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Literature DB >> 23563583

A high-throughput media design approach for high performance mammalian fed-batch cultures.

Yolande Rouiller¹, Arnaud Périlleux¹, Natacha Collet¹, Martin Jordan¹, Matthieu Stettler¹, Hervé Broly¹.

Abstract

An innovative high-throughput medium development method based on media blending was successfully used to improve the performance of a Chinese hamster ovary fed-batch medium in shaking 96-deepwell plates. Starting from a proprietary chemically-defined medium, 16 formulations testing 43 of 47 components at 3 different levels were designed. Media blending was performed following a custom-made mixture design of experiments considering binary blends, resulting in 376 different blends that were tested during both cell expansion and fed-batch production phases in one single experiment. Three approaches were chosen to provide the best output of the large amount of data obtained. A simple ranking of conditions was first used as a quick approach to select new formulations with promising features. Then, prediction of the best mixes was done to maximize both growth and titer using the Design Expert software. Finally, a multivariate analysis enabled identification of individual potential critical components for further optimization. Applying this high-throughput method on a fed-batch, rather than on a simple batch, process opens new perspectives for medium and feed development that enables identification of an optimized process in a short time frame.

Entities: Species

Keywords: (micro-scale) cell culture; CHO cells; fed-batch; high-throughput; media blending; medium optimization; monoclonal antibody

Mesh：

Substances：
Culture Media
Glucose

Year: 2013 PMID： 23563583 PMCID： PMC4169041 DOI： 10.4161/mabs.23942

Source DB: PubMed Journal: MAbs ISSN： 1942-0862 Impact factor: 5.857

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