Abstract
This research utilized crystallographic, spectroscopic, and thermal analysis data to assess the thermodynamic stability relationship between the three known crystal forms of Varenicline L-tartrate. Of the two anhydrous forms (Forms A and B), Form B was determined to be the stable form at 0 K based on its calculated true density, hydrogen bonding in the crystal lattice, and application of the IR rule. Form A has a higher melting point and higher solubility at room temperature as compared to Form B, indicating that these forms are enantiotropically related. Application of the eutectic-melting method enabled accurate determination of the transition temperature (63 degrees C), with Form B as the stable anhydrous form at room temperature. The stability relationships between the anhydrous polymorphs and the monohydrate (Form C) were assessed through exposure of the anhydrous forms to a range of water vapor pressures at room temperature. A phase boundary was identified, with the monohydrate being the thermodynamically stable form above critical water activity values of 0.85 and 0.94 for Forms A and B, respectively. These results provide a better understanding of the form stability as it relates to normal manufacturing and storage conditions for the active pharmaceutical ingredient and drug product.
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