A process transfer combined with scale-up from shake flasks to a bioreactor is not always easy. Read this article to learn how critical process transfer factors such as choosing the right impeller design, critical engineering parameters, and the "scaling-up recipe," could help you efficiently grow your process.
At times, bioreactors can be seen as being too complex, too costly, and too time-consuming. Read this article if you have this dilemma and need points to help make the case to move from flask to bioreactor to reach higher yields, access real-time process monitoring and control, and have increased scale-up possibilities.
CHO cells are the most-used resource for complex recombinant proteins for therapeutic use. Their importance for bioprocessing is already significant and growing. As more research and optimization studies are made, the need for simple and reliable bioreactors is clear. Read this article to learn more.
Scale-up of cell cultivations is frequently challenging because process parameters cannot be adopted on a one-to-one basis. This application note demonstrates that with suitable parameters, scale-up from a shake flask to the Minifors Bioreactor and then process transfer to Multifors and Labfors Bioreactors shows desired results and can be easily performed.
Bench-scale bioreactors offer a simple and cost-effective solution for development and optimizing cultivation processes. Familiarity with a variety of process engineering parameters is crucial for successfully scaling processes up or down. Read this application note to learn how the Minifors Bioreactor is well suited for microbial applications.
A compact and easy-to-use bioreactor with a full range of application possibilities, it is a complete package that enables both beginners and experienced users to easily perform applications.
This compact, free-standing bioreactor allows you to run up to six bioprocesses in parallel on three base units with a selection of preconfigured packages and a variety of connection possibilities.