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Research Article

Short-Term Magnetic Field Exposures (60Hz) Induce Protection Against Ultraviolet Radiation Damage

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Pages 1541-1549 | Published online: 03 Jul 2009

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Read on this site (6)

Kjell Hansson Mild & Mats-Olof Mattsson. (2010) ELF Noise Fields: A Review. Electromagnetic Biology and Medicine 29:3, pages 72-97.
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Ann-Christine Mannerling, Kjell Hansson Mild & Mats-Olof Mattsson. (2007) Extremely Low-Frequency Magnetic Field Exposure and Protection Against UV-Induced Death in Chicken Embryos. Electromagnetic Biology and Medicine 26:2, pages 73-81.
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Jukka Juutilainen, Timo Kumlin & Jonne Naarala. (2006) Do extremely low frequency magnetic fields enhance the effects of environmental carcinogens? A meta-analysis of experimental studies. International Journal of Radiation Biology 82:1, pages 1-12.
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Miguel J. Ruiz-Gómez & Manuel Martínez-Morillo. (2005) Enhancement of the cell-killing effect of ultraviolet-C radiation by short-term exposure to a pulsed magnetic field. International Journal of Radiation Biology 81:7, pages 483-490.
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Ladislav Veterány, Svätoslav Hluchý & Anna Veterányová. (2004) The Influence of Ultra-Violet Radiation on Chicken Hatching. Journal of Environmental Science and Health, Part A 39:9, pages 2333-2339.
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Anna-Maria Björåsen, Anna Sjödin, Kjell Hansson Mild & Mats-Olof Mattsson. (2004) Sine Wave Extremely Low Frequency Magnetic Fields Protect Chick Embryos Against UV-Induced Death. Electromagnetic Biology and Medicine 23:2, pages 113-124.
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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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Zsófia Szilágyi, Zsuzsanna Németh, József Bakos, Györgyi Kubinyi, Péter Pál Necz, Erika Szabó, György Thuróczy, Rosanna Pinto & Brahim Selmaoui. (2023) Assessment of Inflammation in 3D Reconstructed Human Skin Exposed to Combined Exposure to Ultraviolet and Wi-Fi Radiation. International Journal of Molecular Sciences 24:3, pages 2853.
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Izabela Michalak, Annika Bartniczak, Sylwia Baśladyńska, Sylwia Lewandowska, Jerzy Detyna, Michał Łoziński, Katarzyna Niemczyk & Henryk Bujak. (2020) Cladophora glomerata Extract and Static Magnetic Field Influences the Germination of Seeds and Multielemental Composition of Carrot . Ecological Chemistry and Engineering S 27:4, pages 629-641.
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Izabela Michalak, Sylwia Lewandowska, Katarzyna Niemczyk, Jerzy Detyna, Henryk Bujak, Pelin Arik & Annika Bartniczak. (2019) Germination of soybean seeds exposed to the static/alternating magnetic field and algal extract. Engineering in Life Sciences 19:12, pages 986-999.
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Jose A. Valadez-Lira, Nahui O. Medina-Chavez, Alonso A. Orozco-Flores, J. Antonio Heredia-Rojas, Abraham O. Rodriguez-de la Fuente, Ricardo Gomez-Flores, Juan M. Alcocer-Gonzalez & Patricia Tamez-Guerra. (2017) Alterations of Immune Parameters on Trichoplusia ni (Lepidoptera: Noctuidae) Larvae Exposed to Extremely Low-Frequency Electromagnetic Fields. Environmental Entomology 46:2, pages 376-382.
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Ronald N. Kostoff & Clifford G. Y. Lau. 2017. Microwave Effects on DNA and Proteins. Microwave Effects on DNA and Proteins 97 157 .
Ronald N. Kostoff & Clifford G.Y. Lau. (2013) Combined biological and health effects of electromagnetic fields and other agents in the published literature. Technological Forecasting and Social Change 80:7, pages 1331-1349.
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Mani V. Kurian, Lanette Hamilton, James Keeven, Patrick Mehl & James M. Mullins. (2012) Enhanced cell survival and diminished apoptotic response to simulated ischemia?reperfusion in H9c2 cells by magnetic field preconditioning. Apoptosis 17:11, pages 1182-1196.
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M. B. Shine & K. N. Guruprasad. (2011) Impact of pre-sowing magnetic field exposure of seeds to stationary magnetic field on growth, reactive oxygen species and photosynthesis of maize under field conditions. Acta Physiologiae Plantarum 34:1, pages 255-265.
