On the Photo-Eradication of Methicillin-Resistant Staphylococcus aureus Biofilm Using Methylene Blue

This work compared the effectiveness of several Methylene Blue (MB)-based protocols for photo-eradication of biofilms formed on the surface of the glass and stainless steel discs by S. aureus MRSA isolates using a diode laser (lambda = 665 nm; output power 40 mW; energy fluence was 189 J cm(-2)). The results obtained showed that MB alone, up to a concentration of 62.5 mgL(-1), had limited photo-bactericidal activity. It was possible to enhance the activity of MB using two types of spherical gold nanoparticles of similar sizes, 15 +/- 3 nm/20 +/- 3 nm, but differing in the method of their synthesis and stabilization. The enhancement of the photodestruction effect was related to the increased production of hydroxyl radicals by the MB+gold nanoparticles mixture, and this mixture showed dark cytotoxicity against the cocci studied. Effective destruction (mortality above 99.9%) of the biofilms formed by MRSA isolates was also possible without the use of gold nanoparticles, but the concentration of MB had to be at least 125 mgL(-1). A highly efficient protocol of photodestruction of biofilms, consisting of triple exposure of biofilms to laser light in the presence of MB alone, combined with the removal of dead bacteria protecting deep layers of pathogens against photosensitization, was also described.

Automated summary

This study compared the efficacy of different Methylene Blue (MB)-based protocols for eradicating biofilms on glass and stainless steel discs by MRSA isolates using a diode laser. The results showed that MB alone had limited bactericidal activity, but the addition of spherical gold nanoparticles increased the destruction of biofilms. A highly efficient protocol involving triple exposure to laser light and the removal of dead bacteria protecting deep layers of pathogens was also described.