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International Journal of Hyperthermia Volume 7, 1991 - Issue 2
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Original Article

Flow dependence of 2-D temperature distributions induced in the perfused canine kidney by ultrasound

S. D. Prionas Department of Radiation Oncology, Stanford University School of Medicine, Stanford, CA, 94305, USA
,
K. A. Raftery Department of Surgery/Urology, Stanford University School of Medicine, Stanford, CA, 94305, USA
,
P. D. Edmonds Bioengineering Research Laboratory, SRI International, Menlo Park, CA, 94025, USA
&
C. E. Constantinou Department of Surgery/Urology, Stanford University School of Medicine, Stanford, CA, 94305, USA
Pages 367-383 | Received 01 Feb 1990, Accepted 06 Jul 1990, Published online: 09 Jul 2009

References

  • Bagshaw M. A., Taylor M. A., Kapp D. S., Meyer J. L., Samulski T. V., Lee E. R., Fessenden P. Anatomical site-specific modalities for hyperthermia. Cancer Rerearch 1984; 44: 4842s–4852s, (Suppl.)
  • Barr R. C., Gallie T. M., Spach M. S. a, Automated production of contour maps for electrophysiology. I. Problem definition, solution strategy, and specification of geometric model. Computers and Biomedical Research 1980; 13: 142–153
  • Barr R. C., Gallie T. M., Spach M. S. b, Automated production of contour maps for electrophysiology. II. Triangulation, verification, and organization of the geometric model. Computers and Biomedical Research 1980; 13: 154–170
  • Barr R. C., Gallie T. M., Spach M. S. c, Automated production of contour maps ior electrophysiology. III. Construction of contour maps. Computers ad Biomedicul Research 1980; 13: 171–191
  • Bowman H. F. Heat transfer and thermal dosimetry. Journal of Microwave Power 1981; 16: 121–133
  • Cain C. A., Umemura S. I. Concentric-ring and sector-vortex phased array applicators for ultrasound hyperthermia. IEEE Transactions in Microwave Theory and Technique 1986; MTT34: 542–551
  • Cetas T. C. Use of dog kidneys as in vivo thermal models. Proceedings of the 7th Annual IEEE/EMBS Conference, Chicago, 1985, paper B3.6 (Abst.)
  • Cetas T. C., Connor W. G. Thermometry considerations in localized hyperthermia. Medical Physics 1978; 5: 79–91
  • Clausen G., Hope A., Kirkeb A., Tyssebotn I., Aukland K. Distribution of blood flow in the dog kidney. I. Saturation rates for inert diffusible tracers, 125I-iodoantipyrine and tritiated water, versus uptake of microspheres under control conditions. Acta Physiologica Scandinavica 1979; 107: 69–81
  • Corry P. M., Barlogie B., Tilchen E. J., Armour E. P. Ultrasound-induced hyperthermia for the treatment of human superficial tumors. International Journal of Radiation Oncology, Biology, Physics 1982; 8: 1225–1229
  • Davis B., Lele P. P. Bone-pain during tumor hyperthermia by ultrasound. Paper AD-1, presented at the 7th Annual meeting of the NAHG, Atlanta, Georgia, 21 February, 1987, (Abst.)
  • Ebbini E. S., Umemura S. I., Ibbini M., Cain C. A. A cylindrical-section ultrasound phased array applicator for hyperthermia cancer therapy. IEEE Transactions in UFFC 1988, (In press)
  • Edmonds P. D., Ross W. C., Lee E. R., Fessenden P. Spatial distributions of heating by ultrasound transducers in clinical use, indicated in a tissue-equivalent phantom. Proceedings of the IEEE Ultrasonics Symposium, Sun Francisco, 1985, 908–912, (Abst.)
  • Emami B., Song C. W. Physiological mechanisms in hyperthermia: A review. International Journal of Radiation Oncology, Biology, Physics 1984; 10: 289–295
  • Fessenden P., Lee E. R., Anderson T. L., Strohbehn J. W., Meyer J., Samulski T. V., Marmor J. B. Experience with a multitransducer ultrasound system for localized hyperthermia of deep tissues. IEEE Transactions in Biomedical Engineering 1984a; 31: 126–135
  • Fessenden P., Lee E. R., Samulski T. V. Direct temperature measurement. Cancer Research 1984b; 44: 4799s–4804s
  • Goss S. A., Johnson R. L., Dunn F. Comprehensive tabulation of empirical ultrasonic properties of mammalian tissues, Part I. Journal of the Acoustics Society of America 1978; 64: 423–457
  • Goss S. A., Frizzell L. A., Dunn F. Ultrasonic absorption and attenuation in mammalian tissue. Ultrasound in Medicine and Biology 1979; 5: 181–186
