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ElectroMagnetic Field Literature
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(Database last updated on Sep 13, 2021)

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There are 44 studies that match your criteria.
Criteria: Study Type=(catch all category),Freq Range=0 - 300 Hz (Static, ELF),Study Subtype=Oxidative Stress and ELF/Magnetic Fields

View This Study - Citation No: 7793
Title Extremely low frequency magnetic fields induce oxidative stress in rat brain.
Reference Gen. Physiol. Biophys., Vol. 33, Pg. 81 - 90, 2014
Author(s) Manikonda P. K., Rajendra P., Devendranath D., Gunasekaran B., Subramanyam C., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7795
Title Extremely low frequency magnetic field induces oxidative stress in mouse cerebellum.
Reference Gen. Physiol. Biophys., Vol. 30, Pg. 415 - 421, 2011
Author(s) Chu L. Y., Lee J. H., Nam Y. S., Park W. H., Jeong J. H., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7796
Title Effects of extremely low frequency magnetic field on oxidative balance in brain of rats.
Reference J. Physiol. Pharmacol., Vol. 62, Pg. 657 - 661, 2011
Author(s) Ciejka E., Kleniewska P., Skibska B., Goraca A.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7797
Title Effect of acute extremely low frequency electromagnetic field exposure on the antioxidant status and lipid levels in rat brain.
Reference Arch. Med. Res., Vol. 43, Pg. 183 - 189, 2012
Author(s) Martinez-Samano J., Torres-Duran P. V., Juarez-Oropeza M. A., Verdugo-Diaz L.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7798
Title Extremely low-frequency magnetic fields modulate nitric oxide signaling in rat brain.
Reference Bioelectromagnetics., Vol. 33, Pg. 568 - 574, 2012
Author(s) Cho S. I., Nam Y. S., Chu L. Y., Lee J. H., Bang J. S., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7799
Title Chronic exposure to 50Hz magnetic fields causes a significant weakening of antioxidant defence systems in aged rat brain.
Reference Int. J. Biochem. Cell Biol., Vol. 40, Pg. 2762 - 2770, 2008
Author(s) Falone S., Mirabilio A., Carbone M. C., Zimmitti V., Amicarelli F., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7800
Title Zinc supplementation ameliorates electromagnetic field-induced lipid peroxidation in the rat brain.
Reference Tohoku J. Exp. Med., Vol. 208, Pg. 133 - 140, 2006
Author(s) Bediz C. S., Baltaci A. K., Mogulkoc R., Oztekin E.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7801
Title Effects of aluminum and extremely low frequency electromagnetic radiation on oxidative stress and memory in brain of mice.
Reference Biol. Trace Elem. Res., Vol. 156, Pg. 243 - 252, 2013
Author(s) Deng Y., Zhang Y., Jia S., Liu J., Xu W., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7802
Title Effects of Single and Repeated Exposure to a 50-Hz 2-mT Electromagnetic Field on Primary Cultured Hippocampal Neurons.
Reference Neurosci. Bull., Vol. 33, Pg. 299 - 306, 2017
Author(s) Zeng Y., Shen Y., Hong L., Chen Y., Shi X., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7803
Title Extremely Low Frequency Magnetic Field (ELF-MF) Exposure Sensitizes SH-SY5Y Cells to the Pro-Parkinsons Disease Toxin MPP+.
Reference Mol. Neurobiol., Vol. 53, Pg. 4247 - 4260, 2016
Author(s) Benassi B., Filomeni G., Montagna C., Merla C., Marino C., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7804
Title Fifty-Hertz Magnetic Field Affects the Epigenetic Modulation of the miR-34b/c in Neuronal Cells.
Reference Mol. Neurobiol., Vol. 55, Pg. 5698 - 5714, 2018
Author(s) Consales C., Cirotti C., Filomeni G., Panatta M., Marino C., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7805
Title Neuronal cellular responses to extremely low frequency electromagnetic field exposure: Implications regarding oxidative stress and neurodegeneration.
Reference PLoS ONE., Vol. 9, Pg. e104973 - , 2014
Author(s) Reale M., Kamal M. A., Patruno A., Costantini E., Pesce M., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7806
Title 50-Hz magnetic field impairs the expression of iron-related genes in the in vitro SOD1(G93A) model of amyotrophic lateral sclerosis.
Reference Int. J. Radiat. Biol., Vol. 95, Pg. 368 - 377, 2019
Author(s) Consales C., Panatta M., Butera A., Merla C., Marino C., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7807
Title Effect of Environmental Extremely Low Frequency Electromagnetic Fields Exposure on Inflammatory Mediators and Serotonin Metabolism in a Human Neuroblastoma Cell Line.
Reference CNS Neurol. Disord. Drug Targets., Vol. 15, Pg. 1203 - 1215, 2016
Author(s) Reale M., D'Angelo C., Costantini E., Tata A. M., Regen F., Hellmann-Regen J.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7808
Title Effects of acute and chronic low frequency electromagnetic field exposure on PC12 cells during neuronal differentiation.
