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NIR light-activated nanocomposites combat biofilm formation and enhance antibacterial efficacy for improved wound healing

I. Ullah, Shahin Shah Khan, Waqar Ahmad, Luo Liu, Ahmed Rady, Badr Aldahmash, Yingjie Yu, Jian Wang, Yushu Wang

2024Communications Chemistry22 citationsDOIOpen Access PDF

Abstract

Nanoparticle-based therapies are emerging as a pivotal frontier in biomedical research, showing their potential in combating infections and facilitating wound recovery. Herein, selenium-tellurium dopped copper oxide nanoparticles (SeTe-CuO NPs) with dual photodynamic and photothermal properties were synthesized, presenting an efficient strategy for combating bacterial infections. In vitro evaluations revealed robust antibacterial activity of SeTe-CuO NPs, achieving up to 99% eradication of bacteria and significant biofilm inhibition upon near-infrared (NIR) irradiation. Moreover, in vivo studies demonstrated accelerated wound closure upon treatment with NIR-activated SeTe-CuO NPs, demonstrating their efficacy in promoting wound healing. Furthermore, SeTe-CuO NPs exhibited rapid bacterial clearance within wounds, offering a promising solution for wound care. Overall, this versatile platform holds great promise for combating multidrug-resistant bacteria and advancing therapeutic interventions in wound management.

Topics & Concepts

BiofilmWound healingNanocompositeChemistryMicrobiologyMedicineMaterials scienceNanotechnologyBacteriaBiologySurgeryGeneticsNanoplatforms for cancer theranosticsMedical and Biological Ozone ResearchAdvanced Nanomaterials in Catalysis
NIR light-activated nanocomposites combat biofilm formation and enhance antibacterial efficacy for improved wound healing | Litcius