Robot Automation of Sampling and Sample Management during Cultivation of Mammalian Cells in Pilot Scale

Lütkemeyer, Dirk; Poggendorf, Iris; Scherer, Thomas; Zhang, J.; Knoll, Alois; Lehmann, Jürgen

doi:10.1007/978-94-010-0369-8_111

Cited by 2 publications

(2 citation statements)

References 5 publications

(4 reference statements)

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“…hybridoma seeding and plating-out, feeding and medium exchange, and harvesting supernatants for testing antibody specificity against the target antigen. The development of automated systems for controlling cell plating, medium change, growth factor addition, cell harvesting and seeding has already been described for the maintenance of several mammalian cell culture (Lutkemeyer et al 2000) including embryonic stem cells (Terstegge et al 2007) and it is a substantial help to a laboratory dedicated to large-scale monoclonal antibody production. Many industries specialised in liquid handling and laboratory automation have satisfied the demands of several investigators for fully automated off-the-shelf robotic solutions which can be customised for specific applications (Chapman 2003).…”

Section: Hybridoma Technologymentioning

confidence: 99%

Mouse monoclonal antibodies in biological research: strategies for high-throughput production

Chiarella

Fazio

2008

Biotechnol Lett

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Mouse monoclonal antibodies have become key components in basic research as well as in the clinical laboratory. Being invaluable tools in many biological assays, they continue to be the primary choice in the research field, although the conventional technology used for hybridoma generation and screening is a still lengthy, time-consuming and low-throughput process. With the advent of genetic immunisation and the application of automation and microarray to the traditional biological assays, the monoclonal antibody field has been revolutionised. Here, we will briefly review the most relevant strategies which have made the manufacture of murine monoclonal antibodies a faster and high-throughput technology.

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Section: Hybridoma Technologymentioning

confidence: 99%

Mouse monoclonal antibodies in biological research: strategies for high-throughput production

Chiarella

Fazio

2008

Biotechnol Lett

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“…tubes and valves and thus an increase of the reliability of the Protein-Processing Platform. However, compared with conventional cultivation and (automatic) sampling processes [12,13], bioprocesses on a mL-scale and sampling on a lL-scale require new technical principles. Linking and combination of biotechnological principles (e.g.…”

Section: Introductionmentioning

confidence: 99%

Protein‐Processing Platform (3P) – a New Concept for the Characterization of Cell Cultures in the mL‐Scale Using Microfluidic Components

Gastrock

Lemke

Romer

et al. 2008

Engineering in Life Sciences

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A newly developed Protein-Processing Platform (3P) for cell cultivation and sample handling is presented. The 3P-concept is based on a 6-well microtiter plate for cell cultivation, an autoclavable top plate as a sampling system using a new kind of microvalve and an x-y-z-plotter to manage the sample handling procedures. Furthermore, the sample can be stored in a water-cooled deep well plate and transported to a detector e.g. by addressing a dedicated protein chip based on a Black-Silicon structure. The function of microvalves is based on the swelling behavior of hydrogel depending on its temperature. The regulation system of this temperature is integrated into the 6-well microtiter top plate. In this paper, the realization of this concept is exemplarily carried out using the cultivation of hybridoma and their production of monoclonal antibodies. The cultivation conditions were not optimized. However, using different mixing methods, their influence on the antibody production was investigated. The best cell growth was observed in the dormant 6-well microtiter plate. As under these conditions, a gradient of antibody concentrations occurs, the depth of immersion of the sampling probes has to be investigated. A reproducible sampling was possible by withdrawing the sample from the middle of the cell suspension level. Procedures for sampling and washing under sterile conditions were developed using the tools of the x-y-z-plotter. The optical detection of the samples can be performed using the new protein chip based on the Black-Silicon technology in any kind of commercial reader. It is possible to integrate the single modular components of the platform into every protein expression process. Additionally, the adaptation of the sampling system to commercial microtiter plates guarantees a wide range of applications.

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Robot Automation of Sampling and Sample Management during Cultivation of Mammalian Cells in Pilot Scale

Cited by 2 publications

References 5 publications

Mouse monoclonal antibodies in biological research: strategies for high-throughput production

Mouse monoclonal antibodies in biological research: strategies for high-throughput production

Protein‐Processing Platform (3P) – a New Concept for the Characterization of Cell Cultures in the mL‐Scale Using Microfluidic Components

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