Reference Cell. Physiol. Biochem., Vol. 26, Pg. 947 - 958, 2010
Author(s) Morabito C., Guarnieri S., Fano G., Mariggio M. A.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7809
Title Assessment of the neurotoxic potential of exposure to 50 Hz extremely low frequency electromagnetic fields (ELF-EMF) in naive and chemically stressed PC12 cells.
Reference Neurotoxicology., Vol. 44, Pg. 358 - 364, 2014
Author(s) de Groot M. W., Kock M. D., Westerink R. H.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7810
Title Electromagnetic fields induce neural differentiation of human bone marrow derived mesenchymal stem cells via ROS mediated EGFR activation.
Reference Neurochem. Int., Vol. 62, Pg. 418 - 424, 2013
Author(s) Park J. E., Seo Y. K., Yoon H. H., Kim C. W., Park J. K., Jeon S.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7811
Title Extremely low-frequency electromagnetic field promotes astrocytic differentiation of human bone marrow mesenchymal stem cells by modulating SIRT1 expression.
Reference Biosci. Biotechnol. Biochem., Vol. 81, Pg. 1356 - 1362, 2017
Author(s) Jeong W. Y., Kim J. B., Kim H. J., Kim C. W.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7812
Title No evidence of DNA damage by co-exposure to extremely low frequency magnetic fields and aluminum on neuroblastoma cell lines.
Reference Mutat. Res., Vol. 823, Pg. 11 - 21, 2017
Author(s) Villarini M., Gambelunghe A., Giustarini D., Ambrosini M. V., Fatigoni C., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7813
Title Power frequency magnetic field promotes a more malignant phenotype in neuroblastoma cells via redox-related mechanisms.
Reference Sci. Rep., Vol. 7, Pg. 11470 - , 2017
Author(s) Falone S., Santini, Jr. S., Cordone V., Cesare P., Bonfigli A., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7814
Title Cellular detection of 50 Hz magnetic fields and weak blue light: Effects on superoxide levels and genotoxicity.
Reference Int. J. Radiat. Biol., Vol. 93, Pg. 646 - 652, 2017
Author(s) Höytö A., Herrala M., Luukkonen J., Juutilainen J., Naarala J.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7815
Title Induction of micronuclei and superoxide production in neuroblastoma and glioma cell lines exposed to weak 50 Hz magnetic fields.
Reference J. R. Soc. Interface, Vol. 13, Pg. 20150995 - , 2016
Author(s) Kesari K. K., Juutilainen J., Luukkonen J., Naarala J.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7816
Title Genomic instability induced by 50 Hz magnetic fields is a dynamically evolving process not blocked by antioxidant treatment.
Reference Mutat. Res., Vol. 794, Pg. 46 - 51, 2015
Author(s) Kesari K. K., Luukkonen J., Juutilainen J., Naarala J.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7817
Title Induction of genomic instability, oxidative processes, and mitochondrial activity by 50 Hz magnetic fields in human SH-SY5Y neuroblastoma cells.
Reference Mutat. Res., Vol. 760, Pg. 33 - 41, 2014
Author(s) Luukkonen J., Liimatainen A., Juutilainen J., Naarala J.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7827
Title Differentiation of K562 cells under ELF-EMF applied at different time courses.
Reference Electromagn. Biol. Med., Vol. 29, Pg. 122 - 130, 2010
Author(s) AySe I. G., Zafer A., Sule O., ISil I. T., Kalkan Y.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7829
Title Effects of Fifty-Hertz Electromagnetic Fields on Granulocytic Differentiation of ATRA-Treated Acute Promyelocytic Leukemia NB4 Cells.
Reference Cell Physiol Biochem., Vol. 46, Pg. 389 - 400, 2018
Author(s) Provenzano A. E., Amatori S., Nasoni M. G., Persico G., Fanelli M., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7833
Title Extremely low-frequency electromagnetic field exposure enhances inflammatory response and inhibits effect of antioxidant in RAW 264.7 cells.
Reference Bioelectromagnetics., Vol. 38, Pg. 374 - 385, 2017
Author(s) Kim S. J., Jang Y. W., Hyung K. E., Lee D. K., Jeong S. H., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7834
Title Evaluation of cell viability, DNA single-strand breaks, and nitric oxide production in LPS-stimulated macrophage RAW264 exposed to a 50-Hz magnetic field.
Reference International Journal of Radiation Biology., Vol. 92, Pg. 583 - 589, 2016
Author(s) Nakayama M., Nakamura A., Hondou T., Miyata H.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7836
Title Exposure to 1.8 GHz electromagnetic fields affects morphology, DNA-related Raman spectra and mitochondrial functions in human lympho-monocytes.
Reference PLOS ONE., Vol. 13, Pg. e0198892 - , 2018
Author(s) Lasalvia M., Scrima R., Perna G., Piccoli C., Capozzi V., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7847
Title Effects of long-term exposure of extremely low frequency magnetic field on oxidative/nitrosative stress in rat liver.
