Study overviews

Mobile phone related articles are

Experimental studies on mobile communications

1360 studies in total
  1. 548 studies
  2. 426 studies
  3. 419 studies
  4. 182 studies
  5. 153 studies
  6. 88 studies
Authors Year Exposed system Endpoints Frequency range SAR Exposure duration Parameters
Vecsei Z et al. 2018 - - 1,750 MHz - - mobile communications, LTE
El Halabi N et al. 2013 - - - - - mobile communications, mobile phone, GSM, UMTS
Odemer R et al. 2019 - - 900 MHz - - mobile communications, mobile phone, GSM
Sharma AB et al. 2018 - - - - - mobile phone base station, mobile communications
Adebayo EA et al. 2014 - - - - - mobile phone base station, mobile communications, TV broadcast (VHF/UHF), Radio/TV transmitter, RF field
Taye RR et al. 2017 - - - - - mobile communications, mobile phone base station
Kumar et al. 2012 - - - - - mobile phone, mobile communications
Chandel S et al. 2019 - - 2,350 MHz - - mobile communications, mobile phone, RF field
Mall P et al. 2014 - - 900 MHz - - mobile phone, mobile phone base station, GSM
Kumar A et al. 2020 - - 900–1,800 MHz - - mobile communications, RF field
Surducan V et al. 2020 - - 910–920 MHz - - mobile communications, GSM
Movahedi MM et al. 2019 - - 900 MHz - - mobile communications, mobile phone
Nasiar N et al. 2018 - - - - - mobile communications, mobile phone, mobile phone base station, residential
Hansen V et al. 1996 DNA/RNA, bacterium, virus/bacteriophages, <i>Escherichia coli</i>/WP2, WP2uvrA, W575 effects on biological material (enzyme activity, survival of bacteriophages, and DNA damage) 900 MHz 11.75–87 mW/kg continuous for about 100 days or about 30 days GSM, mobile communications
Lerchl A et al. 2008 animal, Djungarian hamster (<i>Phodopus sungorus</i>), whole body metabolic effects (body weight, melatonin levels) 383 MHz 80 mW/kg continuous for 60 days digital mobile phone, GSM, TETRA/TETRAPOL, mobile communications
Taberski K et al. 2014 animal, Djungarian hamster (<i>Phodopus sungorus</i>), whole body - 900 MHz 0.08–4 W/kg - mobile phone, GSM, mobile communications
Hässig M et al. 2009 animal, calf, whole body effects on eye (nuclear cataract; oxidative stress) - - continuous for 1 year mobile communications, mobile phone base station, GSM, UMTS
Zareen N et al. 2009 animal, chicken embryos/Desi (eggs), whole body effects on the eye: retinal differentiation 1,800 MHz - 15 min twice daily for up to 15 days mobile phone, mobile communications, RF field
Meral I et al. 2007 animal, guinea pig, whole body different blood vitamin levels, oxidative stress in the brain 890–915 MHz 0.95 W/kg continuous for 12 h/day (11 h 45 min stand-by mode, 15 min speaking mode) on 30 days mobile communications, mobile phone, RF field
Everaert J et al. 2007 animal, house sparrow (<i>Passer domesticus</i>), whole body number of house sparrow males 925–960 MHz - during the breeding period mobile phone base station, GSM, mobile communications
Balmori A et al. 2007 animal, house sparrow (<i>Passer domesticus</i>), whole body number of house sparrows 1 MHz–3 GHz - 3 years and 8 months mobile phone base station, mobile communications, RF field, microwaves
Mortazavi S et al. 2013 animal, mouse/BALB/c and rat/Wistar, whole body survival rate 900 MHz - mice: 6 h/day for 5 days; rats: 6 h/day for 6 days (or 4 days?, contradictory information) mobile phone, GSM, mobile communications, co-exposure
Mortazavi SM et al. 2014 animal, mouse/BALB/c, partial body: head survival rate of mice - 1.4 W/kg continuous for 2 hours/day for 3 days mobile phone, GSM, mobile communications, co-exposure
Mortazavi SMJ et al. 2012 animal, mouse/BALB/c, partial body: head survival rate of mice - 1.4 W/kg continuous for 2 hours/day for 3 days mobile communications, mobile phone, GSM, co-exposure
Sommer AM et al. 2009 animal, mouse/C57BL, whole body developmental parameters, reproductive ability in parental animals 2 GHz 0.08–1.3 W/kg continuous for 570 days with a 30 min break each night UMTS, mobile communications