A generalizable methodology for predicting retention time of small molecule pharmaceutical compounds across reversed-phase HPLC columns.

Quantitative structure retention relation (QSRR) is an active field of research, primarily focused on predicting chromatography retention time (Rt) based on molecular structures of an input analyte on a single or limited number of reversed-phase HPLC (RP-HPLC) columns. However, in the pharmaceutical chemistry manufacturing and controls (CMC) settings, single-column QSRR models are often insufficient. It is important to translate retention time across different HPLC methods, specifically different stationary phases (SP) and mobile phases (MP), to guide the HPLC method development, and to bridge organic impurity profiles across different development phases and laboratories.

Precipitation Behavior of Highly Soluble Amphiphilic Drugs in Solution: Physical Instability of Drugs in Solution.

Physical instability of aqueous drug solutions, such as precipitation upon storage, has so far been difficult to predict or model. Understanding the molecular basis of such phenomena can help mitigate by influencing the product composition and by providing a mechanistic basis of experimental and in silico investigations. In this study, inconsistent precipitation of a model drug, GNE-01 in aqueous solutions was investigated.