There are 40 studies that match your criteria (2 of which are reviews, comments, or miscellaneous).
Criteria: Study Type=In Vitro,Freq Range=300 kHz - 300 GHz (RF/mmW/THz),Study Subtype=Oxidative Stress

View This Study - Citation No: 461
Title	INFLUENCE OF MICROWAVES ON DIFFERENT TYPES OF RECEPTORS AND THE ROLE OF PEROXIDATION OF LIPIDS ON RECEPTOR-PROTEIN BINDING
Reference	Bioelectromagnetics, Vol. 15, Pg. 183 - 192, 1994
Author(s)	Philippova T. M., Novoselov V. I., Alekseev S. I.
PubMed UID	8074735
Project ID	797
View This Study - Citation No: 526
Title	EFFECT OF MILLIMETER WAVES ON SURVIVAL OF UVC-EXPOSED ESCHERICHIA COLI
Reference	Bioelectromagnetics, Vol. 16, Pg. 188 - 196, 1995
Author(s)	Rojavin M. A., Ziskin M. C.
PubMed UID	7677795
Project ID	797
View This Study - Citation No: 1110
Title	CONTINUOUS MILLIMETER-WAVE RADIATION HAS NO EFFECT ON LIPID PEROXIDATION IN LIPOSOMES
Reference	Radiat. Res., Vol. 145, Pg. 231 - 235, 1996
Author(s)	Logani M. K., Ziskin M. C.
PubMed UID	8606934
Project ID	797
View This Study - Citation No: 2133
Title	APOPTOSIS INDUCED BY ULTRAVIOLET RADIATION IS ENHANCED BY AMPLITUDE MODULATED RADIOFREQUENCY RADIATION IN MUTANT YEAST CELLS
Reference	Bioelectromagnetics, Vol. 25, Pg. 127 - 133, 2004
Author(s)	Markkanen A., Penttinen P., Naarala J., Pelkonen J., Sihvonen A. P., Juutilainen J.
PubMed UID	14735563
Project ID	537
View This Study - Citation No: 2265
Title	EVALUATION OF PARAMETERS OF OXIDATIVE STRESS AFTER IN VITRO EXPOSURE TO FMCW AND CDMA MODULATED RADIOFREQUENCY RADIATION FIELDS
Reference	Radiation Research, Vol. 162, Pg. 497 - 504, 2004
Author(s)	Hook G. J., Spitz D. R., Sim J. E., Higashikubo R., Moros E. C., Roti Roti J. L.
PubMed UID	15624304
Project ID	124
View This Study - Citation No: 3011
Title	FORMATION OF REACTIVE OXYGEN SPECIES IN L929 CELLS AFTER EXPOSURE TO 900 MHZ RF RADIATION WITH AND WITHOUT CO-EXPOSURE
Reference	Radiation Research, Vol. 167, Pg. 306 - 311, 2007
Author(s)	Zeni O., d'Ambrosio G., Naarala J., Juutilainen J., Scarfi M., et al .
PubMed UID
Project ID	1093
View This Study - Citation No: 3154
Title	ACUTE EXPOSURE TO 930 MHz CW ELECTROMAGNETIC RADIATION IN VITRO AFFECTS REACTIVE OXYGEN SPECIES LEVEL IN RAT LYMPHOCYTES TREATED BY IRON IONS
Reference	Bioelectromagnetics, Vol. 25, Pg. 324 - 328, 2004
Author(s)	Zmyslony M., Politanski P., Rajkowska E., Szymczak W., Jajte J.
PubMed UID	15197754
Project ID	1735
View This Study - Citation No: 3427
Title	PULSED ELECTROMAGNETIC FIELD AT 9.71 GHz INCREASE FREE RADICAL PRODUCTION IN YEAST
Reference	Pathol Biol (Paris), Vol. 57, Pg. 245 - 251, 2009
Author(s)	Crouzier D., Perrin A., Torres G., Dabouis V., Debouzy J. C.
PubMed UID	18321660
Project ID	1807
View This Study - Citation No: 3771
Title	PROLIFERATION, OXIDATIVE STRESS AND CELL DEATH IN CELLS EXPOSED TO 872 MHz RADIOFREQUENCY RADIATION AND OXIDANTS
Reference	Radiation Research, Vol. 170, Pg. 235 - 243, 2008
Author(s)	Hoyto A., Luukkonen j., Juutilainen J., Naarala J.
