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Journal Abstract Search

259 related items for PubMed ID: 30011321

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  • 3. Short-term exposure to 50 Hz ELF-EMF alters the cisplatin-induced oxidative response in AT478 murine squamous cell carcinoma cells.
    Bułdak RJ, Polaniak R, Bułdak L, Zwirska-Korczala K, Skonieczna M, Monsiol A, Kukla M, Duława-Bułdak A, Birkner E.
    Bioelectromagnetics; 2012 Dec; 33(8):641-51. PubMed ID: 22535669
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  • 6. Enhanced cytotoxic and genotoxic effects of gadolinium following ELF-EMF irradiation in human lymphocytes.
    Cho S, Lee Y, Lee S, Choi YJ, Chung HW.
    Drug Chem Toxicol; 2014 Oct; 37(4):440-7. PubMed ID: 24479558
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  • 8. Neuroprotective effects of lotus seedpod procyanidins on extremely low frequency electromagnetic field-induced neurotoxicity in primary cultured hippocampal neurons.
    Yin C, Luo X, Duan Y, Duan W, Zhang H, He Y, Sun G, Sun X.
    Biomed Pharmacother; 2016 Aug; 82():628-39. PubMed ID: 27470406
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  • 9. [Extremely low frequency electromagnetic field induces apoptosis of osteosarcoma cells via oxidative stress].
    Yang ML, Ye ZM.
    Zhejiang Da Xue Xue Bao Yi Xue Ban; 2015 May; 44(3):323-8. PubMed ID: 26350014
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  • 10. Continuous Exposure to 1.7 GHz LTE Electromagnetic Fields Increases Intracellular Reactive Oxygen Species to Decrease Human Cell Proliferation and Induce Senescence.
    Choi J, Min K, Jeon S, Kim N, Pack JK, Song K.
    Sci Rep; 2020 Jun 08; 10(1):9238. PubMed ID: 32514068
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  • 11. Effect of ELF-EMF on number of apoptotic cells; correlation with reactive oxygen species and HSP.
    Garip AI, Akan Z.
    Acta Biol Hung; 2010 Jun 08; 61(2):158-67. PubMed ID: 20519170
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  • 12. Exposure to electromagnetic field attenuates oxygen-glucose deprivation-induced microglial cell death by reducing intracellular Ca(2+) and ROS.
    Duong CN, Kim JY.
    Int J Radiat Biol; 2016 Jun 08; 92(4):195-201. PubMed ID: 26882219
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  • 13. The preventive effect of lotus seedpod procyanidins on cognitive impairment and oxidative damage induced by extremely low frequency electromagnetic field exposure.
    Duan Y, Wang Z, Zhang H, He Y, Lu R, Zhang R, Sun G, Sun X.
    Food Funct; 2013 Aug 08; 4(8):1252-62. PubMed ID: 23764910
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  • 14. Cell type specific redox status is responsible for diverse electromagnetic field effects.
    Simkó M.
    Curr Med Chem; 2007 Aug 08; 14(10):1141-52. PubMed ID: 17456027
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  • 15. Extremely low frequency electromagnetic field (ELF-EMF) reduces oxidative stress and improves functional and psychological status in ischemic stroke patients.
    Cichoń N, Bijak M, Miller E, Saluk J.
    Bioelectromagnetics; 2017 Jul 08; 38(5):386-396. PubMed ID: 28430370
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  • 16. Effect of extremely low frequency electromagnetic field parameters on the proliferation of human breast cancer.
    Wang MH, Chen KW, Ni DX, Fang HJ, Jang LS, Chen CH.
    Electromagn Biol Med; 2021 Jul 03; 40(3):384-392. PubMed ID: 33632057
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  • 17. mTOR Activation by PI3K/Akt and ERK Signaling in Short ELF-EMF Exposed Human Keratinocytes.
    Patruno A, Pesce M, Grilli A, Speranza L, Franceschelli S, De Lutiis MA, Vianale G, Costantini E, Amerio P, Muraro R, Felaco M, Reale M.
    PLoS One; 2015 Jul 03; 10(10):e0139644. PubMed ID: 26431550
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  • 18. Electromagnetic fields affect transcript levels of apoptosis-related genes in embryonic stem cell-derived neural progenitor cells.
    Nikolova T, Czyz J, Rolletschek A, Blyszczuk P, Fuchs J, Jovtchev G, Schuderer J, Kuster N, Wobus AM.
    FASEB J; 2005 Oct 03; 19(12):1686-8. PubMed ID: 16116041
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  • 19. Assessment of the neurotoxic potential of exposure to 50Hz extremely low frequency electromagnetic fields (ELF-EMF) in naïve and chemically stressed PC12 cells.
    de Groot MW, Kock MD, Westerink RH.
    Neurotoxicology; 2014 Sep 03; 44():358-64. PubMed ID: 25111744
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  • 20. Extremely low frequency electromagnetic field enhances human keratinocyte cell growth and decreases proinflammatory chemokine production.
    Vianale G, Reale M, Amerio P, Stefanachi M, Di Luzio S, Muraro R.
    Br J Dermatol; 2008 Jun 03; 158(6):1189-96. PubMed ID: 18410412
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