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International Journal of Hyperthermia Volume 29, 2013 - Issue 4: Mathematical Modelling of Thermal Therapy
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Review Articles

Thermal modelling using discrete vasculature for thermal therapy: A review

H. Petra KokDepartment of Radiation Oncology, Academic Medical Center, University of AmsterdamThe NetherlandsCorrespondence[email protected]
,
Johanna GellermannDepartment of Radiation Oncology, University Hospital of Tübingen TübingenGermany
,
Cornelis A.T. van den BergDepartment of Radiotherapy, University Medical Centre Utrecht UtrechtThe Netherlands
,
Paul R. StaufferDepartment of Radiation Oncology, Duke University Medical Center, Durham North CarolinaUSA
,
Jeffrey W. HandDivision of Imaging Sciences and Bioengineering, King’s College London St Thomas’ Hospital, LondonUK
&
Johannes CrezeeDepartment of Radiation Oncology, Academic Medical Center, University of AmsterdamThe Netherlands
Pages 336-345 | Received 20 Feb 2013, Accepted 29 Apr 2013, Published online: 05 Jun 2013

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Sri Kamal Kandala, Anirudh Sharma, Sahar Mirpour, Eleni Liapi, Robert Ivkov & Anilchandra Attaluri. (2021) Validation of a coupled electromagnetic and thermal model for estimating temperatures during magnetic nanoparticle hyperthermia. International Journal of Hyperthermia 38:1, pages 611-622.
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Kemal Sumser, Esra Neufeld, René F. Verhaart, Valerio Fortunati, Gerda M. Verduijn, Tomas Drizdal, Theo van Walsum, Jifke F. Veenland & Margarethus M. Paulides. (2019) Feasibility and relevance of discrete vasculature modeling in routine hyperthermia treatment planning. International Journal of Hyperthermia 36:1, pages 800-810.
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H. P. Kok, L. Korshuize-van Straten, A. Bakker, R. de Kroon – Oldenhof, G. H. Westerveld, E. Versteijne, L. J. A. Stalpers & J. Crezee. (2018) Feasibility of on-line temperature-based hyperthermia treatment planning to improve tumour temperatures during locoregional hyperthermia. International Journal of Hyperthermia 34:7, pages 1082-1091.
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H. P. Kok, A. N. T. J. Kotte & J. Crezee. (2017) Planning, optimisation and evaluation of hyperthermia treatments. International Journal of Hyperthermia 33:6, pages 593-607.
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C. M. van Leeuwen, J. Crezee, A. L. Oei, N. A. P. Franken, L. J. A. Stalpers, A. Bel & H. P. Kok. (2017) 3D radiobiological evaluation of combined radiotherapy and hyperthermia treatments. International Journal of Hyperthermia 33:2, pages 160-169.
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V. Lopresto, R. Pinto, L. Farina & M. Cavagnaro. (2017) Treatment planning in microwave thermal ablation: clinical gaps and recent research advances. International Journal of Hyperthermia 33:1, pages 83-100.
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Hans Crezee, Caspar M. van Leeuwen, Arlene L. Oei, Lukas J.A. Stalpers, Arjan Bel, Nicolaas A. Franken & H. Petra Kok. (2016) Thermoradiotherapy planning: Integration in routine clinical practice. International Journal of Hyperthermia 32:1, pages 41-49.
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Michael Schwenke, Jan Strehlow, Sabrina Haase, Juergen Jenne, Christine Tanner, Thomas Langø, Arjo J. Loeve, Ioannis Karakitsios, Xu Xiao, Yoav Levy, Giora Sat, Mario Bezzi, Stefan Braunewell, Matthias Guenther, Andreas Melzer & Tobias Preusser. (2015) An integrated model-based software for FUS in moving abdominal organs. International Journal of Hyperthermia 31:3, pages 240-250.
