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Journal of Medical Engineering & Technology Volume 28, 2004 - Issue 4
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Original Article

Development of a new mini-invasive tumour hyperthermia probe using high-temperature water vapour

Tian-Hua Yu Cryogenics Laboratory, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, PO Box 2711, Beijing 100080, P.R. ChinaCorrespondence[email protected]
,
Yi-Xin Zhou Cryogenics Laboratory, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, PO Box 2711, Beijing 100080, P.R. China
&
Jing Liu Cryogenics Laboratory, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, PO Box 2711, Beijing 100080, P.R. China
Pages 167-177 | Published online: 09 Jul 2009

References

  • HAHN, G., 1982 Hyperthermia and Cancer (New York: Plenum).
  • WATMOUGH, J. G., and Ross, W. M., 1986 Hyperthermia (London: Blackie and Son).
  • Liu, J., and WANG, C., 1997 Bioheat Transfer (in Chinese) (Beijing: Science Press).
  • VRBA, J., FRANCONI, C., MONTECCHIA, F., and VANNUCC II., 1993, Evanescent-mode applicators (EMA) for superficial and subcutaneous hyperthermia. IEEE Transactions on Biomedical Engineering, 40, 397— 407.
  • EBBINI, E. S., and CAIN, C. A., 1991, A spherical-section ultrasound phased array applicator for deep localized hyperthermia. JEFF Transactions on Biomedical Engineering, 38, 634–639.
  • Liu, J., hiu, L., and Xu, L. X., 2000, Studies on the 3-D temperature transients in the canine prostate during transurethral microwave thermal therapy. ASME Journal of Biomechanical Engineering, 122, 372 — 379.
  • CLEGG, S. T., and ROEMER, R. B., 1993, Reconstruction of experimental hyperthermia temperature distributions: application of state and parameter estimation. ASME Journal of Biomechanical Engineering, 115, 380 — 388.
  • MATTINGLY, M., BAILEY, E. A., DuTroN, A. W., ROEMER, R. B., and DEVASIA, S., 1998, Reduced-order modeling for hyperthermia: an extended balanced-realization-based ap-proach. TEEF Transactions on Biomedical Engineering, 45, 1154 — 1162.
  • CETAS, T. C., and ROEMER, R. B., 1984, Status and future developments in the physical aspects of hyperthermia. Cancer &search, 44 (suppl.), 4894 — 4901.
  • DIEDERICH, C. J., NAU, W. H., STAUFFER, P. R., BURDEI'l h, E. C., and KHALIL, I. S., 1996, Interstital ultrasound applicators for localized thermal coagulation of tissue. IEEE Ultrasonics Symposium, 40, 1303 — 1307.
  • &MART, J. C., DESPRETZ, D., CHIVE, M., and PRIBETICH, J., 1996, Modeling of various kinds of applicators used for microwave hyperthermia based on the FDTD method. IEEE Transactions on Microwave Theory and Techniques, 44, 1811 — 1818.
  • DESPRETZ, D., CAMART, J. C., MICH-EL, C., FABRE, J. J., PREVOST, B., SOZANSKI, J. P., and CHIVE, M., 1996, Microwave prostatic hyperthermia: interest of urethral and rectal applicators combination theoretical study and animal experimental results. TEEF Transactions on Microwave Theory and Techni-ques, 44, 1762–1768.
  • HIRAOKA, M., MITSUMORI, M., HIROI, N., OHNO, S., TANAKA, Y., KOTSUKA, Y., and SUGIMACHI, K., 2000, Development of RF and microwave heating equipment and clinical applica-tions to cancer treatment in Japan. JEFF Transactions on Microwave and Techniques, 48, 1356 — 1365.
  • LEE, E. R., WILSEY, T. R., HORNOCH, P. T., KAPP, D. S., FESSENDEN, P., LOHRBACH, A., and PRIONAS, S. D., 1992, Body conformable 915 MHz microstrip array applicators for large surface area hyperthermia. JEFF Transactions on Biomedical Engineering, 39, 470–483.
  • SEIP, R., VANBAREN, P., and EBBINI, E. S., 1994, Dynamic focusing in ultrasound hyperthermia treatments using implantable hydrophone arrays. JEFF Transaction on Ultra-sonics, Ferroelectrics, and Frequency Control, 41, 706–713.
  • PISA, S., CAVAGNARO, M., BERNARDI, P., and LIN, J. C., 2001, A 915-MHz antenna for microwave thermal ablation treat-ment: Physical design, computer modeling and experi-mental measurement. IEEE Transactions on Biomedical Engineering, 48, 599–601.
  • DIEDERICH, C. J., and BURDE1-1h, E. C., 1996, Transurethral ultrasound array for prostate thermal therapy. Initial studies. JEFF Transaction on Ultrasonics, Ferroelectrics, and Frequency Control, 43, 1011–1022.
  • FRANCONI, C., RAGANELLA, L., and TIBERIO, C. A., 1991, Low-frequency RF hyperthermia W-A 27 MHz hybrid applicator for localized deep tumor heating. JEFF Transactions on Biomedical Engineering, 38, 287–293.
  • GORDON, S. J., and PAUL, F. T., 1980, Physical hyperthermia and cancer therapy. Proceedings of the IEEE, 68, 133–142.
  • HAIDER, S. A., CETAS, T. C., and ROEMER, R. B., 1993, Temperature distribution in tissues from a regular array of hot source implants: An analytical approximation. TEEF Transactions on Biomedical Engineering, 40, 408–417.
  • UN, S. Y., and LI, R. Y., 1997 Modern hyperthermic oncology (principles, methods and clinics) (Beijing: XueYuan Publishing Company).
  • DEARDORFF, D. L., and DIEDERICH, C. J., 2000, Ultrasound applicators with internal water-cooling for high-powered interstitial thermal therapy. TEEF Transactions on Biomedical Engineering, 47, 1356 — 1365.
  • CRESSON, P. Y., MICHEL, C., DUBOIS, L., CHIVE, M., and PRIBELIcH, J., 1994, Complete three-dimensional modeling of new microstrip-microslot applicators of microwave hyperthmia using the FDTD method. IEEE Transactions on Microwave Theory and Techniques, 42, 2657–2666.
  • MARTIN, G. T., HADDAD, M. G., CRAVALHO, E. G., and BOWMAN, H. F., 1992, Thermal model for the local microwave hyperthermia treatment of benign prostatic hyperplasia. TEEF Transactions on Biomedical Engineering, 39, 836 — 844.
  • UNDERWOOD, H. R., PETERSON, A. F., and MAGIN, R. L., 1992, Electric field distribution near rectangular microstrip radiators for hyperthermia heating: theory versus experi-ment in water. TEEF Transactions on Biomedical Engineering, 39, 146 — 153.
  • Onsm, M. N., 1993 Heat Conduction (New York: John Wiley & Sons).
  • Liu, J., 2000, Temperature monitoring and heating optimization in cancer hyperthermia. Progress in Natural Science, 10, 787–793.

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