New stability indicating RP-HPLC methods for the determination of related substances and assay of trametinib acetic acid: a mass balance approach.

New stability indicating related substances and assay methods for trametinib acetic acid by RP-HPLC have been developed and validated through forced degradation and mass balance studies for the first time. In related substances (RS) method, trametinib acetic acid was successfully separated from its six related substances namely, cyclopropanamide impurity, desiodo trametinib, desacetyl trametinib, trione acetamide intermediate, trione intermediate, and trione PTSA intermediate using YMC-Triart C18 (150 × 4.6 mm, 3 µm) column. Orthophosphoric acid (0.15%) in water was used as buffer. Gradient elution was programmed using mobile phase-A (buffer and acetonitrile mixture in 80:20 v/v ratio) and mobile phase-B (buffer and acetonitrile mixture in 20:80 v/v ratio). Acetonitrile and methanol mixture (1:1 v/v) was used as diluent. Flow rate, injection volume, column temperature, and wavelengths were kept as 0.8 mL/min, 10 µL, 55 °C, and 240 nm, respectively. Desacetyl trametinib and cyclopropanamide impurity were identified as potential degradation impurities in acid and base degradation conditions, respectively. Assay method specific to above six related substances was also developed. Assay of forced degradation samples was also determined, and the mass balance was established by adding total impurities formed in RS method to assay of trametinib acetic acid.