Electrospun Chitosan-Coated Recycled PET Scaffolds for Biomedical Applications: Short-Term Antimicrobial Efficacy and In Vivo Evaluation.

This study investigates the preparation of electrospun recycled polyethylene terephthalate (rPET) coated with chitosan (CS) and evaluates their antibiofilm properties and in vivo response. rPET scaffolds were first fabricated via electrospinning at different flow rates (10, 7.5, 5 and 2.5 mL/h) and subsequently coated with chitosan. Scanning electron microscopy (SEM) revealed that fiber morphology varied with electrospinning parameters, influencing microbial adhesion. Antimicrobial tests demonstrated that rPET@CS significantly inhibited , and biofilm formation compared to control and uncoated rPET surfaces. Subcutaneous implantation of rPET@CS scaffolds induced a transient inflammatory response, with macrophage recruitment and collagen deposition supporting tissue integration. These findings highlight the potential of rPET@CS scaffolds as sustainable antimicrobial biomaterials for applications in infection-resistant coatings and biomedical implants.