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Wanlin Tan, Sijie Chen, Yan Xu, Mingyu Chen, Haiqin Liao & Chengcheng Niu. (2023) Temperature-Sensitive Nanocarbon Hydrogel for Photothermal Therapy of Tumors. International Journal of Nanomedicine 18, pages 6137-6151.
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H. P. Kok, J. van der Zee, F. Navarro Guirado, A. Bakker, N. R. Datta, S. Abdel-Rahman, M. Schmidt, P. Wust & J. Crezee. (2021) Treatment planning facilitates clinical decision making for hyperthermia treatments. International Journal of Hyperthermia 38:1, pages 532-551.
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Fatemeh Adibzadeh, Kemal Sumser, Sergio Curto, Desmond T. B. Yeo, Amir A. Shishegar & Margarethus M. Paulides. (2020) Systematic review of pre-clinical and clinical devices for magnetic resonance-guided radiofrequency hyperthermia. International Journal of Hyperthermia 37:1, pages 15-27.
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Gerben Schooneveldt, Akke Bakker, Edmond Balidemaj, Rajiv Chopra, Johannes Crezee, Elisabeth D. Geijsen, Josefin Hartmann, Maarten C.C.M. Hulshof, H. Petra Kok, Margarethus M. Paulides, Alejandro Sousa-Escandon, Paul R. Stauffer & Paolo F. Maccarini. (2016) Thermal dosimetry for bladder hyperthermia treatment. An overview. International Journal of Hyperthermia 32:4, pages 417-433.
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Lukas Winter, Eva Oberacker, Katharina Paul, Yiyi Ji, Celal Oezerdem, Pirus Ghadjar, Alexander Thieme, Volker Budach, Peter Wust & Thoralf Niendorf. (2016) Magnetic resonance thermometry: Methodology, pitfalls and practical solutions. International Journal of Hyperthermia 32:1, pages 63-75.
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Koen W. A. van Dongen & Martin D. Verweij. (2011) A feasibility study for non-invasive thermometry using non-linear ultrasound. International Journal of Hyperthermia 27:6, pages 612-624.
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Maarten de Bruijne, Jacoba Van der zee, Ali Ameziane & Gerard C. Van Rhoon. (2011) Quality control of superficial hyperthermia by treatment evaluation. International Journal of Hyperthermia 27:3, pages 199-213.
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Zhen Li, Martin Vogel, Paolo F. Maccarini, Vadim Stakhursky, Brian J. Soher, Oana I. Craciunescu, Shiva Das, Omar A. Arabe, Williams T. Joines & Paul R. Stauffer. (2011) Improved hyperthermia treatment control using SAR/temperature simulation and PRFS magnetic resonance thermal imaging. International Journal of Hyperthermia 27:1, pages 86-99.
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Xiaodong Zhou, Qiang He, Al Zhang, Marc Beckmann & Cheng Ni. (2010) Temperature measurement error reduction for MRI-guided HIFU treatment. International Journal of Hyperthermia 26:4, pages 347-358.
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R.A.M. Canters, P. Wust, J.F. Bakker & G.C. Van Rhoon. (2009) A literature survey on indicators for characterisation and optimisation of SAR distributions in deep hyperthermia, a plea for standardisation. International Journal of Hyperthermia 25:7, pages 593-608.
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Edwin van der Wal, Martine Franckena, Dennis H.M. Wielheesen, Jacoba van der Zee & Gerard C. van Rhoon. (2008) Steering in locoregional deep hyperthermia: Evaluation of common practice with 3D-planning. International Journal of Hyperthermia 24:8, pages 682-693.
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Olav Dahl, Erling Dahl Borkamo & Øystein Fluge. (2008) Current status of antivascular therapy and targeted treatment in the clinic. International Journal of Hyperthermia 24:1, pages 97-110.
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Lars Frich. (2006) Non‐invasive thermometry for monitoring hepatic radiofrequency ablation. Minimally Invasive Therapy & Allied Technologies 15:1, pages 18-25.
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Articles from other publishers (42)
Jutta Hübner, Lukas Käsmann, Christina Maria Liebl, Jennifer Dörfler & Sabine Kutschan. (2024) A Review of the Effect of Hyperthermia in the Treatment of Various Types of Cancer. Clinical Cancer Investigation Journal 13:1, pages 40-45.
