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International Journal of Hyperthermia Volume 29, 2013 - Issue 8: Magnetic Nanoparticle Hyperthermia
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Research Articles

MicroCT image-generated tumour geometry and SAR distribution for tumour temperature elevation simulations in magnetic nanoparticle hyperthermia

Alexander LeBrunDepartment of Mechanical Engineering, University of Maryland Baltimore County BaltimoreMaryland
,
Navid ManuchehrabadiDepartment of Mechanical Engineering, University of Maryland Baltimore County BaltimoreMaryland
,
Anilchandra AttaluriRadiation Oncology and Molecular Radiation Sciences, Johns Hopkins University BaltimoreMaryland
,
Frank WangGreen Technology Louisville, KentuckyUSA
,
Ronghui MaDepartment of Mechanical Engineering, University of Maryland Baltimore County BaltimoreMaryland
&
Liang ZhuDepartment of Mechanical Engineering, University of Maryland Baltimore County BaltimoreMarylandCorrespondence[email protected]
Pages 730-738 | Received 29 Apr 2013, Accepted 17 Aug 2013, Published online: 30 Sep 2013

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Mahsa Mansourian, S. M. P. Firoozabadi & Zuhair Mohammad Hassan. (2021) The effect of 900 MHz electromagnetic fields on biological pathways induced by electrochemotherapy.. Electromagnetic Biology and Medicine 40:1, pages 158-168.
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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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Harley F. Rodrigues, Gustavo Capistrano & Andris F. Bakuzis. (2020) In vivo magnetic nanoparticle hyperthermia: a review on preclinical studies, low-field nano-heaters, noninvasive thermometry and computer simulations for treatment planning. International Journal of Hyperthermia 37:3, pages 76-99.
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Ali Dabbagh, Ziba Hedayatnasab, Hamed Karimian, Masoud Sarraf, Chai Hong Yeong, Hamid Reza Madaah Hosseini, Noor Hayaty Abu Kasim, Tin Wui Wong & Noorsaadah Abdul Rahman. (2019) Polyethylene glycol-coated porous magnetic nanoparticles for targeted delivery of chemotherapeutics under magnetic hyperthermia condition. International Journal of Hyperthermia 36:1, pages 104-114.
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Gennaro Bellizzi, Ovidio M. Bucci & Gaetano Chirico. (2016) Numerical assessment of a criterion for the optimal choice of the operative conditions in magnetic nanoparticle hyperthermia on a realistic model of the human head. International Journal of Hyperthermia 32:6, pages 688-703.
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Alexander LeBrun, Tejashree Joglekar, Charles Bieberich, Ronghui Ma & Liang Zhu. (2016) Identification of infusion strategy for achieving repeatable nanoparticle distribution and quantification of thermal dosage using micro-CT Hounsfield unit in magnetic nanoparticle hyperthermia. International Journal of Hyperthermia 32:2, pages 132-143.
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Articles from other publishers (19)

Siao Lei, Jie He, Pengli Gao, Yueqi Wang, Hui Hui, Yu An & Jie Tian. (2023) Magnetic Particle Imaging-Guided Hyperthermia for Precise Treatment of Cancer: Review, Challenges, and Prospects. Molecular Imaging and Biology.
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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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TORIKUL ISLAM PALASH, MD REJVI KAYSIR, MD JAHIRUL ISLAM, SABIHA BINTE AZIZ, TASKIA NADRIBA MIMMA & NASRIN AKTHER. (2022) IN-SILICO PERFORMANCE INVESTIGATION OF NANOPARTICLE-ASSISTED PHOTO THERMAL ABLATION . Journal of Biological Systems 31:01, pages 93-113.
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Yundong Tang, Jian Zou, Rodolfo C.C. Flesch & Tao Jin. (2023) Effect of bio-tissue deformation behavior due to intratumoral injection on magnetic hyperthermia. Chinese Physics B 32:3, pages 034304.
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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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Manpreet Singh. (2023) Biological heat and mass transport mechanisms behind nanoparticles migration revealed under microCT image guidance. International Journal of Thermal Sciences 184, pages 107996.
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Muhammad Suleman. 2023. In Silico Approach Towards Magnetic Fluid Hyperthermia of Cancer Treatment. In Silico Approach Towards Magnetic Fluid Hyperthermia of Cancer Treatment 53 72 .
Muhammad Suleman. 2023. In Silico Approach Towards Magnetic Fluid Hyperthermia of Cancer Treatment. In Silico Approach Towards Magnetic Fluid Hyperthermia of Cancer Treatment 17 35 .
Muhammad Suleman, Samia Riaz & Rashid Jalil. (2020) A mathematical modeling approach toward magnetic fluid hyperthermia of cancer and unfolding heating mechanism. Journal of Thermal Analysis and Calorimetry 146:3, pages 1193-1219.
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Manpreet Singh, Qimei Gu, Ronghui Ma & Liang Zhu. (2020) Heating Protocol Design Affected by Nanoparticle Redistribution and Thermal Damage Model in Magnetic Nanoparticle Hyperthermia for Cancer Treatment. Journal of Heat Transfer 142:7.
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Muhammad Suleman & Samia Riaz. (2020) 3D in silico study of magnetic fluid hyperthermia of breast tumor using Fe3O4 magnetic nanoparticles. Journal of Thermal Biology 91, pages 102635.
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Muhammad Suleman & Samia Riaz. (2020) In silico study of hyperthermia treatment of liver cancer using core-shell CoFe2O4@MnFe2O4 magnetic nanoparticles. Journal of Magnetism and Magnetic Materials 498, pages 166143.
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Alexander LeBrun & Liang Zhu*. 2018. Theory and Applications of Heat Transfer in Humans. Theory and Applications of Heat Transfer in Humans 631 667 .
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 .
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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Harley F Rodrigues, Gustavo Capistrano, Francyelli M Mello, Nicholas Zufelato, Elisângela Silveira-Lacerda & Andris F Bakuzis. (2017) Precise determination of the heat delivery during in vivo magnetic nanoparticle hyperthermia with infrared thermography . Physics in Medicine and Biology 62:10, pages 4062-4082.
Crossref
Alexander LeBrun, Ronghui Ma & Liang Zhu. (2016) MicroCT image based simulation to design heating protocols in magnetic nanoparticle hyperthermia for cancer treatment. Journal of Thermal Biology 62, pages 129-137.
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H. Dähring, J. Grandke, U. Teichgräber & I. Hilger. (2015) Improved Hyperthermia Treatment of Tumors Under Consideration of Magnetic Nanoparticle Distribution Using Micro-CT Imaging. Molecular Imaging and Biology 17:6, pages 763-769.
Crossref
Kenya Murase, Marina Aoki, Natsuo Banura, Kohei Nishimoto, Atsushi Mimura, Tomomi Kuboyabu & Isamu Yabata. (2015) Usefulness of Magnetic Particle Imaging for Predicting the Therapeutic Effect of Magnetic Hyperthermia. Open Journal of Medical Imaging 05:02, pages 85-99.
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