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

Health

733 studies in total
  1. 144 studies
  2. 90 studies
  3. 85 studies
  4. 79 studies
  5. 73 studies
  6. 61 studies
  7. 58 studies
  8. 54 studies
  9. 53 studies
  10. 47 studies
  11. 33 studies
  12. 25 studies
  13. 25 studies
  14. 19 studies
  15. 16 studies
  16. 10 studies
  17. 9 studies
  18. 4 studies

Endocrine changes (in general) 53 studies in total

Authors Year Exposed system Endpoints Frequency range SAR Exposure duration Parameters
Yuksel M et al. 2016 - - 900–2,450 MHz - - mobile phone, GSM, mobile communications, W-LAN/WiFi, 2.45 GHz
Jelodar G et al. 2021 - - 900 MHz - - mobile communications, mobile phone base station, RF field
Shahryar HA et al. 2009 animal, Syrian hamster (<i>Mesocricetus auratus</i>) - 900 MHz - - mobile phone, mobile communications
Aghdam Shahryar H et al. 2008 animal, Syrian hamster (<i>Mesocricetus auratus</i>), whole body testosterone and cortisol level 950 MHz - continuous for 1 h/day on 10 or 50 days mobile phone, mobile communications
Pawlak K et al. 2014 animal, chicken embryos (eggs) - 1,800 MHz - - mobile phone, GSM, mobile communications, RF field
Bastide M et al. 2001 animal, chicken embryos (eggs) and chicks, mouse/C57BL/6 j RJ, whole body cancer in mice, hormone levels in chicken and mice, antibody levels in chicken, mortality in chicken embryos 900 MHz - continuous for up to 15 weeks mobile phone, GSM, mobile communications, magnetic field, low frequency, 50/60 Hz, PC/TV monitor, shielding/field deprivation
Wenzel C et al. 2002 animal, cow, whole body salivary cortisol levels as indicator of stress 900 MHz–1.8 GHz - continuous GSM, mobile communications
Seyednour R et al. 2011 animal, golden hamster (<i>Mesocricetus auratus</i>), whole body serum progesterone, cortisol and glucose levels 950 MHz - continuous for 3 h/day for 10 or 50/60 days mobile phone, mobile communications
Qin F et al. 2018 animal, mouse/C57BL/6J - 1,800 MHz - - mobile communications, mobile phone
Shahin S et al. 2017 animal, mouse/Swiss albino - 1,800 MHz - - mobile communications, mobile phone
Mugunthan N et al. 2014 animal, mouse/albino, whole body testis histology and blood testosterone level 900–1,900 MHz 1.69 W/kg intermittent 2 minutes every half an hour (total of 48 minutes per day) for 30 days mobile phone, mobile communications
Karadede B et al. 2009 animal, rabbit/New Zealand - 900 MHz - - mobile communications, mobile phone, GSM, PW pulsed wave
Sarookhani MR et al. 2011 animal, rabbit/New Zealand White, whole body serum levels of testosterone, follicle stimulating hormone and cortisol 950 MHz - 2 h/day for two weeks mobile phone, mobile communications
Azadi Oskouyi E et al. 2015 animal, rabbit/New Zealand, whole body - 850–950 MHz - - mobile phone, mobile communications, FM frequency modulation
Khoshbakht S et al. 2021 animal, rat/ Wistar, whole body - 2,100 MHz - - mobile communications, 4G, LTE, RF field
Mortazavi SM et al. 2016 animal, rat/Sprague Dawley insulin level in the blood and histopathological changes of liver and pancreas 900 MHz 2 W/kg continuous for 6 hours/day for one week mobile phone, GSM, mobile communications
Adam ANI et al. 2008 animal, rat/Sprague Dawley - 900 MHz - - mobile phone, mobile communications, GSM
Song B et al. 2015 animal, rat/Sprague Dawley, whole body - 900 MHz - - mobile communications, microwaves
Sehitoglu I et al. 2015 animal, rat/Sprague-Dawley - 900 MHz - - mobile phone, mobile communications
Yamashita H et al. 2010 animal, rat/Sprague-Dawley, partial body: head serum 17&beta;-estradiol level and estrogenic activity (uterus weight) 1,439 MHz 0.88–6.1 W/kg continuous for 4 hr/day on 3 consecutive days mobile phone, TDMA, mobile communications
Bouji M et al. 2012 animal, rat/Sprague-Dawley, partial body: head astrocyte activation (glial fibrillary acidic protein (GFAP)), pro-inflammatory cytokine expression (interleukin), stress (corticosterone), emotional memory 900 MHz 6 W/kg continuous for 15 min digital mobile phone, GSM, mobile communications, PW pulsed wave
Koyu A et al. 2005 animal, rat/Sprague-Dawley, whole body content of TSH and thyroid hormones 900 MHz 2 W/kg repeated daily exposure, 30 min/day, 5 days/week for 4 weeks mobile communications
Jin YB et al. 2013 animal, rat/Sprague-Dawley, whole body different serum hormone levels 848.5 MHz 4 W/kg continuous 45 min/day, 5 days/week for 4 or 8 weeks mobile phone, CDMA, W-CDMA, mobile communications, co-exposure
Sepehrimanesh M et al. 2014 animal, rat/Sprague-Dawley, whole body effects on the reproductive system, reproductive hormone levels 900 MHz 0.19–1.22 W/kg 1 h/day for 30 consecutive days mobile phone, GSM, mobile communications
Oyewopo AO et al. 2017 animal, rat/Wistar - 900–1,800 MHz - - mobile phone, mobile communications, GSM