Ute Husemann scite author profile

During the past five years, the number of single‐use bioreactors used in biopharmaceutical research and production has increased tremendously. This increase has been particularly associated with mammalian cell culture processes from small‐ to medium‐scale volumes. Even though nowadays customers can choose from a multitude of 2nd and 3rd generation single‐use bioreactors, ranging from mL‐ up to m3‐scale, there is a lack of knowledge of their engineering parameters. Different approaches have been applied to characterization investigations, resulting in an inability to compare different single‐use bioreactors with each other and their reusable counterparts, creating an obstacle to a systematic approach to scaling‐up the process. This article describes parametric, experimental and computer‐based numeric methods for biochemical engineering characterization of single‐use bioreactors, which have already been used successfully for the characterization of their reusable counterparts. For the first time, these methods have been evaluated in terms of their practical application.

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Verification of a new biocompatible single‐use film formulation with optimized additive content for multiple bioprocess applications

Jurkiewicz

Husemann

Greller

et al. 2014

Biotechnology Progress

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Single-use bioprocessing bags and bioreactors gained significant importance in the industry as they offer a number of advantages over traditional stainless steel solutions. However, there is continued concern that the plastic materials might release potentially toxic substances negatively impacting cell growth and product titers, or even compromise drug safety when using single-use bags for intermediate or drug substance storage. In this study, we have focused on the in vitro detection of potentially cytotoxic leachables originating from the recently developed new polyethylene (PE) multilayer film called S80. This new film was developed to guarantee biocompatibility for multiple bioprocess applications, for example, storage of process fluids, mixing, and cell culture bioreactors. For this purpose, we examined a protein-free cell culture medium that had been used to extract leachables from freshly gamma-irradiated sample bags in a standardized cell culture assay. We investigated sample bags from films generated to establish the operating ranges of the film extrusion process. Further, we studied sample bags of different age after gamma-irradiation and finally, we performed extended media extraction trials at cold room conditions using sample bags. In contrast to a nonoptimized film formulation, our data demonstrate no cytotoxic effect of the S80 polymer film formulation under any of the investigated conditions. The S80 film formulation is based on an optimized PE polymer composition and additive package. Full traceability alongside specifications and controls of all critical raw materials, and process controls of the manufacturing process, that is, film extrusion and gamma-irradiation, have been established to ensure lot-to-lot consistency. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 30:1171–1176, 2014

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Standardized Qualification of Stirred Bioreactors for Microbial Biopharmaceutical Production Processes

Schirmer

Blaschczok

Husemann

et al. 2017

Chemie Ingenieur Technik

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An in 2016 published DECHEMA guideline concerning process engineering characterization and a new Escherichia coli model process were utilized for the qualification of two geometrically similar stirred stainless steel bioreactors (30 L and 100 L working volume). The achieved results demonstrate that performing an additional biological model process is a valuable complement to the process engineering characterization. Optical densities of 27 (100 L) and 39 (30 L) were reached in the batch cultivation process.

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High Cell Density Escherichia coli Cultivation in Different Single‐Use Bioreactor Systems

Dreher

Husemann

Zahnow

et al. 2012

Chemie Ingenieur Technik

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During the last decades single‐use bioreactors have become widely accepted in the biopharmaceutical industry. Single‐use technologies bring many advantages over conventional solutions, such as a reduced investment and operational cost as well as an optimized time‐to‐market. So far, this type of bioreactor is mainly used for cell culture applications. Results for microbial fermentations are rarely found, commonly due to limited oxygen transfer rates. The aim of this study was to establish a high cell density fermentation process for a recombinant Escherichia coli considering a rocking motion type and an adapted stirred 50‐L single‐use bioreactor. By using the design space approach an OTRmax/OURmax model was established. The feeding strategies were optimized and verified based on a model for both single‐use systems to achieve high cell densities. In both single‐use bioreactors a recombinant protein was successfully expressed.

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Application of heat compensation calorimetry to an E. coli fed-batch process

Müller

Meusel

Husemann

et al. 2018

Journal of Biotechnology

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Ute Husemann

Bioengineering Parameters for Single‐Use Bioreactors: Overview and Evaluation of Suitable Methods

Verification of a new biocompatible single‐use film formulation with optimized additive content for multiple bioprocess applications

Standardized Qualification of Stirred Bioreactors for Microbial Biopharmaceutical Production Processes

High Cell Density Escherichia coli Cultivation in Different Single‐Use Bioreactor Systems

Application of heat compensation calorimetry to an E. coli fed-batch process

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