Issue 10, 2023

An ionic gel incorporating copper nanodots with antibacterial and antioxidant dual functions for deep tissue penetration treatment of periodontitis in rats

Abstract

The local treatment of periodontitis has recently received extensive attention due to the advantages of mild systemic side effects and a high local drug concentration. But the local drug delivery systems are not widely used in clinical practice, and a major obstacle is the poor tissue permeability. In the present study, we report a copper nanodot based ionic gel (Cu-NDs/IL gel) with favorable tissue penetration capability, and it concurrently exhibits antibacterial and anti-inflammatory functions. A Cu-NDs/IL gel was prepared by loading copper nanodots (Cu-NDs) with triple enzyme-like activities into a multifunctional gel. The derived Cu-NDs/IL gel possesses remarkable antibacterial properties attributed to the peroxidase-like activity of Cu-NDs. In addition, Cu-NDs mimic superoxide dismutase and catalase activities, which endow the gel with excellent free radical scavenging capability in a neutral environment to relieve periodontal inflammation. More importantly, the IL moiety in the Cu-NDs/IL gel promotes the penetration of Cu-NDs into the gingival tissue, wherein the triple enzymatic activity of Cu-NDs may function. In short, the Cu-NDs/IL gel has promising potential to serve as a topical drug for periodontitis by promoting penetration, killing bacteria, and scavenging ROS.

Graphical abstract: An ionic gel incorporating copper nanodots with antibacterial and antioxidant dual functions for deep tissue penetration treatment of periodontitis in rats

Supplementary files

Article information

Article type
Paper
Submitted
23 Feb 2023
Accepted
20 Mar 2023
First published
21 Mar 2023

Biomater. Sci., 2023,11, 3547-3560

An ionic gel incorporating copper nanodots with antibacterial and antioxidant dual functions for deep tissue penetration treatment of periodontitis in rats

Y. Gao, W. Zhang, R. Xue, Y. Shu and J. Wang, Biomater. Sci., 2023, 11, 3547 DOI: 10.1039/D3BM00309D

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