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Guanghui Huang, Qi Liu, Xin Ye, Xia Yang, Zhigang Wei, Wenhong Li, Jiao Wang, Xiaoying Han, Xiang Ni, Min Meng & Aimin Zheng. (2014) Invasive pulmonary aspergillosis: A rare complication after microwave ablation. International Journal of Hyperthermia 30:6, pages 412-417.
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Gal Shafirstein & Yusheng Feng. (2013) The role of mathematical modelling in thermal medicine. International Journal of Hyperthermia 29:4, pages 259-261.
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Anirudh Sharma, Erik Cressman, Anilchandra Attaluri, Dara L. Kraitchman & Robert Ivkov. (2022) Current Challenges in Image-Guided Magnetic Hyperthermia Therapy for Liver Cancer. Nanomaterials 12:16, pages 2768.
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Heng Wang, Jiamei Zhao, Xinyi Guo, Rui Shi, Hai Jiang, Mingjian Pan, Changquan Qiu & Jingtian Tang. (2022) Research on Mathematical Model for Vascular Cooling Effect of Tumor Magnetic Induction Conformal Hyperthermia. Research on Mathematical Model for Vascular Cooling Effect of Tumor Magnetic Induction Conformal Hyperthermia.
Carlos E. Guerra-Londono, Carlos G. Tarazona, J. A. Sánchez-Monroy, Olivia Heppell, Juan J. Guerra-Londono & Rupen Shah. (2022) The Role of Hyperthermia in the Treatment of Peritoneal Surface Malignancies. Current Oncology Reports 24:7, pages 875-887.
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Dieter Haemmerich. 2022. Principles and Technologies for Electromagnetic Energy Based Therapies. Principles and Technologies for Electromagnetic Energy Based Therapies 1 24 .
Tomas Drizdal, Gerard C. van Rhoon, Rene F. Verhaart, Ondrej Fiser & Margarethus M. Paulides. (2021) A Guide for Water Bolus Temperature Selection for Semi-Deep Head and Neck Hyperthermia Treatments Using the HYPERcollar3D Applicator. Cancers 13:23, pages 6126.
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H. Petra Kok & Johannes Crezee. (2021) Hyperthermia Treatment Planning: Clinical Application and Ongoing Developments. IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology 5:3, pages 214-222.
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Matteo Bruno Lodi, Giacomo Muntoni, Alessandro Ruggeri, Alessandro Fanti, Giorgio Montisci & Giuseppe Mazzarella. (2021) Towards the Robust and Effective Design of Hyperthermic Devices: Improvement of a Patch Antenna for the Case Study of Abdominal Rhabdomyosarcoma With 3D Perfusion. IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology 5:3, pages 197-205.
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Giuseppe Carluccio, Can Akgun, John Thomas Vaughan & Christopher Collins. (2021) Temperature‐based MRI safety simulations with a limited number of tissues. Magnetic Resonance in Medicine 86:1, pages 543-550.
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Lukas Winter, Frank Seifert, Luca Zilberti, Manuel Murbach & Bernd Ittermann. (2020) MRI‐Related Heating of Implants and Devices: A Review. Journal of Magnetic Resonance Imaging 53:6, pages 1646-1665.
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Massimiliano Zanoli & Hana Dobšíček Trefná. (2021) Iterative time-reversal for multi-frequency hyperthermia. Physics in Medicine & Biology 66:4, pages 045027.
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Pascal M. Gschwend, Justin M. Hintze, Inge K. Herrmann, Sotiris E. Pratsinis & Fabian H. L. Starsich. (2021) Precision in Thermal Therapy: Clinical Requirements and Solutions from Nanotechnology. Advanced Therapeutics 4:2.
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Gerben Schooneveldt, Daan R. Löke, Remko Zweije, Roxan F.C.P.A. Helderman, H. Petra Kok & Hans Crezee. (2020) Experimental validation of a thermophysical fluid model for use in a hyperthermia treatment planning system. International Journal of Heat and Mass Transfer 152, pages 119495.
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H.P. Kok & J. Crezee. (2020) Hyperthermia treatment planning: clinical application and ongoing research. Hyperthermia treatment planning: clinical application and ongoing research.
