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Content archived on 2024-04-15

BIOCHEMICAL PHYSICAL KNOWLEDGE CONTROL OPTIMIZATION OF ANIMAL CELL CULTURES IN BIOREACTORS

Objective

THE OBJECTIVE IS ESSENTIALLY TECHNOLOGICAL, AND THE EXPECTED RESULTS ARE AN IMPROVEMENT IN THE PRODUCTIVITY OF MASS ANIMAL CELLS CULTURE.
A basic understanding of cell physiology and nutritional requirements of animal cell cultures has been acquired. Measurements of the activity of secreted enzymes, such as beta-glucuronidase and lactate dehydrogenase, gave good estimates of the cell viability and concentration. The effects of different types of physical stresses on cell behaviour were tested and it was found that cells can withstand substantial shear forces, provided a critical level is not exceeded. Some particular ultrasounds increased protein secretion. Detailed kinetics studies were performed in batch and continuous cultures to interrelate the way in which the cells grew, died and secreted products to the concentration of key medium components (nutrients, serum, metabolites). Mathematical models with an excellent simulation capacity were established. In several perfusion bioreactors (hollow fibers, spin filter and packed static bed) continuous cell cultures were maintained for long periods with cell concentrations 100 times higher than those in batch cultures. Aeration by bubble and bubble free systems was optimised at different scales of operation.
THE LONG TERM OBJECTIVE OF THIS STUDY IS TO DESIGN MORE EFFICIENT BIOREACTORS AND OPERATION MODES FOR THE MASS CULTURE OF ANIMAL CELLS (MORE PHYSIOLOGICAL ENVIRONMENT OF THE CELLS).

1. DESIGN REACTORS WITH BETTER MEASURING, CONTROL AND REGULATION SYSTEMS. BOTH SUSPENTION AND HOLLOW FIBRE TYPE BE TESTED.
2. KINETIC ANALYSIS OF THE MEDIUM COMPOSITION TO DETERMINE THE LIMITING NUTRIENTS AND INHIBITORY METABOLITES.
3. KINETIC DATA FOR NUTRIENT CONSUMPTION.
4. OPTIMIZATION OF THE PROCEDURES AND OPERATION MODES OF THE DIFFERENT BIOREACTORS. SEEDING STRATEGIES PROVIDING MAXIMAL CELL DENSITY. VIABILITY AND SECRETION.

Topic(s)

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Call for proposal

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Coordinator

Gesellschaft für Biotechnologische Forschung mbH
EU contribution
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Address
Mascheroder Weg 1
38124 Braunschweig
Germany

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Participants (4)