Abstract
The general treatment of diabetic wound was use of wound dressings to absorb excess exudate. However, traditional wound dressings neither mimic the skin-like properties nor easily be withdrawn from the wound. Herein, the skin-adaptive three-layered films (AGB) dressing has been designed by alternatively depositing phenylboronic acid-grafted γ-PGA (PBA-PGA) and polyvinyl alcohol (PVA). The thickness of AGB film was only 479 μm and its flexibility was obviously strengthen by the boronic ester cross-linking. Besides, the dry AGB film was conveniently adhered to the fresh wound, where its adhesive force reached to 1267 ± 330 mN. Moreover, the adhered AGB film was easily peeled without any second damage after hydration. An anti-inflammatory tripeptide (KPV) and epidermal growth factor (EGF) as biologic factors were respectively encapsulated in the bottom layer and the middle-top two layers of AGB film. KPV was firstly released within 3 day and EGF was subsequently released in a glucose-responsive manner. AGB film containing KPV and EGF (K-E-AGB) could significantly improve the repair rate of full-thickness skin wound on diabetic mice. The mechanism of wound healing was associated with inflammatory inhibition, angiogenesis and collagen deposition. Collectively, skin-adaptive film may be a promising dressing as delivery of biologic factors for the chronic wound.
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More From: International Journal of Biological Macromolecules
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