Microfluidic cell culturing by hydrogel-based diffusion/perfusion

2013 Transducers and Eurosensors XXVII: The 17th International Conference on Solid-State Sensors, Actuators and Microsystems, TRANSDUCERS and EUROSENSORS 2013

Volumn , Issue , 2013, Pages 2094-2097

  Puchberger Enengl, D ^a   Van Den Driesche, S ^b   Krutzler, C ^c   Keplinger, F ^a   Vellekoop, M J ^b  

^a VIENNA UNIVERSITY OF TECHNOLOGY   (Austria)

^b UNIVERSITY OF BREMEN   (Germany)

^c Integrated Microsystems Austria GmbH   (Austria)

Author keywords

B. subtilis; hydrogel barrier; Microfluidic cell culture; poly(ethylene glycol) diacrylate; S. cerevisiae

Indexed keywords

CULTURE ENVIRONMENTS; GROWTH CHAMBER; MECHANICAL STRUCTURES; MICROFLUIDIC CELL; MICROFLUIDIC CELL CULTURE; POLYETHYLENE GLYCOL DIACRYLATE; S.CEREVISIAE; SUBTILIS;

ACTUATORS; CELL CULTURE; CULTIVATION; DIFFUSION BARRIERS; HYDROGELS; MICROSYSTEMS; POLYETHYLENE GLYCOLS; SOLID-STATE SENSORS;

MICROFLUIDICS;

EID: 84891683976     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/Transducers.2013.6627213     Document Type: Conference Paper

References (12)

1. Yeon, J., &Park, J. (2007). Microfluidic cell culturesystems for cellular analysis. Biochip Journal, 1(1),17-27.
2. Charwat, V., Purtscher, M., Tedde, S. F., Hayden, O.,&Ertl, P. (2013). Standardization of microfluidic cellcultures using integrated organic photodiodes andelectrode arrays. Lab on a chip, 13(5), 785-97.doi:10.1039/ c2lc40965h
3. Nevill, J. T., Cooper, R., Dueck, M., Breslauer, D.N., &Lee, L. P. (2007). Integrated microfluidic cellculture and lysis on a chip. Lab on a chip, 7(12),1689-95. doi:10.1039/b711874k
4. Lei, K., Wu, M., Hsu, C., &Chen, Y. (2012).Electrical Impedance Determination of Cancer CellViability in a 3-Dimensional Cell CultureMicrofluidic Chip. Int. J. Electrochem. Sci, 7, 12817-12828.
5. van de Stolpe, A., &den Toonder, J. (2013).Workshop meeting report Organs on Chips: humandisease models. Lab on a Chip, (207890).doi:10.1039/ c3lc50248a
6. Kim, L., Toh, Y.-C., Voldman, J., &Yu, H. (2007).A practical guide to microfluidic perfusion culture ofadherent mammalian cells. Lab on a chip, 7(6), 681-94. doi:10.1039/b704602b
7. Hung, P. J., Lee, P. J., Sabounchi, P., Aghdam, N.,Lin, R., &Lee, L. P. (2005). A novel high aspectratio microfluidic design to provide a stable anduniform microenvironment for cell growth in a highthroughput mammalian cell culture array. Lab on achip, 5(1), 44-8. doi:10.1039/b410743h
8. Kolnik, M., Tsimring, L. S., &Hasty, J. (2012).Vacuum-assisted cell loading enables shear-freemammalian microfluidic culture. Lab on a chip,12(22), 4732-7. doi:10.1039/c2lc40569e
9. Liu, K., Pitchimani, R., Dang, D., Bayer, K.,Harrington, T., &Pappas, D. (2008). Cell culturechip using low-shear mass transport. Langmuir•: TheACS journal of surfaces and colloids, 24(11), 5955-60. doi:10.1021/la8003917
10. Vulto, P., Podszun, S., Meyer, P., Hermann, C.,Manz, A., &Urban, G. a. (2011). Phaseguides: aparadigm shift in microfluidic priming and emptying. Lab on a chip, 11(9), 1596-602.doi:10.1039/c0lc00643b
11. Puchberger-Enengl, D., Podszun, S., Heinz, H.,Hermann, C., Vulto, P., &Urban, G. a. (2011).Microfluidic concentration of bacteria by on-chipelectrophoresis. Biomicrofluidics, 5(4), 44111-4411110. doi:10.1063/1.3664691
12. Kalashnikov, M., Lee, J. C., Campbell, J., Sharon, A.,&Sauer-Budge, A. F. (2012). A microfluidicplatform for rapid, stress-induced antibioticsusceptibility testing of Staphylococcus aureus. Labon a chip, 12(21), 4523-32. doi:10.1039/c2lc40531h