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International Journal of Hyperthermia Volume 6, 1990 - Issue 1
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Original Article

Errors between two-and three-dimensional thermal model predictions of hyperthermia treatments

Z. P. Chen Aerospace & Mechanical Engineering Department, University of Arizona, Arizona Health Sciences Center, Tucson, Az, 85724, USA; Radiation Oncology Department, University of Arizona, Arizona Health Sciences Center, Tucson, Az, 85724, USA
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W. H. Miller Aerospace & Mechanical Engineering Department, University of Arizona, Arizona Health Sciences Center, Tucson, Az, 85724, USA
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R. B. Roemer Aerospace & Mechanical Engineering Department, University of Arizona, Arizona Health Sciences Center, Tucson, Az, 85724, USA; Radiation Oncology Department, University of Arizona, Arizona Health Sciences Center, Tucson, Az, 85724, USA
&
T. C. Cetas Aerospace & Mechanical Engineering Department, University of Arizona, Arizona Health Sciences Center, Tucson, Az, 85724, USA; Radiation Oncology Department, University of Arizona, Arizona Health Sciences Center, Tucson, Az, 85724, USA
Pages 175-191 | Received 22 Dec 1987, Accepted 01 Mar 1989, Published online: 09 Jul 2009

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Sheldon K. Hall, Ean H. Ooi & Stephen J. Payne. (2015) Cell death, perfusion and electrical parameters are critical in models of hepatic radiofrequency ablation. International Journal of Hyperthermia 31:5, pages 538-550.
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S. J. Tu, K. Hynynen & R. B. Roemer. (1994) Simulation of bidirectional ultrasound hyperthermia treatments of neck tumours. International Journal of Hyperthermia 10:5, pages 707-722.
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D. T. Tompkinsn, R. Vanderby, S. A. Klein, W. A. Beckman, R. A. Steeves, D. M. Frye & B. R. Paliwal. (1994) Temperature-dependent versus constant-rate blood perfusion modelling in ferromagnetic thermoseed hyperthermia: results with a model of the human prostate. International Journal of Hyperthermia 10:4, pages 517-536.
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J. C. Camart, L. Dubois, J. J. Fabre, D. Vanloot & M. Chive. (1993) 915 MHz microwave interstitial hyperthermia. Part II: Array of phase-monitored antennas. International Journal of Hyperthermia 9:3, pages 445-454.
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Z.-P. Chen, R. B. Roemer & T. C. Cetas. (1991) Short communication: Errors in the two-dimensional simulation of ferromagnetic implant hyperthermia. International Journal of Hyperthermia 7:5, pages 735-739.
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Articles from other publishers (19)

Jinying Wang, Shengyang Huang, Hongjian Gao, Ju Liu, Yubo Zhang & Shuicai Wu. (2022) Computer Simulations of Dual-Antenna Microwave Ablation and Comparison to Experimental Measurements. Applied Sciences 13:1, pages 26.
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Muhammad Suleman, Samia Riaz & Rashid Jalil. (2020) A mathematical modeling approach toward magnetic fluid hyperthermia of cancer and unfolding heating mechanism. Journal of Thermal Analysis and Calorimetry 146:3, pages 1193-1219.
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Rendong Chen, Fang Lu, Fa Wu, Tian’an Jiang, Liting Xie & Dexing Kong. (2018) An analytical solution for temperature distributions in hepatic radiofrequency ablation incorporating the heat-sink effect of large vessels. Physics in Medicine & Biology 63:23, pages 235026.
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Pornthip Keangin & Phadungsak Rattanadecho. (2018) A numerical investigation of microwave ablation on porous liver tissue. Advances in Mechanical Engineering 10:8, pages 168781401773413.
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Suriyanto, E. Y. K. Ng & S. D. Kumar. (2017) Physical mechanism and modeling of heat generation and transfer in magnetic fluid hyperthermia through Néelian and Brownian relaxation: a review. BioMedical Engineering OnLine 16:1.
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Mark W. Dewhirst, John Abraham & Benjamin Viglianti. 2015. 397 421 .
Phadungsak Rattanadecho & Pornthip Keangin. (2013) Numerical study of heat transfer and blood flow in two-layered porous liver tissue during microwave ablation process using single and double slot antenna. International Journal of Heat and Mass Transfer 58:1-2, pages 457-470.
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Tamer S. Ibrahim, Doney Abraham & Robert L. Rennaker. (2007) Electromagnetic Power Absorption and Temperature Changes due to Brain Machine Interface Operation. Annals of Biomedical Engineering 35:5, pages 825-834.
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Cédric Thiebaut & Denis Lemonnier. (2002) Three-dimensional modelling and optimisation of thermal fields induced in a human body during hyperthermia. International Journal of Thermal Sciences 41:6, pages 500-508.
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Ping Liang, Baowei Dong, Xiaoling Yu, Dejiang Yu, Zhigang Cheng, Li Su, Jiansu Peng, Qun Nan & Huaijun Wang. (2001) Computer-aided dynamic simulation of microwave-induced thermal distribution in coagulation of liver cancer. IEEE Transactions on Biomedical Engineering 48:7, pages 821-829.
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T.C. Cetas, E.J. Gross & Y. Contractor. (1998) A ferrite core/metallic sheath thermoseed for interstitial thermal therapies. IEEE Transactions on Biomedical Engineering 45:1, pages 68-77.
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D. Despretz, J.-C. Camart, C. Michel, J.-J. Fabre, B. Prevost, J.-P. Sozanski & M. Chive. (1996) Microwave prostatic hyperthermia: interest of urethral and rectal applicators combination-theoretical study and animal experimental results. IEEE Transactions on Microwave Theory and Techniques 44:10, pages 1762-1768.
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C Sturesson & S Andersson-Engels. (1995) A mathematical model for predicting the temperature distribution in laser-induced hyperthermia. Experimental evaluation and applications. Physics in Medicine and Biology 40:12, pages 2037-2052.
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K. Giering, I. Lamprecht, O. Minet & A. Handke. (1995) Determination of the specific heat capacity of healthy and tumorous human tissue. Thermochimica Acta 251, pages 199-205.
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R.J. Lalonde & J.W. Hunt. (1995) Optimizing ultrasound focus distributions for hyperthermia. IEEE Transactions on Biomedical Engineering 42:10, pages 981-990.
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P.R. Stauffer, P.K. Sneed, H. Hashemi & T.L. Phillips. (1994) Practical induction heating coil designs for clinical hyperthermia with ferromagnetic implants. IEEE Transactions on Biomedical Engineering 41:1, pages 17-28.
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S.A. Haider, T.C. Cetas & R.B. Roemer. (1993) Temperature distribution in tissues from a regular array of hot source implants: an analytical approximation. IEEE Transactions on Biomedical Engineering 40:5, pages 408-417.
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T. P. Ryan. 1993. Interstitial and Intracavitary Thermoradiotherapy. Interstitial and Intracavitary Thermoradiotherapy 95 116 .
Grant P. Rine, Mark W. Dewhirst, Edwin D. Cobb, Scott T. Clegg, Edward N. Coleman, Thaddeus V. Samulski & C.Anne Wallen. (1992) Feasibility of estimating the temperature distribution in a tumor heated by a waveguide applicator. International Journal of Radiation Oncology*Biology*Physics 23:5, pages 1009-1019.
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