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

1696 studies in total
  1. Health
    738 studies
  2. DNA, proteins, and oxidative stress
    561 studies
  3. Brain
    511 studies
  4. Cells
    220 studies
  5. Other
    204 studies
  6. Cell functions
    118 studies

Health

738 studies in total
  1. Effects on testis/sperms, fertility
    147 studies
  2. Organ parameter
    91 studies
  3. Blood parameter
    85 studies
  4. Behavior
    80 studies
  5. Effects on embryo/fetus
    73 studies
  6. Effects on the auditory system
    61 studies
  7. Heart rate/blood pressure
    58 studies
  8. Hypersensitivity/well-being/subjective complaints
    54 studies
  9. Endocrine changes (in general)
    53 studies
  10. Cancer
    47 studies
  11. Effects on the immune system
    33 studies
  12. Thermoregulation
    26 studies
  13. Effects on skin
    25 studies
  14. Endocrine changes (melatonin)
    19 studies
  15. Effects on bones (bone cells)
    16 studies
  16. Effects on eyes
    10 studies
  17. Effects on nerves (not CNS)
    9 studies
  18. Effects on the musculoskeletal system
    4 studies

Effects on the auditory system 61 studies in total

List view
10 25 50
Authors Year Exposed system Endpoints Frequency range SAR Exposure duration Parameters
Authors Year Exposed system Endpoints Frequency range SAR Exposure duration Parameters
Bhargava S et al. 2012 human, partial body: head - - - group I: ≥ 2 h/day for ≥ 3 years ; group II: ≤ 2 h/day for ≥ 3 years mobile phone, GSM, CDMA, mobile communications
Alsanosi AA et al. 2013 human - 850–1,900 MHz - - mobile phone, mobile communications
de Souza FT et al. 2014 human, partial body - - - - mobile phone, mobile communications
Ozgur A et al. 2015 - - 1,800 MHz - - mobile phone, mobile communications
Budak GG et al. 2009 animal, rabbit/New Zealand White - 1,800 MHz - - mobile communications, GSM, PW pulsed wave
Das S et al. 2017 human - - - - mobile phone, mobile communications, GSM, RF field
Akdag M et al. 2018 human - - - - mobile communications, mobile phone
Kim JH et al. 2019 animal, mouse/ICR - 1,850 MHz - - mobile communications
Yorgancilar E et al. 2012 animal, rat/Wistar albino - 900 MHz - - mobile communications, mobile phone, GSM
Jadia S et al. 2019 human - - - - mobile communications, mobile phone
Er H et al. 2020 animal, rat/ Wistar albino - 900 MHz - - mobile phone, mobile communications, GSM, RF field
Kacprzyk A et al. 2020 human - 2,100 MHz - - mobile communications, mobile phone
Kaprana AE et al. 2021 animal, rabbit/New Zealand - 1,800 MHz - - mobile communications, mobile phone, GSM
Nayak S et al. 2022 human - - - - mobile communications, mobile phone, GSM
Mohan M et al. 2016 human - - - - mobile communications, mobile phone, GSM
Tümkaya L et al. 2022 animal, rat/Sprague Dawley (embryo) - 900 MHz - - mobile communications, mobile phone
Stefanics G et al. 2008 human, partial body: ear EEG - 0.39–3.75 W/kg continuous for 20 min mobile phone, UMTS, mobile communications
Gupta N et al. 2015 human acoustic evoked brainstem potentials - - cumulative mobile phone use of <60 minutes/day for 1-5 years mobile phone, GSM, mobile communications
Bamiou DE et al. 2008 human, partial body: ear (each side) audiovestibular function (outer hair cell function and vestibulo-ocular reflex) 882 MHz 1.3 W/kg continuous for 30 min mobile communications, GSM, CW continuous wave, PW pulsed wave
Parazzini M et al. 2007 human, partial body: ear auditory function 900 MHz 0.19–0.41 W/kg continuous for 10 min digital mobile phone, GSM, mobile communications
Stefanics G et al. 2007 human, partial body: head auditory function 900 MHz 0.41 W/kg continuous for 10 min digital mobile phone, GSM, mobile communications, mobile phone
Bhagat S et al. 2016 human auditory function - - &le; 1 hour/day for at least 4 years mobile phone, mobile communications
Çeliker M et al. 2017 animal, rat/Wistar albino, whole body auditory system 2,100 MHz - continuous for 30 days mobile phone, GSM, mobile communications
Mora R et al. 2006 human, partial body: head (left ear and left retroauricular mastoid area) auditory system/hearing 900–1,800 MHz - intermittent, see add. information digital mobile phone, GSM, mobile communications, mobile phone, microwaves
Sievert U et al. 2004 various model materials and human temporal bone, human, partial body: head (ear) biological effects on the inner ear (vestibular and auditory system) 889.6 MHz 0.77–1.25 W/kg continuous for about 1, 2, or 3 min per ear depending on the examination GSM, mobile communications
Sievert U et al. 2007 various model materials and human temporal bone, human, partial body: head (ear) biological effects on the inner ear (vestibular and auditory system) 889.6 MHz 1.9–1.93 mW/g repeated exposure for about 2 or 9 min per ear, depending on the examination, with a 3-min interval between registrations digital mobile phone, GSM, mobile communications