PubMed UID	18666817
Project ID	537
View This Study - Citation No: 3921
Title	ENHANCEMENT OF CHEMICALLY INDUCED REACTIVE OXYGEN SPECIES PRODUCTION AND DNA DAMAGE IN HUMAN SH-SY5Y NEUROBLASTOMA CELLS BY 872 MHz RADIOFREQUENCY RADIATION.
Reference	Mut Res., Vol. 662, Pg. 54 - 58, 2009
Author(s)	Luukkonen J., Hakulinen P., Maki-Pakkanen J., Juutilainen J., Naarala J.
PubMed UID	19135463
Project ID	537
View This Study - Citation No: 4256
Title	REACTIVE OXYGEN SPECIES FORMATION IS NOT ENHANCED BY EXPOSURE TO UMTS 1950 MHz RADIATION AND CO-EXPOSURE TO FERROUS IONS IN JURKAT CELLS
Reference	Bioelectromagnetics, Vol. 30, Pg. 525 - 535, 2009
Author(s)	Brescia F., Sarti M., Massa R., Calabrese M. l., Sannino A., Scarfi M. R.
PubMed UID	19475646
Project ID	2075
View This Study - Citation No: 4707
Title	EFFECTS OF MICROWAVE RESONANCE THERAPY ON ERYTHROCYTE AND PLASMA PROTEINS AND LIPIDS IN ALCOHOLICS
Reference	Bull Exp Biol Med, Vol. 148, Pg. 37 - 38, 2009
Author(s)	Patisheva E. V., Prokopyeva V. D., Bokhan N. A.
PubMed UID	19902091
Project ID	2146
View This Study - Citation No: 5566
Title	Oxidative changes and apoptosis induced by 1800-MHz electromagnetic radiation in NIH/3T3 cells.
Reference	Electromagnetic Biology and Medicine., Vol. 34, Pg. 85 - 92, 2015
Author(s)	Hou Q., Wang M., Wu S., Ma X., An G., et al. .
PubMed UID	24665905
Project ID	2374
View This Study - Citation No: 5757
Title	Study of oxidative stress in human lens epithelial cells exposed to 1.8 GHz radiofrequency fields.
Reference	PLoS One, Vol. 8, Pg. e72370 - (9 pages), 2013
Author(s)	Ni S., Yu Y., Zhang Y., Wu W., Lai K., Yao K.
PubMed UID	23991100
Project ID	2416
View This Study - Citation No: 5760
Title	Effects of 837 and 1950 MHz radiofrequency radiation exposure alone or combined on oxidative stress in MCF10A cells.
Reference	Bioelectromagnetics., Vol. 33, Pg. 604 - 611, 2012
Author(s)	Hong M. N., Kim B. C., Lee Y. S., Pack J. K., Lee J. S., et al. .
PubMed UID	22549623
Project ID	2418
View This Study - Citation No: 5761
Title	Effects of combined radiofrequency radiation exposure on levels of reactive oxygen species in neuronal cells.
Reference	J Radiat Res., Vol. 55, Pg. 265 - 276, 2014
Author(s)	Kang K. A., Lee H. C., Lee J. J., Park M. J., Kim N., et al. .
PubMed UID	24105709
Project ID	2418
View This Study - Citation No: 6174
Title	2.45-Gz (sic) wireless devices induce oxidative stress and proliferation through cytosolic Ca²z influx in human leukemia cancer cells.
Reference	Int J Radiat Biol., Vol. 88, Pg. 449 - 456, 2012
Author(s)	Naziroglu M., Cig B., Dogan S., Uguz A. C., Dilek S., Faouzi D.
PubMed UID	22489926
Project ID	2521
View This Study - Citation No: 6214
Title	Reactive Oxygen Species Formation and Apoptosis in Human Peripheral Blood Mononuclear Cell Induced by 900 MHz Mobile Phone Radiation.
Reference	Oxidative Medicine and Cellular Longevity., Vol. 2012, Pg. Article ID 740280 - (8 pages), 2012
Author(s)	Lu Y. S., Huang B. T., Huang Y. X.
PubMed UID	22778799
Project ID	2534
View This Study - Citation No: 6264
Title	Effects of 1.8 GHz radiofrequency radiation on protein expression in human lens epithelial cells.
Reference	Human & Experimental Toxicology., Vol. 32, Pg. 797 - 806, 2013
Author(s)	Zhang Y., Yao K., Yu Y., Ni S., Wang W., et al. .
PubMed UID	23338683
Project ID	2416
View This Study - Citation No: 6265 (Literature Review)
Title	Non-thermal Cellular Effects of Low power Microwave Radiation on the Lens and Lens Epithelial Cells.
