Study overviews

Mobile phone related articles are

Please note that a publication can be assigned to several endpoints, i.e. the sum of publications from the individual thematic points and subpoints can be greater than the total sum of actual publications.

Experimental studies on mobile communications

1690 studies in total
  1. 733 studies
  2. 558 studies
  3. 509 studies
  4. 220 studies
  5. 203 studies
  6. 118 studies

DNA, proteins, and oxidative stress

558 studies in total
  1. 305 studies
  2. 197 studies
  3. 117 studies
  4. 42 studies

Gene/protein expression (in general) 117 studies in total

Authors Year Exposed system Endpoints Frequency range SAR Exposure duration Parameters
Kim JH et al. 2017 animal, mouse/C57BL/6 - 835 MHz - - mobile phone, mobile communications, RF field, CW continuous wave
Woelders H et al. 2017 animal, chicken/Leghorn (eggs), whole body embryonic development 1.8 GHz 0.38–0.45 mW/kg 22 days mobile communications, GSM, UMTS, TDMA, FDMA, RF field, DECT, W-LAN/WiFi
Manta AK et al. 2017 invertebrate, <i>Drosophila melanogaster</i>/Oregon-R (wildtype) - 1,800 MHz - - mobile phone, mobile communications, GSM
Kim JH et al. 2016 - - 835 MHz - - mobile phone, mobile communications
Siqueira EC et al. 2016 human cytokine expression in parotid gland saliva - - up to 200 minutes per month for up to 10 years mobile phone, mobile communications
de Pomerai DI et al. 2016 - - 1–1.8 GHz - - mobile phone, GSM, mobile communications, RF field, CW continuous wave
Valbonesi P et al. 2016 intact cell/cell culture, PC-12 cells/rat - 1.8 GHz 2 W/kg - mobile phone, GSM, mobile communications
Shivashankara AR et al. 2015 human - - - - mobile phone, mobile communications
Dasdag S et al. 2015 animal, rat/ Wistar albino, partial body: head microRNA expression in the brain 900 MHz 0.0369–2.023 W/kg continuous for 3 h/day on 7 days/week for 12 months GSM, mobile communications
Akhavan-Sigari R et al. 2014 human, partial body: head relationship between <i>p53</i> expression, <i>p53</i> mutations, survival time and cell phone usage 800–1,900 MHz 0.66–1.53 W/kg repeated daily exposure of less than 3 hours mobile phone, mobile communications
Lu Y et al. 2014 intact cell/cell culture, N9 cells (mouse microglial cells) and C8-D1A cells (mouse astrocyte type I cells) proinflammatory protein expression and gene expression; nitric oxide release; STAT3 activation, activation of microglia and astrocytes 1,800 MHz 2 W/kg intermittent for 1, 3, 6, 12, or 24 hours (5 min on and 10 min off) mobile phone, mobile communications, RF field, PW pulsed wave
Sepehrimanesh M et al. 2014 animal, rat/Sprague-Dawley, whole body protein expression in testes 900 MHz 0.19–1.22 W/g repeated daily exposure for 1 h on 30 consecutive days mobile phone, mobile communications
Valbonesi P et al. 2014 intact cell/cell culture, PC-12 cells (pheochromocytoma cell line from rat adrenal gland) gene expression and protein expression of Hsp70 and mitogen-activated protein kinase 1,800 MHz 2 W/kg intermittent, 5 min on/10 min off, for 4, 16, and 24 h mobile phone, GSM, mobile communications
Kesari KK et al. 2014 animal, rat/ Wistar, whole body DNA damage, protein expression, apoptosis and oxidative stress in brain 2,115 MHz 0.26–0.9 W/kg continuous for 2 hours/day for 60 days mobile phone, mobile communications
Vagula M et al. 2013 animal, zebrafish embryos (<i>Danio rerio</i>) - - - - mobile communications, mobile phone
Ni S et al. 2013 intact cell/cell culture, human eye lens epithelial cells (HLE B3) cell viability, oxidative stress 1,800 MHz 2–4 W/kg intermittent (5 minutes field "on"/10 minutes field "off") for up to 24 hours GSM, mobile communications, RF field, microwaves
Cervellati F et al. 2013 intact cell/cell culture, HTR-8/SVneo (human trophoblast cell line) connexin, integrin and estrogen receptor expression, cell ultrastructure, localization of estrogen receptor 1,800 MHz 2 W/kg continuous for 1 h mobile phone, GSM, mobile communications, co-exposure
Zhijian C et al. 2013 intact cell/cell culture, HMy2.CIR (human B-cell lymphoblastoid cells) protein expression 1.8 GHz 2 W/kg intermittent (5 min fields on/10 min fields off) for 24 hours mobile phone, GSM, mobile communications
Luo Q et al. 2013 human protein expression in chorionic villous tissue 900 MHz 1.46–8.8 W/kg continuous for 20 min. (according to "materials and methods" section) or 1 h (according to abstract)? mobile phone, GSM, mobile communications
Zhang Y et al. 2013 intact cell/cell culture, human lens epithelial cells (HLEC) - 1.8 GHz 2–4 W/kg - GSM, mobile communications, RF field
Liu Y et al. 2013 intact cell/cell culture, Raji cells (human Burkitt lymphoma cells) gene expression of EBV-EA (early antigen) 900 MHz 0.02 mW/g continuous for 4 h every day up to 4 weeks mobile phone, GSM, mobile communications
Bourthoumieu S et al. 2013 intact cell/cell culture expression and activating of p53 protein 900 MHz 4–32 W/kg continuous for 24 h mobile phone, GSM, mobile communications, PW pulsed wave
Kim HN et al. 2012 intact cell/cell culture, MCF10 A cells (human breast epithelial cells) Expression of the proteins Hsp27 and ERK1/2 and analysis of its phosphorylated forms 837 MHz 2–4 W/kg continuous for 4 h once or 2 h/day on 3 days mobile phone, CDMA, W-CDMA, mobile communications
Chen G et al. 2012 intact cell/cell culture, yeast (<i>Saccharomyces cerevisiae</i>)/S288C gene expression in yeast 50 Hz 4.7 W/kg continuous for 6 h GSM, mobile communications, RF field, PW pulsed wave, magnetic field, low frequency, 50/60 Hz
Fragopoulou AF et al. 2012 animal, mouse/BALB/c, whole body protein expression in the mouse brain 900 MHz 0.012–0.37 W/kg continuous for 3 h/day for 8 months mobile phone, digital mobile phone, GSM, mobile communications, PW pulsed wave, DECT, wireless transmitter