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International Journal of Radiation Biology Volume 84, 2008 - Issue 7
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Articles

Do naturally occurring magnetic nanoparticles in the human body mediate increased risk of childhood leukaemia with EMF exposure?

Vladimir Binhi General Physics Institute, the Russian Academy of Sciences, Moscow, RussiaCorrespondence[email protected]
Pages 569-579 | Received 02 Dec 2006, Accepted 17 Mar 2008, Published online: 03 Jul 2009

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Yongyan Sun, Zhenhua Shi, Yahong Wang, Chao Tang, Yanyan Liao, Chuanjun Yang & Peng Cai. (2018) Coupling of oxidative stress responses to tricarboxylic acid cycle and prostaglandin E2 alterations in Caenorhabditis elegans under extremely low-frequency electromagnetic field. International Journal of Radiation Biology 94:12, pages 1159-1166.
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Articles from other publishers (27)

Viacheslav V. Krylov & Elena A. Osipova. (2023) Molecular Biological Effects of Weak Low-Frequency Magnetic Fields: Frequency–Amplitude Efficiency Windows and Possible Mechanisms. International Journal of Molecular Sciences 24:13, pages 10989.
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Ruslan M. Sarimov, Egor I. Nagaev, Tatiana A. Matveyeva, Vladimir N. Binhi, Dmitriy E. Burmistrov, Dmitriy A. Serov, Maxim E. Astashev, Alexander V. Simakin, Oleg V. Uvarov, Venera V. Khabatova, Arthur G. Akopdzhanov, Nicolai L. Schimanowskii & Sergey V. Gudkov. (2022) Investigation of Aggregation and Disaggregation of Self-Assembling Nano-Sized Clusters Consisting of Individual Iron Oxide Nanoparticles upon Interaction with HEWL Protein Molecules. Nanomaterials 12:22, pages 3960.
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Katja Vasić, Željko Knez, Elizaveta A. Konstantinova, Alexander I. Kokorin, Sašo Gyergyek & Maja Leitgeb. (2020) Structural and magnetic characteristics of carboxymethyl dextran coated magnetic nanoparticles: From characterization to immobilization application. Reactive and Functional Polymers 148, pages 104481.
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PJ Hore. (2019) Upper bound on the biological effects of 50/60 Hz magnetic fields mediated by radical pairs. eLife 8.
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Artemy V. Rubinsky, Timur D. Vlasov & Natalia I. Chalisova. (2018) The model for study of influence Of magnetic fields on biological objects (within the Russian maglev project). Transportation Systems and Technology 4:3 suppl. 1, pages 340-350.
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Susannah Bourne Worster & P. J. Hore. (2018) Proposal to use superparamagnetic nanoparticles to test the role of cryptochrome in magnetoreception. Journal of The Royal Society Interface 15:147, pages 20180587.
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M. Khoddam, Z. Sheidafar, M. D. Niry & M. R. H. Khajehpour. (2018) Criticality in collective behavior of biogenic single-domain nanomagnetites. Physical Review E 98:3.
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Igor Goychuk. (2018) Sensing Magnetic Fields with Magnetosensitive Ion Channels. Sensors 18:3, pages 728.
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Vladimir N. Binhi & Frank S. Prato. (2017) Biological effects of the hypomagnetic field: An analytical review of experiments and theories. PLOS ONE 12:6, pages e0179340.
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Kirill Kavokin. (2017) Can a hybrid chemical-ferromagnetic model of the avian compass explain its outstanding sensitivity to magnetic noise?. PLOS ONE 12:3, pages e0173887.
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Linjie Chen, Changyou Chen, Pingping Wang & Tao Song. (2017) Mechanisms of Cellular Effects Directly Induced by Magnetic Nanoparticles under Magnetic Fields. Journal of Nanomaterials 2017, pages 1-13.
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Vladimir N. Binhi & Frank S. Prato. (2017) A physical mechanism of magnetoreception: Extension and analysis. Bioelectromagnetics 38:1, pages 41-52.
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P. J. HoreHenrik Mouritsen. (2016) The Radical-Pair Mechanism of Magnetoreception. Annual Review of Biophysics 45:1, pages 299-344.
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G. V. Zhukova, I. A. Goroshinskaya, A. I. Shikhliarova, O. I. Kit, P. S. Kachesova & O. E. Polozhentsev. (2016) On the self-dependent effect of metal nanoparticles on malignant tumors. Biophysics 61:3, pages 470-484.
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T.K. Breus, Vladimir N. Binhi & Anatolii A. Petrukovich. (2016) Magnetic factor of the solar terrestrial relations and its impact on the human body: physical problems and prospects for research. Uspekhi Fizicheskih Nauk 186:5, pages 568-576.
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V. N. Binhi. (2016) Primary physical mechanism of the biological effects of weak magnetic fields. Biophysics 61:1, pages 170-176.
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Hongli Jia, Pingping Wang & Tao Song. (2015) The Influence of Extremely Low-Frequency Magnetic Field and Magnetic Nanoparticle on <inline-formula> <tex-math notation="LaTeX">$\text{A}{\boldsymbol \beta }_{\boldsymbol {40}}$ </tex-math></inline-formula> Aggregation <italic>In Vitro</italic>. IEEE Transactions on Magnetics 51:11, pages 1-5.
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Igor Goychuk. (2015) Modeling magnetosensitive ion channels in the viscoelastic environment of living cells. Physical Review E 92:4.
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Frank S. Prato. (2015) Non-thermal extremely low frequency magnetic field effects on opioid related behaviors: Snails to humans, mechanisms to therapy. Bioelectromagnetics 36:5, pages 333-348.
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Yan Lü & Tao Song. (2013) Avian magnetoreception model realized by coupling a magnetite-based mechanism with a radical-pair-based mechanism. Chinese Physics B 22:4, pages 048701.
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Henrik Mouritsen & PJ Hore. (2012) The magnetic retina: light-dependent and trigeminal magnetoreception in migratory birds. Current Opinion in Neurobiology 22:2, pages 343-352.
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Shaobin Gu, Guowei Lu, Ying Wu, Shichang Li, Yunxia Zhao & Kewei Li. 2012. Advances in Electric and Electronics. Advances in Electric and Electronics 243 254 .
Kenneth E Scarberry, Roman Mezencev & John F McDonald. (2011) Targeted removal of migratory tumor cells by functionalized magnetic nanoparticles impedes metastasis and tumor progression. Nanomedicine 6:1, pages 69-78.
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Alain Botta & Laı̈la Benameur. 2011. Nanoethics and Nanotoxicology. Nanoethics and Nanotoxicology 111 146 .
Joseph D. Bowman, Christian K. Miller, Edward F. Krieg & Ruiguang Song. (2010) Analyzing digital vector waveforms of 0-3000 Hz magnetic fields for health studies. Bioelectromagnetics 31:5, pages 391-405.
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Adam E. Cohen. (2009) Nanomagnetic Control of Intersystem Crossing. The Journal of Physical Chemistry A 113:41, pages 11084-11092.
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R. M. Sarimov, V. N. Binhi & V. A. Milyaev. (2009) The influence of geomagnetic field compensation on human cognitive processes. Biophysics 53:5, pages 433-441.
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