TY - JOUR
T1 - On-line control of cellular adhesion with impedance measurements using interdigitated electrode structures
AU - Ehret, R.
AU - Baumann, W.
AU - Brischwein, M.
AU - Schwinde, A.
AU - Wolf, B.
N1 - Funding Information:
Acknowledgments--This research was supported by a grant from the Federal Ministry of Education, Science, Research & Technology (grant 0310856). We want to thank all other members of our group for their contributions: M. Bitzenhofer, I. Freund, T. Henning, M. Lehmann, U. Schmieder and K. Stegbauer. We also particularly wish to thank the following for collaboration and technical/financial assistance: Professor K.-F. Fischbach (Fakult/it fiir Biologic, Uni-versitgt Freiburg, Germany), M. Weig (PTS GmbH, Freiburg, Germany), Dr U. Sieben, (Intermetall Halbleiterwerk der ITT Industries GmbH, Freiburg, Germany), G. Sulz and Ch. Vogel (Institut fiir physikalische MeBtechnik der Fraunhofer-Gesellschal~, Freiburg, Germany).
PY - 1998/5
Y1 - 1998/5
N2 - Critical parameters to be assessed in cell culture are the number of viable cells and cell viability. Growth, product formation, toxicity effects and the overall success of cell culture can depend largely on these. With interdigitated electrode structures (IDES) adherent cells are cultured directly on a pair of interdigitated electrodes, and the impedance of the system gives insight into the adhesive behaviour of the cells. The signal is influenced by the changes in number, growth and morphological behaviour of adherently growing cells, mainly owing to the insulating effects of the cell membranes. Five different cell lines are used, and their divergent behaviour is monitored over a period of four days, from inoculation of the cells to killing of the cells at the end of the experiments. Even when the cells form close monolayers, great fluctuations in the impedance signal can be observed. Nevertheless, for a more complete description of cellular systems, other parameters, such as acidification and respiration, have to be included in the measuring system.
AB - Critical parameters to be assessed in cell culture are the number of viable cells and cell viability. Growth, product formation, toxicity effects and the overall success of cell culture can depend largely on these. With interdigitated electrode structures (IDES) adherent cells are cultured directly on a pair of interdigitated electrodes, and the impedance of the system gives insight into the adhesive behaviour of the cells. The signal is influenced by the changes in number, growth and morphological behaviour of adherently growing cells, mainly owing to the insulating effects of the cell membranes. Five different cell lines are used, and their divergent behaviour is monitored over a period of four days, from inoculation of the cells to killing of the cells at the end of the experiments. Even when the cells form close monolayers, great fluctuations in the impedance signal can be observed. Nevertheless, for a more complete description of cellular systems, other parameters, such as acidification and respiration, have to be included in the measuring system.
KW - Cell-based biosensor
KW - Cellular adhesion
KW - Impedance
KW - Interdigitated electrode structures
KW - PhysioControl-Microsystem
UR - http://www.scopus.com/inward/record.url?scp=0032078047&partnerID=8YFLogxK
U2 - 10.1007/BF02522485
DO - 10.1007/BF02522485
M3 - Article
C2 - 9747579
AN - SCOPUS:0032078047
SN - 0140-0118
VL - 36
SP - 365
EP - 370
JO - Medical & Biological Engineering & Computing
JF - Medical & Biological Engineering & Computing
IS - 3
ER -