Crossref
Crossref
Richard Tyc & Mark G. Torchia. 2023. The Application of Heat in Oncology. The Application of Heat in Oncology
359
375
.
Sangwoo Kim, Donghyuk Kim & Sukhoon Oh. (2023) Straightforward Magnetic Resonance Temperature Measurements Combined with High Frame Rate and Magnetic Susceptibility Correction. Bioengineering 10:11, pages 1299.
Crossref
Crossref
Elena De Vita, Daniela Lo Presti, Carlo Massaroni, Agostino Iadicicco, Emiliano Schena & Stefania Campopiano. (2023) A review on radiofrequency, laser, and microwave ablations and their thermal monitoring through fiber Bragg gratings. iScience 26:11, pages 108260.
Crossref
Crossref
Martina T. Bevacqua, Rossella Gaffoglio, Gennaro G. Bellizzi, Marco Righero, Giorgio Giordanengo, Lorenzo Crocco, Giuseppe Vecchi & Tommaso Isernia. (2023) Field and Temperature Shaping for Microwave Hyperthermia: Recent Treatment Planning Tools to Enhance SAR-Based Procedures. Cancers 15:5, pages 1560.
Crossref
Crossref
Ökten Üngör, Tyler M. Ozvat, Josef V. Grundy & Joseph M. Zadrozny. 2023. Comprehensive Inorganic Chemistry III. Comprehensive Inorganic Chemistry III
745
770
.
Hemanth Kumar Dontiboina, Kavitha Arunachalam & V J Vishnu Prasad. (2022) Fiber Bragg Grating Based Temperature Sensor for Tissue Thermometry during Hyperthermia: A Simulation Study. Fiber Bragg Grating Based Temperature Sensor for Tissue Thermometry during Hyperthermia: A Simulation Study.
Alexey Popov, Maxim Timofeyev, Alexander Bykov & Igor Meglinski. (2022) Luminescent upconversion nanoparticles evaluating temperature-induced stress experienced by aquatic organisms owing to environmental variations. iScience 25:7, pages 104568.
Crossref
Crossref
Sergio Curto, Carolina Carrapico Seabra, Kemal Sumser, Margarethus M. Paulides & Gerard C. van Rhoon. (2022) MR thermometry in hyperthermia: imaging for precise therapy monitoring with the novel Universal Arch applicator. MR thermometry in hyperthermia: imaging for precise therapy monitoring with the novel Universal Arch applicator.
Marzieh Salimi, Sara Mosca, Benjamin Gardner, Francesca Palombo, Pavel Matousek & Nicholas Stone. (2022) Nanoparticle-Mediated Photothermal Therapy Limitation in Clinical Applications Regarding Pain Management. Nanomaterials 12:6, pages 922.
Crossref
Crossref
Tyler M. Ozvat, Spencer H. Johnson, Anthony K. Rappé & Joseph M. Zadrozny. (2020) Ligand Control of 59Co Nuclear Spin Relaxation Thermometry. Magnetochemistry 6:4, pages 58.
Crossref
Crossref
Thomas Wilhelm Eigentler, Lukas Winter, Haopeng Han, Eva Oberacker, Andre Kuehne, Helmar Waiczies, Sebastian Schmitter, Laura Boehmert, Christian Prinz, Hana Dobsicek Trefna & Thoralf Niendorf. (2020) Wideband Self‐Grounded Bow‐Tie Antenna for Thermal MR. NMR in Biomedicine 33:5.
Crossref
Crossref
G.C. van Rhoon, M. Franckena & T.L.M. ten Hagen. (2020) A moderate thermal dose is sufficient for effective free and TSL based thermochemotherapy. Advanced Drug Delivery Reviews 163-164, pages 145-156.
Crossref
Crossref
Jaber Beik, Mohamadreza Asadi, Mehri Mirrahimi, Ziaeddin Abed, Ali Farashahi, Reza Hashemian, Habib Ghaznavi & Ali Shakeri-Zadeh. (2019) An image-based computational modeling approach for prediction of temperature distribution during photothermal therapy. Applied Physics B 125:11.
