Dual-domain engineered exosome-based self-powered microneedle delivery platform for the treatment of infected wounds.
Shanguo Zhang, Tianyi Jiang, Depeng Yang, Liangyu Cao, Ming Li, Jiachao Tang, Qi Gu, Aitong Xu, Yu Li, Hongyuan Jiang
Abstract
Open AccessBacterial infection and persistent inflammation severely hinder tissue regeneration; therefore, a synergistic therapeutic strategy that combines antibacterial and pro-healing functions is crucial for the effective treatment of infected wounds. In this study, we construct a self-powered microneedle drug delivery platform based on a Dual-domain engineered exosome (D2-Exo) that integrates antimicrobial and healing-promoting capabilities. The exosome is internally loaded with asiaticoside and surface-modified with an antimicrobial peptide. The self-powered microneedle delivery platform, driven by a triboelectric nanogenerator, enables precise and efficient release of the D2-Exo. In vitro and in vivo experiments show that electrical stimulation significantly enhances exosome release and cellular uptake. The D2-Exo-loaded platform effectively reduces inflammation, inhibits bacterial infection, and promotes granulation tissue formation and collagen deposition, thereby accelerating the healing of infected wounds. This study presents a promising strategy for the intelligent treatment of infected wounds.