TY - JOUR
T1 - Bioimpedance microelectronics in a 24-microwell plate with metabolic-sensors for testing chemosensitivity of tumor cells and tissues
AU - Schwarzenberger, T.
AU - Demmel, F.
AU - Becker, B.
AU - Zottmann, M.
AU - Wolf, P.
AU - Kleinhans, R.
AU - Brischwein, M.
AU - Otto, A.
AU - Wolf, B.
PY - 2010
Y1 - 2010
N2 - Living cells react to external influences such as pharmacological agents in an intricate manner due to their complex internal signal processing. Cell reactions are an impact on vitality, cell-cell or cell-matrix interaction and morphological changes. A number of published techniques on impedance spectroscopy (IS) of adherent cells with planar electrodes address these changes. However, IS can merely serve as an indicator of cellular events rather than provide detailed information on a specific cell process. Thus our approach is a 24-microwell sensor-plate with impedance-electrodes in parallel to pH-and O2-sensors, capable of being integrated into a fully automated screening system. For the purpose of IS, high precision impedance-electronics have been developed based on integrated circuits and validated against a Solartron 1260 impedance analyzer. IS data is correlated to the metabolic-sensors and additionally compared with cell images shot by an inverse optical microscope which is also part of the screening system. Proof of principle is demonstrated by experimental growth monitoring of a MCF-7 culture and cellular response to chemotherapeutics. Furthermore, the potential to monitor living tissue probes is presented for the first time.
AB - Living cells react to external influences such as pharmacological agents in an intricate manner due to their complex internal signal processing. Cell reactions are an impact on vitality, cell-cell or cell-matrix interaction and morphological changes. A number of published techniques on impedance spectroscopy (IS) of adherent cells with planar electrodes address these changes. However, IS can merely serve as an indicator of cellular events rather than provide detailed information on a specific cell process. Thus our approach is a 24-microwell sensor-plate with impedance-electrodes in parallel to pH-and O2-sensors, capable of being integrated into a fully automated screening system. For the purpose of IS, high precision impedance-electronics have been developed based on integrated circuits and validated against a Solartron 1260 impedance analyzer. IS data is correlated to the metabolic-sensors and additionally compared with cell images shot by an inverse optical microscope which is also part of the screening system. Proof of principle is demonstrated by experimental growth monitoring of a MCF-7 culture and cellular response to chemotherapeutics. Furthermore, the potential to monitor living tissue probes is presented for the first time.
UR - http://www.scopus.com/inward/record.url?scp=77954682451&partnerID=8YFLogxK
U2 - 10.1088/1742-6596/224/1/012141
DO - 10.1088/1742-6596/224/1/012141
M3 - Conference article
AN - SCOPUS:77954682451
SN - 1742-6588
VL - 224
JO - Journal of Physics: Conference Series
JF - Journal of Physics: Conference Series
IS - 1
M1 - 012141
T2 - 14th International Conference on Electrical Bioimpedance, Held in Conjunction with the 11th Conference on Biomedical Applications of EIT, ICEBI and EIT 2010
Y2 - 4 April 2010 through 8 April 2010
ER -