Optimizing a bioprocess requires timely insight into both product quality and the conditions that drive it. From understanding critical quality attributes (CQAs) of biotherapeutic proteins to monitoring how cell culture media composition and feeding strategies impact performance, analytical workflows play a central role in decision-making.
Traditional mass spectrometry workflows can introduce complexity through sample preparation, method development, and longer analysis times—creating delays between sampling and actionable insight.
This webinar explores a streamlined approach to mass spectrometry workflows using capillary electrophoresis-based separations to enable faster, simplified analysis across both protein characterization and cell culture media. Attendees will see how high-resolution separations and direct MS interfacing can support rapid charge variant and glycoform profiling, while also enabling analysis of small, polar metabolites and media components from the same platform.
Through real-world examples, including quantitative analysis of key metabolites in cell culture media using established assay kits, we will demonstrate how these workflows can reduce sample preparation, shorten time to results, and provide reproducible, quantitative data to support bioprocess development.
Learning Objectives:
Understand how a microfluidic, direct-to-MS interface simplifies mass spectrometry workflows, eliminating columns, gradients, and complex setup while enabling high-resolution separations
See how streamlined workflows reduce sample preparation and analysis time, accelerating biotherapeutic protein characterization and enabling faster, more informed decision-making
Explore real-world data from case studies showing how a unified MS workflow supports both protein and cell culture media analysis, including quantitative insight into key metabolites that impact bioprocess performance
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