Bacterial Photoinactivation Using PLGA Electrospun Scaffolds.
Aline O PereiraIsabella M I LopesThiago R SilvaThaila Q CorrêaRafaella T PaschoalinNatalia M InadaIevgeniia IermakFrancisco van Riel NetoJuliana C Araujo-ChavesAlexandre MarlettaJosé R TozoniLuiz Henrique Capparelli MattosoVanderlei S BagnatoIseli L Nantes-CardosOsvaldo N OliveiraPatricia Targon CampanaPublished in: ACS applied materials & interfaces (2021)
The use of ultraviolet (UV) and blue irradiation to sterilize surfaces is well established, but commercial applications would be enhanced if the light source is replaced with ambient light. In this paper, it is shown that nanofibers can be explored as an alternative methodology to UV and blue irradiation for bacterial inactivation. It is demonstrated that this is indeed possible using spun nanofibers of poly[lactic-co-(glycolic acid)] (PLGA). This work shows that PLGA spun scaffolds can promote photoinactivation of Staphylococcus aureus and Escherichia coli bacteria with ambient light or with laser irradiation at 630 nm. With the optimized scaffold composition of PLGA85:15 nanofibers, the minimum intensity required to kill the bacteria is much lower than in antimicrobial blue light applications. The enhanced effect introduced by PLGA scaffolds is due to their nanofiber structures since PLGA spun nanofibers were able to inactivate both S. aureus and E. coli bacteria, but cast films had no effect. These findings pave the way for an entirely different method to sterilize surfaces, which is less costly and environmentally friendly than current procedures. In addition, the scaffolds could also be used in cancer treatment with fewer side effects since photosensitizers are not required.