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International Journal of Hyperthermia Volume 9, 1993 - Issue 1
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Original Article

Inductive heating of ferrimagnetic particles and magnetic fluids: Physical evaluation of their potential for hyperthermia

A. Jordan Strahlenklinik u. Poliklinik des Klinikum Rudolf Virchow der Freien Universität, Berlin, Germany; Institut für Diagnostikforschung GmbH, Germany
,
P. Wust Strahlenklinik u. Poliklinik des Klinikum Rudolf Virchow der Freien Universität, Berlin, Germany
,
H. Fählin Strahlenklinik u. Poliklinik des Klinikum Rudolf Virchow der Freien Universität, Berlin, Germany
,
W. John Institut für Hochfrequenztechnik der Technischen Universität, Berlin, Germany
,
A. Hinz Strahlenklinik u. Poliklinik des Klinikum Rudolf Virchow der Freien Universität, Berlin, Germany
&
R. Felix Strahlenklinik u. Poliklinik des Klinikum Rudolf Virchow der Freien Universität, Berlin, Germany
Pages 51-68 | Received 25 Oct 1991, Accepted 01 Jun 1992, Published online: 09 Jul 2009

References

  • Atkinson W. J., Brezovich I. A., Chakraborty D. P. Usable frequencies in hyperthermia with thermal seeds. IEEE Transactions on Biomedical Engineering 1984; BME-31: 70–75
  • Bacon B. R., Stark D. D., Park C. H., Saini S., Groman E. V., Hahn P. F., Compton C. C., Ferucci J. T. Ferrite particles: a new magnetic resonance imaging contrast agent. Lack of acute or chronic hepatotoxicity after intravenous administration. Journal of Laboratory and Clinical Medicine 1987; 110: 164–171
  • Brezovich I. A. (1987) Ferromagnetics. Syllabus: A Categorial Course in Radiation Therapy. Presented at the 73rd Scientific Assembly and Annual Meeting of the Radiological Society of North America. 29 Nov.-4 Dec, 1987, R. A. Steeves, B. R. Palival. 117–126
  • Brezovich I. A. Low frequency hyperthermia: capacitive and ferromagnetic thermoseed methods. Biological, physical and clinical aspects of hyperthermia. Medical Physics Monograph, 16, B. R. Paliwal, F. W. Hetzel, M. W. Dewhirst, 1988; 82–111
  • Brezovich I. A., Atkinson W. J., Chakraborty D. P. Temperature Distributions in tumor models heated by self-regulating nickel-copper alloy thermoseeds. Medical Physics 1984a; 11: 145–152
  • Brezovich I. A., Atkinson W. J., Lilly M. B. Local hyperthermia with interstitial techniques. Cancer Research 1984b; 44(Suppl.)4752s–4756s
  • Chou C K. Use of heating rate and specific absorption rate in the hyperthermia clinic. International Journal of Hyperthermia 1990; 6: 367–370
  • Fannin P. C., Charles S. W. Measurement of the Neél relaxation of magnetic particles in the frequency range 1 kHz to 160 MHz. Journal of Physics D: Applied Physics 1991; 24: 76–77
  • Geshev J., Popov O., Masheva V., Mikhov M. Thermomagnetic curves for a disordered system of single-domain ferromagnetic particles with cubic anisotropy. Journal of Magnetism and Magnetic Materials 1990; 92: 185–190
  • Gilchrist R. K., Medal R., Shorey W. D., Hanselman R. C, Parrott J. C., Taylor C. B. Selective inductive heating of lymph nodes. Annals of Surgery 1957; 146: 596–606
  • Gilchrist R. K., Shorey W. D., Hanselman R. C, Depeyster F. A., Yang J., Medal R. Effects of electromagnetic heating on internal viscera: a preliminary to the treatment of human tumors. Annals of Surgery 1965; 161: 890–896
  • Gordon R. T. Process for the treatment of neurological or neuromuscular diseases and development. US Patent No. 4813399, 1989
  • Gordon R. T. Treating cancer cells in vivo by alteration electric and magnetic dipoles intracellularly by introduction of minute particles. US Patent No. 47677611, 1988a
  • Gordon R. T. Diagnostic and therapeutic comparisons—containing metal transferrin dextran particles have high target cell selectively especially for treating cancer by inductive heating. US Patent No. 4735796, 1988b
  • Gordon R. T. Use of magnetic susceptibility probes in the treatment of cancer. US Patent No. 4662359, 1987a
  • Gordon R. T. Selective treatment of cancer cells—using minute particles which can be inductively heated as magnetic susceptibility probes. US Patent No. 4662359, 1987b
  • Gordon R. T., Halperin W. P., Gordon D., Freeman A. J. Alterations in magnetic characteristics produced by intra-cellular particles. Journal of Biological Physics 1986; 14: 77–79
  • Gordon R. T. Cancer-treating composition containing inductively-heatable particles. UK Patent Application 2024007, 1980
  • Gordon R. T., Hines J. R., Gordon D. Intracellular hyperthermia: a biophysical approach to cancer treatment via intracellular temperature and biophysical alterations. Medical Hypothesis 1979; 5: 83–102
  • Hand J. W. Biophysics and technology of electromagnetic hyperthermia. Methods of External Hyperthermic Heating, M. Gautherie. Springer-Verlag, Berlin, Heidelberg, New York, London, Paris, Tokyo, Hong Kong 1990; 6
