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International Journal of Hyperthermia Volume 38, 2021 - Issue 1
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Mitigation of magnetic particle hyperthermia side effects by magnetic field controls

Aikaterini-Rafailia Tsiaplaa School of Physics, Faculty of Sciences, Aristotle University, Thessaloniki, Greece;b Center for Interdisciplinary Research and Innovation (CIRI-AUTH), MagnaCharta, Thessaloniki, GreeceCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-8203-7664
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Antonia-Areti Kalimeria School of Physics, Faculty of Sciences, Aristotle University, Thessaloniki, Greece;b Center for Interdisciplinary Research and Innovation (CIRI-AUTH), MagnaCharta, Thessaloniki, Greece
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Nikolaos Maniotisa School of Physics, Faculty of Sciences, Aristotle University, Thessaloniki, Greece;b Center for Interdisciplinary Research and Innovation (CIRI-AUTH), MagnaCharta, Thessaloniki, GreeceORCID Iconhttps://orcid.org/0000-0003-1825-9961
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Eirini Myrovalia School of Physics, Faculty of Sciences, Aristotle University, Thessaloniki, Greece;b Center for Interdisciplinary Research and Innovation (CIRI-AUTH), MagnaCharta, Thessaloniki, GreeceORCID Iconhttps://orcid.org/0000-0003-0193-3470
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Theodoros Samarasa School of Physics, Faculty of Sciences, Aristotle University, Thessaloniki, Greece;b Center for Interdisciplinary Research and Innovation (CIRI-AUTH), MagnaCharta, Thessaloniki, GreeceORCID Iconhttps://orcid.org/0000-0003-0170-4520
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Mavroeidis Angelakerisa School of Physics, Faculty of Sciences, Aristotle University, Thessaloniki, Greece;b Center for Interdisciplinary Research and Innovation (CIRI-AUTH), MagnaCharta, Thessaloniki, GreeceORCID Iconhttps://orcid.org/0000-0001-9109-0221
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Orestis Kalogiroua School of Physics, Faculty of Sciences, Aristotle University, Thessaloniki, Greece;b Center for Interdisciplinary Research and Innovation (CIRI-AUTH), MagnaCharta, Thessaloniki, GreeceORCID Iconhttps://orcid.org/0000-0002-4078-8168
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Pages 511-522 | Received 09 Jul 2020, Accepted 01 Mar 2021, Published online: 30 Mar 2021

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Oriano Bottauscio, Irene Rubia-Rodríguez, Alessandro Arduino, Luca Zilberti, Mario Chiampi & Daniel Ortega. (2022) Heating of metallic biliary stents during magnetic hyperthermia of patients with pancreatic ductal adenocarcinoma: an in silico study. International Journal of Hyperthermia 39:1, pages 1222-1232.
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Marta Vicentini, Riccardo Ferrero & Alessandra Manzin. (2024) Influence of coil geometry, supply conditions and nanoparticle heating properties on magnetic hyperthermia in mouse models. International Journal of Thermal Sciences 203, pages 109151.
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Zahra Salmanpour, Samira Sadat Abolmaali, Ghazal Farahavar, Mohsen Salmanpour & Ali Mohammad Tamaddon. (2024) Magnetic nanoparticles and their hybrid biomaterials for drug delivery and theranostic applications in cardiovascular diseases. Journal of Drug Delivery Science and Technology 96, pages 105676.
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Sebastián Salazar Sandoval, Patricia Díaz-Saldívar, Ingrid Araya, Freddy Celis, Diego Cortés-Arriagada, Ana Riveros, Carlos Rojas-Romo, Carolina Jullian, Nataly Silva, Nicolás Yutronic, Marcelo J. Kogan & Paul Jara. (2024) Controlled Release of the Anticancer Drug Cyclophosphamide from a Superparamagnetic β-Cyclodextrin Nanosponge by Local Hyperthermia Generated by an Alternating Magnetic Field. ACS Applied Materials & Interfaces.
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Maria Anastasia Rouni, Boaz Shalev, George Tsanidis, Ioannis Markakis, Sarah Kraus, Pazit Rukenstein, Doron Suchi, Ofer Shalev & Theodoros Samaras. (2024) A Validated Methodological Approach to Prove the Safety of Clinical Electromagnetic Induction Systems in Magnetic Hyperthermia. Cancers 16:3, pages 621.
