Oral mucosal drug delivery systems have been developed to expedite the regeneration of oral mucosa, there are still many challenges related to residence time for drugs because the ceaseless changes of saliva, mouth movement, and involuntary swallowing prevent robust adhesion of drugs and/or drug-loaded biomaterials. Thus, it is highly desirable to develop the delivery platforms exhibiting robust, stable adhesion within oral cavities. Herein, we have developed an adhesive polysaccharide oral patch called 'Chitoral' that utilizes chemical principles shown in wet-resistant mussel adhesion. Chitoral plays an important role as an adhesive layer in wet environments. We unexpectedly found that Chitoral instantly dissolves upon contact with saliva and a labial mucous layer, and then the dissolved Chitoral compounds forms an insoluble adhesion layer with mucins at Chitoral/mucous interface nearly immediate actions. Later, Chitoral gradually converts into adhesive hydrogels by the cooperative actions of covalent crosslinking and physical entanglement. The instant, robust muco-adhesion properties of Chitoral provides long-lasting therapeutic effects of drugs resulting enhanced healing of oral ulcer. Thus, mussel-inspired, mucous-resistant adhesive platforms, Chitoral, can be a platform for oral mucosal drug delivery systems.
Keywords: Catechol; Chitosan; Delivery; Mucoadhesion; Oral; Triamcinolone acetonide.
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