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International Journal of Hyperthermia Volume 11, 1995 - Issue 1
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Original Article

Cooled microwave transrectal applicator with adjustable directional beam for prostate treatment

P. S. Debicki Department of Radiation Oncology, University of Southern California, School of Medicine, Kenneth Norris Cancer Hospital, 1441 Eastlake Ave, Los Angeles, CA, 90033, USA; Department of Microwave Technique and Optical Communication, Electronic Faculty, Politechnika Gdańska, ul. Narutowicza 11/12, PL80952, Gdańsk, Poland
,
M. Okoniewski Department of Electrical and Computer Engineering, University of Victoria, Victoria, British Columbia, V8W3P6, Canada; Department of Microwave Technique and Optical Communication, Electronic Faculty, Politechnika Gdańska, ul. Narutowicza 11/12, PL80952, Gdańsk, Poland
,
E. Okoniewska Department of Electrical and Computer Engineering, University of Victoria, Victoria, British Columbia, V8W3P6, Canada; Department of Microwave Technique and Optical Communication, Electronic Faculty, Politechnika Gdańska, ul. Narutowicza 11/12, PL80952, Gdańsk, Poland
,
P. N. Shrivastava Department of Radiation Oncology, University of Southern California, School of Medicine, Kenneth Norris Cancer Hospital, 1441 Eastlake Ave, Los Angeles, CA, 90033, USA
,
A. M. Debicka Department of Radiation Oncology, University of Southern California, School of Medicine, Kenneth Norris Cancer Hospital, 1441 Eastlake Ave, Los Angeles, CA, 90033, USA
,
L. V. Baert Department of Urology, Katholieke Universiteit Leuven, Brusselstraat 69, Leuven, Belgium
&
Z. Petrovich Department of Radiation Oncology, University of Southern California, School of Medicine, Kenneth Norris Cancer Hospital, 1441 Eastlake Ave, Los Angeles, CA, 90033, USA
 show all
Pages 95-108 | Received 21 Sep 1993, Accepted 15 Mar 1994, Published online: 09 Jul 2009

