Pluronic F-68 is a nonionic surfactant, which is often used in the upstream process of biopharmaceutical production. However, the number of analytical methods developed for determination of Pluronic F-68 in the in-process and drug substance samples of biological drug production process is quite low. The lack of chromophore groups on the molecule and the interference caused by the high protein content of the samples hamper analysis. In this paper the development and qualification of a mixed-mode (MM) HPLC method with charged aerosol detection is reported. The method enables the analysis of samples with up to 85 g/L protein concentration. The range of the method was set to 250-500 μg/mL, where it was found to be accurate (89-111 % recovery) and precise (0.8-3.2 % relative standard deviation). The high sensitivity of the method indicates that even lower concentration range can be feasible. The novel method successfully demonstrates Pluronic F-68 clearance during the downstream process of the monoclonal antibody production.
Keywords: Charged aerosol detection (CAD); High-performance liquid chromatography (HPLC); Monoclonal antibody (mAb); Nonionic surfactant; Pluronic F-68.
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