The influence of variations in electrolyte concentration on skin potential level and response amplitude (original) (raw)
An evaluation of Na+,Cl− and pH ion-specific electrodes in the study of the electrolyte contents of epidermal transudate and sweat
T. Casey
British Journal of Dermatology, 2006
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Variations of the Electric Conductivity of the Skin in Relation to Sweating
守忠 林
The Japanese Journal of Physiology, 1965
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Relationship Between Sweat Gland Activity and Electrical Resistance of the Skin
Price Thomas
Journal of Applied Physiology, 1957
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Sweat electrolyte concentrations obtained from within occlusive coverings are falsely high because sweat itself leaches skin electrolytes
Louise Weschler
Journal of Applied Physiology, 2008
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The ability of electrical measurements to predict skin moisturization. II. Correlation between one-hour measurements and IonD-term results
Marty O Visscher
2001
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The ability of electrical measurements to predict skin moisturization. I. Effects of NaCl and glycerin on short-term measurements
Marty O Visscher
Journal of cosmetic science
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Analysis of changes in sodium and chloride ion transport in the skin
Iga Hołyńska-Iwan
Scientific Reports
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The ability of electrical measurements to predict skin moisturization II. Correlation between one-hour measurements and long-term results
Marty O Visscher
Journal of cosmetic science
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Instrumental evaluation of cutaneous hydration
enzo berardesca
Clinics in Dermatology, 1995
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The importance of the skin galvanic response on certain points
Marius Barlea
2003
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Relationships between skin's electrical impedance and permeability in the presence of chemical enhancers
Amit Jain
Journal of Controlled Release, 2006
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Iontophoretic Conditioning of the Electrode to Skin Contacts
Sergei Turovets
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Determination of the maximum rate of eccrine sweat glands' ion reabsorption using the galvanic skin conductance to local sweat rate relationship
George Havenith
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A Brief Introduction and Review on Galvanic Skin Response
Sudhanshu Kacker
International Journal of Medical Research Professionals, 2016
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Skin Membrane Electrical Impedance Properties under the Influence of a Varying Water Gradient
Emma Sparr
Biophysical Journal, 2013
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Water and solute active transport through human epidermis: Contribution of electromigration
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International Journal of Heat and Mass Transfer, 2008
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Effects of iontophoresis and electroporation on the stratum corneum
Anne Jadoul
Advanced Drug Delivery Reviews, 1999
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Effects of an amphoteric surfactant on the skin barrier: an in vivo electro-physiological study
enzo berardesca
British Journal of Dermatology, 1986
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Analysis of enhanced transdermal transport by skin electroporation
David Edwards
Journal of Controlled Release, 1995
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The influence of hydration status on ion transport in the rabbit (Oryctolagus cuniculus) skin—An in vitro study
Iga Hołyńska-Iwan
PLOS ONE
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In vivo efficacy and safety of skin electroporation
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Advanced Drug Delivery Reviews, 1999
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Detecting Electroporation by Assessing the Time Constants in the Exponential Response of Human Skin to Voltage Controlled Impulse Electrical Stimulation
Sînziana Bîrlea, Gavin Corley, Gearóid ÓLaighin, Marius Barlea, Paul Breen
2009 Annual International Conference of the Ieee Engineering in Medicine and Biology Society, Vols 1-20, 2009
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Repeatability of Measurements of Galvanic Skin Response – A Pilot Study
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TOALTMEDJ, 2014
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ON USING SINGLE FREQUENCY ELECTRICAL MEASUREMENTS FOR SKIN HYDRATION ASSESSMENT
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Electrochemical skin conductance for quantitative assessment of sweat function: Normative values in children
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Clinical Neurophysiology Practice, 2016
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Impedance measurements for the non-invasive monitoring of skin hydration: a reassessment
Alain Li-Wan-Po
International Journal of Pharmaceutics
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Visscher MO, Tolia GT, Wickett RR et al.Effect of soaking and natural moisturizing factor on stratum corneum water-handling properties. J Cosmet Sci 54:289-300
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Journal of cosmetic science
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Comparison of conductivity with sodium determination in the same sweat sample
Carlos Riedi
Jornal de Pediatria, 2000
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Nerve Stimulation and Electrical Properties of Frog Skin
Barry Lindley
The Journal of General Physiology, 1969
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Capacitance, transepidermal water loss and causal level of sebum in healthy subjects in relation to site, sex and age
Andrea Conti
1995
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Seyle’s biological stressors influence dramatically skin physiology: our experiences with electrical admittance magnitude measurements
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Our Dermatology Online, 2014
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Galvanic skin response
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International Journal of Health Sciences (IJHS), 2022
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Dependence of Skin-Electrode Contact Impedance on Material and Skin Hydration
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A new in vitro method for transepidermal water loss: A possible method for moisturizer evaluation
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