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
Shivashankara AR et al. 2015 human - - - - 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
Stefi AL et al. 2019 intact cell/cell culture, SH-SY5Y (human neuroblastoma cell line) - - - - mobile phone, GSM, mobile communications
Vagula M et al. 2013 animal, zebrafish embryos (<i>Danio rerio</i>) - - - - mobile communications, mobile phone
Qin T et al. 2023 animal, C57BL/6 mouse - - - - 5G, mobile communications, RF field, electric field, signals/pulses, co-exposure
Molina-Montenegro MA et al. 2023 invertebrate, honey bee (<i>Apis mellifera</i>) and other pollinators - - - - mobile communications, mobile phone base station, power transmission line, magnetic field
Hasbek Z et al. 2024 human - - - - mobile communications, mobile phone, W-LAN/WiFi
Dogan M et al. 2012 animal, rat/Wistar, whole body brain metabolism, oxidative stress, histopathology and apoptosis in the brain 1.9 Hz–2.2 GHz - every day two times 20 min (1x talking, 1x listening mode) from day 2 to day 21 digital mobile phone, GSM, 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
Nikolova T et al. 2005 intact cell/cell culture, ES R1 cells (mouse embryonic stem cells) different effects (e.g. different transcript levels, genotoxicity, proliferation, apoptosis, cytotoxicity, mitochondrial function) 50 Hz–1.25 kHz 1.5 W/kg intermittent, 5 min on/30 min off, for 6 h and 48 h GSM, mobile communications, 50/60 Hz, power transmission line
Kuzniar A et al. 2017 intact cell/cell culture, VH10 (human fibroblasts), U2OS (human osteosarcoma cells) and IB10 (mouse embryonic stem cells) - 50 Hz–5.8 GHz - - UMTS, mobile communications, W-LAN/WiFi, RF field, 50/60 Hz, low frequency, magnetic field
Seymen CM et al. 2019 animal, rat/Wistar - 2,100 Hz - - mobile communications, mobile phone, GSM
Yan JG et al. 2009 animal, rat/Sprague-Dawley, whole body mRNA synthesis (gene expression) of several injury-associated proteins 800 MHz 0.9–1.8 W/kg 2 times 3 hr / day (with 30 min rest period between exposures), on 7 days/week for 18 weeks mobile communications, mobile phone, analog mobile phone, digital mobile phone, CDMA
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
Kim JH et al. 2016 - - 835 MHz - - mobile phone, mobile communications
Kim JH et al. 2017 animal, mouse/C57BL/6 - 835 MHz - - mobile phone, mobile communications, RF field, CW continuous wave
Kim JH et al. 2017 animal, mouse/C57BL/6, whole body - 835 MHz - - mobile communications, mobile phone
Kim JH et al. 2018 animal, mouse/C57BL/6 - 835 MHz - - mobile communications, RF field, CW continuous wave
Kim JH et al. 2018 animal, mouse/C57BL/6 - 835 MHz - - mobile communications, RF field
Goswami PC et al. 1999 intact cell/cell culture, C3H 10T1/2 cells (derived from mouse embryo fibroblasts) stress response (proto-oncogene expression and DNA-binding activity of transcription factors) 835.62 MHz 0.6 W/kg continuous for 24 h or 4 days mobile communications, CDMA
Whitehead TD et al. 2005 intact cell/cell culture, C3H 10T1/2 cells (derived from mouse embryo fibroblasts) <i>c-Fos</i> mRNA expression 835.62 MHz 5.2–10 W/kg continuous for 4 days CDMA, FDMA, TDMA, mobile communications
Whitehead TD et al. 2006 intact cell/cell culture, C3H 10T1/2 cells (derived from mouse embryo fibroblasts) gene expression 835.62 MHz 5 W/kg continuous for 24 h CDMA, FDMA, mobile communications
Whitehead TD et al. 2006 intact cell/cell culture, C3H 10T1/2 cells (derived from mouse embryo fibroblasts) gene expression 835.62 MHz 5 W/kg continuous for 24 h digital mobile phone, CDMA, FDMA, mobile communications
Ivaschuk OI et al. 1997 intact cell/cell culture, P12 (rat pheochromocytoma cells) expression of the immediate early genes encoding c-<i>jun</i> and c-<i>fos</i> 836.55 MHz 2.6 µW/g intermittent, 20 min on/off, for 20, 60 and 100 min NADC, TDMA, mobile communications
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