Crossref
Crossref
Jaber Beik, Mohamadreza Asadi, Samideh Khoei, Sophie Laurent, Ziaeddin Abed, Mehri Mirrahimi, Ali Farashahi, Reza Hashemian, Habib Ghaznavi & Ali Shakeri-Zadeh. (2019) Simulation-guided photothermal therapy using MRI-traceable iron oxide-gold nanoparticle. Journal of Photochemistry and Photobiology B: Biology 199, pages 111599.
Crossref
Crossref
Mohamadreza Asadi, Jaber Beik, Reza Hashemian, Sophie Laurent, Ali Farashahi, Mehri Mobini, Habib Ghaznavi & Ali Shakeri-Zadeh. (2019) MRI-based numerical modeling strategy for simulation and treatment planning of nanoparticle-assisted photothermal therapy. Physica Medica 66, pages 124-132.
Crossref
Crossref
Madina Jelbuldina, Sanzhar Korganbayev, Zhazira Seidagaliyeva, Sultan Sovetov, Turlybek Tuganbekov & Daniele Tosi. (2019)
Fiber Bragg Grating Sensor for Temperature Monitoring During HIFU Ablation of
Ex Vivo
Breast Fibroadenoma
. IEEE Sensors Letters 3:8, pages 1-4.
Crossref
Crossref
C. Blanco-Andujar, F.J. Teran & D. Ortega. 2018. Iron Oxide Nanoparticles for Biomedical Applications. Iron Oxide Nanoparticles for Biomedical Applications
197
245
.
M M Paulides, R M C Mestrom, G Salim, B B Adela, W C M Numan, T Drizdal, D T B Yeo & A B Smolders. (2017) A printed Yagi–Uda antenna for application in magnetic resonance thermometry guided microwave hyperthermia applicators. Physics in Medicine and Biology 62:5, pages 1831-1847.
Crossref
Crossref
Margarethus M. Paulides, Sergio Curto, Mingming Wu, Lukas Winter, Gerard C. van Rhoon & Desmond T B Yeo. (2017) Advances in magnetic resonance guided radiofrequency hyperthermia. Advances in magnetic resonance guided radiofrequency hyperthermia.
Jaber Beik, Ziaeddin Abed, Fatemeh S. Ghoreishi, Samira Hosseini-Nami, Saeed Mehrzadi, Ali Shakeri-Zadeh & S. Kamran Kamrava. (2016) Nanotechnology in hyperthermia cancer therapy: From fundamental principles to advanced applications. Journal of Controlled Release 235, pages 205-221.
Crossref
Crossref
Mark Dewhirst, Paul R. Stauffer, Shiva Das, Oana I. Craciunescu & Zeljko Vujaskovic. 2016. Clinical Radiation Oncology. Clinical Radiation Oncology
381
398.e6
.
N.R. Datta, S. Gómez Ordóñez, U.S. Gaipl, M.M. Paulides, H. Crezee, J. Gellermann, D. Marder, E. Puric & S. Bodis. (2015) Local hyperthermia combined with radiotherapy and-/or chemotherapy: Recent advances and promises for the future. Cancer Treatment Reviews 41:9, pages 742-753.
Crossref
Crossref
M M Paulides, J F Bakker, L W Hofstetter, W C M Numan, R Pellicer, E W Fiveland, M Tarasek, G C Houston, G C van Rhoon, D T B Yeo & G Kotek. (2014) Laboratory prototype for experimental validation of MR-guided radiofrequency head and neck hyperthermia. Physics in Medicine and Biology 59:9, pages 2139-2154.
Crossref
Crossref
M M Paulides, W C M Numan, T Drizdal, G Kotek, D T B Yeo & G C Van Rhoon. (2014) Feasibility of MRI-guided hyperthermia treatment of head and neck cancer. Feasibility of MRI-guided hyperthermia treatment of head and neck cancer.
Naimul Islam, Rebecca Hale, Matthew Taylor & Adrian Wilson. (2013) The possible use of combined electrical impedance and ultrasound velocity measurements for the non-invasive measurement of temperature during mild hyperthermia. Physiological Measurement 34:9, pages 1103-1122.
Crossref
Crossref
Mark Dewhirst, Shiva Das, Paul Stauffer, Oana Craciunescu, Zeljko Vujaskovic & Donald Thrall. 2012. Clinical Radiation Oncology. Clinical Radiation Oncology
385
403
.
