References
- Carslaw H. S., Jaeger J. C. Conduction of Heating in Solids. Oxford University Press, Oxford 1959; 327–328
- Clegg S., Roemer R. Reconstruction of experimental hyperthermia temperature distributions: application of state and parameter estimation. Journal of Biomechanical Engineering 1993; 115(4A)380–388
- Clegg S., Murphy K., Joines W. T., Rine G., Samulski T. V. Finite element computation of electromagnetic fields. IEEE Transactions Microwave Theory and Techniques 1994; 42(10)1984–1991
- Das S. K., Clegg S. T., Samulski T. V. Simulation of electromagnetically induced hyperthermia: a finite element gridding method. International Journal of Hyperthermia 1994, (in press)
- Delannoy J., Lebihan D., Hoult D. I., Levin R. L. Hyperthermia system combined with a MRI unit. Medical Physics 1990; 17: 855
- Guy A. W. Analysis of electromagnetic fields induced in biological tissues by thermographic studies on equivalent phantom models. IEEE Transactions Microwave Theory and Techniques 1971; 19(2)205–214
- Ferziger H. R. Numerical Methods for Engineering Application. Wiley, New York 1981
- Joines W. W. Frequency-depend absorption of electromagnetic energy in biological tissue. IEEE Transactions on Biomedical Engineering 1984; 31: 17–20
- Lagendijk Schellenkens J. J. W., Schipper M. J., Van der Linden P. M. A three-dimensional description of heating patterns in vascularized tissues during hyperthermia treatment. Physics in Medicine and Biology 1984; 29(5)495–507
- Lebihan D., Delannoy J., Levin R. L. Temperature mapping with MR imaging of molecular diffusion: application to hyperthermia. Radiology 1989; 171: 853
- Mc Gough R., Ebbini E., Cain C. Direct computation of ultrasound phased-array driving signals from a specified temperature distribution for hyperthermia. IEEE Transactions on Biomedical Engineering 1992; 39(8)825–834
- Moros E. G., Roemer R. B., Hynynen K. Pre-focal plane high-temperature regions induced by scanning focused ultrasound beams. International Journal of Hyperthermia 1990; 6(2)351–366
- Rine G. P., Dewhirst M. W., Cobb E. D., Samulski T. V., Coleman E. N., Clegg S. T., Wallen C. A. Feasibility of estimating the temperature distribution in a tumour heated by a waveguide applicator. International Journal of Radiation Oncology, Biology and Physics 1992; 23: 1009–1020
- Ross M., Paulsen K. Theoretical quantification of the effects of plastic wall thickness of phantom measurements in electromagnetic hyperthermia. IEEE Transactions of Biomedical Engineering 1989; 36(8)869–872
- Samulski T., Mac Fall J., Zhang Y., Grant W., Charles C. Non-invasive thermometry using magnetic resonance diffusion imaging: Potential for application in hyperthermia oncology. International Journal of Hyperthermia 1992; 8(6)819–829
- Shapiro A. TOPAZ. Lawrence Livermore National Laboratory, Livermore, CA 1986
- Sullivan D., Ben-Yosef R., Kapp D. The Stanford 3-D hyperthermia treatment planning—technical review and clinical summary. International Journal of Hyperthermia 1993; 9(5)627–642
- Sullivan D. S. Mathematical methods for treatment planning in deep regional hyperthermia. IEEE Transactions on Microwave Theory Techniques 1991; 39(5)864–872
- Waterman F. M., et al. Determination of the heat transport by conduction during thermal clearance in perfused tissue. Advances in Bioengineering. ASME, New York 1987
- Weinbaum S., Jui L. M. A new simplified bioheat equation for the effect of blood flow on local average tissue temperature. Journal of Biomechanical Engineering 1985; 107(2)131–139
- Weinbaum S., Jui L. M. The matching of thermal fields surrounding countercurrent microvessels and the closure approximation in the Weinbaum-Jiji equation. Journal of Biomechanical Engineering 1989; 111(4)271–275
- Zhang Y., Joines W. T., Jirtle R. L., Samulski T. V. Theoretical and measured electron field distributions within an annular phased array: Consideration of source antennas. IEEE Transactions on Biomechanical Engineering 1993; 40: 780–787
- Zienkiewicz O. C. The Finite Element Method, 3rd edn. McGraw Hill, London 1977