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ABSTRACT
Developing a robust analytical HPLC–UV method to characterize a drug candidate during an early stage of development is a major challenge when not all impurity standards are available. Here, we report our efforts to devise an efficient strategy for HPLC method development using continuous screening of analytical parameters without impurity standards. This strategy uses small incremental changes in the mobile phase pH and column temperature to trace each impurity on an overlay chromatogram. We tested this method using benzocaine as the active pharmaceutical ingredient (API), and compounds with similar structures to represent unknown impurities. Despite the coelution of peaks, results identified the number of impurities and indicated the starting point and parameter variables of the ensuing optimization step. Further, we demonstrated that the retention time of each peak as a function of mobile phase pH accounts for the apparent pKa of known and unknown compounds in the presence of an organic solvent. This information is critically important to the selection of a robust pH range for HPLC methods.
GRAPHICAL ABSTRACT
