Hyperaemia evaluation in clinical diathermy by four-electrode impedance measurements.

The four-electrode electrical impedance measurement technique is proposed for the evaluation of the hyperaemia variation in tissues treated by diathermic therapy. An impedance meter suitable for such measurements is described, and an electrical model of the heated tissues, concerning the impedance variation during diathermy and its relation with hyperaemia, is presented. The occurrence of the substantial contribution of blood to the overall transverse impedance is demonstrated by comparing the experimental results with those arising from a 2D electrical/thermal model of the treated tissues. A two-admittance model is proposed to explain the electrical behaviour of the tissues treated by diathermy. The model allows us to separate the impedance violation due to the temperature dependence of tissue conductivity from that due to the change of tissue blood content. The results of preliminary measurements of tissue impedance on healthy volunteers treated by electromagnetic diathermy are presented and discussed, showing the feasibility of impedance detection of hyperaemia variations inside tissues.

[1]  Arthur W. Guy,et al.  Therapeutic applications of electromagnetic power , 1974 .

[2]  K. M. Sekins,et al.  Local muscle blood flow and temperature responses to 915MHz diathermy as simultaneously measured and numerically predicted. , 1984, Archives of physical medicine and rehabilitation.

[3]  Peter P. Silvester,et al.  Finite Elements for Electrical Engineers , 1983 .

[4]  D Andreuccetti,et al.  Phantom characterization of applicators by liquid-crystal-plate dosimetry. , 1991, International journal of hyperthermia : the official journal of European Society for Hyperthermic Oncology, North American Hyperthermia Group.

[5]  K M Sekins,et al.  Determination of perfusion field during local hyperthermia with the aid of finite element thermal models. , 1982, Journal of biomechanical engineering.

[6]  P. Steendijk,et al.  The four-electrode resistivity technique in anisotropic media: theoretical analysis and application on myocardial tissue in vivo , 1993, IEEE Transactions on Biomedical Engineering.

[7]  J. Akin Application and Implementation of Finite Element Methods , 1982 .

[8]  J. G. Webster,et al.  Impedance of Skeletal Muscle from 1 Hz to 1 MHz , 1984, IEEE Transactions on Biomedical Engineering.