April 18, 2023 — A safe, new method to prevent mosquito bites using a skin coating from naturally occurring cellulose nanocrystals (CNCs) has been developed by researchers at the Hebrew University of Jerusalem.
According to a new study published in PNAS NEXUS, applying the thin CNC coating on human skin decreased the number of mosquitoes feeding by 80%. Cellulose nanocrystals (CNCs) are renewable raw materials produced from wood, cotton, or other cellulose-rich sources and are used in cosmetics, composites, food packaging, and medical devices. CNCs are known to self-assemble in strong, transparent, chemical barrier films.
Mosquitoes are the deadliest of all insects and animals combined, affecting millions, and killing hundreds of thousands of people annually. Existing protection methods, however, are limited and include volatile compounds that actively repel mosquitoes such as N,N-Diethyl-meta-toluamide (DEET) or other essential oils such as geraniol and citronella.
CNC appears to act as a chemical camouflage to the many cues sought by the insects and was found to reduce the blood feeding in the deadly mosquito, Aedes aegypti. It was tested on a single human hand and on an artificial feeding system by assessing the eggs laid after feeding with and without CNC. The combined effect of CNC with indole reduced egg laying post-exposure to mammalian blood close to zero, with 99.4% fewer eggs compared to the control.
Other Hebrew University researchers that participated in the study include Daniel Voignac, Evyatar Sar-Shalom, and Oded Shoseyov of the Hebrew University Robert H. Smith Institute of Plant Sciences and Genetics in Agriculture, Food, and Environment. Prof. Voignac and Yossi Paltiel are both members of the Harvey M. Krueger Family Center for Nanoscience and Nanotechnology at the Racah Institute of Physics.