Reference	Journal of International Medical Research., Vol. 38, Pg. 729 - 736, 2010
Author(s)	Yu Y., Yao K.
PubMed UID	20819410
Project ID	2416
View This Study - Citation No: 6367
Title	The effect of superposition of 900 MHz and incoherent noise electromagnetic fields on the induction of reactive oxygen species in SP2/0 cell line.
Reference	Int. J. Radiation Research., Vol. 13, Pg. 275 - 280, 2015
Author(s)	Kazemi E., Mortazavi S. M., Ghanbari A. A., Mozdarani H., Haghdoost S., et al. .
PubMed UID
Project ID	2591
View This Study - Citation No: 6505
Title	Effects of radiofrequency field exposure on glutamate-induced oxidative stress in mouse hippocampal HT22 cells.
Reference	International Journal of Radiation Biology., Vol. 93, Pg. 249 - 256, 2017
Author(s)	Kim J-Y., Jun H-j., Kim N., Kwon J. H., Park M-J.
PubMed UID
Project ID	2418
View This Study - Citation No: 6971
Title	Assessment of genotoxicity and genomic instability in rat primary astrocytes exposed to 872 MHz radiofrequency radiation and chemicals.
Reference	Int J Radiat Biol., Vol. 94, Pg. 883 - 889, 2018
Author(s)	Herrala M., Mustafa E., Naarala J., Juutilainen J.
PubMed UID
Project ID	537
View This Study - Citation No: 7154
Title	Selenium supplementation ameliorates electromagnetic field-induced oxidative stress in the HEK293 cells.
Reference	J Trace Elem Med Biol., Vol. 50, Pg. 572 - 579, 2018
Author(s)	Pastac Ozsobaci N., Duzgun Ergun D., Durmus S., Gelisgen R., Ozcelik D., et al. .
PubMed UID
Project ID	2810
View This Study - Citation No: 7273 (Literature Review)
Title	Electromagnetic fields, genomic instability and cancer: A systems biological view.
Reference	J. Genes., Vol. 10, Pg. 479 - , 2019
Author(s)	Naarala J., Kolehmainen M., Juutilainen J.
PubMed UID
Project ID	537
View This Study - Citation No: 7310
Title	Protective effects of zinc on 2.45 GHz electromagnetic radiation-induced oxidative stress and apoptosis in HEK293 cells.
Reference	Biological Trace Element Research. , Vol. 194, Pg. 368 - 378, 2020
Author(s)	Ozsobaci N. P., Ergun D. D., Tuncdemir M., Ozcelik D.
PubMed UID
Project ID	2810
View This Study - Citation No: 7660
Title	Investigation of the effects of distance from sources on apoptosis, oxidative stress and cytosolic calcium accumulation via TRPV1 channels induced by mobile phones and Wi-Fi in breast cancer cells.
Reference	Biochim Biophys Acta., Vol. 1848, Pg. 2756 - 2765, 2015
Author(s)	Çig B., Naziroglu M.
PubMed UID	25703814
Project ID	2521
View This Study - Citation No: 7675
Title	2.45-Gz wireless devices induce oxidative stress and proliferation through cytosolic Ca²z influx in human leukemia cancer cells.
Reference	Int J Radiat Biol., Vol. 88, Pg. 449 - 456, 2012
Author(s)	Naz1rolu M., Ci B., Doan S., Uuz A. C., Dilek S., Faouzi D.
PubMed UID	22489926
Project ID	2521
View This Study - Citation No: 7717
Title	Continuous Exposure to 1.7 GHz LTE Electromagnetic Fields Increases Intracellular Reactive Oxygen Species to Decrease Human Cell Proliferation and Induce Senescence.
Reference	Sci Rep., Vol. 10, Pg. 9238 - doi: 10.1038/s41598-020-65732-4, 2020
Author(s)	Choi J., Min K., Jeon S., Kim N., Pack J. K., Song K.
PubMed UID	32514068
Project ID	2418
View This Study - Citation No: 7818
Title	Effects of combined radiofrequency field exposure on amyloid-beta-induced cytotoxicity in HT22 mouse hippocampal neurones.
Reference	J. Radiat. Res., Vol. 57, Pg. 620 - 626, 2016
Author(s)	Lee J. S., Kim J. Y., Kim H. J., Kim J. C., Park M. J., et al. .
PubMed UID
Project ID	2418
View This Study - Citation No: 7819
Title	Combined effects of 872 MHz radiofrequency radiation and ferrous chloride on reactive oxygen species production and DNA damage in human SH-SY5Y neuroblastoma cells.