References

  • Astrahan M. A., Sapozink M. D., Cohen D., Luxton G., Kampp T. D., Boyd S., Petrovich Z. Microwave applicator for transurethral hyperthermia of benign prostatic hyperplasia. International Journal of Hyperthermia 1989; 5: 283–296
  • Astrahan M. A., Debicki P. S. Physical principles of microwave hyperthermia of the prostate. Innovations in the Management of Benign Postatic Hyperplasia, Z. Petrovich, L. Baert. Springer, Berlin 1994; 205–238
  • Baert L., Ameye F., Astrahan M. A., Petrovich Z. Transurethral microwave hyperthermia for BPH: the Leuven clinical experience. Journal of Endourology 1993; 7: 61–69, Cancer Statistics 1993, 1993, American Cancer Society Ca-A, 43, 7–27
  • Debicki P. Microwave properties of three coupled TEM lines, (in Polish), PhD thesis. Technical University of Gdansk, Telecommunication Institute. 1974
  • Debicki P. Applicator for Microwave Hyperthermia of Neoplasm Tumors, Particularly for Rectum Tumors. Polish Patent No. 1987; 140: 436
  • Debicki P., Okoniewska E., Okoniewski M. Superficial and intraurethral applicators for microwave hyperthermia. Consensus of hyperthetmia for the 1990's, H. I. Bicher. Plenum, New York 1991; 324–328
  • Debicki P., Astrahan M. A., Ameye F., Oyen R., Baert L., Haczewski A., Petrovich Z. Temperature steering in the prostate by simultaneous transurethral and transrectal hyperthermia. Urology 1992; 40: 300–307
  • Debicki P. S., Astrahan M. A. Calculating input impedance of electrically small insulated antennas for microwave hyperthermia. IEEE Transactions on Microwave Theory and Techniques 1993; 41: 357–360
  • Denman D. L., Elson H. R., Lewis G. C., Breneman J. C., Clausen C. L., Dine J., Aron B. S. The distribution of power and heat produced by interstitial microwave antenna arrays. International Journal of Radiation Oncology, Biology, and Physics, Part I.: Comparative phantom and studies 1988; 14: 127–137
  • Denman D. L., Foster A. E., Lewis G. C., Jr, Redmond K. P., Elson H. R., Breneman J. C., Kereikaes J. G., Aron B. S. The role of antenna spacing and insertion depth, 14: 537–545, Part II
  • Dickson J. A., Calderwood S. K. Temperature range and selective sensitivity of tumors to hyperthermia: a critical review. Annals of the New York Academy of Sciences 1980; 335: 180–205
  • Gebert K. Setup for microwave hyperthermia applicator testing. MSc thesis. Technical University of Gdańsk, Electronics Faculty (in Polish) 1988
  • Gibbs F. A., Peck J. W., Dethlefsen L. A. The importance of intratumor uniformity in the study of radiosensitizing effects of hypertherinia. in vivo. Radiation Research 1981; 87: 187–197
  • Iskander M. F., Tumeh A. M. Design optimization of interstitial antennas. IEEE Transuction on Biomedical Engineering 1989; 36: 238–246
  • Ito K., Matsunaga M., Kurokawa S., Ueno K. Microwave radiator for warming therapy. US Patent. No. 5,026,959, 1991
  • Jones K. M., Mechling J. A., Strohbehn J. W., Trembly B. S. Theoretical and experimental SAR distributions for interstitial dipole antenna arrays used in hyperthermia. IEEE Transactions on Microwave Theory and Techniques 1989; 37: 1200–1209
  • Kasevich R. Microwave dipole probe for in vivo localized hyperthermia. US Patent. No. 4,612,940, 1986
  • King R. W. P., Smith S. Antennas in Mutter. MIT, Cambrtidge, MA 1981
  • King R. W. P., Trembly B. S., Strohbehn J. W. The electromagnetic field of insulated antenna in a conducting or dielectric medium. IEEE Transactions on Microwave Theory and Techniques 1983; 31: 574–583
  • Lindner A., Braf Z., Lev A., Golomb J., Leib Z., Siegel Y., Servadio C. Local hyperthermia of the prostate gland for the treatment of benign prostate hyperthrophy and urinary retention. British Journal of Urology 1990; 65: 201–203
  • Mendecki J., Friedenthal E., Botstein C. Microwave-induced hyperthermia in cancer treatment: apparatus and preliminary results. International Journal of Radiation Oncology, Biology and Physics 1978; 4: 1095–1103
  • Mendecki J., Friedenlhal E., Botstein C., Paglione R., Sterzer F. Microwave applicators for localized hyperthermia treatment of cancer of the prostate. International Journal of Radiation Oncdogy, Biology and Physics 1980; 6: 1583–1588
  • Petrovich Z., Langolz B., Glbbs F. A., Sapozink M. D., Kapp D. S., Stewart K. J., Emami B., Oleson J., Senzer N., Slater J., Astrahan M. A. Regional Hyperthermia for Advanced Tumor: A clinical study of 353 patient. International Journal of Radiation Oncologs 1989; 16: 601–608
  • Petrovich Z., Emami B., Kapp D., Sapozink M. D., Langholz B., Oleson J., Lieskovsky G., Astrahan M. A. Regional Hyperthermia in patients with recurrent genitourinary cancer. American Journal of Clinical Oncology 1991; 14: 472–477
  • Petrovich, Ameye F. E., Baert L. V. Transurethral rnicrowabe hyperthermia in benign prostatic hyperplasia. Optical Engineering 1992; 31: 1917–1921
  • Shimoyama J., Miki A. Electrode device for high frequency therniotherapy apparatus. US Patent. No. 4,993, 430, 1991
  • Shrivastava P. N., Saylor T. K. Physical evaluation and quality control of hyperthermia equipment. Clinical Thermology, M. Gauthrie. Springer, Heidelberg 1990; 3: 117–139
  • Stawarz B., Szmigielski S., Ogrounik J., Astrahan M., Petrovich Z. A comparison of transurethral and transrectal microwave hypertherniia in poor surgical risk BPH patients. Journal of Urology 1991; 146: 353–357
  • Stawarz B., Zielinski H., Szmigielski S., Rappaport E., Debicki P., Petrovich Z. Transrcclal hyperthermia as a pailiative treatment for advanced adenocarcinonia of the prostate and a study of cell mediated immunity. Urology 1993; 41: 548–553
  • Sterzer F. Catheter for treating prostate decease. US Patent. No. 5,007,437, 1991
  • Surowiec A., Shrivastava P. N., Astrahan M., Petrovich Z. The utilization of multilayer polyacrylamide phantom for evaluation of hyperthermia applicators. International Journal of Hyperthermia 1992; 8: 795–807
  • Thuery J. Microwaves: Industrial, Scientific and Medical Application. Artcch House, Boston, MA 1992
  • Vaguine V. Microwave hyperthermia applicator with variable radiation pattern. US Patent. No. 4,589,424, 1986
  • Vaydagni R. International consensus metting on hypertherniia final report. International Journal of Hyperthermia 1990; 6: 837
  • Yerushalmi A., Servadio, Leib C., Fishelovitz Z. Y., Rokowsky E., Stein J. A. Local hyperthermia for treatment of carcinoma of the proytate: a preliminary report. The prostate 1982; 3: 623–630
  • Yerushalmi A. Hyperthermia apparatus, US Patent. No. 4,601,296, 1986

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