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International Journal of Hyperthermia Volume 32, 2016 - Issue 7
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Research Article

Mitigation of eddy current heating during magnetic nanoparticle hyperthermia therapy

Robert V. StiglianoThayer School of Engineering at Dartmouth College, Hanover, New Hampshire;
,
Fridon ShubitidzeThayer School of Engineering at Dartmouth College, Hanover, New Hampshire; Correspondence[email protected]
,
James D. PetrykGeisel School of Medicine at Dartmouth College, Hanover, New Hampshire;
,
Levan ShoshiashviliDepartment of Electronics and Electrical Engineering, Faculty of Natural Sciences, Ivane Javakhishvili Tbilisi State University, Tbilisi, Georgia
,
Alicia A. PetrykGeisel School of Medicine at Dartmouth College, Hanover, New Hampshire;
&
P. Jack HoopesThayer School of Engineering at Dartmouth College, Hanover, New Hampshire; ;Geisel School of Medicine at Dartmouth College, Hanover, New Hampshire;
Pages 735-748 | Received 16 May 2015, Accepted 24 May 2016, Published online: 20 Jul 2016

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Aikaterini-Rafailia Tsiapla, Konstantinos Angelou & Mavroeidis Angelakeris. (2021) Magnetically Driven Treatments: Optimizing Performance by Mitigation of Eddy Currents. Nanomedicine 16:11, pages 895-907.
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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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Irene Rubia-Rodríguez, Luca Zilberti, Alessandro Arduino, Oriano Bottauscio, Mario Chiampi & Daniel Ortega. (2021) In silico assessment of collateral eddy current heating in biocompatible implants subjected to magnetic hyperthermia treatments. International Journal of Hyperthermia 38:1, pages 846-861.
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Aikaterini-Rafailia Tsiapla, Antonia-Areti Kalimeri, Nikolaos Maniotis, Eirini Myrovali, Theodoros Samaras, Mavroeidis Angelakeris & Orestis Kalogirou. (2021) Mitigation of magnetic particle hyperthermia side effects by magnetic field controls. International Journal of Hyperthermia 38:1, pages 511-522.
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Anilchandra Attaluri, Sri Kamal Kandala, Haoming Zhou, Michele Wabler, Theodore L. DeWeese & Robert Ivkov. (2020) Magnetic nanoparticle hyperthermia for treating locally advanced unresectable and borderline resectable pancreatic cancers: the role of tumor size and eddy-current heating. International Journal of Hyperthermia 37:3, pages 108-119.
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Anilchandra Attaluri, John Jackowski, Anirudh Sharma, Sri Kamal Kandala, Valentin Nemkov, Chris Yakey, Theodore L. DeWeese, Ananda Kumar, Robert C. Goldstein & Robert Ivkov. (2020) Design and construction of a Maxwell-type induction coil for magnetic nanoparticle hyperthermia. International Journal of Hyperthermia 37:1, pages 1-14.
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Michael B. Cortie, David L. Cortie & Victoria Timchenko. (2018) Heat transfer from nanoparticles for targeted destruction of infectious organisms. International Journal of Hyperthermia 34:2, pages 157-167.
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Benjamin Rodriguez, Daniel Rivera, Jack Y. Zhang, Cole Brown, Tirone Young, Tyree Williams, Sakibul Huq, Milena Mattioli, Alexandros Bouras & Constantinos G. Hadjpanayis. (2024) Magnetic Hyperthermia Therapy for High-Grade Glioma: A State-of-the-Art Review. Pharmaceuticals 17:3, pages 300.
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Amro A. Nour. (2023) Investigating Different Coil Configurations During Magnetic Nanoparticles Hyperthermia for Prostate Cancer. Investigating Different Coil Configurations During Magnetic Nanoparticles Hyperthermia for Prostate Cancer.
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Levan Shoshiashvili, Irma Shamatava, David Kakulia & Fridon Shubitidze. (2023) Design and Assessment of a Novel Biconical Human-Sized Alternating Magnetic Field Coil for MNP Hyperthermia Treatment of Deep-Seated Cancer. Cancers 15:6, pages 1672.
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Gerasimos Pefanis, Nikolaos Maniotis, Aikaterini-Rafailia Tsiapla, Antonios Makridis, Theodoros Samaras & Mavroeidis Angelakeris. (2022) Numerical Simulation of Temperature Variations during the Application of Safety Protocols in Magnetic Particle Hyperthermia. Nanomaterials 12:3, pages 554.
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Arun Sebastian & Polly Thomas. (2022) Eddy current characterization on material surface during high power application – A benchmark experiment. Materials Today: Proceedings 50, pages 1747-1753.
