2004
DOI: 10.1016/s0956-5663(03)00269-0
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Bioelectrical impedance assay to monitor changes in cell shape during apoptosis

Abstract: Apoptosis is a strictly regulated and genetically encoded cell 'suicide' that may be triggered by cytokines, depletion of growth factors or certain chemicals. It is morphologically characterized by severe alterations in cell shape like cell shrinkage and disintegration of cell-cell contacts. We applied a non-invasive electrochemical technique referred to as electric cell-substrate impedance sensing (ECIS) in order to monitor the apoptosis-induced changes in cell shape in an integral and quantitative fashion wi… Show more

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Cited by 299 publications
(209 citation statements)
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“…This methodology can provide not only a measurement of viability but also of stress and does not require further manipulation such as lysing of target cells. It has been used for such diverse purposes as measuring cell shape during apoptosis (Arndt et al 2004) as well as to study the kinetics of cell growth and spreading (Wegener et al 2000). However, as cells need to be in constant contact with the gold electrodes during culturing, this technique is primarily suited for use with adherent cells.…”
Section: Methods For Measuring Single Cell Eukaryote Cell Viability/pmentioning
confidence: 99%
“…This methodology can provide not only a measurement of viability but also of stress and does not require further manipulation such as lysing of target cells. It has been used for such diverse purposes as measuring cell shape during apoptosis (Arndt et al 2004) as well as to study the kinetics of cell growth and spreading (Wegener et al 2000). However, as cells need to be in constant contact with the gold electrodes during culturing, this technique is primarily suited for use with adherent cells.…”
Section: Methods For Measuring Single Cell Eukaryote Cell Viability/pmentioning
confidence: 99%
“…Cell behavior such as proliferation, differentiation and death can be interpreted by impedance measurements between a cell and an underlying electrode [29][30][31]. PEMs provide a stable, biocompatible and adhesive environment for cells to grow.…”
Section: Electronically-based Biosensorsmentioning
confidence: 99%
“…For example, Woolley et al monitored the electrochemical properties of anticancer compounds on cells [2]. In addition, living cells have been widely investigated under many electrochemical conditions such as electron transfer between electroactive centers in cells and electrodes [3], and electric cell substrate impedance sensing [4][5][6]. Furthermore, electrochemistry can be widely applied to biosensors using enzymes, antibodies, nucleic acids, peptide nucleic acids, and aptamers [7][8][9][10].…”
Section: Doi: 101002/elan201100182mentioning
confidence: 99%