Design and In Vitro/In Vivo Evaluation of Ultra-Thin Mucoadhesive Buccal Film Containing Fluticasone Propionate

Fluticasone propionate is a synthetic corticosteroid drug distinguished by its potent anti-inflammatory action with low systemic side effects in comparison to other corticosteroids making it a potential drug for local buccal delivery. The aim of the present study was to design mucoadhesive buccal film containing fluticasone that is aesthetically acceptable and could maintain local drug release for a sustained period to manage the sign and symptoms of severe erosive mouth lesions. Solvent casting technique was used in film preparation. Different polymeric blends were used either alone or in combination with mucoadhesive polymers, sodium carboxymethyl cellulose (SCMC), or Carbopol 971P at different concentrations. The physicochemical properties, in vitro mucoadhesion time as well as the drug release properties for all prepared formulations were determined. Selected formulations with adequate properties were further examined by differential scanning calorimetry (DSC) and X-ray diffraction (XRD) and subjected to in vivo evaluation. Films containing hydroxypropyl methylcellulose (HPMC)/ethyl cellulose (EC) showed acceptable physicochemical properties, homogenous drug distribution, convenient mucoadhesion time, moderate swelling as well as sustained drug release up to 12 h. The biological performance of these formulations was assessed on healthy human volunteers and compared with a prepared mouthwash which showed enhanced pharmacokinetic parameters for the selected films in comparison to the mouthwash. The results revealed that the optimized formulation containing HPMC/EC and 10% SCMC could successfully achieve sustained drug release for 10 h which is considered promising for local treatment of severe mouth lesions

A Comprehensive Development Strategy in Buccal Drug Delivery

This work combines several methods in an integrated strategy to develop a matrix for buccal administration. For this purpose, tablets containing selected mucoadhesive polymers loaded with a model drug (omeprazole), free or in a complexed form with cyclodextrins, and in the absence and presence of alkali agents were subjected to a battery of tests. Mucoadhesion studies, including simple factorial analysis, in vitro release studies with both model-dependent and model-independent analysis, and permeation studies were performed. Mucoadhesive profiles indicated that the presence of the drug decreases the mucoadhesion profile, probably due its hydrophobic character. In tablets loaded with the drug complexed with β-cyclodextrin or methyl-β-cyclodextrin, better results were obtained with the methylated derivative. This effect was attributed to the fact that in the case of β-cyclodextrin, more hydroxyl groups are available to interact with the mucoadhesive polymers, thus decreasing the mucoadhesion performance. The same result was observed in presence of the alkali agent (l-arginine), in this case due to the excessive hydrophilic character of l-arginine. Drug release from tablets was also evaluated, and results suggested that the dissolution profile with best characteristics was observed in the matrix loaded with omeprazole complexed with methyl-β-cyclodextrin in the presence of l-arginine. Several mathematical models were applied to the dissolution curves, indicating that the release of the drug, in free or in complexed state, from the mucoadhesive matrices followed a super case II transport, as established on the basis of the Korsmeyer–Peppas function. The feasibility of drug buccal administration was assessed by permeation experiments on porcine buccal mucosa. The amount of drug permeated from mucoadhesive tablets presented a maximum value for the system containing drug complexed with the methylated cyclodextrin derivative in presence of l-arginine. According to these results, the system containing the selected polymer mixture and the drug complexed with methyl-β-cyclodextrin in presence of l-arginine showed a great potential as a buccal drug delivery formulation, in which a good compromise among mucoadhesion, dissolution, and permeation properties was achieved