An effective approach to accelerating wound healing is through a smart delivery platform that releases drugs according to the needs of different healing periods. With the growing demand for wound care and treatment, electrospun nanofibers have attracted considerable attention owing to their simple and versatile method of manufacturing, unique structure, and biological functions similar to those of the extracellular matrix. Moreover, nanofibers can be loaded with active substances that promote targeted wound healing. In this study, we investigated the performance of a core-shell nanofiber platform loaded with two drugs in the core and shell, respectively. The shell polymer, poly-l-lactic acid, initially releases the encapsulated drug into an aqueous solution at room temperature. Gold nanorods with near-infrared absorbance were incorporated in the core polymer poly(N-isopropylacrylamide) to produce localized heat by plasmon resonance when exposed to light. This allows the thermally responsive core polymer to swell and shrink for programmable drug release. Our study provides a versatile platform for controlled and safe drug delivery to wound sites and could be applied to the treatment of other topical diseases.
Keywords: core−shell nanofibers; gold nanorods; near-infrared; sequential drug release; smart delivery platform; wound healing.