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Sequential Liquid Chromatography for Fast, Quantitative Analyses of Immunoglobulin G Concentrates

CIM Convective Interaction Media® are polymer-based monolithic supports which were introduced for chromatographic analyses, in-process control, solid phase extraction, and purification of target biomolecules, both on an analytical and on a preparative scale 1, 2. CIM supports perform high-resolution separations within seconds. This is predominantly due to the convective mass transport of the biomolecules between the mobile and stationary phases and the very low dead volume of the separation unit. One of the main concerns in the last few years was the batch-to-batch reproducibility of the monoliths during manufacturing and the possibility of using the monolithic supports for validated analytical methods. The batch-to-batch reproducibility in product preparation as well as its stability during analytical work should fulfill all the requirements for a validated analytical method. To demonstrate that this is possible, we have selected one complex example – the determination of impurities in immunoglobulins (IgGs) where a multidimensional, so called CLC (Conjoint Liquid Chromatography), approach combining the ion exchange and affinity chromatography was needed to properly analyze the sample.

Therefore, two CIM Protein G disks and one CIM QA disk were placed in series in one housing. Binding conditions were optimized in a way that the IgGs were bound to the CIM Protein G disks while Transferrin and Albumin were separated on a CIM QA disk. A complete separation of all three proteins was achieved in five minutes.

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