Microfluidic measurement of individual cell membrane water permeability

This paper reports a microfluidic lab-on-chip for dynamic particle sizing and real time individual cell membrane permeability measurements. To achieve this, the device measures the impedance change of individual cells or particles at up to ten time points after mixing with different media, e.g. dime...

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Veröffentlicht in:	Analytica chimica acta 2021-06, Vol.1163, p.338441-338441, Article 338441
Hauptverfasser:	Huang, Lining, Benson, James D., Almasri, Mahmoud
Format:	Artikel
Sprache:	eng
Schlagworte:	Boyle van’t hoff Coulter counter Impedance measurement Individual cell membrane permeability Lab on a chip Microfluidic Water permeability Yeast cell
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creator	Huang, Lining Benson, James D. Almasri, Mahmoud
description	This paper reports a microfluidic lab-on-chip for dynamic particle sizing and real time individual cell membrane permeability measurements. To achieve this, the device measures the impedance change of individual cells or particles at up to ten time points after mixing with different media, e.g. dimethyl sulfoxide or DI water, from separate inlets. These measurements are enabled by ten gold electrode pairs spread across a 20 mm long microchannel. The device measures impedance values within 0.26 s after mixing with other media, has a detection throughput of 150 samples/second, measures impedance values at all ten electrodes at this rate, and allows tracking of individual cell volume changes caused by cell osmosis in anisosmotic fluids over a 1.3 s postmixing timespan, facilitating accurate individual cell estimates of water permeability. The design and testing were performed using yeast cells (Saccharomyces cerevisiae). The relationship between volume and impedance in both polystyrene calibration beads as well as the volume-osmolality relationship in yeast were demonstrated. Moreover, we present the first noninvasive and non-optically-based water permeability measurements in individual cells. [Display omitted] •We calibrated and validated lab-on-chip dynamic cell sizing and cell membrane permeability measurements in individual cells.•Volume-correlated impedance change of myriad individual yeast cells was rapidly measured after mixing with anisosmotic media.•Measurements were performed within 0.26 s after mixing with media from separate inlets at up to 10 electrodes over 1.3 s.
doi_str_mv	10.1016/j.aca.2021.338441
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To achieve this, the device measures the impedance change of individual cells or particles at up to ten time points after mixing with different media, e.g. dimethyl sulfoxide or DI water, from separate inlets. These measurements are enabled by ten gold electrode pairs spread across a 20 mm long microchannel. The device measures impedance values within 0.26 s after mixing with other media, has a detection throughput of 150 samples/second, measures impedance values at all ten electrodes at this rate, and allows tracking of individual cell volume changes caused by cell osmosis in anisosmotic fluids over a 1.3 s postmixing timespan, facilitating accurate individual cell estimates of water permeability. The design and testing were performed using yeast cells (Saccharomyces cerevisiae). The relationship between volume and impedance in both polystyrene calibration beads as well as the volume-osmolality relationship in yeast were demonstrated. Moreover, we present the first noninvasive and non-optically-based water permeability measurements in individual cells. 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Moreover, we present the first noninvasive and non-optically-based water permeability measurements in individual cells. 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Moreover, we present the first noninvasive and non-optically-based water permeability measurements in individual cells. [Display omitted] •We calibrated and validated lab-on-chip dynamic cell sizing and cell membrane permeability measurements in individual cells.•Volume-correlated impedance change of myriad individual yeast cells was rapidly measured after mixing with anisosmotic media.•Measurements were performed within 0.26 s after mixing with media from separate inlets at up to 10 electrodes over 1.3 s.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.aca.2021.338441</doi><tpages>1</tpages></addata></record>
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subjects	Boyle van’t hoff Coulter counter Impedance measurement Individual cell membrane permeability Lab on a chip Microfluidic Water permeability Yeast cell
title	Microfluidic measurement of individual cell membrane water permeability
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