Abstract
Buccal delivery offers a promising alternative to e.g., oral or parenteral drug administrations by leveraging the mucosal membranes of the mouth to enhance drug absorption and enhance patient compliance. Buccal films offer a promising approach for enhancing drug delivery by utilizing the mucoadhesive properties of the biopolymer pectin and glycerol's plasticizing effects. Designed to provide fast drug release, these films address the challenges of patient compliance, particularly among the elderly, children, and individuals with dysphagia. This study characterized the physicochemical properties of slot-die-coated films with pectin containing varying amounts of glycerol, including swelling behavior, disintegration rate, mechanical properties, mucoadhesion, and drug release profiles, using paracetamol as a model drug. Different methods such as quartz crystal microbalance with dissipation and open-source force analyzer were employed for the characterization. The results demonstrated that a high glycerol content in the films led to slower drug release with 95% paracetamol released for film without glycerol (GLY0) compared to only 74% released for film with 20% w/v glycerol (GLY20) after 60 min Additionally, higher glycerol levels resulted in enhanced mucoadhesive properties. Films containing 20% glycerol also showed superior permeability of paracetamol through ex vivo porcine buccal mucosa, with double the amount of paracetamol permeating in the first 120 min from GLY20 films compared to GLY0 films. These findings suggest that the pectin-glycerol buccal films, fabricated with slot-die coating as a novel technique, are user-friendly, exhibit interaction with the mucosa, and can be adjusted for specific disintegration and drug release rates, presenting a promising option for efficient, targeted drug delivery.
Published Version
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