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Issue 14, 2023

Hollow silver–gold alloy nanoparticles for enhanced photothermal/photodynamic synergetic therapy against bacterial infection and acceleration of wound healing

Abstract

Bacterial infection seriously restricts the wound healing process due to severe inflammation and delayed wound healing. Unfortunately, the overuse or improper use of antibiotics leads to the advent of multidrug-resistant strains and intractable biofilms, severely affecting the therapeutic effect. Therefore, there is an urgent need to develop antibiotic-free strategies to accelerate the healing process of wounds with bacterial infection. Considering that single photothermal therapy (PTT) or photodynamic therapy (PDT) cannot fully meet the requirements of clinical sterilization and accelerating wound healing, herein, hollow silver–gold alloy nanoparticles immobilized with the photosensitizer molecule Ce6 (Ag@Au-Ce6 NPs) integrated with PTT and PDT are proposed for killing bacteria and accelerating wound healing. The photothermal conversion properties of Ag@Au-Ce6 NPs are obtained using an infrared thermal imager, and the generation of singlet oxygen (1O2) is verified with an 1O2 fluorescent probe DCFH-DA. Manipulated by near-infrared laser triggered mild hyperthermia and limited ROS amount, Ag@Au-Ce6 NPs could effectively kill bacteria that are free and colonized on the surface of wounded skin, promoting epithelium migration and vascularization, further accelerating wound healing, which showed great promise for biomedical application.

Graphical abstract: Hollow silver–gold alloy nanoparticles for enhanced photothermal/photodynamic synergetic therapy against bacterial infection and acceleration of wound healing

Supplementary files

Article information

Article type
Paper
Submitted
05 Apr 2023
Accepted
17 May 2023
First published
22 May 2023

Biomater. Sci., 2023,11, 4874-4889

Hollow silver–gold alloy nanoparticles for enhanced photothermal/photodynamic synergetic therapy against bacterial infection and acceleration of wound healing

S. Lin, H. Chen, R. Wang, T. Jiang, R. Wang and F. Yu, Biomater. Sci., 2023, 11, 4874 DOI: 10.1039/D3BM00567D

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