The nasal physiology offers great potential for drug delivery but also poses specific challenges, among which the short residence time of applied drugs is one of the most striking. Formulating the drug as powder and using functional excipients are strategies to improve drug absorption. As nasal powders are still the minority on the market, there is a lack of data regarding their characterisation. This work aims at the characterisation of selected fillers (mannitol, microcrystalline cellulose) and mucoadhesives (pectin, chitosan glutamate, hydroxypropyl cellulose) with a set of methods that allows distinguishing their influences on dissolution and permeation of drugs, and on the viscoelasticity of the nasal fluid and thus the nasal residence time. Rheological studies revealed a potential of undissolved particles to prolong the residence time by increasing the elasticity of the nasal fluid. The assessment of drug dissolution showed a decreased dissolution rate in presence of insoluble or gelling excipients, which can be beneficial for drugs with low permeability, since embedded drugs are cleared slower than plain solutions. Drug permeation as important factor for the selection of excipients was evaluated with an RPMI 2650 cell model. Distinguishing the effects of excipients enables an effective selection of the most promising substances.
Keywords: Dissolution; Franz cell; Mucociliary clearance; Permeation; RPMI 2650; Rheology.
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