Author Archives: Jessica Cheung

Rational Design of Liquid Protein Formulations: Application of Biophysical Stability Predictors and Descriptors to Reformulate Biotherapeutics

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Successful development of liquid biopharmaceutical formulations requires careful assessment of the biophysical properties of the protein in solution, primarily focused on achieving optimal conformational and colloidal stability of the drug-substance molecule (1–11). It also involves extensive stability studies under stressed conditions. Using state-of-the-art biophysical tools for characterization of developed products, those studies are based on key biophysical descriptors and extended particulate characterization methods (subvisible particles in micro- and nano-size range) to deliver a stable product for market with a shelf…

June 1, 2018

Enhanced Biosimilar Product Characterization: A Case Study Using Raman Spectroscopy Combined with Dynamic Light Scattering

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Biophysical characterization has drawn great attention from the biopharmaceutical industry and regulatory agencies across the globe, especially for use in biosimilar drug product development. Currently available biophysical characterization tools can help in screening and optimizing better (more stable) formulations for such products. However, most tools cannot be used for head-to-head comparison of the biophysical properties of an optimized biosimilar formulation with those of an innovator product at higher concentrations. We developed and optimized a formulation for monoclonal antibody MAb B…

June 15, 2016