Fabrication of silver nanoparticle-containing electrospun polycaprolactone membrane coated with chitosan oligosaccharides for skin wound care

An ideal wound dressing should have several qualities to protect the wound from infection and other adverse factors. This study aimed to fabricate a wound care membrane combining the two well-known bioactive agents silver nanoparticles (AgNPs) and chitosan oligosaccharides (COS). In specific, this multilayer membrane (PCL-Ag/POX/COS) consisted of (1) the electrospun basement layer of poly(ε-caprolactone) (PCL) and AgNPs; (2) the intermediate amphiphilic layer of PCL and poloxamer 407 (POX); and (3) the coating layer of COS and poly(N-vinyl pyrrolidone) (PVP). Several characterisation tests showed that the membrane was successfully coated with COS and owned suitable characteristics as a wound dressing, including proper tensile strength (more significant than the typical value of the skin), the hydrophilic and fluid-absorbable innermost surface, the waterproof outermost basement, vapour permeability, rapid COS release, and gradual AgNP release. In vitro experiments proved its haemostatic effect and antibacterial activities. Though its 100% extract solution reduced in vitro fibroblast viability, through the skin-defected mouse model experiment, PCL-Ag/POX/COS was compatible with the wound tissue and exhibited several positive effects on wound healing. In conclusion, PCL-Ag/POX/COS was proven for its potential for wound care, but it needs further investigations to allow translation from bench to bedside.