A facile design of EGF conjugated PLA/gelatin electrospun nanofibers for nursing care of in vivo wound healing applications

Abstract

Nano (or) microfiber structures made from biodegradable polymers offer many benefits for biomedical applications, including the tissue engineering system. In this study, a mixture of poly (lactic acid) (PLA)/gelatin (GEL) conjugated epidermal growth factor (EGF) electrospun nanofiber scaffolds, which may have potential applications for nursing care of diabetic wound healing. The amount of EGF conjugation on the PLA/GEL nanofibers was quantitated by X-ray photoelectron spectroscopy. A morphological examination of the electrospun nanofibers was performed using scanning electron microscopy (SEM) and transmission electron microscopy (TEM), which has bead-free morphology nanofibers. After characterizing, the PLA/GEL and PLA/GEL/EGF scaffolds were selected for further investigation based on their superior mechanical properties, including tensile strength, maximum elongation, and tensile modulus. We evaluated the antibacterial activity, cell proliferation and the efficiency of diabetic wound healing in vivo. The antibacterial effect of EGF present in the PLA/GEL nanofibers was assessed using the zone inhibition test against S. aureus and E. coli. In vitro cell proliferation activity was well maintained after the PLA/GEL conjugation and was compared to that of EGF with L929 fibroblast cells. The nanofiber PLA/GEL conjugated with EGF exerted greater curative activities in vivo compared to the control groups or EGF solutions. This study showed that the nanofiber PLA/GEL in combination with EGF could potentially be used as a novel material for nursing care of wound healing by antibacterial, increasing inflammatory cell, and re-epithelialization.