Abstract
Polysorbate 20 (PS20), a widely used surfactant in protein therapeutics, has been reported to undergo hydrolytic degradation during product storage, causing the release of free fatty acids. The accumulation of free fatty acids in protein therapeutics was found to result in the formation of particles due to their limited aqueous solubility at 2°C-8°C. Quantitation of free fatty acids originating from PS20 degradation is thus important during bioprocess optimization and stability testing in formulation development to ensure optimum PS20 stability as well as product and process consistency in final drug products. This work reports the development of a simple and robust, high-throughput, reversed-phase ultra high performance liquid chromatography mass spectrometry method for high-sensitivity quantitation of lauric acid and myristic acid by using isotope-labeled fatty acid internal standards. The high sensitivity (<100 ng/mL for lauric acid) and suitable precision (intermediate precision relative standard deviation of 11%) of this method enable accurate detection of lauric acid produced from the degradation of less than 1% of PS20 in a 0.2-mg/mL formulation. Using accelerated thermal stability testing, this method identifies processes that exhibit fast PS20 degradation within only days and consequently allows faster iterative optimization of the process.
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