Advanced search
Publication Cover
International Journal of Hyperthermia Volume 5, 1989 - Issue 2
Submit an article Journal homepage
23
Views
19
CrossRef citations to date
0
Altmetric
Original Article

Heat loss and blood flow during hyperthermia in normal canine brain I: Empirical study and analysis

Bernard E. Lyons Department of Surgery, Division of Neurosurgery, Dartmouth Hitchcock Medical Center, Hanover, NH, 03756, USA
,
Thaddeus V. Samulski Department of Radiology, Division of Radiation Oncology, Duke University Medical Center, Durham, NC, 27711, USA
,
Richard S. Cox Department of Radiation Oncology, Division of Radiation Therapy, Stanford University Medical Center, Stanford, CA, 94305, USA
&
Peter Fessenden Department of Radiation Oncology, Division of Radiation Therapy, Stanford University Medical Center, Stanford, CA, 94305, USA
Pages 225-247 | Received 18 May 1987, Accepted 02 May 1988, Published online: 09 Jul 2009

References

  • Aukland K., Bower B. F., Berlinger R. W. Measurement of local blood flow with hydrogen gas. Circulation Research 1964; 14: 164–187
  • Betz E., Ingvar D. H., Lassen N. A., Schmahl F. W. Regional blood flow in the cerebral cortex, measured simultaneously by heat and inert gas clearance. Acta Physiologica Scandinavica 1966; 67: 1–9
  • Blasberg R. G., Molnar F., Horowitz M., Kornblith P., Pleasants R., Fenstermacher J. Regional blood flow in RT-9 brain tumors. Journal of Neurosurgery 1983; 58: 863–873
  • Bowman H. F. Heat transfer mechanisms and thermal dosimetry. National Cancer Institute Monograph 1982; 61: 437–445
  • Brown A. C., Brengelmann G. Energy metabolism. Physiology and Biophysics, T. C. Ruch, H. D. Patton. Saunders, Philadelphia 1965; 1030–1049
  • Carter L. F., Erspamer R., Bro W. J. Cortical blood flow: thermal diffussion vs. isotope clearance. Stroke 1981; 12: 513–518
  • Cater D. E., Petrie A., Watkinson D. A. Effect of 5-hydroxytryptamine and cyproheptadine on tumor blood flow: estimation by rate of cooling after microwave diathermy. Acta Radiologica (Thermal Physics Biology) 1965; 3: 109–128
  • Cetas T. C., Fletcher A. M., Roemer R. B. What information can be obtained from transient temperature curves?. Radiation Research 1983; 94: 534, (abstract)
  • Cronqvist S., Ingvar D. H., Lassen N. A. Quantitative measurements of regional cerebral blood flow related to neuroradiological findings. Acta Radiologica [Diagnostic], (Stockholm) 1966; 5: 760–766
  • Cusick J. F., Myklebust J. Continuous quantitative local cerebral blood flow measurement: Calibration of thermal conductivity measurements by the hydrogen clearance method. Stroke 1980; 11: 661–664
  • Drayer E. F., Gur D., Wolfson S. K., Cook E. E. Experimental xenon enhancement with CT imaging: Cerebral applications. American Journal of Neuroradiology 1980; 1: 3–8
  • Eberhart R. C., Shitzer A., Hernandez E. J. Thermal dilution methods: estimation of tissue blood flow and metabolism. Annals of the New York Academy of Sciences 1980; 335: 107–132
  • Endo H., Larsen B., Lassen N. A. Regional cerebral blood flow alterations remote from the site of intracranial tumors. Journal of Neurosurgery 1977; 46: 271–281
  • Gaines C., Carter L. F., Crowell R. M. Comparison of local cerebral blood flow determined by thermal and hydrogen clearance. Stroke 1983; 14: 66–69
  • Gjedde A., Hansen A. J., Siemkowica E. Rapid simultaneous determination of regional blood flow and blood-brain glucose transfer rates. Cerebral Metabolism and Neural Function, J. V. Passonnean, R. A. Hawkins, W. D. Lust. Williams and Wilkins, Baltimore 1980; 151–160
  • Groothuis D. R., Pasternak J. F., Fischer J. M., Blasberg R. G., Bigner D. D., Vick N. A. Regional measurements of blood flow in experimental RD-2 rat gliomas. Cancer Research 1983a; 43: 3362–3367
  • Groothuis D. R., Blasberg R. G., Molnar P., Bigner D. D., Fenstermacher J. D. Regional blood flow in avian sarcoma virus (ASV)-induced brain tumors. Neurology 1983b; 33: 686–696
  • Gur D., Yonas H., Wolfson S. K., Herbert D., Kennedy W. H., Drayer B. F., Shabason L. Xenon and iodine enhanced cerebral CT: A closer look. Stroke 1981; 12: 573–578
  • Guy A. W., Lehman J. F., Stonebridge J. B. Therapeutic applications of electromagnetic power. Proceedings of IEEE 1974; 62: 55–75
  • Hahn G. M. Technical aspects of hyperthermia. Hyperthermia and Cancer. Plenum Press, New York 1982; 184, Chapter 6
  • Hossman K. A., Niebuhr I., Tamura M. Local cerebral blood flow and glucose consumption rates with experimental gliomas. Journal of Cerebral Blood Flow and Metabolism 1982; 2: 25–32
  • Jain R. K. Temperature distributions in normal and neoplastic tissues during normothermia and hyperthermia. Annals of the New York Academy of Sciences 1980; 334: 48–64
  • Jain R. K., Ward-Hartley K. Tumor blood flow—characterization, modifications and role in hyperthermia. IEEE Transactions, Sonics and Ultrasonics 1984; SU-31: 504–526
