Citations (41)
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Beatriz López-Díaz, Silvia Mercado-Sáenz, Antonio M. Burgos-Molina, Alejandro González-Vidal, Francisco Sendra-Portero & Miguel J. Ruiz-Gómez. (2023) Genomic DNA damage induced by co-exposure to DNA damaging agents and pulsed magnetic field. International Journal of Radiation Biology 99:5, pages 853-865.
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Silvia Mercado-Sáenz, Beatriz López-Díaz, Antonio M. Burgos-Molina, Francisco Sendra-Portero, Alejandro González-Vidal & Miguel J. Ruiz-Gómez. (2022) Exposure of S. cerevisiae to pulsed magnetic field during chronological aging could induce genomic DNA damage. International Journal of Environmental Health Research 32:8, pages 1756-1767.
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María Antonia Martínez, Alejandro Úbeda & María Ángeles Trillo. (2021) Role of NADPH oxidase in MAPK signaling activation by a 50 Hz magnetic field in human neuroblastoma cells. Electromagnetic Biology and Medicine 40:1, pages 103-116.
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Ahmad Ashta, Gholamreza Motalleb & Meysam Ahmadi-Zeidabadi. (2020) Evaluation of frequency magnetic field, static field, and Temozolomide on viability, free radical production and gene expression (p53) in the human glioblastoma cell line (A172). Electromagnetic Biology and Medicine 39:4, pages 298-309.
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Antonio M. Burgos-Molina, Silvia Mercado-Sáenz, Francisco Sendra-Portero & Miguel J. Ruiz-Gómez. (2020) Effect of low frequency magnetic field on efficiency of chromosome break repair. Electromagnetic Biology and Medicine 39:1, pages 30-37.
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Silvia Mercado-Sáenz, Antonio M. Burgos-Molina, Beatriz López-Díaz, Francisco Sendra-Portero & Miguel J. Ruiz-Gómez. (2019) Effect of sinusoidal and pulsed magnetic field exposure on the chronological aging and cellular stability of S. cerevisiae. International Journal of Radiation Biology 95:11, pages 1588-1596.
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M. M. Salinas-Asensio, S. Ríos-Arrabal, F. Artacho-Cordón, M. A. Olivares-Urbano, I. Calvente, J. León & M. I. Núñez. (2019) Exploring the radiosensitizing potential of magnetotherapy: a pilot study in breast cancer cells. International Journal of Radiation Biology 95:9, pages 1337-1345.
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Liling Su, Yue Fei, Xiaoxia Wei, Jing Guo, Xiangen Jiang, Liqin Lu & Guangdi Chen. (2016) Associations of parental occupational exposure to extremely low-frequency magnetic fields with childhood leukemia risk. Leukemia & Lymphoma 57:12, pages 2855-2862.
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Azita Shabrangi, Halimeh Hassanpour, Ahmad Majd & Masoud Sheidai. (2015) Induction of genetic variation by electromagnetic fields in Zea mays L. and Brassica napus L.. Caryologia 68:4, pages 272-279.
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Beatriz López-Díaz, Silvia Mercado-Sáenz, Manuel Martínez-Morillo, Francisco Sendra-Portero & Miguel J. Ruiz-Gómez. (2014) Long-term exposure to a pulsed magnetic field (1.5 mT, 25 Hz) increases genomic DNA spontaneous degradation. Electromagnetic Biology and Medicine 33:3, pages 228-235.
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Milena Villarini, Maria Vittoria Ambrosini, Massimo Moretti, Luca Dominici, Elena Taha, Danilo Piobbico, Cristiana Gambelunghe & Giuseppina Mariucci. (2013) Brain hsp70 expression and DNA damage in mice exposed to extremely low frequency magnetic fields: A dose-response study. International Journal of Radiation Biology 89:7, pages 562-570.
