A. Lackermeier scite author profile

The magnitude, mismatch and temporal variations of the electrode-gel-skin interface impedance can cause problems in electrical impedance tomography (EIT) measurement. It is shown that at the high frequencies generally encountered in EIT the capacitive properties of the electrode interface, and especially those of the skin, are of primary importance. A wide range of techniques are reviewed that could possibly be used to minimise these problems. These techniques include the use of skin preparation, penetration enhancers, temperature and electrical impulses. Although several of these techniques appear very attractive, they are not without serious potential drawbacks. A combination of some of these techniques may well hold the key to success.

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In Vivo ac Impedance Spectroscopy of Human Skin: Theory and Problems in Monitoring of Passive Percutaneous Drug Delivery

Lackermeier

McAdams

Moss

et al. 1999

Annals of the New York Academy of Sciences

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The use of impedance spectroscopy to evaluate transdermal drug delivery is discussed and new techniques and protocols are suggested to avoid or minimize potential problems. A novel multichannel impedance analyzer, exploiting the advantages of the "three-electrode" configuration, was employed to measure the effects of differing topically applied concentrations of the percutaneous local anesthetic amethocaine on the electrical properties of the treated skin sites. Each measured impedance spectrum was modeled by an equivalent circuit consisting of a resistor in series with the parallel combination of a pseudocapacitance and a resistor. Due to differences in skin sites and to the finite times taken to apply each electrode, it was difficult to satisfactorily compare and contrast the results obtained from adjacent skin sites. Normalization of data highlighted differences in relative impedance changes and aided the meaningful comparison of treated skin sites.

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Woolfson

Moss

McCafferty

et al. 1999

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AC impedance of the hydrogel-skin interface

McAdams

Lackermeier

Jossinet

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A. Lackermeier

The linear and non-linear electrical properties of the electrode-electrolyte interface

Factors affecting electrode-gel-skin interface impedance in electrical impedance tomography

In Vivo ac Impedance Spectroscopy of Human Skin: Theory and Problems in Monitoring of Passive Percutaneous Drug Delivery

Untitled

AC impedance of the hydrogel-skin interface

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