Micro-bioreactor array for controlling cellular microenvironments

Micro-bioreactor array for controlling cellular microenvironments

High throughput experiments can be used to spatially and temporally investigate the many factors that regulate cell differentiation. We have developed a micro-bioreactor array (MBA) that is fabricated using soft lithography and contains twelve independent micro-bioreactors perfused with culture medi...

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Veröffentlicht in:Lab on a chip 2007, Vol.7 (6), p.710-719
Hauptverfasser: Figallo, Elisa, Cannizzaro, Christopher, Gerecht, Sharon, Burdick, Jason A, Langer, Robert, Elvassore, Nicola, Vunjak-Novakovic, Gordana
Format: Artikel
Sprache:eng
Schlagworte:
Actins - metabolism
Animals
Bioreactors
Cell Count
Cell Culture Techniques - instrumentation
Cell Culture Techniques - methods
Cell Differentiation
Computer Simulation
Culture Media
Embryonic Stem Cells - metabolism
Humans
Models, Biological
Muscle, Smooth - metabolism
Myocytes, Cardiac - cytology
Myocytes, Cardiac - metabolism
Nanotechnology
Rats
Rheology
Shear Strength
Tissue Engineering - instrumentation
Tissue Engineering - methods
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Zusammenfassung:High throughput experiments can be used to spatially and temporally investigate the many factors that regulate cell differentiation. We have developed a micro-bioreactor array (MBA) that is fabricated using soft lithography and contains twelve independent micro-bioreactors perfused with culture medium. The MBA enables cultivation of cells that are either attached to substrates or encapsulated in hydrogels, at variable levels of hydrodynamic shear, and with automated image analysis of the expression of cell differentiation markers. The flow and mass transport in the MBA were characterized by computational fluid dynamic (CFD) modeling. The representative MBA configurations were validated using the C2C12 cell line, primary rat cardiac myocytes and human embryonic stem cells (hESCs) (lines H09 and H13). To illustrate the utility of the MBA for controlled studies of hESCs, we established correlations between the expression of smooth muscle actin and cell density for three different flow configurations.
ISSN:1473-0197
1473-0189
DOI:10.1039/b700063d