Design, fabrication and characterization of silk fibroin-HPMC-PEG blended films as vehicle for transmucosal delivery

This study illustrates the fabrication of stable mucoadhesive films of silk protein fibroin as potential vehicle for transmucosal delivery by blending fibroin with hydroxy propyl methyl cellulose (HPMC) and poly ethylene glycol 400 (PEG). Investigations on mechanical properties, swelling ability in simulated saliva, bioadhesive strength by a specially designed instrument and study of in vitro stability in simulated saliva of goat buccal mucosa as model membrane was undertaken. Molecular interaction between blended materials was evaluated by FTIR spectroscopy. Increase in fibroin content of the blended films not only increased the mechanical properties and water stability but also the degree of swelling and stability of the films in simulated saliva. The FTIR spectrum shows an increase in water stability of the fibroin-HPMC blended films due to the formation of intermolecular hydrogen bonding between the HPMC and fibroin. The conformational transition of the silk fibroin molecule from the amorphous and random coil to β sheet structure has been observed. Fibroin-HPMC-PEG blended films can be used as a vehicle for transmucosal delivery by virtue of its good mechanical strength, water stability, ex vivo bioadhesive strength and ideal swellability as such characteristics are essential for rapid mucoadhesion.