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Yeung Bae Jin, Ga-Young Kang, Jae Seon Lee, Jong-Il Choi, Ju-Woon Lee, Seung-Cheol Hong, Sung Ho Myung & Yun-Sil Lee. (2012) Effects on micronuclei formation of 60-Hz electromagnetic field exposure with ionizing radiation, hydrogen peroxide, or c-Myc overexpression. International Journal of Radiation Biology 88:4, pages 374-380.
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Nasim Borhani, Farzad Rajaei, Zivar Salehi & Amir Javadi. (2011) Analysis of DNA fragmentation in mouse embryos exposed to an extremely low-frequency electromagnetic field. Electromagnetic Biology and Medicine 30:4, pages 246-252.
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Blanka Říhová, Tomáš Etrych, Milada Šírová, Jakub Tomala, Karel Ulbrich & Marek Kovář. (2011) Synergistic effect of EMF–BEMER-type pulsed weak electromagnetic field and HPMA-bound doxorubicin on mouse EL4 T-cell lymphoma. Journal of Drug Targeting 19:10, pages 890-899.
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Miguel J. Ruiz-Gómez, Francisco Sendra-Portero & Manuel Martínez-Morillo. (2010) Effect of 2.45 mT sinusoidal 50 Hz magnetic field on Saccharomyces cerevisiae strains deficient in DNA strand breaks repair. International Journal of Radiation Biology 86:7, pages 602-611.
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Articles from other publishers (26)
V. I. Kryukov, S. A. Zhuchkov, T. N. Lazareva, O. S. Kireeva & N. N. Popovicheva. (2023) Low-Frequency Pulsed Magnetic Field Enhances the Genotoxicity of Chromium(VI) Ions in Amphibians. Uchenye Zapiski Kazanskogo Universiteta Seriya Estestvennye Nauki 165:3, pages 411-426.
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Silvia Mercado-Sáenz, Alejandro González-Vidal, Antonio M. Burgos-Molina, Beatriz López-Díaz, Francisco Sendra-Portero & Miguel J. Ruiz-Gómez. (2023) Pulsed magnetic field increases the effect of ultraviolet C radiation and thermal shock in aged yeasts. International Microbiology 26:4, pages 951-959.
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Sahar Heidari, Soheila Abdi & Shohreh Zare Karizi. (2021) EVALUATION OF BCL2 AND ITS REGULATORY MIRS, MIR-15-B AND MIR-16 EXPRESSION CHANGES UNDER THE EXPOSURE OF EXTREMELY LOW-FREQUENCY ELECTROMAGNETIC FIELDS ON HUMAN GASTRIC CANCER CELL LINE. Radiation Protection Dosimetry 197:2, pages 93-100.
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Lucián Zastko, Leonardo Makinistian, Andrea Moravčíková, Ján Jakuš & Igor Belyaev. (2020) Effect of Intermittent ELF MF on Umbilical Cord Blood Lymphocytes. Bioelectromagnetics 41:8, pages 649-655.
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Valerii A. Pavlov, Yaroslav V. Shushenachev & Sergey G. Zlotin. (2020) Possible Physical Basis of Mirror Symmetry Effect in Racemic Mixtures of Enantiomers: From Wallach’s Rule, Nonlinear Effects, B–Z DNA Transition, and Similar Phenomena to Mirror Symmetry Effects of Chiral Objects. Symmetry 12:6, pages 889.
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Rezvan Zendehdel, Il Je Yu, Behnam Hajipour-Verdom & Zahra Panjali. (2019) DNA effects of low level occupational exposure to extremely low frequency electromagnetic fields (50/60 Hz). Toxicology and Industrial Health 35:6, pages 424-430.
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Valerii A. Pavlov, Yaroslav V. Shushenachev & Sergey G. Zlotin. (2019) Сhiral and Racemic Fields Concept for Understanding of the Homochirality Origin, Asymmetric Catalysis, Chiral Superstructure Formation from Achiral Molecules, and B-Z DNA Conformational Transition. Symmetry 11:5, pages 649.