  • Goss S. A., Johnson R. L., Dunn F. Comprehensive tabulation of empirical ultrasonic properties of mammalian tissues, Part II. Journal of the Acoustics Society of America 1980; 68: 93–108
  • Hahn G. M. Hyperthermia and Cancer. Plenum Press, New York 1982
  • Hahn G. M., Kernahan P., Martinez A., Pounds D., Prionas S. D., Anderson T., Justice G. Some heat transfer problems associated with heating by ultrasound, microwaves, and radiofrequency. Annals of the New York Academy of Sciences 1980; 335: 327–346
  • Harth O. The function of the kidneys. Human Physiology, R. F. Schmidt, G. Thaws. Springer-Verlag, New York 1983; 615–616
  • Hynynen K. Nonlinear absorption during focused ultrasound hyperthermia. Proceedings of the IEEE Ultrasonics Symposium, San Francisco, 1985, 925–929, (Abst.)
  • Hynynen K., DeYoung D. Temperature elevation at muscle-bone interface during scanned, focused ultrasound hyperthermia. International Journal of Hyperthemia 1988; 4: 267–279
  • Hynynen K., Watmough D., Mallard J. The effect of thermal conduction during local hyperthermia induced by ultrasound. British Journal of Cancer 1982; 45: 68–70, (Suppl. V)
  • Hynynen K., DeYoung D., Kundrat M., Moros E. The effect of blood perfusion rate on the temperature distributions induced by multiple, scanned and focused ultrasonic beams in dogs' kidneys. in viva. International Journal of Hypertherrnia 1989; 5: 485–497
  • Ibbini M. S., Cain C. A. A field conjugation method for direct synthesis of hyperthermia phased array heating patterns. IEEE Transactions in UFFC 1988, (In press)
  • Ibbini M., Ebbini E., Umemura S. I., Cain C. A. Ultrasound phased arrays for hyperthermia: new techniques based on the field conjugation method. Proceedings of Ultrasonics Symposium. 1987, (Abst.)
  • Jain R. K. Temperature distributions in normal and neoplastic tissues during normothermia and hyperthermia. Annals of the New York Academy of Sciences 1980; 335: 48–66
  • Jiji L. M., Weinbaum S., Lemons D. E. Theory and experiment for the effect of vascular microstructure on surface tissue heat transfer—Part II: Model formulation and solution. Journal of Biomechanical Engineering (Transactions of the ASME) 1984; 106: 331–341
  • Kapp D. S., Fessenden P., Samulski T. V., Bagshaw M. A., Cox R. S., Lee E. R., Lohrbach A. W., Meyer J. L., Prionas S. D. Stanford University institutional report. Phase I evaluation of equipment for hyperthermia treatment of cancer. International Journal of Hyperthermia 1988; 4: 75–115
  • Lele P. P. Ultrasound: Is it the modality of choice for controlled, localized heating of deep tumors'. Hyerthemic Oncology, 1984, J. Overgaard. Taylor & Francis, London, Philadelphia 1985; Vol. 2: 129–154
  • Lele P. P. Rationale, technique and clinical results with scanned, focused ultrasound (SIMFU) system. Proceedings of the 8th Annual Conference of IEEE Engineering in Medicine und Biology Society. 1986, 1435–1440
  • Lele P. P., Parker K. J. Temperature distributions in tissues during local hyperthermia by stationary or steered beams of unfocused or focused ultrasound. British Journal of Cancer 1982; 45: 108–121, (Suppl. V)
  • Lele P. P., Goddard J., Blanter M. Clinical results with intensity modulated. scanned, focused ultrasound (SIMFU) system. Syllabus: A Categorical course in Radiation Therapy: Hyperthermia, R. A. Steeves, B. R. Paliwal. Radiological Society of North America, Oak Brook, Illinois 1987; 159–170
  • Linuner A., Golomb J., Siegel Y., Lev A. Local hyperthermia of the prostate gland for the treatment of benign hypertrophy and urinary retention. British Journal of Clrology 1987; 60: 567–571
  • Lyons B. E., Samulski T. V., Britt R. H. Temperature measurements in high thermal gradients: I. Effects of conduction. International Journal of Radiation Oncology, Biology, Physics 1985; 11: 951–962
  • Meindl J. D., Ford A. J. Implantable telemetry in biomedical research. IEEE Transactions in Biomedical Engineering 1984; BME31: 817–823
  • Olch A. J., Kaiser L. R., Silberman A. W., Storm F. K., Graham L. S., Morton D. L. Blood flow in human tumors during hyperthermia therapy: Demonstration of vasoregulation and an applicable physiological model. Journal of Surgicul Oncology 1983; 23: 125–132