  • Hanson M. The frequency dependence of the complex susceptibility of magnetic fluids. Journal of Magnetism and Magnetic Materials 1991; 96, In press
  • Kato H., Hiraoka M., Ishida T. An agar phantom for hyperthermia. Medical Physics 1986; 13: 396–398
  • Kittel Ch. Einführung in die Festkörperphysik. R. Oldenburg Verlag, München, Wien 1989; 455–527
  • Johnson C. C., Guy A. W. Nonionizing electromagnetic wave effects in biological materials and systems. Proceedings of IEEE 1972; 60: 692–718
  • Lerch I. A., Pizzarello D. J. Radiofrequency induction of intravenously injected ferromagnetic particles: effect on mammary tumors of rats. 1989, personal communication
  • Lerch I A. The biology, physics, and engineering of intracellular particle-induction hyperthermia. Radiation Research, Proceedings of the 8th International Congress of Radiation Research, Edinburgh, 1987; 325
  • Lerch I. A., Pizzarello D. J. The physics and biology of tumor-specific particle-induction hyperthermia. Medical Physics 1986; 13: 786
  • Luderer A., Borrelli N. F., Panzarino J. N., Mansfield G. R., Hess D. M., Brown J. L., Barnett E. H. Glas-ceramic-mediated, magnetic field induced localized hyperthermia: response of a murine mammary carcinoma. Radiation Research 1983; 94: 190–198
  • Medal B. S., Shorey W., Gilchrist R. K., Barker W., Hanselman R. Controlled radio-frequency generator for production of localized heat in intact animal. A.M. A. Archives of Surgery 1959; 79: 427–431
  • Nicolas J. Magnetic powders for use in hyperthermic treatments-e.g. of tumours, heated by hysteresis in alternating magnetic field. French Patent No. 2508802, 1983
  • Oleson J. R. Hyperthermia by magnetic induction: I. Physical characteristics of the technique. International Journal of Radiation Oncology, Biology and Physics 1982; 8: 1747–1756
  • Oleson J. R. A review of magnetic induction methods for hyperthermia treatment for cancer. IEEE Transactions on Biomedical Engineering 1984; BME-31: 91–97
  • Popplewell J., Rosensweig R. E., Johnston R. J. Magnetic field induced rotations in ferrofluids. IEEE Transactions on Magnetics 1990; 26: 1852–1854
  • Rand R. W., Snow H. D., Brown W. J. Thermomagnetic surgery for cancer. Journal of Surgical Research 1982; 33: 177–183
  • Rand R. W., Snow H. D., Elliott D. G., Haskins G. M. Necrosis of neoplasm by hyperthermia produced by induction heating of injected particles with magnetic hysteresis. US Patent No. 4545368, 1985
  • Shliomis M. I., Pshenichnikov A. F., Morozov K. I., Shurubor I. Y. Magnetic properties of ferrocolloids. Journal of Magnetism and Magnetic Materials 1990; 85: 40–46
  • Smit J., Wun H. P. J. Ferrite. Die physikalischen Eigenschaften von ferrimagnetischen Oxyden unter besonderer Berücksichtigung ihrer technischen Anwendung. Philips Technische Bibliothek 1962; 305–320
  • Stauffer P. R., Cetas T. C., Fletcher A. M., de Young D. W., Dewhirst M. W., Oleson J. R., Roemer R. B. Observations on the use of ferromagnetic implants for inducing hyperthermia. IEEE Transactions on Biomedical Engineering 1984a; BME-31: 76–90
  • Stauffer P. R., Cetas T. C., Jones R. C. Magnetic induction heating of ferromagnetic implant for inducing localized hyperthermia in deep-seated tumors. IEEE Transactions on Biomedical Engineering 1984b; BME-31: 235–251
  • Suzuki S., Arai K., Koike T., Oguchi K. Studies on liposomal ferromagnetic particles and a technique of high frequency inductive heating—in vivo studies of rabbits. Nippon-Gan-Chiryo-Gakkai-Shi 1990; 25: 2649–2658
  • Tazawa K., Takemori S., Yamashita I., Kato H., Yamamoto K., Kasagi T., Suzuki Y., Maeda M., Honda T., Fujimaki M., Nagae H. Intracellular hyperthermia effect of intracellular submicron particles exiting in inductive Field of 500 kHz (in vitro and in vivo). Proceedings of the Japanese Cancer Research 47th Ann. Meeting. 1988; 623
  • Watson J. K. Applications of magnetism. John Wiley & Sons, New York, Chichester, Brisbane, Toronto 1980
  • Wust P. Freie Universität Berlin (in German), BerlinGermany 1992, Thesis of the Klinikum Rudolf Virchow
  • Wust P., Nadobny J., Fahling H., Riess H., Koch K., John W., Felix R. Einflußfaktoren und Störeffekte bei der Steuerung von Leistungsverteilungen mit dem Hyperthermie-Ringsystem BSD-2000. I. Klinische Observablen und Phantommessungen. Strahlentherapie und Onkologie 1990; 166: 822–830
  • Wust P., Nadobny J., Felix R., Deuflhard P., Louis A., John W. Strategies for optimized application of annular-phased-array-systems in clinical hyperthermia. International Journal of Hyperthermia 1991a; 7: 157–173
  • Wust P., Nadobny J., Fähling H., Riess H., Koch K., John W., Felix R. Einflußfaktoren und Störeffekte bei der Steuerung von Leistungsverteilungen mit dem Hyperthermie-Ringsystem BSD-2000. II. Meßtechnische Analyse. Strahlentherapie und Onkologie 1991b; 167: 172–180

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