Engineered Au@MOFs silk fibroin-based hydrogel phototherapy platform for enhanced wound healing performance

Wound bacterial infections not only impede the healing process but can also give rise to a range of serious complications, thereby posing a substantial risk to human health. Developing effective wound dressings incorporating phototherapy functionalities, specifically photothermal therapy (PTT) and photodynamic therapy (PDT), remains a critical area of research in modern wound care. Existing PTT-PDT systems often suffer from challenges such as nanoparticle aggregation and inefficient reactive oxygen species (ROS) generation, which are essential for therapeutic efficacy. This study presents a pioneering approach by combining zeolitic imidazolate framework derivatives (ZIFs) and Au NPs in a silk fibroin (SF) hydrogel for the first time. This combination not only prevents particle aggregation but also significantly enhances photothermal conversion efficiency and ROS generation capacity. The digital light processing (DLP) printability of our hydrogel allows for customized wound dressings tailored to individual patient needs, improving therapeutic efficacy. The hydrogel's effectiveness was evaluated through rigorous in vivo experiments, demonstrating enhanced antibacterial properties and accelerated wound healing. The biocompatibility of our hydrogel ensures its suitability for clinical applications, minimizing adverse reactions while promoting healing. A wound healing rate of 99.06 % represents a substantial improvement over the control groups, indicating markedly enhanced therapeutic efficacy. These findings underscore its multifunctionality in addressing infected wounds, presenting a promising strategy for facilitating the rapid healing of acute complex wounds in clinical applications.