Abstract
Electric cell–substrate impedance sensing exhibits a real-time and label-free feature to monitor the response of cells stimulated by various biochemical and mechanical signals. Alterations in the currents passing through the cell–electrode system characterize the impedance variations of cells. The impedance responses of HeLa cells under distinct chemotherapy drugs combine the effects of cell proliferation and cell–substrate adhesion. Optimal interdigitated electrodes were selected to explore the impedance responses of HeLa cells. Measurements of impedance of cells in response to three widely used chemotherapy drugs in clinical practice, namely cisplatin, doxorubicin, 5-fluorouracil, were performed. The results demonstrated that distinct impedance responses of HeLa cells to drugs were exhibited and a decrease in measured impedance was observed after drug treatment, accompanied by alterations in the distribution and intensity of the adhesion-related protein vinculin and the rate of cell proliferation. The link between the impedance profiles of HeLa cells and their biological functions was developed based on the circuit model. This study demonstrated the weights of cell proliferation and adhesion of HeLa cells under the treatments of DDP, DOX, and 5-FU, resulted in distinct impedance responses of cells, providing an impedance-based evaluation methodology for cervical cancer treatment.
Highlights
IntroductionElectric cell–substrate impedance sensing (ECIS) is a label-free, noninvasive method for monitoring the physiological state of cells in real time by detecting changes in impedance
Electric cell–substrate impedance sensing (ECIS) is a label-free, noninvasive method for monitoring the physiological state of cells in real time by detecting changes in impedance.The electrical properties of cells are regarded as effective markers to explore the complex physiological states of cells [1]
The ECIS measurements reflected changes in the impedance of the electrodes according to AC current over time
Summary
Electric cell–substrate impedance sensing (ECIS) is a label-free, noninvasive method for monitoring the physiological state of cells in real time by detecting changes in impedance. The electrical properties of cells are regarded as effective markers to explore the complex physiological states of cells [1]. ECIS-based measurements have widely provided real-time and noninvasive biophysical approach to monitor living cells in vitro. The effect of clinical bacteria isolates on the integrity of epithelial cells was evaluated based on a decrease in the impedance of cells [3]. The ECIS technique provided useful information for estimating the fill factor of muscular stem cells [6].
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