Comparison of a rational vs. high throughput approach for rapid salt screening and selection.

In recent years, high throughput (HT) screening has become the most widely used approach for early phase salt screening and selection in a drug discovery/development setting. The purpose of this study was to compare a rational approach for salt screening and selection to those results previously generated using a HT approach. The rational approach involved a much smaller number of initial trials (one salt synthesis attempt per counterion) that were selected based on a few strategic solubility determinations of the free form combined with a theoretical analysis of the ideal solvent solubility conditions for salt formation.

A thermodynamic-based approach to analyzing a highly solvating polymorphic system: the desolvation window method.

There are two major challenges in developing a solid form: (1) identifying the thermodynamically stable form and (2) determining the method used to crystallize that form. Often experiments performed to address these challenges have different objectives and use separate experimental techniques. The thermodynamically stable form is usually found on small scale, utilizing slurries or crystallizations.

Automated approach to couple solubility with final pH and crystallinity for pharmaceutical discovery compounds.

The design and validation of a novel high-throughput system for thermodynamic solubility determination requiring only 5 mg of sample is described. The system uses a sintered nickel filter assembly to recover excess solids from saturated solutions for rapid crystallinity assessment via powder X-ray diffraction (PXRD). Moreover, the system measures the pH of filtrates to provide a final pH value with the solubility measurement.

Evaluation of the chemiluminescent nitrogen detector for solubility determinations to support drug discovery.

Solubility measurements using chemiluminescent nitrogen detection (CLND) has advantages of reduced compound requirement and increased throughput compared to UV-spectrophotometric and HPLC-based measurements. CLND with direct flow injection was evaluated for the measurement of thermodynamic solubility to support drug discovery. The limit of quantitation (LOQ), accuracy, and day-to-day reproducibility of the detector were measured.