Kellenyi L et al. 1999 human, partial body: head changes on auditory system - - continuous for 15 min GSM, mobile communications
Bak M et al. 2003 human, partial body: head changes on auditory system (auditory brainstem response) 450 MHz - intermittent, 4 times/min with 1 s break, for 20 min per ear mobile communications, mobile phone
Janssen T et al. 2005 human, partial body: head (ear) cochlea's outer hair cell function 900 MHz 0.1 W/kg intermittent, 3 min on/off=sham, for 24 min GSM, mobile communications
Galloni P et al. 2005 animal, rat/Sprague-Dawley, partial body: right ear cochlea's outer hair cell function 900 MHz 2 W/kg repeated daily exposure, 2 h/day, 5 days/week for 4 weeks GSM, mobile communications
Paglialonga A et al. 2007 human, partial body: head cochlear function (transient evoked otoacoustic emissions) 900 MHz 0.19–0.41 W/kg continuous for 10 min digital mobile phone, GSM, mobile communications
Galloni P et al. 2005 animal, rat/Sprague-Dawley, whole body, partial body cochlear functionality 900 MHz 1–2 W/kg repeated daily exposure for 3 h per day for 5 days GSM, mobile communications
Parazzini M et al. 2007 animal, rat/Sprague-Dawley, partial body: head/ear cochlear functionality 900 MHz 4 W/kg repeated daily exposure, 2 h/day, 5 days/week, for 4 weeks mobile phone, GSM, mobile communications, microwaves
Monnery PM et al. 2004 human, partial body: ear cochlear outer hair cell function 900 MHz–1.8 GHz - - GSM, mobile communications
Monfrecola G et al. 2003 human, partial body: ear cutaneous blood flow in ear skin 300 MHz–300 GHz - 6 phases of 4 min each, see add. information GSM, mobile communications, mobile phone
Kwon MS et al. 2010 human, partial body: ear (left and right) effects on auditory system (auditory brainstem response) 902.4 MHz 0.82–1.14 W/kg 5 min sessions for 1 h digital mobile phone, GSM, mobile communications
Kaprana AE et al. 2011 animal, rabbit/New Zealand, partial body: ear effects on auditory system (auditory brainstem response) 903 MHz - continuous for 60 min mobile phone, GSM, mobile communications, CW continuous wave
Colletti V et al. 2011 human, partial body: cranium (craniotomy area) effects on auditory system: cochlear nerve bioelectrical activity 900 MHz 0.82 W/kg continuous for 5 min (active call) mobile phone, mobile communications
Mandala M et al. 2014 human, partial body: cranium (craniotomy area) effects on auditory system: cochlear nerve bioelectrical activity 900 MHz 0.82 W/kg continuous for 5 min mobile phone, mobile communications, Bluetooth
Budak GG et al. 2009 animal, rabbit/New Zealand, whole body effects on auditory system: effects on cochlear functions 1,800 MHz - continuous for 15 min/day on 7 days mobile communications, digital mobile phone, GSM, PW pulsed wave
Budak GG et al. 2009 animal, rabbit/New Zealand White, whole body effects on auditory system: effects on cochlear functions 1,800 MHz - continuous for 15 min/day on 7 days mobile phone, GSM, mobile communications, microwaves
Budak GG et al. 2009 animal, rabbit/New Zealand, whole body effects on cochlear functions 1,800 MHz - 15 min/day for 14 days from 1 month of age mobile communications, GSM
Sievert U et al. 2005 human, partial body: ear effects on ear (cochlea and brain stem) 889.6 MHz 1.9–1.93 mW/g intermittent, 3 min on/off, see "add. information" GSM, mobile communications
Pau HW et al. 2005 human, partial body: ear effects on ear (vestibular organ) 889.6 MHz 1.9–1.93 mW/g - GSM, mobile communications
Parazzini M et al. 2009 human, partial body: ear effects on ear: auditory function 1,947 MHz 69 mW/kg continuous for 20 min digital mobile phone, UMTS, mobile communications
Parazzini M et al. 2010 human, partial body: ear effects on ear: auditory function 1,947 MHz 1.75–3.75 W/kg continuous for 20 min mobile phone, digital mobile phone, UMTS, mobile communications
Galloni P et al. 2009 animal, rat/Sprague-Dawley, partial body: right ear effects on ear: cochlear outer hair cells functionality 1,946 MHz 10 W/kg 2 h/day, 5 days/week for 4 weeks mobile phone, UMTS, mobile communications
Kerekhanjanarong V et al. 2005 human, partial body: ear effects on ear: hearing level, otoacoustic emissions (TEOAE, DPOAE), auditory brain stem response, comparison of effects for the dominant and non-dominant side (every person has, similarly to the hand, a dominant hearing side) - - - mobile phone, GSM, mobile communications, not extractable
Goldwein O et al. 2010 human, partial body: ear effects on ear: parotid gland secretion and protein concentration in saliva - - - mobile phone, mobile communications, not extractable
de Seze R et al. 2001 human, partial body: head (left or right side) effects on nervous system, auditory system, and endocrine system 900 MHz - continuous for 1 h mobile communications, digital mobile phone, GSM, microwaves