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M.B. Shine, K.N. Guruprasad & Anjali Anand. (2011) Enhancement of germination, growth, and photosynthesis in soybean by pre-treatment of seeds with magnetic field. Bioelectromagnetics 32:6, pages 474-484.
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Sanjay Kumar, Kavindra Kumar Kesari & Jitendra Behari. (2011) The therapeutic effect of a pulsed electromagnetic field on the reproductive patterns of male Wistar rats exposed to a 2.45-GHz microwave field. Clinics 66:7, pages 1237-1245.
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Izumi Nishimura, Setsuo Imai & Tadashi Negishi. (2009) Lack of chick embryotoxicity after 20 kHz, 1.1 mT magnetic field exposure. Bioelectromagnetics 30:7, pages 573-582.
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Felipe P. PerezXiming ZhouJorge MorisakiJohn IlieTodd JamesDonald A. Jurivich. (2008) Engineered Repeated Electromagnetic Field Shock Therapy for Cellular Senescence and Age-Related Diseases. Rejuvenation Research 11:6, pages 1049-1058.
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Felipe P. Perez, Ximing Zhou, Jorge Morisaki & Donald Jurivich. (2008) Electromagnetic field therapy delays cellular senescence and death by enhancement of the heat shock response. Experimental Gerontology 43:4, pages 307-316.
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John A. Robertson, Alex W. Thomas, Yves Bureau & Frank S. Prato. (2006) The influence of extremely low frequency magnetic fields on cytoprotection and repair. Bioelectromagnetics 28:1, pages 16-30.
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H. Abdelmelek, A. Molnar, S. Servais, J. M. Cottet-Emard, J. M. Pequignot, R. Favier & M. Sakly. (2005) Skeletal muscle HSP72 and norepinephrine response to static magnetic field in rat. Journal of Neural Transmission 113:7, pages 821-827.
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Paul Galland & Alexander Pazur. (2005) Magnetoreception in plants. Journal of Plant Research 118:6, pages 371-389.
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Jukka Juutilainen. (2005) Developmental effects of electromagnetic fields. Bioelectromagnetics 26:S7, pages S107-S115.
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Sergey V. Tokalov & Herwig O. Gutzeit. (2004) Weak electromagnetic fields (50Hz) elicit a stress response in human cells. Environmental Research 94:2, pages 145-151.
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E. Grzesiuk & R. Zabielski. 2002. Biology of the Intestine in Growing Animals. Biology of the Intestine in Growing Animals 727 749 .
M.J. Silva, A. Dias, A. Barreta, P.J. Nogueira, N.A.A. Castelo‐Branco & M.G. Boavida. (2002) Low frequency noise and whole‐body vibration cause increased levels of sister chromatid exchange in splenocytes of exposed mice. Teratogenesis, Carcinogenesis, and Mutagenesis 22:3, pages 195-203.
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Joshua M. Shallom, Andrea L. Di Carlo, Daejin Ko, L. Miguel Penafiel, Akira Nakai & Theodore A. Litovitz. (2002) Microwave exposure induces Hsp70 and confers protection against hypoxia in chick embryos. Journal of Cellular Biochemistry 86:3, pages 490-496.
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Andrea Di Carlo, Nicole White, Fuling Guo, Peter Garrett & Theodore Litovitz. (2002) Chronic electromagnetic field exposure decreases HSP70 levels and lowers cytoprotection. Journal of Cellular Biochemistry 84:3, pages 447-454.
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Anna Wójcik-Sikora, Daniel Laubitz, Stefan G. Pierzynowski & Elżbieta Grzesiuk. (2001) Exposure of Escherichia coli to intestinal myoelectrical activity-related electric field induces resistance against subsequent UV254nm (UVC) irradiation. Mutation Research/Genetic Toxicology and Environmental Mutagenesis 496:1-2, pages 97-104.
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A.L Di Carlo, N.C White & T.A Litovitz. (2001) Mechanical and electromagnetic induction of protection against oxidative stress. Bioelectrochemistry 53:1, pages 87-95.
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A.L. Di Carlo, J.M. Mullins & T.A. Litovitz. (2000) Thresholds for electromagnetic field-induced hypoxia protection: evidence for a primary electric field effect. Bioelectrochemistry 52:1, pages 9-16.
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