This is a preview of subscription content, log in via an institution to check access.
References
Dellimore, J. W. andGosling, R. G. (1975) Change in blood conductivity with flow rate.Med. & Biol. Eng.,13, 904–913.
Edgerton, H. (1974) Conductivity of sheared suspensions of ellipsoidal particles with application to blood flow.IEEE Trans.,BME-21, 33–43.
Fricke, H. (1924) A mathematical treatment of the electric conductivity and capacity of disperse systems. I. The electric conductivity of a suspension of homogeneous spheroids.Phys. Rev.,24, 575–587.
Geddes, L. A. andSadler, C. (1973) The specific resistance of blood at body temperature.Med. & Biol. Eng.,11, 336–339.
Goldsmith, H. L. andMason, S. G. (1967) The microrheology of dispersions. InRheology. Theory and applications, Vol. 4.Eirich, F. R. (Ed.), Academic Press, New York, 85–250.
Goldsmith, H. L. (1968) The microrheology of red blood cell suspensions.J. Gen. Physiol.,52, 5s-28s.
Hill, D. W. andThompson, F. D. (1975) The importance of blood resistivity in the measurement of cardiac output by the thoracic impedance method.Med. & Biol. Eng.,13, 187–191.
Liebman, F. M., Pearl, J., andBagno, S. (1962) The electrical conductance properties of the blood in motion.Phys. in Med. & Biol.,7, 177–194.
Lightfoot, E. N., (1974)Transport phenomena and living systems. John Wiley, New York.
Lih, M. M. (1975)Transport phenomena in medicine and biology. John Wiley, New York.
McDonald, D. A. (1974)Blood flow in arteries, 2nd edn. Edward Arnold, London.
Mohapatra, S. N., andHill, D. W. (1975) The changes in blood resistivity with haematocrit and temperature.Eur. J. Intensive Care Med.,1, 153–162.
Mohapatra, S. N., Costeloe, K. L. andHill, D. W. (1977) Blood resistivity and its implications for the calculation of cardiac output by thoracic electrical impedance technique.Intensive Care Med.,3, 63–67.
Pfützner, H. (1984) Dielectric analysis of blood by means of a raster-electrode technique.Med. & Biol. Eng. & Comput.,22, 142–146.
Rosenthal, R. L. andTobias, C. W. (1948) Measurement of the electric resistance of human blood.J. Lab. Clin. Med. 33, 1110–1122.
Tanaka, K., Kanai, H., Nakayama, K. andOno, N. (1970) The impedance of blood: the effects of red cell orientation and its application.Jpn J. Med. Electron.,8, 436–443.
van Assendelet, O. W., Coster, J. F. andCrossland-Taylor, P. J. (1975) Metodi per la determinazione del valore ematocrit (“packed cell volume”, PCV).J. Res. Lab. Med.,2, 306–309.
Visser, K. R., Lamberts, R., Korsten, H. H. M. andZijlstra, W. G. (1976) Observations on blood flow related electrical impedance changes in rigid tubes.Pflügers Arch.,366, 289–291.
Visser, K. R. (1989) Electric properties of flowing blood and impedance cardiography.Ann. Biomed. Eng.,17, 463–473.
Yamakoshi, K., Ito, H., Yamada, A. andMiura, S. (1973) Study on the analysis of measurement of human limb blood flow.Jpn. J. Med. Electron.,11, 18–28.
Yamakoshi, K., Shimazu, H., Togawa, T., Fukuoka, M. andIto, H. (1980) Noninvasive measurement of haematocrit by electrical admittance plethysmography technique.IEEE Trans.,BME-27, 156–160.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Visser, K.R. Electric conductivity of stationary and flowing human blood at low frequencies. Med. Biol. Eng. Comput. 30, 636–640 (1992). https://doi.org/10.1007/BF02446796
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02446796