Overcoming new food scalability hurdles

Perfusion technology separates cells from the depleted nutrient solution, increasing live cell density and productivity. "We see perfusion as one of the most promising technologies because it cuts the production cost of alternative proteins on several fronts," says Tatjana Krampitz, Head of New Food Technology Management at GEA. "What the market currently needs are reliable pilot plants that are quick to set up and meet industrial standards. Our single-use separators enable start-ups in particular to work under sterile conditions, which helps them surmount a major challenge." Looking ahead, the reprocessing of media separated by perfusion promises even more efficient and sustainable production.

Promoting cell growth

To stimulate healthy and rapid cell growth in bioreactors, it is necessary to remove growth-inhibiting metabolites such as ammonium and lactate from the culture medium. Perfusion technology allows for a portion of the depleted nutrient solution to be continuously separated in a sterile manner. The concentrated cell solution can then be returned to the bioreactor while the separated medium is replaced with fresh, nutrient-rich medium. This keeps the cultures in optimum growth conditions at all times and ensures reproducible product quality - a key criterion for the regulatory approval of new foods. Overall, perfusion significantly improves productivity and cell density compared to conventional batch and fed-batch processes.

Single-use separator is the key to pilot processes

The GEA kytero single-use separator is a core component of the GEA perfusion platform. "For start-ups looking to validate their product ideas with cell lines of their own, kytero is a key to success," adds Rüdiger Göhmann, Product Manager Pharma/Chemicals/New Food, Business Unit Separators at GEA. "These companies do not yet have the cleaning and sterilization facilities needed for a sophisticated process infrastructure. Yet they have to work in an aseptic environment in order to obtain reproducible results. Our single-use separator gets around this by doing without SIP and CIP processes." Already established in the pharma industry, GEA kytero now bridges this gap in the development process.

Enhancing efficiency and sustainability in new food production

Tatjana Krampitz highlights the importance of perfusion technology for more sustainable production of alternative proteins: "If we were to transfer the production capacity requirements for new foods one-on-one onto conventional process lines, the resulting plants would be huge. Perfusion lets us grow cells in a much smaller space. In the long term, this technology will blaze a trail when it comes to shrinking bioreactors and hence reducing both the quantity of stainless steel needed and the nutrient and cleaning media required." Experts estimate that perfusion could result in the process technologies being scaled down by some ten percent in terms of both bioreactor size and media and space requirements.

Innovation focus on bioreactor development and media preparation

For GEA, perfusion is a key innovation focus for the entire upstream and downstream process. As it enables both the bioreactors and the material flow to run continuously throughout the process chain, it also improves capacity utilization.

At the same time, the technology holds out major potential for media reprocessing - a significant cost factor in the production of new foods and, in turn, of the end products. Reusing and purifying media would mark a major milestone on the path to reaching price parity between conventional and new foods.

The GEA Axenic P bioreactor

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GEA Group AG published this content on 20 March 2024 and is solely responsible for the information contained therein. Distributed by Public, unedited and unaltered, on 20 March 2024 08:57:04 UTC.