Oral montelukast (MTK) is prescribed to treat asthma or rhinitis, and is clinically investigated as new medication in the treatment of Alzheimer's dementia. Herein, in order to better patient's compliance, microsuspensions (MSs)-based oral liquid preparations of montelukast (MTK) were formulated with polymeric suspending agents including hypromellose (HPMC), and those drug-polymer interaction, physicochemical stability, dissolution, and in vivo pharmacokinetic profile was evaluated. When amorphous MTK particle was suspended in aqueous vehicle, it was readily converted into crystalline form and grown into aggregates, drastically lowering dissolution rate. However, the addition of HPMC polymer markedly suppressed the crystal growth, providing both improved drug stability and profound dissolution profile. Raman spectrometry denoted the inter-molecular hydrogen boding between MTK particle and HPMC polymer. The crystal growth or dissolution profile of MSs was markedly affected by pharmaceutical additives (sucrose or simethicone) in the preparations or storage temperature. The optimized HPMC-based MS exhibited over 80% higher bioavailability, compared to marketed granule (Singulair®) in rats. Therefore, novel MTK-loaded MS can be a promising liquid preparation, bettering oral absorption and patient's compliance.
Keywords: Crystallinity; Hypromellose; Microsuspension; Montelukast; Pharmacokinetics; Stability.
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