Andreas Caduff scite author profile

In this review, we present an overview of the state of the art concerning the fundamental properties of electrode polarization (EP) of interest in the measurement of high conductivity samples and its implications for both dielectric (DS) and impedance spectroscopy (IS). Initially a detailed description of what constitutes EP is provided and the problems that it induces. Then, we review some of the more popular models that have been used to describe the physical phenomena behind the formation of the ionic double layer. Following this we shall enumerate the common strategies used historically to correct its influence on the measured signals in DS or in IS. Finally we also review recent attempts to employ fractal electrodes to bypass the effects of EP and to offer some physical explanation as to the limitations of their use.

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First human experiments with a novel non-invasive, non-optical continuous glucose monitoring system

Caduff¹,

Hirt²,

Feldman³

et al. 2003

Biosensors and Bioelectronics

225

136

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Dielectric spectroscopy study of specific glucose influence on human erythrocyte membranes

Hayashi

Livshits

Caduff³

et al. 2003

J. Phys. D: Appl. Phys.

131

108

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Time domain dielectric spectroscopy has been used to study spherical erythrocytes, suspended in diluted phosphate buffered saline (PBS) buffers at varying concentrations of D-and L-glucose at 25˚C. The osmolarity for each glucose solution was adapted, equalling that of a 63% PBS (183 mOsm). The strong effect of the electrode polarization was corrected using the fractal approach in time domain. For analysis of the dielectric properties of suspensions of erythrocytes, the Maxwell-Wagner model is used for small volume fractions. Values of the permittivity and conductivity of the cell membrane were obtained from a fitting procedure according to the one-shell model. The non-monotonic and specific response of membrane electric properties on D-glucose concentrations were observed, with a dramatic decrease around 12 mM. No changes of membrane properties have been observed in the presence of increasing concentrations of L-glucose, the biologically inactive enantiomer of D-glucose. The effect is thus specific to D-glucose. The possible mechanism of specific cell reaction to D-glucose is discussed in this paper.

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Non-invasive glucose monitoring in patients with diabetes: A novel system based on impedance spectroscopy

Caduff

Dewarrat

Talary

et al. 2006

Biosensors and Bioelectronics

131

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The electromagnetic response of human skin in the millimetre and submillimetre wave range

et al. 2009

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Recent studies of the minute morphology of the skin by optical coherence tomography revealed that the sweat ducts in human skin are helically shaped tubes, filled with a conductive aqueous solution. This, together with the fact that the dielectric permittivity of the dermis is higher than that of the epidermis, brings forward the supposition that as electromagnetic entities, the sweat ducts could be regarded as low Q helical antennas. The implications of this statement were further investigated by electromagnetic simulation and experiment of the in vivo reflectivity of the skin of subjects under varying physiological conditions (Feldman et al 2008 Phys. Rev. Lett. 100 128102). The simulation and experimental results are in a good agreement and both demonstrate that sweat ducts in the skin could indeed behave as low Q antennas. Thus, the skin spectral response in the sub-Terahertz region is governed by the level of activity of the perspiration system and shows the minimum of reflectivity at some frequencies in the frequency band of 75-110 GHz. It is also correlated to physiological stress as manifested by the pulse rate and the systolic blood pressure. As such, it has the potential to become the underlying principle for remote sensing of the physiological parameters and the mental state of the examined subject.

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Andreas Caduff

Electrode polarization in dielectric measurements: a review

First human experiments with a novel non-invasive, non-optical continuous glucose monitoring system

Dielectric spectroscopy study of specific glucose influence on human erythrocyte membranes

Non-invasive glucose monitoring in patients with diabetes: A novel system based on impedance spectroscopy

The electromagnetic response of human skin in the millimetre and submillimetre wave range

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