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Matteo B. Lodi, Antonios Makridis, Konstantina Kazeli, Theodoros Samaras, Makis Angelakeris, Giuseppe Mazzarella & Alessandro Fanti. (2024) On the Evaluation of the Hyperthermic Efficiency of Magnetic Scaffolds. IEEE Open Journal of Engineering in Medicine and Biology 5, pages 88-98.
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A. A. Grigoriev, I. N. Zavestovskaya & A. P. Kanavin. (2024) Modeling Radio Frequency Heating of Nanoparticles for Biomedical Applications. Physics of Atomic Nuclei 86:11, pages 2459-2461.
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Soumyakanta Panda, Malaya Kumar Das & Niharika Mohapatra. (2023) Role of interfacial layer on exchange-coupled magnetic properties of bi-magnetic nanostructures: An experimental and theoretical approach. Journal of Magnetism and Magnetic Materials 587, pages 171306.
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Kexiao Yu, Hang Zhou, Yamei Xu, Youde Cao, Yuanyi Zheng & Bing Liang. (2023) Engineering a triple-functional magnetic gel driving mutually-synergistic mild hyperthermia-starvation therapy for osteosarcoma treatment and augmented bone regeneration. Journal of Nanobiotechnology 21:1.
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Martin K. Y. Kwok, Cliona C. J. Maley, Asher Dworkin, Simon Hattersley, Paul Southern & Quentin A. Pankhurst. (2023) Nonspecific eddy current heating in magnetic field hyperthermia. Applied Physics Letters 122:24.
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Parsa Montazersaheb, Elahe Pishgahzadeh, Vahid Bayrami Jahani, Raheleh Farahzadi & Soheila Montazersaheb. (2023) Magnetic nanoparticle-based hyperthermia: A prospect in cancer stem cell tracking and therapy. Life Sciences 323, pages 121714.
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Sunday J. Olusegun, Magdalena Osial, Agnieszka Majkowska-Pilip, Kinga Żelechowska-Matysiak, Dorota Nieciecka, Michal Krajewski, Marek Pękała & Pawel Krysinski. (2023) Synthesis and characterization of Sr2+ and Gd3+ doped magnetite nanoparticles for magnetic hyperthermia and drug delivery application. Ceramics International 49:12, pages 19851-19860.
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Adrian Radoń, Agnieszka Włodarczyk, Łukasz Sieroń, Magdalena Rost-Roszkowska, Łukasz Chajec, Dariusz Łukowiec, Agnieszka Ciuraszkiewicz, Piotr Gębara, Stanisław Wacławek & Aleksandra Kolano-Burian. (2023) Influence of the modifiers in polyol method on magnetically induced hyperthermia and biocompatibility of ultrafine magnetite nanoparticles. Scientific Reports 13:1.
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Al Mamun & Lilia Sabantina. (2023) Electrospun Magnetic Nanofiber Mats for Magnetic Hyperthermia in Cancer Treatment Applications—Technology, Mechanism, and Materials. Polymers 15:8, pages 1902.
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Rumiana Tzoneva, Aikaterini-Rafailia Tsiapla, Veselina Uzunova, Tihomira Stoyanova, Theodoros Samaras, Makis Angelakeris & Orestis Kalogirou. (2022) Synergistic Effect of Combined Treatment with Magnetic Hyperthermia and Magneto-Mechanical Stress of Breast Cancer Cells. Magnetochemistry 8:10, pages 117.
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Sarkar Siddique & James C. L. Chow. (2022) Recent Advances in Functionalized Nanoparticles in Cancer Theranostics. Nanomaterials 12:16, pages 2826.
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Marta Vicentini, Marta Vassallo, Riccardo Ferrero, Ioannis Androulakis & Alessandra Manzin. (2022) In silico evaluation of adverse eddy current effects in preclinical tests of magnetic hyperthermia. Computer Methods and Programs in Biomedicine 223, pages 106975.
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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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Y. Haripriya Devi, L. Herojit Singh & Boris Wareppam. 2022. Advances in Nanostructured Materials. Advances in Nanostructured Materials 145 161 .
Thanh-Luu Cao, Tuan-Anh Le, Yaser Hadadian & Jungwon Yoon. (2021) Theoretical Analysis for Using Pulsed Heating Power in Magnetic Hyperthermia Therapy of Breast Cancer. International Journal of Molecular Sciences 22:16, pages 8895.
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