Eppendorf

The proportional–integral–derivative (PID) control mechanism is used for a variety of processes, including dissolved oxygen (DO) control. This protocol introduces a method developed to optimize the PI values on Eppendorf bioprocess controllers.

***Live: Thursday, Oct. 22, 2020 at 10am EDT| 9am CDT| 3pm BST| 4pm CEST***Process development for anchorage-dependent cells at bench scale is crucial to establish cost-efficient workflows in larger volumes. Learn how different process parameter can be monitored and controlled in a perfusion bioprocess and the potential of using packed-bed bioreactors or a microcarrier spin filter for attachment cell-based vaccine production.. *** On demand available after final airing until Oct. 22, 2021.***

In this interview, we will talk about the typical developmental process of new vaccines and how the current Covid-19 situation influences the global vaccine developmental landscape.

• Using stirred-tank bioreactors for stem cell culture provides advantages. • Factors to consider include OTR, agitation speed, and impeller blades. • An eight-blade impeller can address challenges associated with scale-up.

Join Ankita Desai from Eppendorf and Arie Reijerkerk from Ncardia in this webcast and Q&A session to learn about the benefits of stirred-tank bioreactors for the drug discovery and development process. Get insights about how the advent of human-induced pluripotent stem cell (hiPSC) technology has substantially expanded the availability of human cells. Live: Monday, Sept. 16, 2019 at 9am EDT | 2pm BST | 3pm CEST On demand available after airing until Sept. 16, 2020 Register free