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International Journal of Hyperthermia Volume 37, 2020 - Issue 3: Nanomedicine and Thermal Therapies: Where Are We Going? Guest Editors: Andris Bakuzis
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Magnetic nanoparticle hyperthermia for treating locally advanced unresectable and borderline resectable pancreatic cancers: the role of tumor size and eddy-current heating

Anilchandra Attaluria Department of Mechanical Engineering, School of Science, Engineering, and Technology, The Pennsylvania State University – Harrisburg, Middletown, PA, USA;b Department of Radiation Oncology and Molecular Radiation Sciences, Johns Hopkins University School of Medicine, Baltimore, MD, USACorrespondence[email protected]
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,
Sri Kamal Kandalab Department of Radiation Oncology and Molecular Radiation Sciences, Johns Hopkins University School of Medicine, Baltimore, MD, USA;c Department of Mechanical Engineering, Whiting School of Engineering, Johns Hopkins University, Baltimore, MD, USAView further author information
,
Haoming Zhoub Department of Radiation Oncology and Molecular Radiation Sciences, Johns Hopkins University School of Medicine, Baltimore, MD, USAView further author information
,
Michele Wablerb Department of Radiation Oncology and Molecular Radiation Sciences, Johns Hopkins University School of Medicine, Baltimore, MD, USAView further author information
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Theodore L. DeWeeseb Department of Radiation Oncology and Molecular Radiation Sciences, Johns Hopkins University School of Medicine, Baltimore, MD, USA;d Department of Oncology, Johns Hopkins University School of Medicine, Baltimore, MD, USAView further author information
&
Robert Ivkovb Department of Radiation Oncology and Molecular Radiation Sciences, Johns Hopkins University School of Medicine, Baltimore, MD, USA;c Department of Mechanical Engineering, Whiting School of Engineering, Johns Hopkins University, Baltimore, MD, USA;d Department of Oncology, Johns Hopkins University School of Medicine, Baltimore, MD, USA;e Department of Materials Science and Engineering, Whiting School of Engineering, Johns Hopkins University, Baltimore, MD, USAView further author information
Pages 108-119 | Received 19 Feb 2020, Accepted 09 Jul 2020, Published online: 10 Jan 2021

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Hayden Carlton, Matthias Weber, Maximilian Peters, Nageshwar Arepally, Yash Sharad Lad, Anshul Jaswal, Robert Ivkov, Anilchandra Attaluri & Patrick Goodwill. (2023) HYPER: pre-clinical device for spatially-confined magnetic particle hyperthermia. International Journal of Hyperthermia 40:1.
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Mehak, Rajkumar P Thummer & Lalit M. Pandey. (2023) Surface modified iron-oxide based engineered nanomaterials for hyperthermia therapy of cancer cells. Biotechnology and Genetic Engineering Reviews 0:0, pages 1-47.
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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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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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Andris F. Bakuzis. (2020) Nanomedicine and thermal therapies: where are we going?. International Journal of Hyperthermia 37:3, pages 1-3.
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Articles from other publishers (24)

