Daniele Malleo scite author profile

A device for continuous differential impedance analysis of single cells held by a hydrodynamic cell trapping is presented. Measurements are accomplished by recording the current from two closely-situated electrode pairs, one empty (reference) and one containing a cell. We demonstrate time-dependent measurement of single cell impedance produced in response to dynamic chemical perturbations. First, the system is used to assay the response of HeLa cells to the effects of the surfactant Tween, which reduces the impedance of the trapped cells in a concentration dependent way and is interpreted as gradual lysis of the cell membrane. Second, the effects of the bacterial pore-forming toxin, Streptolysin-O are measured: a transient exponential decay in the impedance is recorded as the cell membrane becomes increasingly permeable. The decay time constant is inversely proportional to toxin concentration (482, 150, and 30 s for 0.1, 1, and 10 kU/ml, respectively).Electronic supplementary materialThe online version of this article (doi:10.1007/s10404-009-0534-2) contains supplementary material, which is available to authorized users.

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Note: Characterization of electrode materials for dielectric spectroscopy

Malleo

Nevill

Ooyen

et al. 2010

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When measuring the dielectric properties of aqueous samples, the impedance of the electrode/sample interface can limit low frequency measurements. The electrode polarization problem can be reduced by increasing the effective surface area of the electrodes. In this work, impedance spectroscopy was used to characterize and compare three different electrode surfaces that can be used to mitigate this effect: platinum black, iridium oxide, and [polypyrrole/poly(styrenesulphonate)] (PPy/PSS) conducting polymer. All three materials were directly compared with a bright platinum electrode. Equivalent circuit models were used to extract the increase in the effective surface area of the electrodes: platinum black, iridium oxide and PPy/PSS increase the effective capacitance of the electrode by factors of approximately 240, 75, and 790, respectively. The practical aspects of all electrode materials are discussed. These results suggest that iridium oxide and PPy/PSS are good alternatives to the commonly used platinum black, which is prone to mechanical damage (scratches) and is potentially toxic to cells.

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Nanorobotics for NEMS Using Helical Nanostructures

Yoda¹,

Garden²,

Bourgeois³

et al. 2012

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Nano-sized Nanocrystalline and Nano-twinned Metals

Yoda¹,

Garden²,

Bourgeois³

et al. 2012

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Daniele Malleo

Continuous differential impedance spectroscopy of single cells

Note: Characterization of electrode materials for dielectric spectroscopy

Nanorobotics for NEMS Using Helical Nanostructures

Nano-sized Nanocrystalline and Nano-twinned Metals

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