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Milda Stankevičiūtė, Magdalena Jakubowska, Janina Pažusienė, Tomas Makaras, Zbigniew Otremba, Barbara Urban-Malinga, Dariusz P. Fey, Martyna Greszkiewicz, Gintarė Sauliutė, Janina Baršienė & Eugeniusz Andrulewicz. (2019) Genotoxic and cytotoxic effects of 50 Hz 1 mT electromagnetic field on larval rainbow trout (Oncorhynchus mykiss), Baltic clam (Limecola balthica) and common ragworm (Hediste diversicolor). Aquatic Toxicology 208, pages 109-117.
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Mehmet Emin Erdal, Senay Görücü Yılmaz, Serkan Gürgül, Coşar Uzun, Didem Derici & Nurten Erdal. (2018) miRNA expression profile is altered differentially in the rat brain compared to blood after experimental exposure to 50 Hz and 1 mT electromagnetic field. Progress in Biophysics and Molecular Biology 132, pages 35-42.
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Milena Villarini, Angela Gambelunghe, Daniela Giustarini, Maria Vittoria Ambrosini, Cristina Fatigoni, Ranieri Rossi, Luca Dominici, Sara Levorato, Giacomo Muzi, Danilo Piobbico & Giuseppina Mariucci. (2017) No evidence of DNA damage by co-exposure to extremely low frequency magnetic fields and aluminum on neuroblastoma cell lines. Mutation Research/Genetic Toxicology and Environmental Mutagenesis 823, pages 11-21.
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The Hong Phong Nguyen, Vy T. H. Pham, Vladimir Baulin, Rodney J. Croft, Russell J. Crawford & Elena P. Ivanova. (2017) The effect of a high frequency electromagnetic field in the microwave range on red blood cells. Scientific Reports 7:1.
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Zeinab Akbarnejad, Hossein Eskandary, Luciana Dini, Cristian Vergallo, Seyed Noureddin Nematollahi-Mahani, Alireza Farsinejad, Maryam Fekri Soofi Abadi & Meysam Ahmadi. (2017) Cytotoxicity of temozolomide on human glioblastoma cells is enhanced by the concomitant exposure to an extremely low-frequency electromagnetic field (100 Hz, 100 G). Biomedicine & Pharmacotherapy 92, pages 254-264.
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Katja Storch, Ellen Dickreuter, Anna Artati, Jerzy Adamski & Nils Cordes. (2016) BEMER Electromagnetic Field Therapy Reduces Cancer Cell Radioresistance by Enhanced ROS Formation and Induced DNA Damage. PLOS ONE 11:12, pages e0167931.
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The Hong Phong Nguyen, Vy T. H. Pham, Song Ha Nguyen, Vladimir Baulin, Rodney J. Croft, Brian Phillips, Russell J. Crawford & Elena P. Ivanova. (2016) The Bioeffects Resulting from Prokaryotic Cells and Yeast Being Exposed to an 18 GHz Electromagnetic Field. PLOS ONE 11:7, pages e0158135.
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Sang-Kon Lee, Sungman Park, Yoon-Myoung Gimm & Yoon-Won Kim. (2014) Extremely Low Frequency Magnetic Fields Induce Spermatogenic Germ Cell Apoptosis: Possible Mechanism. BioMed Research International 2014, pages 1-8.
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CHENGTAO SUN, HUIMING YU, XINGWEN WANG & JUNQING HAN. (2012) A pilot study of extremely low-frequency magnetic fields in advanced non-small cell lung cancer: Effects on survival and palliation of general symptoms. Oncology Letters 4:5, pages 1130-1134.
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Annemarie Maes & Luc Verschaeve. (2011) Can cytogenetics explain the possible association between exposure to extreme low‐frequency magnetic fields and Alzheimer's disease?. Journal of Applied Toxicology 32:2, pages 81-87.
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