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Amro A. Nour & Fridon Shubitidze. (2021) Effect of Human Conductivity Distributions during Magnetic Nanoparticles Hyperthermia. Effect of Human Conductivity Distributions during Magnetic Nanoparticles Hyperthermia.
Moshe Cohen-Erner, Raz Khandadash, Raphael Hof, Ofer Shalev, Adam Antebi, Arnoldo Cyjon, Dian Kanakov, Abraham Nyska, Glenwood Goss, John Hilton & Dan Peer. (2021) Fe 3 O 4 Nanoparticles and Paraffin Wax as Phase Change Materials Embedded in Polymer Matrixes for Temperature-Controlled Magnetic Hyperthermia . ACS Applied Nano Materials 4:10, pages 11187-11198.
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Ghazaleh Salmanian, S.A. Hassanzadeh-Tabrizi & Narjes Koupaei. (2021) Magnetic chitosan nanocomposites for simultaneous hyperthermia and drug delivery applications: A review. International Journal of Biological Macromolecules 184, pages 618-635.
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Alexandros Balousis, Nikolaos Maniotis & Theodoros Samaras. (2021) Improvement of Magnetic Particle Hyperthermia: Healthy Tissues Sparing by Reduction in Eddy Currents. Nanomaterials 11:2, pages 556.
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Vuk Uskoković. (2020) Earthicle and Its Discontents: A Historical Critical Review of Iron (Oxide) Particles Singly and Doubly Shelled with Silica and/or Carbon. ACS Earth and Space Chemistry 4:10, pages 1843-1877.
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L. Shoshiashvili, A. Lomia, D. Kakulia, I. Shamatava & F. Shubitidze. (2020) Agarose Gel and Salt Solution Conductivity Study in Phantom Preparation for mNP Hyperthermia Research. Agarose Gel and Salt Solution Conductivity Study in Phantom Preparation for mNP Hyperthermia Research.
Zhi Wei Lim, Vijaykumar B. Varma, Raju V. Ramanujan & Ali Miserez. (2020) Magnetically responsive peptide coacervates for dual hyperthermia and chemotherapy treatments of liver cancer. Acta Biomaterialia 110, pages 221-230.
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Mohaned Hammad, Sebastian Hardt, Benedikt Mues, Soma Salamon, Joachim Landers, Ioana Slabu, Heiko Wende, Christof Schulz & Hartmut Wiggers. (2020) Gas-phase synthesis of iron oxide nanoparticles for improved magnetic hyperthermia performance. Journal of Alloys and Compounds 824, pages 153814.
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Gabriel Rego, Mariana Nucci, Javier Mamani, Fernando Oliveira, Luciana Marti, Igor Filgueiras, João Ferreira, Caroline Real, Daniele Faria, Paloma Espinha, Daianne Fantacini, Lucas Souza, Dimas Covas, Carlos Buchpiguel & Lionel Gamarra. (2020) Therapeutic Efficiency of Multiple Applications of Magnetic Hyperthermia Technique in Glioblastoma Using Aminosilane Coated Iron Oxide Nanoparticles: In Vitro and In Vivo Study. International Journal of Molecular Sciences 21:3, pages 958.
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Sarveena, Navadeep Shrivastava, Naveed A. Shad, Muhammad Munir Sajid, M. Singh, Yasir Javed & S. K. Sharma. 2020. Magnetic Nanoheterostructures. Magnetic Nanoheterostructures 317 332 .
Hassan A. Albarqi, Leon H. Wong, Canan Schumann, Fahad Y. Sabei, Tetiana Korzun, Xiaoning Li, Mikkel N. Hansen, Pallavi Dhagat, Abraham S. Moses, Olena Taratula & Oleh Taratula. (2019) Biocompatible Nanoclusters with High Heating Efficiency for Systemically Delivered Magnetic Hyperthermia. ACS Nano 13:6, pages 6383-6395.
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Tristan D. Clemons, Roland H. Kerr & Alexander Joos. 2019. Comprehensive Nanoscience and Nanotechnology. Comprehensive Nanoscience and Nanotechnology 193 210 .
A. Lomia, L. Shoshiashvili, D. Kakulia, B. Baratashvili, G. Chaganava, G. Ghvedashvili & F. Shubitidze. (2018) Heat Production During mNP Hyperthermia - applied on a Deep Seated Tumors. Heat Production During mNP Hyperthermia - applied on a Deep Seated Tumors.
Subakti, Dasna IWayan, Markus Diantoro & Samsul Hidayat. (2018) Potential Induction Heating using MOSFET H-Bridge Circuit for Material Synthesis. Journal of Physics: Conference Series 1093, pages 012014.
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Gennaro Bellizzi & Ovidio M. Bucci. 2018. Emerging Electromagnetic Technologies for Brain Diseases Diagnostics, Monitoring and Therapy. Emerging Electromagnetic Technologies for Brain Diseases Diagnostics, Monitoring and Therapy 129 191 .
Ta-I Yang & Su-Hua Chang. (2017) Controlled synthesis of metallic iron nanoparticles and their magnetic hyperthermia performance in polyaniline composite nanofibers. Nanotechnology 28:5, pages 055601.
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