Complex sameness: Separation of mixed poly(lactide-co-glycolide)s based on the lactide: glycolide ratio

Poly (lactide-co-glycolide) (PLGA) has been used for making injectable, long-acting depot formulations for the last three decades. An in depth understanding of PLGA polymers is critical for development of depot formulations as their properties control drug release kinetics. To date, about 20 PLGA-based formulations have been approved by the U.S. Food and Drug Administration (FDA) through new drug applications, and none of them have generic counterparts on the market yet. The lack of generic PLGA products is partly due to difficulties in reverse engineering. A generic injectable PLGA product is required to establish qualitative and quantitative (Q1/ Q2) sameness of PLGA to that of a reference listed drug (RLD) to obtain an approval from the FDA. Conventional characterizations of PLGA used in a formulation rely on measuring the molecular weight by gel permeation chromatography (GPC) based on polystyrene molecular weight standards, and determining the lactide: glycolide (L:G) ratio by H-1 NMR and the end-group by C-13 NMR. These approaches, however, may not be suitable or sufficient, if a formulation has more than one type of PLGA, especially when they have similar molecular weights, but different L: G ratios. Accordingly, there is a need to develop new assay methods for separating PLGAs possessing different L: G ratios when used in a drug product and characterizing individual PLGAs. The current work identifies a series of semi-solvents which exhibit varying degrees of PLGA solubility depending on the L: G ratio of the polymer. A good solvent dissolves PLGAs with all L: G ratios ranging from 50: 50 to 100:0. A semi-solvent dissolves PLGAs with only certain L: G ratios. Almost all semi-solvents identified in this study increase their PLGA solubility as the L: G ratio increases, i.e., the lactide content increases. This lacto-selectivity, favoring higher L: G ratios, has been applied for separating individual PLGAs in a given depot formulation, leading to analysis of each type of PLGA. This semi-solvent method allows a simple, practical benchtop separation of PLGAs of varying L: G ratios. This method enables isolation and identification of individual PLGAs from a complex mixture that is critical for the quality control of PLGA formulations, as well as reverse engineering for generic products to establish the Q1/Q2 sameness.