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- Title
Electrospun Polymeric Nanofibers for Malaria Control: Advances in Slow‐Release Mosquito Repellent Technology.
- Authors
Mapossa, António Benjamim; da Silva Júnior, Afonso Henrique; Mhike, Washington; Sundararaj, Uttandaraman; Silva de Oliveira, Carlos Rafael
- Abstract
The textile industry comprises technologies that transform synthetic or natural fibers into yarn, cloth, and felt for manufacturing clothing, upholstery, and household linens. The major public health threat in tropical and subtropical countries is mosquito‐borne malaria. Nowadays, the demand for insect repellent‐based textiles is continuously rising, as they are used for protection against diseases transmitted by mosquitoes. The present work reviews studies on the fabrication of insect repellent containing electrospun polymeric nanofibers as principal tools for protecting people against mosquito bites. Electrospinning technology is a remarkably facile technique for fabricating polymeric nanofiber devices. The technique is outlined and elucidated. The performance of insect repellent‐based polymeric nanofibers against mosquitoes is carefully reported and comprehensively reviewed in‐depth. Furthermore, the progress made on the mathematical modeling of the release rate of repellents through polymeric nanofiber devices is reviewed. The reviewed studies demonstrate that repellents can be released slowly from electrospun nanofibers, increasing the product's protection period against insects. The reviewed works suggest that electrospinning technology has led to an effective and facile methodology for fabricating functional nanofiber textiles with insect repellent. The reviewed studies showed that product‐based repellents can be effective not only against malaria but also against other mosquito‐borne diseases.
- Subjects
HOUSEHOLD linens; INSECT baits &; repellents; TROPICAL medicine; SYNTHETIC fibers; TEXTILE industry; MOSQUITO control; YARN
- Publication
Macromolecular Materials & Engineering, 2024, Vol 309, Issue 8, p1
- ISSN
1438-7492
- Publication type
Article
- DOI
10.1002/mame.202400130