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International Journal of Hyperthermia Volume 14, 1998 - Issue 2
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Original Article

Solid materials with high dielectric constants for hyperthermia applications

P. Wust Department of Radiation Oncology, Virchow Medical School, Medical Faculty of the Humboldt University at Berlin, Augustenburger Platz 1, 13353, Berlin, Germany
,
H. Fähling Department of Radiation Oncology, Virchow Medical School, Medical Faculty of the Humboldt University at Berlin, Augustenburger Platz 1, 13353, Berlin, Germany
,
J. Berger Institute for Electrotechnical Engineering, Technical University Berlin, Einsteinufer 25,10587, Berlin, Germany
,
A. Jordan Department of Radiation Oncology, Virchow Medical School, Medical Faculty of the Humboldt University at Berlin, Augustenburger Platz 1, 13353, Berlin, Germany
,
G. Mönich Institute for Electrotechnical Engineering, Technical University Berlin, Einsteinufer 25,10587, Berlin, Germany
&
R. Felix Department of Radiation Oncology, Virchow Medical School, Medical Faculty of the Humboldt University at Berlin, Augustenburger Platz 1, 13353, Berlin, Germany
Pages 183-193 | Received 03 Apr 1997, Accepted 08 Oct 1997, Published online: 09 Jul 2009

References

  • Allen S., Kantor G., Bassen H., Ruggera P. CDRH RF phantoms for hyperthermia system evaluation. International Journal of Hyperthermia 1988; 4: 17–24
  • Bini M. G., Ignesti A., Millanta L., Olmi R., Rubino N., Vanni R. The polyacryamide as a phantom material for electromagnetic hyperthermia studies. IEEE Transactions of Biomedial Engineering 1984; 31: 317–322
  • Cetas T. C. The philosophy and use of tissue-equivalent electromagnetic phantoms. Physical Aspects of Hyperthermia, Medical Physics Monograph, No. 8, G. H. Nussbaum. American Institute of Physics, New York 1982
  • Chou C. K., Chen G. W., Guy A. W., Luk K. H. Formulas for preparing phantom muscle tissue at various radiofrequencies. Bioelectromagnetics 1984; 5: 435–441
  • Gabriel C., Gabriel S., Corthout E. The dielectric properties of biological tissue: I. literature survey. Physical and Medical Biology 1996; 41: 2231–2249
  • Guy A. W. Analysis of electromagnetic fields induced in biological tissues by thermographic studies on equivalent phantom models. IEEE Transactions of Microwave Theory and Technology 1971; MTT-19: 205–214
  • Hartsgrove G., Kraszewski A., Surowiec A. Simultated biological materials for electromagnetic radiation absorption studies. Bioelectromagnetics 1987; 8: 29–36
  • Kato H., Ishida T. Development of an agar phantom adaptable for simulation of various tissues in the range 5–40 MHz. Physical and Medical Biology 1987; 32: 221–226
  • Marchal D., Nadi M., Tosser A. J., Roussey C., Gaulard M. L. Dielectric properties of gelatine phantoms used for simulations of biological tissues between 10 and 50 MHz. International Journal of Hyperthermia 1989; 5: 725–732
  • Marsland T. P., Evans S. Dielectric measurement with an open-ended coaxial probe. IEEE Proceedings 1987; 134: 341–349
  • Stuchly M. A., Stuchly S. S. Dielectric properties of biological substances tabulated. Journal of Microwave Power 1980; 15: 19
  • Wust P., Fahling H., Jordan A., Nadobny J., Seebass M., Felix R. Development and testing of SAR-visualizing phantoms for quality control in RF hyperthermia. International Journal of Hyperthermia 1994; 10: 127–142
  • Wust P., Seebass M., Nadobny J., Felix R. Electromagnetic deep heating technology. Thermoradiotherapy and Thermochemotherapy, M. H. Seegenschmiedt, P. Fessenden, C. C. Vemon. Series Medical Radiology, Springer-Verlag, Berlin, Herdelberg, New York 1995; Vol. 1: 219–251
  • Wust P. M., Seebass M., Nadobny J., Deuflhard P., Monich G., Felix R. Simulation studies promote technological development of radiofrequency phased array hyperthermia. International Journal of Hyperthermia 1996; 12: 477–494
  • Wust P., Berger J., Fahling H., Nadobny J., Gellermann J., Tilly W., Petermann K., Felix R. Scanning E-field sensor device for on-line control of annular-phased-array systems. International Journal of Radiation Oncology, Biology and Physics 1998, (submitted)

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