Use of Hydrocyclones for Mammalian Cell Retention: Separation Efficiency and Cell Viability (Part 1)

A hydrocyclone with a volume of 2.56 cm³ was studied as a potential cell retention device for mammalian cell cultures (6 L volume). For the feasible operation range (0.9 to 1.6 L/min flow corresponding to pressure drops of 0.4 to 1.3 bar) the hydrocyclone was characterized with regard to flow split (underflow‐to‐overflow ratio) and flow ratio (underflow to supply). Cultures of BHK and HeLa cells (with low cell concentrations) were applied to measure separation efficiency and cell viability for a hydrocyclone operation period of 3 min corresponding to a cell suspension throughput of 2.7 to 4.8 L. Cell separation efficiencies ranged from 0.77 to 0.97 and cell viability was not affected except for BHK cells in the overflow at the highest pressure drop (1.3 bar). As the overflow is commonly used for product harvest and cells are discarded, the application of the hydrocyclone has no detrimental effect on the reactor perfusion system. The results indicate that only cells passing from the primary vortex downwards into the inner secondary vortex and from there upwards could be damaged. Evidence for this hypothesis is obtained from operating the hydrocyclone with closed overflow (only centrifugal forces acting) for a period of 3 h. In these studies no significant effect on cell viability could be detected for HeLa and CHO cells. Hence, the results indicate that the hydrocyclone can be appropriately used for cell retention and separation in perfusion cultures. Application at higher pressures is recommended whereby separation efficiencies of 0.97 without any loss in viability can be achieved.