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Multifunctional hydrogel encapsulated with baicalin for full-layer regeneration of drug-resistant bacteria-infected wounds after radiotherapy

Rui Yuan, Sa Du, Siyu Pan, Zhuoyuan Lin, Nan Zhang, Chenxi Zhang, Qiang Zeng, Yen Wei, Yuwei Wu, Lei Tao

2025Bioactive Materials13 citationsDOIOpen Access PDF

Abstract

The post-radiotherapy wounds are common in patients. The irradiation-induced reactive oxygen species (ROS) accumulation, nucleic acid damage, and inflammation greatly hinder wound healing. The irradiation-induced immunosuppression may further cause bacterial infection. At present, few dressings are available for infected wounds after radiotherapy (IWAR). In this study, a multifunctional hydrogel for IWAR has been developed by combining a positively-charged antioxidant polymer with the natural product baicalin. This hydrogel can smartly release baicalin under IWAR-like microenvironment and possesses broad-spectrum antibacterial properties. It has effectively prevented irradiation-induced intracellular ROS and nucleic acid damage to protect fibroblasts for tissue repair. In mice treated with IWAR, this hydrogel has inhibited infection caused by drug-resistant Pseudomonas aeruginosa , downregulated inflammation, and significantly accelerated wound healing (to more than 10 times the rate of untreated IWAR), achieving full-layer regeneration. This study obtains a multifunctional hydrogel for IWAR, and provides insights into the development of radiotherapy-related biomaterials.

Topics & Concepts

BaicalinRegeneration (biology)Materials scienceLayer (electronics)Biomedical engineeringChemistryChemical engineeringNanotechnologyChromatographyMedicineCell biologyBiologyHigh-performance liquid chromatographyEngineeringFlavonoids in Medical ResearchLaser Applications in Dentistry and MedicinePhotodynamic Therapy Research Studies
Multifunctional hydrogel encapsulated with baicalin for full-layer regeneration of drug-resistant bacteria-infected wounds after radiotherapy | Litcius