1. Synergistic strategy constructed hydrogel-aerogel biphase gel (HAB-gel) with self-negative-pressure exudate absorption, M2 macrophage‐polarized and antibacterial for chronic wound treatment.
- Author
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Zou, Faxing, Wang, Yansen, Tang, Tao, Zheng, Yudong, Xie, Yajie, Zhu, Shihui, Yang, Huiyi, Meng, Haoye, Liu, Xudong, and Yang, Jiayu
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CHRONIC wounds & injuries , *EXUDATES & transudates , *HYDROGELS , *WOUND healing , *ABSORPTION , *CYCLODEXTRINS - Abstract
[Display omitted] • Aerogel phase in HAB-gel endows it with self-negative-pressure exudate absorption. • Hydrogel phase in HAB-gel shows excellent natures in liquid absorption and retention. • The LPU with end-capping l -cys possesses significant M2-macrophage polarization. • After β-CD loaded with PHMB, the HAB-gel shows excellent antibacterial properties. Chronic wound healing is a major and unmet challenge, due to contamination of exudate, bacterial infection and non-healing symptoms, having become urgent an problem to be solved. Developing multifunctional dressings capable of efficiently absorbing exudate by forming self-micro-negative pressure, effectively antibacterial and inducing immune regulation, would be a promising strategy for wound healing. Herein, the hydrogel-aerogel biphase gel (HAB-gel) dressing consisted of PVA grafted with PAM and bio-based polyurethane was prepared to generate synergistic therapeutic effects through removing exudates, antibacterial properties and immune regulation. The PVA grafted with PAMs features generating self-negative pressure to absorb deep exudate by aerogel phase, providing a comfortable microenvironment for wound healing, moreover, the capacities of liquid absorption and retention are enhanced by hydrogel phase, preventing wounds from exudate contamination. The incorporation of β-cyclodextrin (β-CD) in the constructed polyurethane (LPU) endows the HAB-gel materials with excellent antibacterial properties after being loaded with polyhexamethylene biguanidine (PHMB). Furthermore, the HAB-gel dressing can accelerate the macrophage polarization into anti-inflammatory M2 via the hydrogen sulfide (H 2 S) generation, angiogenesis promotion and collagen deposition in periwound tissue. Overall, this novel strategy for synergistic treatment of chronic wounds, provides a promising method for the management of tissue regeneration disorders. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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