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Sensitivity of bulk electrical impedance spectroscopy (bio‐capacitance) probes to cell and culture properties: Study on CHO cell cultures

2024; American Chemical Society; Linguagem: Inglês

10.1002/btpr.3519

8756-7938

Elham Salimi, Sara Absalan, Julien Robitaille, Johnny Montes, Michael Butler, D. J. Thomson, Greg E. Bridges,

3D Printing in Biomedical Research

Abstract Bulk electrical impedance spectroscopy (bio‐capacitance) probes, hold significant promise for real‐time cell monitoring in bioprocesses. Focusing on Chinese hamster ovary (CHO) cells, we present a sensitivity analysis framework to assess the impact of cell and culture properties on the complex permittivity spectrum, ε mix , and its associated parameters, permittivity increment, Δ ε , critical frequency, f c , and Cole‐Cole parameter, α, measured by bio‐capacitance probes. Our sensitivity analysis showed that Δε is highly sensitive to cell size and concentration, making it suitable for estimating biovolume during the exponential growth phase, whereas f c provides information about cumulative changes in cell size, membrane permittivity, and cytoplasm conductivity during the transition to death phase. The analysis indicated that specific information about cell membrane permittivity or internal conductivity cannot be extracted from ε mix spectrum. Based on the sensitivity analysis, we proposed two alternative parameters for monitoring cells in bioprocesses: Δ ε 1 MHz and Δ ε 1 MHz /Δ ε 0.3 MHz , using measurements at 300 kHz, 1 MHz, and 10 MHz. Δ ε 1 MHz is suitable for estimating viable cell density during the exponential growth phase due to its lower sensitivity to cell size. Δ ε 1 MHz /Δ ε 0.3 MHz can replace f c due to similar sensitivities to cell size and dielectric properties. These frequencies are within most bio‐capacitance probes' optimal operation range, eliminating the need for low‐frequency electrode polarization and high‐frequency stray capacitances corrections. Experimental measurements on CHO cells confirmed the results of sensitivity analysis.