  • Kety S. S., Schmidt C. F. Nitrous oxide method for quantitative determination of cerebral blood flow in man: theory, procedure and normal values. Journal of Clinical Investigation 1948; 27: 476–484
  • Lassen N. A., Ingvar D. H. The blood flow of the cerebral cortex determined by radioactive krypton. Experientia 1961; 17: 42–43
  • Lebrun-Grandie F., Baron J. C., Soussaline F., Loh'n C. Coupling between regional blood flow and oxygen utilization in the normal brain. A study with positron tomography and oxygen-15. Archives of Neurology 1983; 40: 230–236
  • Lyons B. E., Britt R. H., Strohbehn J. W. Localized hyperthermia in the treatment of malignant brain tumors using an interstitial microwave antenna array. IEEE Transactions, Biomedical Engineering 1984; BME-31: 53–62
  • Lyons B. E., Samulski T. V., Britt R. H. Temperature measurements in high thermal gradients: I. The effects of conduction. International Journal of Radiation Oncology, Biology and Physics 1985; 11: 951–962
  • Meyer J. S., Handa J. Cerebral blood flow and metabolism. Minnesota Medicine 1967; 50: 37–44
  • Meyer J. S., Hayman L. A., Yamamoto M., Sakal F., Nakajima S. Local cerebral blood flow measured by CT after stable xenon inhalation. American Journal of Roentgenology 1980; 135: 239–251
  • Milligan A. J., Conran P. E., Ropar M. A., McCullough H. A., Ahnja R. K., Dobelbower R. R. Predictions of blood flow from thermal clearance during regional hyperthermia treatment. International Journal of Radiation Oncology, Biology and Physics 1983; 9: 1335–1343
  • Palvolgyi R. Regional cerebral blood flow in patients with intracranial tumors. Journal of Neurosurgery 1969; 31: 149–163
  • Pasztor E., Symon L., Dorsch N. W. C., Branston N. M. The hydrogen clearance method in assessment of blood flow in cortex white matter and deep nuclei of baboons. Stroke 1973; 4: 556–567
  • Pennes H. H. Analysis of tissue and arterial blood temperatures in resting human forearm. Journal of Applied Physiology 1948; 1: 93–122
  • Roberts D. W., Coughlin C. T., Wong T. Z., Fratkin J. D., Douple E. B., Strohbehn J. W. Interstitial hyperthermia and iridium brachytherapy in the treatment of malignant glioma: a phase I clinical trial. Journal of Neurosurgery 1986; 4: 581–587
  • 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 and Physics 1985; 11: 1539–1550
  • 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 and Physics 1985; 11: 917–963
  • Samulski T. V., Fessenden P., Valdagni R., Kapp D. S. Correlations of thermal washout rate, steady state temperatures and tissue type in deep seated recurrent or metastatic tumors. International Journal of Radiation Oncology, Biology and Physics 1987; 13: 907–916
  • Samulski T. V., Lyons B. E., Cox R. S., Fessenden P. Heat loss and blood flow during hyperthermia in normal canine brain: II. Mathematical model. International Journal of Hyperthermia 1989; 5: 249–263
  • Sandhu T. S. Measurement of blood flow using temperature decay: effect of thermal conduction. International Journal of Radiation Oncology, Biology and Physics 1986; 12: 373–378
  • Singer J. R., Crooks L. E. Nuclear magnetic resonance blood flow measurement in the human brain. Science 1983; 221: 654–656
  • Song C. W. Effect of hyperthermia on vascular function in normal and neoplastic tissue. Annals of the New York Academy of Sciences 1980; 335: 35–47
  • Stewart T., Begg A. Blood flow changes in transplanted mouse tumors and skin after mild hyperthermia. British Journal of Radiology 1983; 56: 477–482
  • Strang R., Patterson J. The role of thermal conduction in hyperthermia. International Journal of Radiation Oncology, Biology and Physics 1980; 6: 729–735
  • Symon L., Pasztor E., Dorsch N. W. C., Branston N. M. Physiological response of local areas of the cerebral circulation in experimental primates determined by the method of hydrogen clearance. Stroke 1973; 4: 632–642
  • Vaupel P., Ostheimer K., Muller-Klieser W. Circulatory and metabolic responses of malignant tumors during localized hyperthermia. Journal of Cancer Research and Clinical Oncology 1982; 98: 15–29
  • Waterman F. J., Nerlinger R. E., Moylan D. J., Leeper D. E. Response of human tumor blood flow to local hyperthermia. International Journal of Radiation Oncology, Biology and Physics 1987; 13: 75–82
  • Wong T. Z., Mechling J. A., Jones E. L., Strohbehn J. W. Transient finite-element analysis of thermal methods used to estimate SAR and blood flow in homogeneously and nonhomogeneously perfused tumor models. 1988, (In press)
  • Yamada N., Tanaka R., Takeda N., Suzuki Y., Sekiguchl K., Saito Y. The influence of hyperthermia on cerebral functions: Blood flow, metabolism and electro-encephalography. Hyperthermic Oncology, J. Overgaard. Taylor & Francis, London, Philadelphia 1984; Vol. 1: 743–746
  • Yonas H., Wolfson S. K., Gur D., Latchaw R. E., Good W. F., Leanza R., Jackson D. L., Jannetta P. L., Reinmuth O. M. Clinical experience with the use of xenon-enhanced CT blood flow mapping in cerebral vascular disease. Stroke 1984; 15: 443–450

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.