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Research Article

Treatment of experimental rabbit liver tumours by selectively targeted hyperthermia

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Pages 117-128 | Published online: 09 Jul 2009

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Amit B. Tewari, Ritu Sharma & Deepika Sharma. (2023) Magnetic hyperthermia cancer therapy using rare earth metal-based nanoparticles: An investigation of Lanthanum strontium Manganite's hyperthermic properties. Results in Engineering 20, pages 101537.
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Luyao Wang, Chunyuan Gan, Hongyan Sun & Lin Feng. (2023) Magnetic nanoparticle swarm with upstream motility and peritumor blood vessel crossing ability. Nanoscale 15:34, pages 14227-14237.
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Kaiyi Jiang, Linlin Zhang & Gang Bao. (2021) Magnetic iron oxide nanoparticles for biomedical applications. Current Opinion in Biomedical Engineering 20, pages 100330.
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Peng Zhao, Juanjuan Zhao, Yunfei Deng, Guoxun Zeng, Yizhou Jiang, Leen Liao, Shangshang Zhang, Qiang Tao, Zonghao Liu, Xiang Tang, Xinyue Tu, Lingmin Jiang, Haiyan Zhang & Yun Zheng. (2021) Application of iron/barium ferrite/carbon-coated iron nanocrystal composites in transcatheter arterial chemoembolization of hepatocellular carcinoma. Journal of Colloid and Interface Science 601, pages 30-41.
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Dawn Blazer, Yohannes Getahun & Ahmed A. El‐Gendy. 2021. Magnetic Nanoparticles in Human Health and Medicine. Magnetic Nanoparticles in Human Health and Medicine 201 230 .
Faezeh Ghorbanizamani, Hichem Moulahoum, Figen Zihnioglu & Suna Timur. (2020) Nanohybrid carriers: the yin–yang equilibrium between natural and synthetic in biomedicine. Biomaterials Science 8:12, pages 3237-3247.
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Sheng Tong, Haibao Zhu & Gang Bao. (2019) Magnetic iron oxide nanoparticles for disease detection and therapy. Materials Today 31, pages 86-99.
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Lauren E. Woodard, Cindi L. Dennis, Julie A. Borchers, Anilchandra Attaluri, Esteban Velarde, Charlene Dawidczyk, Peter C. Searson, Martin G. Pomper & Robert Ivkov. (2018) Nanoparticle architecture preserves magnetic properties during coating to enable robust multi-modal functionality. Scientific Reports 8:1.
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R. Karthick & R. Srinivasan. (2017) A study on impact of zinc substitution on magneto-optic properties of manganese ferrite nanoferrofluids. Journal of Magnetism and Magnetic Materials 441, pages 443-447.
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Xiali Zhu, Huijuan Zhang, Heqing Huang, Yingjie Zhang, Lin Hou & Zhenzhong Zhang. (2015) Functionalized graphene oxide-based thermosensitive hydrogel for magnetic hyperthermia therapy on tumors. Nanotechnology 26:36, pages 365103.
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Christian NDong, Jennifer A. Tate, Warren C. Kett, Jaya Batra, Eugene Demidenko, Lionel D. Lewis, P. Jack Hoopes, Tillman U. Gerngross & Karl E. Griswold. (2015) Tumor Cell Targeting by Iron Oxide Nanoparticles Is Dominated by Different Factors In Vitro versus In Vivo. PLOS ONE 10:2, pages e0115636.
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Ariel L. Cappelletti, Paula M. Uberman, Sandra E. Mart�n, Mart�n E. Saleta, Horacio E. Troiani, Rodolfo D. S�nchez, Ra�l E. Carbonio & Miriam C. Strumia. (2015) Synthesis, Characterization, and Nanocatalysis Application of Core–Shell Superparamagnetic Nanoparticles of Fe3O4@Pd. Australian Journal of Chemistry 68:10, pages 1492.
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Mohammad Mahdi Attar, Mohammad Haghpanahi, Saeid Amanpour & Mohammad Mohaqeq. (2014) Analysis of bioheat transfer equation for hyperthermia cancer treatment. Journal of Mechanical Science and Technology 28:2, pages 763-771.
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Tanmoy Sadhukha, Lin Niu, Timothy Scott Wiedmann & Jayanth Panyam. (2013) Effective Elimination of Cancer Stem Cells by Magnetic Hyperthermia. Molecular Pharmaceutics 10:4, pages 1432-1441.
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Eun-Hee Lee, Chang-Yeoul Kim & Yong-Ho Choa. (2012) Magnetite nanoparticles dispersed within nanoporous aerogels for hyperthermia application. Current Applied Physics 12, pages S47-S52.
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A. Durdureanu-Angheluta, A. Dascalu, A. Fifere, A. Coroaba, L. Pricop, H. Chiriac, V. Tura, M. Pinteala & B.C. Simionescu. (2012) Progress in the synthesis and characterization of magnetite nanoparticles with amino groups on the surface. Journal of Magnetism and Magnetic Materials 324:9, pages 1679-1689.
