Photodynamic biofilm inactivation by SAPYR—An exclusive singlet oxygen photosensitizer
Autor: | Tim Maisch, Johannes Regensburger, Fabian Cieplik, Laura Tabenski, Andreas Späth, Gottfried Schmalz, Wolfgang Bäumler, Anita Gollmer, Karl-Anton Hiller |
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Rok vydání: | 2013 |
Předmět: |
Polymicrobial biofilm
Biochemistry Microbiology chemistry.chemical_compound Extracellular polymeric substance Anti-Infective Agents Physiology (medical) Photodynamic Enterococcus faecalis Actinomyces Photosensitizer chemistry.chemical_classification Reactive oxygen species Perinaphthenone Photosensitizing Agents biology Singlet Oxygen Singlet oxygen PIB Biofilm biology.organism_classification Antimicrobial chemistry Biofilms Phototoxicity Bacteria |
Zdroj: | Free Radical Biology and Medicine. 65:477-487 |
ISSN: | 0891-5849 |
DOI: | 10.1016/j.freeradbiomed.2013.07.031 |
Popis: | Prevention and control of biofilm-growing microorganisms are serious problems in public health due to increasing resistances of some pathogens against antimicrobial drugs and the potential of these microorganisms to cause severe infections in patients. Therefore, alternative approaches that are capable of killing pathogens are needed to supplement standard treatment modalities. One alternative is the photodynamic inactivation of bacteria (PIB). The lethal effect of PIB is based on the principle that visible light activates a photosensitizer, leading to the formation of reactive oxygen species, e.g., singlet oxygen, which induces phototoxicity immediately during illumination. SAPYR is a new generation of photosensitizers. Based on a 7-perinaphthenone structure, it shows a singlet oxygen quantum yield ΦΔ of 99% and is water soluble and photostable. Moreover, it contains a positive charge for good adherence to cell walls of pathogens. In this study, the PIB properties of SAPYR were investigated against monospecies and polyspecies biofilms formed in vitro by oral key pathogens. SAPYR showed a dual mechanism of action against biofilms: (I) it disrupts the structure of the biofilm even without illumination; (II) when irradiated, it inactivates bacteria in a polymicrobial biofilm after one single treatment with an efficacy of ≥99.99%. These results encourage further investigation on the potential of PIB using SAPYR for the treatment of localized infectious diseases. |
Databáze: | OpenAIRE |
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