Abstract
Dielectric spectroscopy (DS) is a promising cell screening method that can be used for diagnostic and drug discovery purposes. The primary challenge of using DS in physiological buffers is the electrode polarization (EP) that overwhelms the impedance signal within a large frequency range. These effects further amplify with the miniaturization of the measurement electrodes. In this study, we present a microfluidic system and the associated equivalent circuit models for real-time measurements of cell membrane capacitance and cytoplasm resistance in physiological buffers with 10 s increments. The current device captures several hundreds of biological cells in individual microwells through gravitational settling and measures the system’s impedance using microelectrodes covered with dendritic gold nanostructures. Using PC-3 cells (a highly metastatic prostate cancer cell line) suspended in cell growth media (CGM), we demonstrate stable measurements of cell membrane capacitance and cytoplasm resistance in the device for over 15 min. We also describe a consistent application of the equivalent circuit model, starting from the reference measurements used to determine the system parameters. The circuit model is tested using devices with varying dimensions, and the obtained cell parameters between different devices are nearly identical. Further analyses of the impedance data have shown that accurate cell membrane capacitance and cytoplasm resistance can be extracted using a limited number of measurements in the 5 MHz to 10 MHz range. This will potentially reduce the timescale required for real-time DS measurements below 1 s. Overall, the new microfluidic device can be used for the dielectric characterization of biological cells in physiological buffers for various cell screening applications.
Highlights
Published: 8 January 2022Cell screening is a method for observing living cells and evaluating cell physiology to discover cell properties and fate
We demonstrate dielectric property measurements of PC-3 cells suspended in cell growth media (CGM) as a function of time by using microelectrodes covered with dendritic gold nanostructures that minimize the electrode polarization (EP) effects
dielectric spectroscopy (DS) measurements are usually performed in kHz to MHz frequency ranges, and the EP effect results in the reduction in measurement sensitivity in sub-MHz frequencies, especially in high conductive buffers, such as growth media
Summary
Cell screening is a method for observing living cells and evaluating cell physiology to discover cell properties and fate This method has been widely employed for drug discovery [1,2], diagnostic purposes [3,4,5], biological molecules detection [4], and microbial species detection [6,7]. In order to reduce the cost and time of testing and enhance the efficiency, 384-, 1536-, and 9600-well plates were introduced and employed for monitoring purposes The drawbacks, such as evaporation, sample dispensing, and low amounts of samples, compelled the researchers to develop more efficient platforms [8]. DS has been widely used for impedance measurements of yeast cells [10,11,12], breast cancer cells [13], lymphocyte
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