Study overviews

Mobile phone related articles are

Experimental studies on mobile communications

1432 studies in total
  1. 588 studies
  2. 457 studies
  3. 439 studies
  4. 191 studies
  5. 163 studies
  6. 94 studies
Authors Year Exposed system Endpoints Frequency range SAR Exposure duration Parameters
Odemer R et al. 2019 - - 900 MHz - - mobile communications, mobile phone, GSM
Okano T et al. 2010 human, partial body: head (left ear) effects on eye (cortical processing/saccade performance) 1.95 GHz - continuous for 30 min mobile phone, mobile communications, PW pulsed wave
Ozorak A et al. 2013 animal, rat/Wistar albino (<i>in utero</i> and young animals), whole body oxidative stress (kidney and testis) and level of trace elements (kidney) 900 MHz 0.18–1.2 W/kg 60 min/day (5 days/week) during gestation and up to 6 weeks following delivery mobile phone, mobile communications, W-LAN/WiFi, 2.45 GHz
Panagopoulos DJ 2012 invertebrate, <i>Drosophila melanogaster</i>/Oregon-R ovarian development 900 MHz 0.795 W/kg continuous for 6 min., every 10 h (first exposure 3 h after eclosion), max. for 5 times mobile phone, GSM, mobile communications, PW pulsed wave
Panagopoulos DJ et al. 2004 invertebrate, <i>Drosophila melanogaster</i>, whole body reproductive capacity 900 MHz - repeated daily exposure, 6 min/day for 5 days GSM, mobile communications
Panagopoulos DJ et al. 2007 invertebrate, <i>Drosophila melanogaster</i> ovarian cell death/DNA fragmentation 900 MHz - repeated daily exposure, 6 min/day, for 6 days digital mobile phone, GSM, mobile communications
Panagopoulos DJ et al. 2007 invertebrate, <i>Drosophila melanogaster</i>/Oregon-R, whole body reproductive capacity of <i>Drosophila melanogaster</i> 900 MHz - 6 min/day for 5 days digital mobile phone, GSM, mobile communications
Panagopoulos DJ et al. 2003 invertebrate, <i>Drosophila melanogaster</i>/Oregon-R, whole body reproductive capacity and malformations of the eggs in the ovaries 50 Hz - continuous for 5 days GSM, mobile communications, PW pulsed wave, electric field, magnetic field, low frequency, signals/pulses, 50/60 Hz, co-exposure
Panagopoulos DJ et al. 2010 invertebrate, <i>Drosophila melanogaster</i>/Oregon-R reproductive capacity of <i>Drosophila melanogaster</i> 900 MHz 0.795 W/kg continuous for 1 min., 6 min., 11 min., 16 min. or 21 min./day on 5 days digital mobile phone, GSM, TDMA, mobile communications
Panagopoulos DJ et al. 2010 invertebrate, <i>Drosophila melanogaster</i>/Oregon-R reproductive capacity of <i>Drosophila melanogaster</i> 900 MHz 0.89 W/kg continuous for 6 min/day on 5 days mobile phone, GSM, mobile communications, RF field, electric field, magnetic field, low frequency
Panagopoulos DJ et al. 2010 invertebrate, <i>Drosophila melanogaster</i>/Oregon-R ovarian cell death/DNA fragmentation, reproductive capacity of <i>Drosophila melanogaster</i> 900 MHz 0.89 W/kg continuous for 6 min/day on 6 days mobile phone, mobile phone base station, GSM, mobile communications
Panagopoulos DJ et al. 2009 invertebrate, <i>Drosophila melanogaster</i>/Oregon-R ovarian cell death/DNA fragmentation, reproductive capacity of <i>Drosophila melanogaster</i> 900 MHz 0.89 W/kg continuous for 6 min/day on 5 days mobile phone, digital mobile phone, GSM, TDMA, mobile communications
Paredi P et al. 2001 human, partial body: head skin temperature, NO, and nasal resistence 900 MHz - 30 min GSM, mobile communications
Park J et al. 2018 - - 837–1,950 MHz - - mobile phone, CDMA, W-CDMA, mobile communications, RF field
Partsvania B et al. 2011 isolated organ, nervous system (ganglia) of the snail <i>Helix pomatia</i> neuronal electrophysiology (neuron memory process and excitability) 900 MHz 0.63 W/kg continuous for 60 min mobile communications, mobile phone
Pesnya DS et al. 2013 plant, <i>Allium ceps</i> (bulbs) - 890–915 MHz 1.4 W/kg continuous for 3 h/day on 3 days digital mobile phone, GSM, mobile communications, PW pulsed wave, also other exposures without EMF, co-exposure
Peyman A et al. 2001 different tissues in dead rats (brain, skin, skull, messeter muscle, salivary glands, liver, kidney, spleen, tongue, tail) dielectric properties of rat tissues 130 MHz–10 GHz - - mobile communications, digital mobile phone, GSM, UMTS, RF field, microwaves
Qureshi ST et al. 2017 - - 900 MHz–3.31 GHz - - mobile communications, mobile phone, GSM, wireless transmitter
Roti Roti JL et al. 2001 intact cell/cell culture, C3H 10T1/2 cells (derived from mouse embryo fibroblasts) neoplastic transformation 835.62 MHz 0.6 W/kg continuous for 7 or 42 days mobile communications, CDMA, FDMA
Roux D et al. 2006 plant, tomato (<i>Lycopersicon esculentum</i> Mill.)/VFN8, whole body stress response of tomato 900 MHz - continuous for 10 min mobile communications, GSM
Sagioglou NE et al. 2016 - - 100–900 MHz - - GSM, TETRA/TETRAPOL, mobile communications, RF field, FM frequency modulation, CW continuous wave, Radio/TV transmitter, FM broadcast (UKW)
Sarapultseva EI et al. 2009 invertebrate, <i>Spirostomum ambiguum</i> spontaneous motor activity of a protozoa 1 GHz - continuous for 15 min, 30 min, 45 min, 1h, 2 hr, 3 hr, 4 hr, 6 hr, 8 hr, 10 hr mobile communications, mobile phone, low level microwaves, Radio/TV transmitter
Sarapultseva EI et al. 2011 invertebrate, <i>Spirostomum ambiguum</i> - 1 GHz - continuous for 1 min up to 11 h mobile communications, mobile phone
Sarapultseva EI et al. 2014 invertebrate, <i>Spirostomum ambiguum</i> - 1 GHz - - mobile communications, low level microwaves, radar
Schmid G et al. 2005 human, partial body: head visual perception 1.97 GHz 0.37–0.63 W/kg see add. information UMTS, mobile communications