthening the evidence base" / special issue editor: Rosemary S. Lees, guest editor", Published by MDPI, Basel

Published

2021