M M Paulides, J F Bakker, M Linthorst, J van der Zee, Z Rijnen, E Neufeld, P M T Pattynama, P P Jansen, P C Levendag & G C van Rhoon. (2010) The clinical feasibility of deep hyperthermia treatment in the head and neck: new challenges for positioning and temperature measurement. Physics in Medicine and Biology 55:9, pages 2465-2480.
Crossref
Crossref
CHIKAYOSHI SUMI, HIDEYUKI KANADA & YUUKI TAKANASHI. (2010) Reconstructions of Tissue Thermal Properties Together with Perfusion and Thermal Source. Thermal Medicine 26:1, pages 31-40.
Crossref
Crossref
Oana I. Craciunescu, Paul R. Stauffer, Brian J. Soher, Cory R. Wyatt, Omar Arabe, Paolo Maccarini, Shiva K. Das, Kung‐Shan Cheng, Terence Z. Wong, Ellen L. Jones, Mark W. Dewhirst, Zeljko Vujaskovic & James R. MacFall. (2009) Accuracy of real time noninvasive temperature measurements using magnetic resonance thermal imaging in patients treated for high grade extremity soft tissue sarcomas. Medical Physics 36:11, pages 4848-4858.
Crossref
Crossref
Michael Peller, Alenka Schwerdt, Martin Hossann, Herbert M. Reinl, Tungte Wang, Steven Sourbron, Manfred Ogris & Lars H. Lindner. (2008) MR Characterization of Mild Hyperthermia-Induced Gadodiamide Release From Thermosensitive Liposomes in Solid Tumors. Investigative Radiology 43:12, pages 877-892.
Crossref
Crossref
Anubhav Arora, Mark R. Prausnitz & Samir Mitragotri. (2008) Micro-scale devices for transdermal drug delivery. International Journal of Pharmaceutics 364:2, pages 227-236.
Crossref
Crossref
C. Sumi, T. Uchida, T. Ooba & K. Inoue. 2009. Acoustical Imaging. Acoustical Imaging
153
159
.
Riadh Habash. 2007. Bioeffects and Therapeutic Applications of Electromagnetic Energy. Bioeffects and Therapeutic Applications of Electromagnetic Energy
311
336
.
Riadh Habash. 2007. Bioeffects and Therapeutic Applications of Electromagnetic Energy. Bioeffects and Therapeutic Applications of Electromagnetic Energy
221
263
.
Riadh Habash. 2007. Bioeffects and Therapeutic Applications of Electromagnetic Energy. Bioeffects and Therapeutic Applications of Electromagnetic Energy
337
360
.
Riadh Habash. 2007. Bioeffects and Therapeutic Applications of Electromagnetic Energy. Bioeffects and Therapeutic Applications of Electromagnetic Energy
265
308
.
Adam Chicheł, Janusz Skowronek, Magda Kubaszewska & Marek Kanikowski. (2007) Hyperthermia – description of a method and a review of clinical applications. Reports of Practical Oncology & Radiotherapy 12:5, pages 267-275.
Crossref
Crossref
Chikayoshi Sumi & Hiroyuki Yanagimura. (2007) Reconstruction of thermal property distributions of tissue phantoms from temperature measurements—thermal conductivity, thermal capacity and thermal diffusivity. Physics in Medicine and Biology 52:10, pages 2845-2863.
Crossref
Crossref
Svein Jacobsen & Paul R Stauffer. (2007) Can we settle with single-band radiometric temperature monitoring during hyperthermia treatment of chestwall recurrence of breast cancer using a dual-mode transceiving applicator?. Physics in Medicine and Biology 52:4, pages 911-928.
Crossref
Crossref
Eus J. W. Van Someren. (2007) Thermoregulation and aging. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology 292:1, pages R99-R102.
Crossref
Crossref
Johanna Gellermann, Bert Hildebrandt, Rolf Issels, Hildegard Ganter, Waldemar Wlodarczyk, Volker Budach, Roland Felix, Per‐Ulf Tunn, Peter Reichardt & Peter Wust. (2006) Noninvasive magnetic resonance thermography of soft tissue sarcomas during regional hyperthermia. Cancer 107:6, pages 1373-1382.
Crossref
Crossref