A microstructure heat exchanger for quenching the metabolism of mammalian cells
Wiendahl C, Brandner JJ, Kueppers C, Luo B, Schygulla U, Noll T, Oldiges M (2007)
CHEMICAL ENGINEERING & TECHNOLOGY 30(3): 322-328.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Wiendahl, C.;
Brandner, J. J.;
Kueppers, C.;
Luo, B.;
Schygulla, U.;
Noll, ThomasUniBi 
;
Oldiges, M.
;
Oldiges, M.Einrichtung
Abstract / Bemerkung
Metabolomics, the quantification of intracellular metabolites, is a powerful tool that has proven useful in microbial strain and fermentation process development. The crucial step is the rapid quenching of the cellular metabolism to preserve the intracellular situation as it is in the bioreactor until (MS-based) analysis. For microbial systems and plants this can be achieved by using ice-cold methanol (-40 degrees C) or liquid nitrogen, but for mammalian cells in suspension no reliable technique is yet available. Here, a metallic microstructure heat exchanger is presented which allows cooling of a CHO cell suspension from cultivation temperature (37 degrees C) to 0 degrees C in less than one second without any detectable cell damage or cell disruption even at very high cell densities up to 8 . 10(6) cells/mL.
Stichworte
microstructure heat exchanger;
quenching;
heat;
metabolome analysis;
transfer
Erscheinungsjahr
2007
Zeitschriftentitel
CHEMICAL ENGINEERING & TECHNOLOGY
Band
30
Ausgabe
3
Seite(n)
322-328
ISSN
0930-7516
eISSN
1521-4125
Page URI
https://pub.uni-bielefeld.de/record/1595232
Zitieren
Wiendahl C, Brandner JJ, Kueppers C, et al. A microstructure heat exchanger for quenching the metabolism of mammalian cells. CHEMICAL ENGINEERING & TECHNOLOGY. 2007;30(3):322-328.
Wiendahl, C., Brandner, J. J., Kueppers, C., Luo, B., Schygulla, U., Noll, T., & Oldiges, M. (2007). A microstructure heat exchanger for quenching the metabolism of mammalian cells. CHEMICAL ENGINEERING & TECHNOLOGY, 30(3), 322-328. https://doi.org/10.1002/ceat.200600362
Wiendahl, C., Brandner, J. J., Kueppers, C., Luo, B., Schygulla, U., Noll, Thomas, and Oldiges, M. 2007. “A microstructure heat exchanger for quenching the metabolism of mammalian cells”. CHEMICAL ENGINEERING & TECHNOLOGY 30 (3): 322-328.
Wiendahl, C., Brandner, J. J., Kueppers, C., Luo, B., Schygulla, U., Noll, T., and Oldiges, M. (2007). A microstructure heat exchanger for quenching the metabolism of mammalian cells. CHEMICAL ENGINEERING & TECHNOLOGY 30, 322-328.
Wiendahl, C., et al., 2007. A microstructure heat exchanger for quenching the metabolism of mammalian cells. CHEMICAL ENGINEERING & TECHNOLOGY, 30(3), p 322-328.
C. Wiendahl, et al., “A microstructure heat exchanger for quenching the metabolism of mammalian cells”, CHEMICAL ENGINEERING & TECHNOLOGY, vol. 30, 2007, pp. 322-328.
Wiendahl, C., Brandner, J.J., Kueppers, C., Luo, B., Schygulla, U., Noll, T., Oldiges, M.: A microstructure heat exchanger for quenching the metabolism of mammalian cells. CHEMICAL ENGINEERING & TECHNOLOGY. 30, 322-328 (2007).
Wiendahl, C., Brandner, J. J., Kueppers, C., Luo, B., Schygulla, U., Noll, Thomas, and Oldiges, M. “A microstructure heat exchanger for quenching the metabolism of mammalian cells”. CHEMICAL ENGINEERING & TECHNOLOGY 30.3 (2007): 322-328.
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