Chemomechanical and morphological properties with proliferation of keratinocyte cells of electrospun poyhydroxyalkanoate fibers incorporated with essential oil

Delivery systems based on electrospun polymeric nanofibers have shown potential for delivery of bioactive and plant extract formulations. This research focused on the fabrication of polyhydroxyalkanoate (PHA) copolymer nanofibers as a vehicle for loading of the Thai traditional herbal extract of Plai oil ( Zingiber cassumunar Roxb). Nanofibers were formed by dissolving PHA and Plai oil together in dichloromethane solvent, with the PHA concentration being varied (5, 8, and 10%), followed by electrospinning for 4 hours. Based on the submicron diameters of the nanofibers, 8% PHA proved to be the optimal concentration. The concentration of Plai oil (10, 20, and 30%) was used, and hence, the solution viscosity influenced the nanofiber synthesis and physical properties of the nanofibers were obtained. Scanning electron microscope results indicated that the average diameters of cylindrical PHA nanofibers loaded with Plai oil (10%, 20%, and 30%) were 1.10, 1.01, and 1.11 μm, respectively, highlighting that fibers composed of 20% Plai oil were classifiable as nanofibers. Tensile testing of 20% Plai oil‐loaded nanofibers indicated that stiffness and elongation at break were within the acceptable range. Fourier transform infrared and differential scanning calorimetry measurements highlighted the presence of terpenen‐4‐ol, a component found in Plai oil, in the nanofiber film samples of PHA/Plai oil, confirming its inclusion in the systems. In addition, cell proliferation was set up to confirm the morphology and toxicity of skin keratinocyte cell line, and the results show that the HaCaT cells were attached on the PHA nanofibers which the nanofibers containing 20% Plai oil may affect cell behavior in spite the fact that it is not toxic to the cells.