Abstract
Topical approaches to dermatophytosis have the advantage of targeted therapy and minimal side effects and are patient-friendly. The present study focused on obtaining thin, flexible, and transparent bioadhesive polymeric films loaded with terbinafine hydrochloride (TH), in order to be administered to the skin affected by fungal infection. Polymeric films based on pullulan (P), oxidized pullulan (T-OP), sodium carboxymethylcellulose (NaCMC), and glycerin were obtained by the casting and evaporation technique, and the solubility of the drug was significantly increased by micellar solubilization with Tween-80, thus avoiding the use of organic solvents. Physico-chemical characterization through the FTIR technique and EDX analysis indicates the absence of strong interactions between the drug and the polymer, and the loading efficiency highlights the uniform distribution of the drug. The mechanical properties, bioadhesion, contact angle, and water sorption capacity highlight optimal adhesion parameters on the skin. In vitro studies indicate a prolonged drug release, in the first 300 min, of 80% and 60% for F2_TH and F1_TH, respectively, and the release kinetics follow the Weibull model. Significant antifungal activity was obtained for both polymeric films. The biocompatibility of the ingredients, the gentle technique for obtaining the films, and the results obtained from their analysis represent promise for their applicability in topical antifungal treatment.