Spatial Distribution of Mammalian Cells Grown on Macroporous Microcarriers with Improved Attachment Kinetics
- 1 November 1992
- journal article
- Published by Wiley in Biotechnology Progress
- Vol. 8 (6) , 486-493
- https://doi.org/10.1021/bp00018a003
Abstract
Vero and HepG2 cells were cultivated on macroporous gelatin microcarriers prepared by the calcium carbonate inclusion method. Cell attachment to these microcarriers was slow. For HepG2 cells the subsequent growth was poor. Modification of the microcarriers by incorporation of (diethylamino)ethyl-HCl improved HepG2 attachment and subsequent growth. Optical sectioning with confocal microscopy allowed visualization of the distribution of cells within microcarriers. In most microcarriers, cells were found to preferentially populate regions close to the external surface and some cavities in the interior. Despite the incomplete occupancy of the interior of the microcarriers, high cell concentrations were achieved.Keywords
This publication has 17 references indexed in Scilit:
- Mammalian cell culture processesCurrent Opinion in Biotechnology, 1992
- Modular Integrated Fluidized Bed Bioreactor TechnologyBio/Technology, 1991
- Fluid-mechanical damage of animal cells in bioreactorsTrends in Biotechnology, 1991
- Immobilization of animal cells in porous carrier cultureTrends in Biotechnology, 1990
- Human fibroblastic cells attach to controlled-charge and gelatin-coated microcarriers at different ratesJournal of Biotechnology, 1987
- Attachment and growth of mammalian cells on microcarriers with different ion exchange capacitiesBiotechnology & Bioengineering, 1987
- Growth of Anchorage–Dependent Cells on Macroporous MicrocarriersBio/Technology, 1986
- Factors effecting cell attachment, spreading, and growth on derivatized microcarriers: II introduction of hydrophobic elementsBiotechnology & Bioengineering, 1983
- Factors affecting cell attachment, spreading, and growth on derivatized microcarriers. I. Establishment of working system and effect of the type of the amino‐charged groupsBiotechnology & Bioengineering, 1983
- Optimization of growth surface parameters in microcarrier cell cultureBiotechnology & Bioengineering, 1979