Hydrodynamic Damage to Animal Cells
- 1 January 2001
- journal article
- review article
- Published by Taylor & Francis in Critical Reviews in Biotechnology
- Vol. 21 (2) , 67-110
- https://doi.org/10.1080/20013891081692
Abstract
Animal cells are affected by hydrodynamic forces that occur in culture vessel, transfer piping, and recovery operations such as microfiltration. Depending on the type, intensity, and duration of the force, and the specifics of the cell, the force may induce various kinds of responses in the subject cells. Both biochemical and physiological responses are observed, including apoptosis and purely mechanical destruction of the cell. This review examines the kinds of hydrodynamic forces encountered in bioprocessing equipment and the impact of those forces on cells. Methods are given for quantifying the magnitude of the specific forces, and the response thresholds are noted for the common types of cells cultured in free suspension, supported on microcarriers, and anchored to stationary surfaces.Keywords
This publication has 96 references indexed in Scilit:
- Bead-to-bead transfer of Vero cells in microcarrier cultureBioprocess and Biosystems Engineering, 1999
- Influence of hydrodynamic shear stress on microcarrier-attached cell growth: Cell line dependency and surfactant protectionBioprocess and Biosystems Engineering, 1999
- Hydrodynamics of Stirred BioreactorsApplied Mechanics Reviews, 1998
- Pneumatically Agitated Bioreactors in Industrial and Environmental Bioprocessing: Hydrodynamics, Hydraulics, and Transport PhenomenaApplied Mechanics Reviews, 1998
- Gas Bubbles and Their Influence on MicroorganismsApplied Mechanics Reviews, 1998
- Effect of shear rate on hybridoma cell metabolismBioprocess and Biosystems Engineering, 1997
- Animal cells in turbulent fluids: Details of the physical stimulus and the biological responseBiotechnology Advances, 1993
- Effect of Serum on the Plasma Membrane Fluidity of Hybridomas: An Insight into Its Shear Protective MechanismBiotechnology Progress, 1992
- Flow effects on the viability and lysis of suspended mammalian cellsBiotechnology Letters, 1987
- INFLUENCE OF NON-NEWTONIAN FLOW BEHAVIOUR ON MASS TRANSFER INBUBBLE COLUMNS WITH AND WITHOUT DRAFT TUBES†Chemical Engineering Communications, 1986