| Abstract: | Intensified processing and end‐to‐end integrated continuous manufacturing are increasingly being considered in bioprocessing as an alternative to the current batch‐based technologies. Similar approaches can also be used at later stages of the production chain, such as in the post‐translational modifications that are often considered for therapeutic proteins. In this work, a process to intensify the enzymatic digestion of immunoglobulin G (IgG) and the purification of the resulting Fab fragment is developed. The process consists of the integration of a continuous packed‐bed reactor into a multicolumn chromatographic process. The integration is realized through the development of a novel multicolumn countercurrent solvent gradient purification (MCSGP) process, which, by adding a third column to the classical two‐column MCSGP process, allows for continuous loading and then straight‐through processing of the mixture leaving the reactor. |