Gerben Schooneveldt, Hana Dobšíček Trefná, Mikael Persson, Theo M. de Reijke, Klas Blomgren, H. Petra Kok & Hans Crezee. (2019) Hyperthermia Treatment Planning Including Convective Flow in Cerebrospinal Fluid for Brain Tumour Hyperthermia Treatment Using a Novel Dedicated Paediatric Brain Applicator. Cancers 11:8, pages 1183.
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Chien-Chang Chen & Jean-Fu Kiang. (2019) ELECTROQUASISTATIC MODEL OF CAPACITIVE HYPERTHERMIA AFFECTED BY HEAT CONVECTION. Progress In Electromagnetics Research C 89, pages 61-74.
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Rohan Dhavalikar, Ana C. Bohórquez & Carlos Rinaldi. 2019. Nanomaterials for Magnetic and Optical Hyperthermia Applications. Nanomaterials for Magnetic and Optical Hyperthermia Applications 265 286 .
Mostafa Saeedi, Omid Vahidi, Vahabodin Goodarzi, Mohammad Reza Saeb, Leila Izadi & Masoud Mozafari. (2017) A new prospect in magnetic nanoparticle-based cancer therapy: Taking credit from mathematical tissue-mimicking phantom brain models. Nanomedicine: Nanotechnology, Biology and Medicine 13:8, pages 2405-2414.
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Michael Schwenke, Joachim Georgii & Tobias Preusser. (2017) Fast Numerical Simulation of Focused Ultrasound Treatments During Respiratory Motion With Discontinuous Motion Boundaries. IEEE Transactions on Biomedical Engineering 64:7, pages 1455-1468.
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Fangyi Liu, Zhigang Cheng, Zhiyu Han, Xiaoling Yu, Mingan Yu & Ping Liang. (2017) A three-dimensional visualization preoperative treatment planning system for microwave ablation in liver cancer: a simulated experimental study. Abdominal Radiology 42:6, pages 1788-1793.
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H P Kok & J Crezee. (2017) Progress and future directions in hyperthermia treatment planning. Progress and future directions in hyperthermia treatment planning.
Paul R. StaufferDario B. RodriguesRandolf SinahonLyndsey SbarroValeria BeckhoffMark D. Hurwitz. Using a conformal water bolus to adjust heating patterns of microwave waveguide applicators. Using a conformal water bolus to adjust heating patterns of microwave waveguide applicators.
Han Zhi-yu, Liang Ping, Yu Xiao-ling, Cheng Zhi-gang, Liu Fang-yi & Yu Jie. (2017) A clinical study of thermal monitoring techniques of ultrasound-guided microwave ablation for hepatocellular carcinoma in high-risk locations. Scientific Reports 7:1.
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Antonio Fasano & Adélia SequeiraAntonio Fasano & Adélia Sequeira. 2017. Hemomath. Hemomath 227 264 .
J. Crezee, C. M. van Leeuwen, A. L. Oei, L. E. van Heerden, A. Bel, L. J. A. Stalpers, P. Ghadjar, N. A. P. Franken & H. P. Kok. (2016) Biological modelling of the radiation dose escalation effect of regional hyperthermia in cervical cancer. Radiation Oncology 11:1.
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HP Kok, P. Wust, PR Stauffer, F Bardati, GC van Rhoon & J. Crezee. (2015) Current state of the art of regional hyperthermia treatment planning: a review. Radiation Oncology 10:1.
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Saied Hassanpour & Ahmad Saboonchi. (2014) Interstitial hyperthermia treatment of countercurrent vascular tissue: A comparison of Pennes, WJ and porous media bioheat models. Journal of Thermal Biology 46, pages 47-55.
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Rupesh Singh, Koushik Das & Subhash C. Mishra. (2014) Laser-induced hyperthermia of nanoshell mediated vascularized tissue – A numerical study. Journal of Thermal Biology 44, pages 55-62.
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