Abstract
Nedocromil sodium is used in the treatment of reversible obstructive airways diseases, such as asthma. The physicochemical, mechanical, and biological characteristics of nedocromil sodium can be altered by its conversion to other salt forms. In this study, three crystalline hydrates, the pentahydrate, heptahydrate, and decahydrate, of a bivalent metal salt, nedocromil magnesium (NM), were prepared. The relationships between these hydrates were studied through their characterization by differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), Karl Fischer titrimetry (KFT), hot stage microscopy (HSM), ambient or variable temperature powder X-ray diffraction (PXRD), Fourier-transform infrared (FTIR) spectroscopy, solid-state nuclear magnetic resonance (SSNMR) spectroscopy, scanning electron microscopy (SEM), water uptake at various relative humidities (RH), intrinsic dissolution rate (IDR), and solubility measurements. The pentahydrate showed two dehydration steps, corresponding to two binding states of water, a more temperature-sensitive tetramer and a more stable monomer, deduced from the crystal structure previously determined. The heptahydrate and decahydrate each showed a dehydration step with a minor change in slope at about 50 °C, which was analyzed by derivative TGA and confirmed by DSC. HSM and variable temperature PXRD also confirmed the thermal dehydration behavior of the NM hydrates. The decahydrate underwent an apparently irreversible phase transformation to the pentahydrate at 75°C at an elevated water vapor pressure. The PXRD, FTIR, and SSNMR of the decahydrate were similar to those of the heptahydrate, suggesting that the three extra water molecules in the decahydrate are loosely bound, but were significantly different from those of the pentahydrate. The rank order of both IDR and solubility in water at 25°C was heptahydrate ≈ decahydrate>pentahydrate, corresponding to the rank order of free energy with respect to the aqueous solution.
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