Litcius/Paper detail

A simple and effective hydrogel dressing for advanced management of full-thickness skin wound by multi-functional strategies

Deqiao Dong, Lujia Mao, Zhenmiao Qin, Yueping Guo, Jiaqi Yu, Xueyuan Hu, Jie He, Shiquan Feng, Min Zhang, Yan Liu, Yanan Gao

2025Journal of Nanobiotechnology6 citationsDOIOpen Access PDF

Abstract

In clinical practice, wound treatment continues to be a significant concern. The wound healing process is intricate and continuous. Hemostasis is the initial stage and the primary variables influencing wound healing include bacterial infection and oxidative stress. To tackle these issues, a novel hydrogel dressing was constructed, composed of chitosan hydrochloride (CSCl), hydroxyethyl cellulose (HEC), glucose and resveratrol nanoemulsion (RES-NE). The innovative RES-NE loaded chitosan hydrogel (RN-CH) features controllable gelation time, rapid self-healing property, appropriate injectability, and strong tissue adhesion ability. Additionally, it exhibits excellent biocompatibility, antioxidant property, antibacterial activity, and significant hemostasis capability. Pharmacodynamic experiments reveal that RN-CH can effectively promote full-thickness wounds healing by modulating inflammation, mitigating oxidative stress, and facilitating early angiogenesis and collagen formation.

Topics & Concepts

Wound healingHemostasisChitosanWound dressingResveratrolChemistryAngiogenesisBiomedical engineeringAdhesionPharmacologySkin repairMedicineGranulation tissueOxidative damageDebridement (dental)BiomaterialWound careSurgeryArtificial skinPharmacodynamicsHemostatic AgentTissue repairOxidized celluloseWound Healing and TreatmentsHydrogels: synthesis, properties, applicationsPressure Ulcer Prevention and Management