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Hui Yu, Guang-Yu Zhu, Rui-Zhi Xu, Huan-Zhang Niu, Qin Lu, Guo-Zhao Li, Zi-Yu Wang, Dong-Sheng Zhang, Ning Gu & Gao-Jun Teng. (2011) Arterial Embolization Hyperthermia Using As2O3 Nanoparticles in VX2 Carcinoma–Induced Liver Tumors. PLoS ONE 6:3, pages e17926.
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Ruizhi Xu, Hui Yu, Yu Zhang, Ming Ma, Zhongping Chen, Changling Wang, Gaojun Teng, Jun Ma, Xinchen Sun & Ning Gu. (2009) Three-Dimensional Model for Determining Inhomogeneous Thermal Dosage in a Liver Tumor During Arterial Embolization Hyperthermia Incorporating Magnetic Nanoparticles. IEEE Transactions on Magnetics 45:8, pages 3085-3091.
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Natarajan Aravindan, Karthigayan Shanmugasundaram & Mohan Natarajan. (2009) Hyperthermia induced NFκB mediated apoptosis in normal human monocytes. Molecular and Cellular Biochemistry 327:1-2, pages 29-37.
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Natarajan Aravindan, Sumathy Mohan, Terence S Herman & Mohan Natarajan. (2009) Nitric oxide-mediated inhibition of NFκB regulates hyperthermia-induced apoptosis. Journal of Cellular Biochemistry 106:6, pages 999-1009.
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Vladimir N. Nikiforov & Elena Yu. Filinova. 2009. Magnetic Nanoparticles. Magnetic Nanoparticles 393 455 .
Wen-Bin Lee, Chen-Hsun Weng, Fong-Yu Cheng, Chen-Sheng Yeh, Huan-Yao Lei & Gwo-Bin Lee. (2008) Biomedical microdevices synthesis of iron oxide nanoparticles using a microfluidic system. Biomedical Microdevices 11:1, pages 161-171.
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Nobuhiro Matsushita, Kazunori Nakagawa, Takaaki Taniguchi, Hiroshi Handa, Masaru Tada, Masanori Abe & Masahiro Yoshimura. (2008) Hundred-nanometer sized biomagnetic beads with large magnetization using ferrite nanoparticles grown by hydrothermal process. Journal of Applied Physics 103:7.
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V. N. Nikiforov. (2007) Magnetic induction hyperthermia. Russian Physics Journal 50:9, pages 913-924.
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C.S. Kuroda, T. Shimura, M. Maeda, M. Tada, H. Handa, A. Sandhu & M. Abe. (2006) “Ferrite Route” Preparation of Iron Nanoparticles and Their Encapsulation in Styrene-GMA Co-Polymer for Biomedical Applications. IEEE Transactions on Magnetics 42:10, pages 3569-3571.
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Oliver Dudeck, Katarzyna Bogusiewicz, Jens Pinkernelle, Gunnar Gaffke, Maciej Pech, Gero Wieners, Harald Bruhn, Andreas Jordan & Jens Ricke. (2006) Local Arterial Infusion of Superparamagnetic Iron Oxide Particles in Hepatocellular Carcinoma. Investigative Radiology 41:6, pages 527-535.
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M. Maeda, C. S. Kuroda, T. Shimura, M. Tada, M. Abe, S. Yamamuro, K. Sumiyama & H. Handa. (2006) Magnetic carriers of iron nanoparticles coated with a functional polymer for high throughput bioscreening. Journal of Applied Physics 99:8.
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N Tsafnat, G Tsafnat, T D Lambert & S K Jones. (2005) Modelling heating of liver tumours with heterogeneous magnetic microsphere deposition. Physics in Medicine and Biology 50:12, pages 2937-2953.
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Q A Pankhurst, J Connolly, S K Jones & J Dobson. (2003) Applications of magnetic nanoparticles in biomedicine. Journal of Physics D: Applied Physics 36:13, pages R167-R181.
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H Pardoe, P.R Clark, T.G St. Pierre, P Moroz & S.K Jones. (2003) A magnetic resonance imaging based method for measurement of tissue iron concentration in liver arterially embolized with ferrimagnetic particles designed for magnetic hyperthermia treatment of tumors. Magnetic Resonance Imaging 21:5, pages 483-488.
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Andreas Jordan, Klaus Maier‐Hauff, Peter Wust & Manfred Johannsen. 2007. Nanotechnologies for the Life Sciences. Nanotechnologies for the Life Sciences.
Paul Moroz, Stephen K. Jones & Bruce N. Gray. (2002) Tumor response to arterial embolization hyperthermia and direct injection hyperthermia in a rabbit liver tumor model. Journal of Surgical Oncology 80:3, pages 149-156.
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Paul Moroz, Stephen K. Jones & Bruce N. Gray. (2002) Arterial Embolization Hyperthermia in Porcine Renal Tissue. Journal of Surgical Research 105:2, pages 209-214.
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Paul Moroz, Heath Pardoe, Stephen K Jones, Timothy G St Pierre, Swithin Song & Bruce N Gray. (2002) Arterial embolization hyperthermia: hepatic iron particle distribution and its potential determination by magnetic resonance imaging. Physics in Medicine and Biology 47:9, pages 1591-1602.
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