Visible light-enhancing antibacterial ability of gold ions for its application of the prevention and treatment of dentin caries

To develop new antimicrobial strategy or agents has always been an eternal topic for the researchers. In this study, we have found that the visible light can enhance the antibacterial action of gold ions because of the photo-reduction and thus the visible light energy can be used to kill bacteria. T...

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Bibliographic Details
Published in:Journal of cleaner production 2024-04, Vol.448, p.141519, Article 141519
Main Authors: Li, Kangjing, Xie, Beibei, Zhou, Jun, Liang, Chunyun, Liu, Cong, Qin, Yiwu, Zhou, Fengyuan, He, Xuan, Chen, Zhiyong, Su, Xiaoping, Luo, Ying, Li, Cuiping, Liao, Haiqing, Di, Jingyi, Chen, Yujiang, Chen, Wenxia, Jiang, Xinglu
Format: Article
Language:English
Subjects:
Antibacterial ability
Biofilm
Dentin caries
Gold ions
Light
Photo-reduction
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Summary:To develop new antimicrobial strategy or agents has always been an eternal topic for the researchers. In this study, we have found that the visible light can enhance the antibacterial action of gold ions because of the photo-reduction and thus the visible light energy can be used to kill bacteria. The electron accepting ability of Au ions exposed to the visible light can strengthen, so their damage capability for the organic compounds from bacteria simultaneously enhances. The products of light-triggering Au ions, Au nanoparticles (Au NPs), also can bind protein and other bacterial cell wall components to further enhance the antibacterial ability. With the aid of the penetrating capacity of Au ions and light, light can also enhance the antibacterial action of Au ion in the biofilm and dentinal tubules and their products have the ability to crosslink the collagens to protect them from the degradation of collagenase. The toxicity of Au ions limits its application in clinic treatment, but the toxicity can decrease significantly after Au ions kills bacteria and the light can further reduce the toxicity as well. High concentration of Au ions and long-exposure light for dentin-pulp complex also are safe in vivo. Hence, light-enhancing the antibacterial treatment of Au ions has the potential to be used in the prevention and cure of the caries. [Display omitted] •Visible light can enhance antibacterial ability of gold ions.•Visible light promotes the production of gold nanoparticles to reduce the toxicity of gold ions.•Visible light and gold ions can be utilized to protect the demineralized dentin from degradation.•Visible light and gold ions are expected to be used for dental caries.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2024.141519