Laser-induced vapor nanobubbles improve diffusion in biofilms of antimicrobial agents for wound care

Teirlinck, Eline; Fraire, Juan; Van Acker, Heleen; Wille, Jasper; Swimberghe, Rosalie; Brans, Toon; Xiong, Ranhua; Meire, Maarten; De Moor, Roeland; De Smedt, Stefaan; Coenye, Tom; Braeckmans, Kevin

Laser-induced vapor nanobubbles improve diffusion in biofilms of antimicrobial agents for wound care

Eline Teirlinck, Juan Fraire (UGent) , Heleen Van Acker (UGent) , Jasper Wille, Rosalie Swimberghe (UGent) , Toon Brans (UGent) , Ranhua Xiong (UGent) , Maarten Meire (UGent) , Roeland De Moor (UGent) , Stefaan De Smedt (UGent) , et al.

(2019) BIOFILM. 1.

Author

Eline Teirlinck, Juan Fraire (UGent) , Heleen Van Acker (UGent) , Jasper Wille, Rosalie Swimberghe (UGent) , Toon Brans (UGent) , Ranhua Xiong (UGent) , Maarten Meire (UGent) , Roeland De Moor (UGent) , Stefaan De Smedt (UGent) , Tom Coenye (UGent) and Kevin Braeckmans (UGent)

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Abstract

Being responsible for delayed wound healing, the presence of biofilms in infected wounds leads to chronic, and difficult to treat infections. One of the reasons why antimicrobial treatment often fails to cure biofilm infections is the reduced penetration rate of antibiotics through dense biofilms. Strategies that have the ability to somehow interfere with the integrity of biofilms and allowing a better penetration of drugs are highly sought after. A promising new approach is the use of laser-induced vapor nanobubbles (VNB), of which it was recently demonstrated that it can substantially enhance the penetration of antibiotics into biofilms, resulting in a marked improvement of the killing efficiency. In this study, we examined if treatment of biofilms with laser-induced vapor nanobubbles (VNB) can enhance the potency of antimicrobials which are commonly used to treat wound infections, including povidone-iodine, chlorhexidine, benzalkonium chloride, cetrimonium bromide and mupirocin. Our investigations were performed on Pseudomonas aeruginosa and Staphylococcus aureus biofilms, which are often implicated in chronic wound infections. Pre-treatment of biofilms with laser-induced VNB did enhance the killing efficiency of those antimicrobials which experience a diffusion barrier in the biofilms, while this was not the case for those compounds for which there is no diffusion barrier. The magnitude of the enhanced potency was in most cases similar to the enhancement that was obtained when the biofilms were completely disrupted by vortexing and sonication. These results show that laser-induced VNB are indeed a very efficient way to enhance drug penetration deep into biofilms, and pave the way towards clinical translation of this novel approach for treatment of wound infections.

Keywords

Vapor nanobubbles, Laser treatment, Biofilms, Wound infections, Disinfectants, Diffusion barrier

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Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8643490

MLA: Teirlinck, Eline, et al. “Laser-Induced Vapor Nanobubbles Improve Diffusion in Biofilms of Antimicrobial Agents for Wound Care.” BIOFILM, vol. 1, 2019, doi:10.1016/j.bioflm.2019.100004.
APA: Teirlinck, E., Fraire, J., Van Acker, H., Wille, J., Swimberghe, R., Brans, T., … Braeckmans, K. (2019). Laser-induced vapor nanobubbles improve diffusion in biofilms of antimicrobial agents for wound care. BIOFILM, 1. https://doi.org/10.1016/j.bioflm.2019.100004
Chicago author-date: Teirlinck, Eline, Juan Fraire, Heleen Van Acker, Jasper Wille, Rosalie Swimberghe, Toon Brans, Ranhua Xiong, et al. 2019. “Laser-Induced Vapor Nanobubbles Improve Diffusion in Biofilms of Antimicrobial Agents for Wound Care.” BIOFILM 1. https://doi.org/10.1016/j.bioflm.2019.100004.
Chicago author-date (all authors): Teirlinck, Eline, Juan Fraire, Heleen Van Acker, Jasper Wille, Rosalie Swimberghe, Toon Brans, Ranhua Xiong, Maarten Meire, Roeland De Moor, Stefaan De Smedt, Tom Coenye, and Kevin Braeckmans. 2019. “Laser-Induced Vapor Nanobubbles Improve Diffusion in Biofilms of Antimicrobial Agents for Wound Care.” BIOFILM 1. doi:10.1016/j.bioflm.2019.100004.
Vancouver: 1.
Teirlinck E, Fraire J, Van Acker H, Wille J, Swimberghe R, Brans T, et al. Laser-induced vapor nanobubbles improve diffusion in biofilms of antimicrobial agents for wound care. BIOFILM. 2019;1.
IEEE: [1]
E. Teirlinck et al., “Laser-induced vapor nanobubbles improve diffusion in biofilms of antimicrobial agents for wound care,” BIOFILM, vol. 1, 2019.

@article{8643490,
  abstract     = {{Being responsible for delayed wound healing, the presence of biofilms in infected wounds leads to chronic, and difficult to treat infections. One of the reasons why antimicrobial treatment often fails to cure biofilm infections is the reduced penetration rate of antibiotics through dense biofilms. Strategies that have the ability to somehow interfere with the integrity of biofilms and allowing a better penetration of drugs are highly sought after. A promising new approach is the use of laser-induced vapor nanobubbles (VNB), of which it was recently demonstrated that it can substantially enhance the penetration of antibiotics into biofilms, resulting in a marked improvement of the killing efficiency. In this study, we examined if treatment of biofilms with laser-induced vapor nanobubbles (VNB) can enhance the potency of antimicrobials which are commonly used to treat wound infections, including povidone-iodine, chlorhexidine, benzalkonium chloride, cetrimonium bromide and mupirocin. Our investigations were performed on Pseudomonas aeruginosa and Staphylococcus aureus biofilms, which are often implicated in chronic wound infections. Pre-treatment of biofilms with laser-induced VNB did enhance the killing efficiency of those antimicrobials which experience a diffusion barrier in the biofilms, while this was not the case for those compounds for which there is no diffusion barrier. The magnitude of the enhanced potency was in most cases similar to the enhancement that was obtained when the biofilms were completely disrupted by vortexing and sonication. These results show that laser-induced VNB are indeed a very efficient way to enhance drug penetration deep into biofilms, and pave the way towards clinical translation of this novel approach for treatment of wound infections.}},
  articleno    = {{100004}},
  author       = {{Teirlinck, Eline and Fraire, Juan and Van Acker, Heleen and Wille, Jasper and Swimberghe, Rosalie and Brans, Toon and Xiong, Ranhua and Meire, Maarten and De Moor, Roeland and De Smedt, Stefaan and Coenye, Tom and Braeckmans, Kevin}},
  issn         = {{2590-2075}},
  journal      = {{BIOFILM}},
  keywords     = {{Vapor nanobubbles,Laser treatment,Biofilms,Wound infections,Disinfectants,Diffusion barrier}},
  language     = {{eng}},
  pages        = {{8}},
  title        = {{Laser-induced vapor nanobubbles improve diffusion in biofilms of antimicrobial agents for wound care}},
  url          = {{http://doi.org/10.1016/j.bioflm.2019.100004}},
  volume       = {{1}},
  year         = {{2019}},
}

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Laser-induced vapor nanobubbles improve diffusion in biofilms of antimicrobial agents for wound care

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