Ma’Moun Abu-Ayyad, Yash Sharad Lad, Dario Aguilar, Kiana Karami & Anilchandra Attaluri. (2024) Model predictive control (MPC) applied to a simplified model, magnetic nanoparticle hyperthermia (MNPH) treatment process. Biomedical Physics & Engineering Express 10:4, pages 045012.
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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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Amr Elsherbeny, Hulya Bayraktutan, Umut Can Oz, Cara Moloney, Jennifer C. Ashworth, Anna M. Grabowska & Cameron Alexander. (2023) Responsive Nanomaterial Delivery Systems for Pancreatic Cancer Management. Advanced Therapeutics 7:3.
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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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Peter Schier, Aaron Jaufenthaler, Maik Liebl, Soudabeh Arsalani, Frank Wiekhorst & Daniel Baumgarten. (2023) Human-sized quantitative imaging of magnetic nanoparticles with nonlinear magnetorelaxometry. Physics in Medicine & Biology 68:15, pages 155002.
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Marta Vicentini, Riccardo Ferrero & Alessandra Manzin. (2023) In Silico Experiments to Explore the Heating Efficiency of Magnetic Nanoparticles in Hyperthermia Preclinical Tests. Advanced Theory and Simulations 6:7.
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Nandyala Mahesh, Neetu Singh & Prabal Talukdar. (2023) Investigation of a breast cancer magnetic hyperthermia through mathematical modeling of intratumoral nanoparticle distribution and temperature elevations. Thermal Science and Engineering Progress 40, pages 101756.
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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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Bharath Govindan, Muhammad Ashraf Sabri, Abdul Hai, Fawzi Banat & Mohammad Abu Haija. (2023) A Review of Advanced Multifunctional Magnetic Nanostructures for Cancer Diagnosis and Therapy Integrated into an Artificial Intelligence Approach. Pharmaceutics 15:3, pages 868.
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Anirudh Sharma, Avesh Avinash Jangam, Julian Low Yung Shen, Aiman Ahmad, Nageshwar Arepally, Hayden Carlton, Robert Ivkov & Anilchandra Attaluri. (2023) Design of a temperature-feedback controlled automated magnetic hyperthermia therapy device. Frontiers in Thermal Engineering 3.
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Hayden Carlton & Robert Ivkov. (2023) A new method to measure magnetic nanoparticle heating efficiency in non-adiabatic systems using transient pulse analysis. Journal of Applied Physics 133:4.
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Anirudh Sharma, Avesh Jangam, Julian Low Yung Shen, Aiman Ahmad, Nageshwar Arepally, Benjamin Rodriguez, Joseph Borrello, Alexandros Bouras, Lawrence Kleinberg, Kai Ding, Constantinos Hadjipanayis, Dara L. Kraitchman, Robert Ivkov & Anilchandra Attaluri. (2023) Validation of a Temperature-Feedback Controlled Automated Magnetic Hyperthermia Therapy Device. Cancers 15:2, pages 327.
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Shruti Gupta & Kiran Kumar Tejavath. (2022) Nano Phytoceuticals: A Step Forward in Tracking Down Paths for Therapy Against Pancreatic Ductal Adenocarcinoma. Journal of Cluster Science 34:1, pages 1-21.
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Binh T. Mai, John S. Conteh, Helena Gavilán, Alessandro Di Girolamo & Teresa Pellegrino. (2022) Clickable Polymer Ligand-Functionalized Iron Oxide Nanocubes: A Promising Nanoplatform for ‘Local Hot Spots’ Magnetically Triggered Drug Release. ACS Applied Materials & Interfaces 14:43, pages 48476-48488.
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Nandyala Mahesh, Neetu Singh & Prabal Talukdar. (2022) In-silico investigation of magnetic nanoparticle hyperthermia treatment to estimate the power density and concentration required to achieve the therapeutic effect. International Communications in Heat and Mass Transfer 137, pages 106295.
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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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Lei Zhu, Hui Mao & Lily Yang. (2022) Advanced iron oxide nanotheranostics for multimodal and precision treatment of pancreatic ductal adenocarcinoma. WIREs Nanomedicine and Nanobiotechnology 14:4.
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Sean Healy, Andris F. Bakuzis, Patrick W. Goodwill, Anilchandra Attaluri, Jeff W. M. Bulte & Robert Ivkov. (2022) Clinical magnetic hyperthermia requires integrated magnetic particle imaging. WIREs Nanomedicine and Nanobiotechnology 14:3.
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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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Julian Palzer, Lea Eckstein, Ioana Slabu, Oliver Reisen, Ulf P. Neumann & Anjali A. Roeth. (2021) Iron Oxide Nanoparticle-Based Hyperthermia as a Treatment Option in Various Gastrointestinal Malignancies. Nanomaterials 11:11, pages 3013.
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Nuria Lafuente-Gómez, Paula Milán-Rois, David García-Soriano, Yurena Luengo, Marco Cordani, Hernán Alarcón-Iniesta, Gorka Salas & Álvaro Somoza. (2021) Smart Modification on Magnetic Nanoparticles Dramatically Enhances Their Therapeutic Properties. Cancers 13:16, pages 4095.
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Dimitris Kouzoudis, Georgios Samourgkanidis, Argiris Kolokithas-Ntoukas, Giorgio Zoppellaro & Konstantinos Spiliotopoulos. (2021) Magnetic Hyperthermia in the 400–1,100 kHz Frequency Range Using MIONs of Condensed Colloidal Nanocrystal Clusters. Frontiers in Materials 8.
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Lilianne Beola, Valeria Grazú, Yilian Fernández-Afonso, Raluca M. Fratila, Marcelo de las Heras, Jesús M. de la Fuente, Lucía Gutiérrez & Laura Asín. (2021) Critical Parameters to Improve Pancreatic Cancer Treatment Using Magnetic Hyperthermia: Field Conditions, Immune Response, and Particle Biodistribution. ACS Applied Materials & Interfaces 13:11, pages 12982-12996.
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Nandyala Mahesh, Neetu Singh & Prabal Talukdar. (2022) Investigation of a Breast Cancer Magnetic Hyperthermia Through Mathematical Modeling of Intratumoral Nanoparticle Distribution and Temperature Elevations. SSRN Electronic Journal.
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