The Influence of the Skin Fatigue, its Perspiration and the Time of Stimulation in Measurement of the Active Points on Human Skin
Authors:
Marek Kukučka; Zuzana Krajčušková; Viera Stopjaková; Daniela Ďuračková; Andreas Weisze
Authors‘ workplace:
Faculty of Electrical Engineering and Information Technology, Slovak University of Technology Bratislava, Slovak Republic
; Institute of Electronics and Photonics
Published in:
Lékař a technika - Clinician and Technology No. 3, 2013, 43, 19-25
Category:
Original research
Overview
Our contribution deals with the human skin voltage chart measurement. The human skin has a certain impedance or resistance - it can be relatively easily described and simulated using a substitute electric circuit. But the skin also contains parts with measurably lower impedance and different electric properties – we can show them clearly by measurement of voltage chart. We have concentrated our effort on finding and following measurements of active points on certain part of the skin's surface, to acknowledge their existence and positions through a measuring process. The parameters of the measured voltage chart are influenced by the amplitude, frequency, the shape of the measuring electric signal and the parameters of skin-electrode connection changing in time. We focused our research effort in this paper to measure the influence of the time of external stimulation, irritation and a contact press on skin surface together with the skin fatigue and perspiration effects.
Keywords:
human skin, impedance, voltage measurement, voltage chart, active point, acupuncture, meridian, press, skin fatigue and perspiration effects
Sources
[1] ZHANG, C. L. Skin resistance vs. body conductivity: On the background of electronic measurement on skin. In: Subtle Energies and Energy Medicine, 2003, vol. 14; Part 2, p. 151-174.
[2] ROSELL, J., COLOMINAS, J., RIU, P., PALLAS-ARENY, R., WEBSTER, G. Skin impedance from 1 Hz to 1 MHz. In: IEEE Transactions on Biomedical Engineering, 1988, vol. 35, p. 649-651.
[3] REILLY, J. P. Electrical Stimulation and Electropathology, Cambridge University Press, Cambridge, 1992.
[4] BECKER, R. O. et al. Electrophysiological correlates of acupuncture points and meridians. In: Psychoenergetic System, New York, 1979.
[5] RUŽIČKA, R. Acupuncture in Theory and Practice, Nadas, Praha, 1985.
[6] PENHAKER, M., HAJOVSKY, R., KORPAS, D. Measurement and Analysis EMC Parameters of Implantable Pacemaker. In: Journal Przegląd Elektrotechniczny (Electrical Review), vol. 87, Iss 5, p. 265-268, 2011.
[7] ONDREIOV, I. M. Experimental Impedance Chart Meter of Skin. Graduation theses, FEI SUT, Bratislava, 2010.
[8] GOGOLA, D. et al. Design and Realization of USB Interface for Experimental Scanner of Impedance Chart from Surface of Human Body, Team project, Bratislava, FEI SUT, 2009.
[9] TEPLAN, M. Fundamentals of EEG measurement. In: Measurement Science Review, 2002, Section 2, vol. 2, p. 1-11.
[10] KUKUČKA, M., KRAJČUŠKOVÁ, Z. Automatized multi-electrode voltage map measurement of active points on skin. In: Communications: Scientific Letters of the University of Žilina, 2011, vol. 13, No.1., p. 51-55.
[11] KUKUČKA, M., KRAJČUŠKOVÁ, Z. The Frequency Influence in Measurement of the Active Points on Human Skin. In: Trendy v biomedicínském inženýrství: 9. česko-slovenská konference. Rožnov p. Radhoštěm, 21.-23.9.2011, Ostrava, VŠB - TU Ostrava, 2011, p. 149-153.
[12] KUKUČKA, M., KRAJČUŠKOVÁ, Z. The Influence of the Shape of Driving Signal in Measurement of the Active Points on Human Skin. In: Radioelektronika 2012: 22nd International Conference; Czech Republic, Brno, 17.-18. April 2012, Brno University of Technology, p. 153-156.
[13] KUKUČKA, M., KRAJČUŠKOVÁ, Z., STOPJAKOVÁ, V., ĎURAČKOVÁ, D. The Influence of the Amplitude of Driving Signal in Measurement of the Active Points on Human Skin. In: Radioelektronika 2013: Proceedings of 23th Conference Radioelektronika 2013; Pardubice, Czech republic; 16-17 April 2013. - Pardubice: University of Pardubice, p. 170-175.
[14] STANKUS, M., PENHAKER, M., KIJONKA, J., GRYGAREK, P. Design and Application of Mobile Embedded Systems for Home Care Applications. In: Proceedings of 2010 Second International Conference on Computer Engineering and Applications ICCEA 2010, 19.-21. March 2010, Bali Island, Indonesia, Volume 1NJ. IEEE Conference Publishing Services, pp. 412-416.
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BiomedicineArticle was published in
The Clinician and Technology Journal
2013 Issue 3
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