  • Oleson J. R., Dewhirst M. W. Hyperthermia: An overview of current progress and problems. Current Problems in Cancer (Monograph) 1983; 8: 1–62
  • Overgaard J. Hyperthermic Oncology. Proceedings of the Fourth International Symposium on Hyperthemic Oncology, AarhusDenmark. J. Overgaard. Taylor & Francis, London, Philadelphia 1984; 1–867
  • Prnnes M. M. Analysis of tissue and arterial blood temperatures in the resting human forearm. Journal of Applied Physiology 1948; 1: 93–122
  • Roemer R. B., Swindell W., Clegg S. T., Kress R. L. Simulalion of focused scanned ultrasonic heating of deep seated tumors: the effect of blood perfusion. IEEE Transactions in Sonics and Ultrasonics 1984; SU-31: 457–466
  • Roemer R. B., Fletcher A. M., Cetas T. C. Obtaining local SAR and blood perfusion data from temperature measurements: steady state and transient techniques compared. International Journal of Radiation Oncology, Biology, Physics 1985; 11: 1539–1550
  • Samulski T. V., Lee E. R., Hahn G. M. Hypertherniia as a clinical treatment inodality. Cancer Treatment Reports 1984; 68: 309–311
  • Samulski T. V., Lyons B. E., Britt R. H. Temperature measurements in high thermal gradients: II, Analysis of conduction effects. International Journal of Radiation Oncology, Biology, Physics 1985; 11: 963–971
  • Shrader E. J., Jeuck P. R., Edmonds P. D. Numerical models of perfused hyperthermia phantoms. NAHG/RRS annual meeting, Seattle, WA, 1989, 24, book of abstracts
  • Song C. W. Effect of local hyperthermia on blood flow and microenvironment: A review. Cancer Research 1984; 44: 4721s–4730s, (Suppl.)
  • Song C. W., Rhee J. G., Levitt S. H. Blood flow in normal tissues and tumors during hyperthermia. Journal of the National Cancer Institute 1980; 64: 119–124
  • Strohbehn J. W., Roemer R. B. A survey of computer simulations of hyperthermia treaments. IEEE Transctions in Biomedical Engineering 1984; BME31: 136–149
  • Swindell W., Roemer R. B., Clegg S. T. Temperature distributions caused by dynamic scanning of focused ultrasound transducers. Procepdings of the IEEE Ultrasonics Sympsium. 1982, 750–753, (Abst.)
  • Tobias J., Hynynen K., Roemer R., Guthkelch A. N., Fleischer A. S., Shively J. An ultrasound window to perform scanned, focused ultrasound hypertherniia treatments of brain tumors. Medical Physics 1987; 14: 228–234
  • Umemura S. I., Cain C. A. Evaluation of a prototype sector-vortex array applicator. Procceedings of Ultrasonics Symposium. 1987, (Abst.)
  • Umemura S. I., Cain C. A. The sector-vortex phased array: Acoustic field synthesis for hyperthermia. IEEE Transactions in UFFC 1988, (Submitted)
  • Waterman F. M. Determination of the temperature artifact during ultrawound hyper-thermia. International Journal of Hyperthermia 1990; 6: 131–142
  • Waterman F. M., Leeper J. B. Temperature artifacts produced by thermocouples used in conjunction with 1 and 3 MHz ultrasound. International Journal of Hyperthermia 1990; 6: 383–399
  • Waterman F. M., Nerlinger R. E., Leeper J. B. Catheter induced artifacts in ultrasound hyperthermia. International Journal of Hyperthermia 1990; 6: 371–381
  • Weinbaum S. A new bioheat equation and its application to peripheral tissue and whole limb heat transfer. Abstract of paper (Ba) presented at the 35th annual meeting of the Radiation Research Society, and 7th annual meeting of the North American Hyperthermia Group, Atlanta, Georgia, 21–26 February, 1987
  • Weinbaum S., Jiji L. M. A new simplified bioheat equation for the effect of blood flow on local average tissue temperature. Journal of Biornechanical Engineering (Transactions of ASME) 1985; 107: 131–139
  • Weinbaum S., Jiji L. M., Lemons D. E. Theory and experiment for the effect of vascular microstructure on surface tissue heat transfer—Part I: Anatomical foundation and model conceptualization. Journal of Biomechanical Engineering (Transactions of ASME) 1984; 106: 321–330
  • Youssef A. M., Schlaps D., Zuna I., Van Kaick G., Lorenz W. J. Assessing hyperthermic treatment success by two dimensional textural analysis. Proceedings of International Symposium on Pattern Recognition and Acoustical Imaging, SPIE 1987; 768: 135–145

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