Sub-Micrometer Polycaprolactone and Polyethylene Glycol-Based Fiber Mats With Iodine and Its Potential for Wound Healing

Abstract

This study introduces an innovative approach to developing advanced antimicrobial wound dressings by engineering fiber mats of polycaprolactone (PCL) and polycaprolactone/polyethylene glycol (PCL/PEG) loaded with iodine using solution blow spinning (SBS). The mats exhibited a unique morphology, combining fibers and beads, with average fiber diameters of 570 nm for 12% (w/v) PCL and 470 nm for 1% (w/v) PEG in 12% (w/v) PCL, and bead diameters of 11.34 μm and 10.43 μm, respectively. PEG incorporation rendered the mats hydrophilic and significantly enhanced their swelling capacity, which is essential for wound exudate management. Remarkably, iodine was incorporated at a concentration specifically optimized to achieve its minimum inhibitory concentration (MIC) against a range of microorganisms while preserving the structural integrity and release profile of the mats. While PEG facilitated a higher initial iodine release rate, equilibrium was achieved after 5 days. UV–Vis spectroscopy unveiled the formation of transient iodine complexes with both PCL and PEG, underscoring their functional synergy. Biological assays revealed that PCL/PEG mats loaded with 4.26 mg/mL of iodine (PCL/PEG 3MIC) exhibited potent antimicrobial efficacy against gram-positive and gram-negative bacteria, as well as fungi, alongside significant in vitro wound healing potential. These findings underscore the promise of PCL/PEG iodine-loaded mats as an innovative platform for next-generation antimicrobial wound care, combining effective infection control with enhanced wound healing capabilities.