The electrical properties of the outermost layer of skin are described by lipid-corneocyte (Zm) and appendageal (Za) impedance, which are connected in parallel. Appendageal macropores are considered as long tubes with distributed electrical parameters. It has been shown that not only Za, but also the macropore resistance Ra and capacitance Ca are frequency dependent. The input of Za in the overall impedance (Z) depends on the space density of active (conductive) macropores n(i), which increase with current density (i) and the duration of iontophoresis. Skin impedance has been demonstrated to decrease under the influence of iontophoretic treatment. Application of the theoretical model to these data provides an estimate of the increase in mac...
The human skin is the largest and most complex body organ but accessible and attractive for biomarke...
The electrical properties of many biological materials are known to exhibit frequency dispersions. I...
During the past five years a study has been made of the electrical properties of human skin in vivo ...
The electrical properties of the outermost layer of skin are described by lipid-corneocyte (Zm) and ...
AbstractThe electrical properties of human skin in the range of the applied voltages between 0.2 and...
AbstractThe stratum corneum (SC) is the main barrier to molecular and ionic transport across mammali...
The dielectric properties of skin are of particular interest in the fields of Functional Electrical ...
Previous in vitro experiments have shown that transdermal high-voltage pulses (Uskin ≈100 V; duratio...
Purpose: The objective of this study was to develop a non-invasive technique to assess the interacti...
We propose a new method for extracting the electrical properties of human skin based on the time con...
thesisAlternating current (AC) electric field was found to be able to induce and keep human epiderma...
Previous studies have demonstrated the ability of AC iontophoresis to control skin resistance in dif...
The objective of this study was to better understand the recovery of human skin impedance following ...
A theoretical model for electroporation of multilamellar lipid system due to a series of large elect...
Application of 'high voltage' (HV) pulses (transdermal voltage U-skin > 50 V) to preparations of hum...
The human skin is the largest and most complex body organ but accessible and attractive for biomarke...
The electrical properties of many biological materials are known to exhibit frequency dispersions. I...
During the past five years a study has been made of the electrical properties of human skin in vivo ...
The electrical properties of the outermost layer of skin are described by lipid-corneocyte (Zm) and ...
AbstractThe electrical properties of human skin in the range of the applied voltages between 0.2 and...
AbstractThe stratum corneum (SC) is the main barrier to molecular and ionic transport across mammali...
The dielectric properties of skin are of particular interest in the fields of Functional Electrical ...
Previous in vitro experiments have shown that transdermal high-voltage pulses (Uskin ≈100 V; duratio...
Purpose: The objective of this study was to develop a non-invasive technique to assess the interacti...
We propose a new method for extracting the electrical properties of human skin based on the time con...
thesisAlternating current (AC) electric field was found to be able to induce and keep human epiderma...
Previous studies have demonstrated the ability of AC iontophoresis to control skin resistance in dif...
The objective of this study was to better understand the recovery of human skin impedance following ...
A theoretical model for electroporation of multilamellar lipid system due to a series of large elect...
Application of 'high voltage' (HV) pulses (transdermal voltage U-skin > 50 V) to preparations of hum...
The human skin is the largest and most complex body organ but accessible and attractive for biomarke...
The electrical properties of many biological materials are known to exhibit frequency dispersions. I...
During the past five years a study has been made of the electrical properties of human skin in vivo ...