Abstract
The solubility of a drug is higher when it is in an amorphous form than when it is in a crystalline form. To enhance the solubility of ibuprofen (IBU), a poorly water-soluble drug, we attempted to adsorb IBU onto spherical porous calcium silicate (Florite® PS300, PS300) in two ways: the evaporation (EV) and sealed heating (SH) methods. The crystallinity of the samples was evaluated using powder X-ray diffraction analysis (PXRD) and differential scanning calorimetry (DSC). The molecular interaction between IBU and PS300 was evaluated with FTIR. In addition, the dissolution behavior of IBU in the samples was assessed by the dissolution test. Based on the results of the PXRD and DSC measurements, both methods allowed adsorption of IBU onto PS300, and IBU was amorphized. Based on the FTIR observations, in the SH or EV mixtures containing 10% and 30% IBU, respectively, it seemed that the IBU molecules intermolecularly interacted with calcium molecules as the main component of PS300. Improvement in the solubility of IBU was observed with both methods; however, the dissolution rate of IBU from samples prepared via SH was higher than that from EV, or of IBU crystals. Collectively, our findings indicate that the petal-like structure of PS300, which has a spherical shape and good flowability, is an effective tool for adsorbing IBU onto PS300 via SH.
Highlights
Water-soluble drugs make up a high percentage of currently marketed products
IBU crystals were adsorbed via EV and sealed heating (SH) with PS300
IBU crystals were amorphized by adsorbing onto PS300 at adequate mixing ratios
Summary
Water-soluble drugs make up a high percentage of currently marketed products. In addition, more than 40% of oral drug products in pharmaceutical markets contain poorly water-soluble drugs [1,2,3]. As the number of drug candidates in drug discovery has increased, in parallel, poorly water-soluble drugs have steadily increased; almost 70% of new drug candidates have poor water solubility [4] Amorphization, which includes spray drying, freeze-drying, and grinding with a water-soluble polymer using a ball mill, is one of the most popular and simple methods of improving solubility [24,25,26,27,28,29]. There are, both advantages and disadvantages regarding their physicochemical properties.
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