Reference J. Radiat. Res., Vol. 49, Pg. 181 - 187, 2008
Author(s) Erdal N., Gürgül S., Tamer L., Ayaz L.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7848
Title Effects of acute electromagnetic field exposure and movement restraint on antioxidant system in liver, heart, kidney and plasma of Wistar rats: A preliminary report.
Reference Int. J. Radiat. Biol., Vol. 86, Pg. 1088 - 1094, 2010
Author(s) Martínez-Sámano J., Torres-Durán P. V., Juárez-Oropeza M. A., Elías-Viñas D., Verdugo-Díaz L.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7849
Title Effect of extremely low-frequency electromagnetic fields on antioxidant activity in the human keratinocyte cell line NCTC 2544.
Reference Biotechnol. Appl. Biochem., Vol. 64, Pg. 415 - 422, 2017
Author(s) Calcabrini C., Mancini U., De Bellis R., Diaz A. R., Martinelli M., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7850
Title Power frequency magnetic fields induced reactive oxygen species-related autophagy in mouse embryonic fibroblasts.
Reference Int. J. Biochem. Cell Biol., Vol. 57, Pg. 108 - 114, 2014
Author(s) Chen Y., Hong L., Zeng Y., Shen Y., Zeng Q.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7851
Title A 60 Hz uniform electromagnetic field promotes human cell proliferation by decreasing intracellular reactive oxygen species levels.
Reference PLoS ONE., Vol. 13, Pg. e0199753 - , 2018
Author(s) Song K., Im S. H., Yoon Y. J., Kim H. M., Lee H. J., Park G. S.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7852
Title Extremely low-frequency electromagnetic field induces a change in proliferative capacity and redox homeostasis of human lung fibroblast cell line MRC-5.
Reference Environ. Sci. Pollut. Res., Vol. 27, Pg. 39466 - 39473, 2020
Author(s) Lekovic M. H., Drekovic N. E., Granica N. D., Mahmutovic E. H., Djordjevic N. Z.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7853
Title Human Gingival Fibroblasts Exposed to Extremely Low-Frequency Electromagnetic Fields: In Vitro Model of Wound-Healing Improvement.
Reference Int. J. Mol. Sci., Vol. 20, Pg. 2108 - , 2019
Author(s) Costantini E., Sinjari B., D'Angelo C., Murmura G., Reale M., Caputi S.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7854
Title Extremely low frequency magnetic fields do not elicit oxidative stress in MCF10A cells.
Reference J. Radiat. Res., Vol. 53, Pg. 79 - 86, 2012
Author(s) Hong M. N., Han N. K., Lee H. C., Myung S. H., Lee J. S., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7855
Title 6-mT 0-120-Hz magnetic fields differentially affect cellular ATP levels.
Reference Environ. Sci. Pollut. Res., Vol. 25, Pg. 28237 - 28247, 2018
Author(s) Wang D., Zhang L., Shao G., Yang S., Tao S., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7856
Title NADPH oxidase-produced superoxide mediated a 50-Hz magnetic field-induced epidermal growth factor receptor clustering.
Reference Int. J. Radiat. Biol.Feng, Vol. 92, Pg. 596 - 602, 2016
Author(s) Feng B., Dai A., Chen L., Qiu L., Fu Y., Sun W.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7857
Title Exposure to a 50-Hz magnetic field induced mitochondrial permeability transition through the ROS/GSK-3beta signaling pathway.
Reference Int. J. Radiat. Biol., Vol. 92, Pg. 148 - 155, 2016
Author(s) Feng B., Qiu L., Ye C., Chen L., Fu Y., Sun W.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7858
Title Mitochondrial ROS Release and Subsequent Akt Activation Potentially Mediated the Anti-Apoptotic Effect of a 50-Hz Magnetic Field on FL Cells.
Reference Cell. Physiol. Biochem., Vol. 38, Pg. 2489 - 2499, 2016
Author(s) Feng B., Ye C., Qiu L., Chen L., Fu Y., Sun W.
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7859
Title Reactive oxygen species mediates 50-Hz magnetic field-induced EGF receptor clustering via acid sphingomyelinase activation.
Reference Int. J. Radiat. Biol., Vol. 94, Pg. 678 - 684, 2018
Author(s) Sun L., Chen L., Bai L., Xia Y., Jiang W., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7861
Title Exposure to a 50 Hz magnetic field at 100 microT exerts no DNA damage in cardiomyocytes.
Reference Biol. Open., Vol. 8, Pg. - , 2019
Author(s) Wang Y., Liu X., Zhang Y., Wan B., Zhang J., et al. .
PubMed UID
Project ID 2921
 
View This Study - Citation No: 7863
Title Low-Frequency Magnetic Fields (LF-MFs) Inhibit Proliferation by Triggering Apoptosis and Altering Cell Cycle Distribution in Breast Cancer Cells.
Reference Int. J. Mol. Sci., Vol. 21, Pg. 2952 - , 2020
Author(s) Xu A., Wang Q., Lin T.
PubMed UID
Project ID 2921