Multifunctional Prussian-Blue-Based Nanocomposite Hydrogel for Infected Wound Regeneration.
Pengchao Zhao, Zhishen Zhang, Dianhao Gong, Hongzhen Luo, Huiying Yu, Xin Li, Kun Lei, Chunshan Quan, Yun Xue, Lijun Guan
Abstract
Open AccessThe wound healing (WH) process is often severely hindered by bacterial infections and prolonged inflammatory responses. To address this problem, we developed a novel injectable nanocomposite DPB-ODQ hydrogel, which comprises polydopamine-modified Prussian blue nanoparticles (PB@PDA, also called DPB) and an oxidized dextran/quaternized chitosan (QCS)-based Schiff-base network. This hydrogel possesses a highly interconnected porous structure, an excellent swelling rate (730%), rapid gelling speed (45 s), a high mass retention rate over a three-day period (73.20%), and exceptional self-healing properties. Based on the presence of PDA and the Schiff base, it also exhibited good adhesive strength (13.5 kPa). In addition, under near-infrared irradiation at 1.0 W/cm2, temperatures increased by more than 35 °C within 5 min, indicating excellent photothermal (PT) performance. The PT performance of DPB, synergized with the inherent antibacterial properties of QCS, endowed it with a bactericidal rate exceeding 96% against both Staphylococcus aureus and Escherichia coli. In vitro cell experiments have shown that it significantly promoted fibroblast proliferation and migration. In experiments involving mice infected with S. aureus, DPB-ODQ demonstrated an impressive WH rate of 92.82%, greatly promoting collagen deposition.