Public healthNew technology makes textiles permanently germ-free
University of Georgia scientist develops a new technology that makes textiles permanently germ-free, targeting healthcare-associated infections; the new material effectively kills a wide spectrum of bacteria, yeasts, and molds that can cause disease, break down fabrics, create stains, and produce odors
Imagine a future of ever-fresh shirts // Source: re-nest.com
A University of Georgia researcher has invented a new technology that can inexpensively render medical linens and clothing, face masks, paper towels — and even diapers, intimate apparel and athletic wear, including smelly socks — permanently germ-free.
The simple and inexpensive anti-microbial technology works on natural and synthetic materials. The technology can be applied during the manufacturing process or at home, and it does not come out in the wash. Unlike other anti-microbial technologies, repeated applications are unnecessary to maintain effectiveness.
“The spread of pathogens on textiles and plastics is a growing concern, especially in healthcare facilities and hotels, which are ideal environments for the proliferation and spread of very harmful microorganisms, but also in the home,” said Jason Locklin, the inventor, who is an assistant professor of chemistry in the Franklin College of Arts and Sciences and on the Faculty of Engineering.
A University of Georgia release reports that the anti-microbial treatment invented by Locklin, which is available for licensing from the University of Georgia Research Foundation, Inc. (UGARF), effectively kills a wide spectrum of bacteria, yeasts, and molds that can cause disease, break down fabrics, create stains, and produce odors.
According to the Centers for Disease Control and Prevention (CDC), approximately one of every twenty hospitalized patients will contract a healthcare-associated infection. Lab coats, scrub suits, uniforms, gowns, gloves, and linens are known to harbor the microbes that cause patient infections.
Consumers’ concern about harmful microbes has spurred the market for clothing, undergarments, footwear and home textiles with antimicrobial products. To be practical, however, both commercial and consumer anti-microbial products must be inexpensive and lasting.
“Similar technologies are limited by cost of materials, use of noxious chemicals in the application or loss of effectiveness after a few washings,” said Gennaro Gama, UGARF senior technology manager. “Locklin’s technology uses ingeniously simple, inexpensive and scalable chemistry.”
Gama said the technology is simple to apply in the manufacturing of fibers, fabrics, filters, and plastics. It also can bestow antimicrobial properties on finished products, such as athletic wear and shoes, and textiles for the bedroom, bathroom and kitchen.
“The advantage of UGARF’s technology over competing methods,” said Gama, “is that the permanent antimicrobial can be applied to a product at any point of the manufacture-sale-use continuum. In contrast, competing technologies require blending of the antimicrobial in the manufacturing process.”
“In addition,” said Gama, “If for some reason the antimicrobial layer is removed from an article — through abrasion, for example — it can be reapplied by simple spraying.”
Locklin said the antimicrobial was tested against many of the pathogens common in healthcare settings, including staph, strep, E. coli, pseudomonas, and acetinobacter. After just a single application, no bacterial growth was observed on the textile samples added to the culture — even after 24 hours at 37 degrees Celsius.
A paper on the new technology was published by Locklin and colleagues online 21 June in ACS Applied Materials & Interfaces, a peer-reviewed journal of the American Chemical Society.