Palmatine-loaded electrospun poly(ε-caprolactone)/gelatin nanofibrous scaffolds accelerate wound healing and inhibit hypertrophic scar formation in a rabbit ear model

Abstract

Hypertrophic scar (HS) has been considered as a great concern for patients and a challenging problem for clinicians as it can cause functional debility, cosmetic disfigurement and psychological trauma. Although many methods have been developed to prevent and treat HS, the scarless healing is still a worldwide medical problem. In this study, palmatine-loaded poly( ε-caprolactone)/gelatin nanofibrous scaffolds (PCL/GE/PALs) were fabricated by electrospinning, and their effects on wound healing and HS formation were investigated. These nanofiber mats exhibit good antibacterial and antioxidant activities. In vitro studies indicate PCL/GE/PAL scaffolds can facilitate the adhesion, spreading and proliferation of L929 fibroblasts. In vivo tests demonstrate the full-thickness wounds treated with PCL/GE/PAL scaffolds heal about 3.5 days earlier than those in the control group. Scar elevation index measurements and histological analyses reveal PCL/GE/PAL scaffolds significantly inhibit HS formation, with the decrease in the thickness of dermis and epidermis, the number of fibroblasts, as well as the density of collagen and microvascular. Accelerating wound healing and inhibiting HS formation of these scaffolds are contributed to the sustained release of palmatine. The present work validates the potential use of palmatine-loaded electrospun nanofibrous scaffold PCL/GE/PALs as a functional wound dressing for healing wounds and preventing HS formation.