HEAT TRANSFER APPLICATIONS IN BIOLOGICAL SYSTEMS  67

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                            Average Tissue Temperature,” Journal of Biomechanical Engineering, 107:131–139.
                          Weinbaum, S., Xu, L. X., Zhu, L., and Ekpene, A., 1997, “A New Fundamental Bioheat Equation for Muscle
                            Tissue: Part I—Blood Perfusion Term,” ASME Journal of Biomechanical Engineering, 119:278–288.
                          Whelan,  W. M., and  Wyman, D. R., 1999, “A Model of  Tissue Charring during Interstitial Laser
                            Photocoagulation: Estimation of the Char Temperature,” ASME HTD-Vol. 363/BED-Vol. 44, Advances in
                            Heat and Mass Transfer in Biotechnology, pp. 103–107.
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                          Wissler, E. H., 1985, “Mathematical Simulation of Human  Thermal Behavior Using  Whole Body
                            Models,” Chapter 13, In: Heat and Mass Transfer in Medicine and Biology, New York: Plenum Press,
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                          Wissler, E. H., 1998, “Pennes’ 1948 Paper Revisited,” Journal of Applied Physiology, 85:35–41.
                          Wong, T. Z., Jonsson, E., Hoopes, P. J., Trembly, B. S., Heaney, J. A., Douple, E. B., and Coughlin, C. T., 1993,
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                          Wonnell,  T. L., Stauffer, P. R., and Langberg, J. J., 1992, “Evaluation of Microwave and Radio Frequency
                            Catheter  Ablation in a Myocardium-Equivalent Phantom Model,”  IEEE Transaction in Biomedical
                            Engineering, 39:1086–1095.
                          Xu, L. X., Chen, M. M., Holmes, K. R., and Arkin, H., 1991, “The Theoretical Evaluation of the Pennes, the
                            Chen-Holmes and the Weinbaum-Jiji Bioheat Transfer Models in the Pig Renal Cortex,” ASME WAM,
                            Atlanta, HTD-Vol. 189, pp. 15–22.
                          Xu, L. X., Chen, M. M., Holmes, K. R., and Arkin, H., 1993, “Theoretical Analysis of the Large Blood Vessel
                            Influence on the Local Tissue Temperature Decay after Pulse Heating,” ASME Journal of Biomechanical
                            Engineering, 115:175–179.
                          Xu, L. X., Zhu, L., and Holmes, K. R., 1998, “Thermoregulation in the Canine Prostate during Transurethral
                            Microwave Hyperthermia, Part I:  Temperature Response,”  International Journal of hyperthermia,
                            14(1):29–37.
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                            Chapter 5, In: Biofluid Methods and Techniques in Vascular, Cardiovascular, and Pulmonary Systems, vol. 4,
                            Gordon and Breach Science Publisher, Newark.
                          Zhu, L. Lemons, D. E., and Weinbaum, S., 1995, “A New Approach for Prediction the Enhancement in the Effective
                            Conductivity of Perfused Muscle Tissue due to Hyperthermia,” Annals of Biomedical Engineering, 23:1–12.
                          Zhu, L., Weinbaum, S., and Lemons, D. E., 1996a, “Microvascular Thermal Equilibration in Rat Cremaster
                            Muscle,” Annals of Biomedical Engineering, 24:109–123.
                          Zhu, L., Xu, L. X., Yuan, D. Y., and Rudie, E. N., 1996b, “Electromagnetic (EM) Quantification of the Microwave
                            Antenna for the Transurethral Prostatic Thermotherapy,” ASME HTD-Vol. 337/BED-Vol. 34, Advances in
                            Heat and Mass Transfer in Biotechnology, pp. 17–20.
                          Zhu, L., Xu, L. X., and Chencinski, N., 1998, “Quantification of the 3-D Electromagnetic Power Absorption Rate
                            in  Tissue During  Transurethral Prostatic Microwave  Thermotherapy Using Heat  Transfer Model,”  IEEE
                            Transactions on Biomedical Engineering, 45(9):1163–1172.
                          Zhu, L., and Xu, L. X., 1999, “Evaluation of the Effectiveness of Transurethral Radio Frequency Hyperthermia
                            in the Canine Prostate: Temperature Distribution Analysis,” ASME Journal of Biomechanical Engineering,
                            121(6):584–590.
                          Zhu, L., He, Q., Xu, L. X., and Weinbaum, S., 2002, “A New Fundamental Bioheat Equation for Muscle Tissue:
                            Part II—Temperature of SAV Vessels,” ASME Journal of Biomechanical Engineering, in press.
                          Zhu, L., Pang, L., and Xu, L. X., 2005, “Simultaneous Measurements of Local Tissue Temperature and Blood
                            Perfusion Rate in the Canine Prostate during Radio Frequency  Thermal  Therapy,” Biomechanics and
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                          Zhu, L., Banerjee, R. K., Salloum, M., Bachmann,  A. J., and Flower, R.  W., 2008, “Temperature
                            Distribution  during ICG Dye-Enhanced Laser Photocoagulation of Feeder  Vessels in  Treatment of
                            AMD-Related Choroidal Neovascularization (CNV).  ASME Journal of Biomechanical Engineering,
                            130(3):031010 (1–10).
                          Zhu, L., Schappeler, T., Cordero-Tumangday, C., and Rosengart, A. J., 2009, “Thermal Interactions between
                            Blood and Tissue: Development of a Theoretical Approach in Predicting Body Temperature during Blood
                            Cooling/Rewarming,” Advances in Numerical Heat Transfer, 3:197–219.