Reference	Bioelectromagnetics, Vol. 31, Pg. 417 - 424, 2010
Author(s)	Luukkonen J., Juutilainen J., Naarala J.
PubMed UID
Project ID	537
View This Study - Citation No: 7821
Title	1800 MHz Microwave Induces p53 and p53-Mediated Caspase-3 Activation Leading to Cell Apoptosis In Vitro.
Reference	PLoS ONE., Vol. 11(9), Pg. e0163935 - , 2016
Author(s)	Xing F., Zhan Q., He Y., Cui J., Wang G.
PubMed UID
Project ID	2922
View This Study - Citation No: 7835
Title	Effect of 900 MHz Electromagnetic Radiation on the Induction of ROS in Human Peripheral Blood Mononuclear Cells.
Reference	J. Biomed. Phys. Eng., Vol. 5, Pg. 105 - 114, 2015
Author(s)	Kazemi E., Mortazavi S. M., Ranjbaran R., Zal F., Haghani M., et al. .
PubMed UID
Project ID	2591
View This Study - Citation No: 7864
Title	Selenium reduces mobile phone (900 MHz)-induced oxidative stress, mitochondrial function, and apoptosis in breast cancer cells. Biol. Trace Elem. Res. 2014, 160, 285293. [
Reference	Selenium reduces mobile phone (900 MHz)-induced oxidative stress, mitochondrial function, and apoptosis in breast cancer cells. Biol. Trace Elem. Res. 2014, 160, 285293. [, Vol. 160, Pg. 285 - 293, 2014
Author(s)	Kahya M. C., Naziroglu M., Cig B.
PubMed UID
Project ID	2521
View This Study - Citation No: 7931
Title	Activation of Matrix Metalloproteinases and Foxo3a in Hacat Keratinocytes by Radiofrequency Electromagnetic Field Exposure.
Reference	Sci Rep., Vol. 11, Pg. 7680 - , 2021
Author(s)	Kim J. H., Kang D. J., Bae J. S., Jeon S., Kim N., et al. .
PubMed UID
Project ID	2938
View This Study - Citation No: 8076
Title	Exposure to long-term evolution radiofrequency electromagnetic fields decreases neuroblastoma cell proliferation via Akt/mTOR-mediated cellular senescence.
Reference	J Toxicol Environ Health A., Vol. 84, Pg. 846 - 857, 2021
Author(s)	Kim J. H., Jeon S., Choi H. D., Lee J. H., Kim N., et al. .
PubMed UID	34196262
Project ID	2938
View This Study - Citation No: 8710
Title	Zinc Affects Nuclear Factor Kappa B and DNA Methyltransferase Activity in C3h Cancer Fibroblast Cells Induced by a 2100 MHz Electromagnetic Field.
Reference	Electromagn Biol Med., Vol. 41, Pg. 93 - 100, 2022
Author(s)	Duzgun Ergun D., Pastaci Ozsobaci N., Yilmaz T., Ozcelik D., Kalkan M. T.
PubMed UID	doi.org/10.1080/15368378.2021.2019760
Project ID	2810
View This Study - Citation No: 8730
Title	Exposure to 1.8 GHz Radiofrequency Field Modulates ROS in Human Hek293 Cells as a Function of Signal Amplitude.
Reference	Commun Integr Biol., Vol. 15, Pg. 54 - 66, 2022
Author(s)	Pooam M., Jourdan N., Aguida B., Dahon C., Baouz S., et al. .
PubMed UID	doi.org/10.1080/19420889.2022.2027698
Project ID	3054
View This Study - Citation No: 8773
Title	Cardiac Cell Exposure to Electromagnetic Fields: Focus on Oxidative Stress and Apoptosis.
Reference	Biomedicines., Vol. 10, Pg. 929 - , 2022
Author(s)	Martinelli I., Cinato M., Keita S., Marsal D., Antoszewski V., et al. .
PubMed UID	doi.org/10.3390/biomedicines10050929
Project ID	3063
View This Study - Citation No: 9039
Title	5G Electromagnetic Radiation Attenuates Skin Melanogenesis in Vitro by Suppressing ROS Generation.
Reference	Antioxidants (Basel). , Vol. 11, Pg. 1449 - , 2022
Author(s)	Kim K., Lee Y. S., Kim N., Choi H. D., Lim K. M.
PubMed UID	doi.org/10.3390/antiox11081449
Project ID	3116