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.
| Authors | Year | Exposed system | Endpoints | Frequency range | SAR | Exposure duration | Parameters |
|---|---|---|---|---|---|---|---|
| Kundi M et al. | 2024 | human | - | 1,950 MHz | - | - | mobile communications, mobile phone, UMTS |
| Belyaev IY et al. | 2009 | intact cell/cell culture | genotoxic effects and stress response | 905–915 MHz | 37–40 mW/kg | 1 h | mobile communications, digital mobile phone, GSM, UMTS |
| Gandhi G et al. | 2005 | human, whole body | DNA and chromosome damage | 800–2,000 MHz | 0.59–1.56 W/kg | 1 h - 15 h per day for 1 year to 5 years | mobile phone, GSM, CDMA, mobile communications |
| Hanci H et al. | 2013 | animal, rat/Sprague-Dawley, whole body: <i>in utero</i> | DNA damage in plasma, apoptosis, histopathological changes and oxidative stress in testis | 900 MHz | - | 1 h/day from 13th to 21st day of pregnancy | mobile phone, mobile communications, RF field |
| Trosic I et al. | 2011 | animal, rat/Wistar, whole body | DNA damage | 915 MHz | - | 1 hour/day, 7 days/week for 2 weeks | mobile phone, GSM, mobile communications |
| Deshmukh PS et al. | 2013 | animal, rat/Fischer 344, whole body | DNA damage in the rat brain | 900 MHz | 0.5838–0.6672 mW/kg | 2 h/day, 5 days/week for 30 days | mobile phone, mobile communications, low level microwaves, 2.45 GHz |
| Vijayalaxmi et al. | 2003 | animal, rat/Fischer 344, whole body, partial body: head | formation of micronuclei | 1.6 GHz | 0.077–1.6 W/kg | 2 h/day, 7 days/week,starting on day 19 of gestation and lasting until the offspring reached an age of 3 weeks | IRIDIUM, mobile communications |
| Deshmukh PS et al. | 2016 | animal, rat/Fischer 344, whole body | Hsp70 protein expression and DNA damage, learning and spatial memory | 900 MHz | 0.5835–0.6672 mW/kg | 2 hours/day, 5 days/week for 90 days | mobile communications, mobile phone, microwaves, low level microwaves, W-LAN/WiFi, RF field, CW continuous wave |
| Gandhi G et al. | 2005 | human, whole body, partial body: head | DNA damage (chromosome aberration and micronuclei formation) | - | 0.1–1.92 W/kg | 2.16 hr/day - 16 hr/day for up to 5 years | mobile phone, mobile communications |
| Cain CD et al. | 1997 | intact cell/cell culture, C3H 10T1/2 and UV/TDT10e (10e) cells (mouse fibroblast cells) | <i>in vitro</i> carcinogenesis/focus formation | 836.55 MHz | 0.15–15 µW/g | 20 min on - 20 min off, 24 h/day for 28 days | TDMA, mobile communications, RF field, PW pulsed wave |
| Khalil AM et al. | 2011 | animal, mouse/BALB/c, whole body | DNA damage/oxidative stress (levels of 8-hydroxy-2-deoxyguanosine in serum, brain and spleen) | 900 MHz | 1 W/kg | 30 min/day for 30 days | digital mobile phone, GSM, mobile communications, RF field |
| Syldona M | 2007 | DNA/RNA | DNA conformation | - | - | 5 min | mobile communications, mobile phone |
| Xu S et al. | 2010 | intact cell/cell culture | oxidative DNA damage | 1,800 MHz | 2 W/kg | 5 min on - 10 min off - for 24 hr | mobile phone, GSM, mobile communications, RF field, PW pulsed wave |
| Zhijian C et al. | 2009 | intact cell/cell culture | DNA damage and DNA repair | 1.8 GHz | 2 W/kg | 5 min on - 10 min off, for 24 hr | GSM, mobile communications, RF field, co-exposure |
| Franzellitti S et al. | 2010 | intact cell/cell culture, HTR-8/SVneo (human trophoblast cell line) | DNA damage | 1.8 GHz | 2 W/kg | 5 min on / 10 min off - for 4 hr, 16 hr or 24 hr | digital mobile phone, GSM, mobile communications, AM amplitude modulation, CW continuous wave, PW pulsed wave |
| Sahin D et al. | 2016 | animal, rat/Wistar albino, whole body | oxidative DNA damage in the brain | 2,100 MHz | 0.4 W/kg | 6 h/day on 5 consecutive days/week for 2 weeks | mobile phone, UMTS, mobile communications |
| Suzuki S et al. | 2017 | intact cell/cell culture, sperm cells and oocytes derived from mice (B6D2F1) | fertilization and embryogenesis; chromosome damage | 1,950 MHz | 2 W/kg | 60 minutes | mobile communications, mobile phone, W-CDMA |
| Souza LCM et al. | 2014 | human, partial body | nuclear abnormalities | 850–1,900 MHz | 0.344–1.38 W/kg | > 5 hours mobile phone use per week | mobile phone, mobile communications |
| Gadhia PK et al. | 2003 | blood samples, human | chromosome damage | 890–960 MHz | - | average 1 to 3 or 3 to 5 hours per day for at least 2 years | mobile communications, GSM, FDMA, TDMA |
| Levengood WC | 1987 | invertebrate, <i>Drosophila melanogaster</i> | - | - | - | continuous | digital mobile phone, mobile communications, static magnetic field |
| Schrader T et al. | 2011 | intact cell/cell culture, FC2 cells (human-hamster hybrid (AL)) cells | spindle disturbance | 900 MHz | 10.7–17.2 mW/kg | continuous for 0.5 h | mobile phone, GSM, mobile communications, RF field, electric field, magnetic field |
| Gos P et al. | 2000 | yeast, <i>Saccharomyces cerevisiae</i>/RS112<sup>a</sup>, RSY6 S35/2-10C, WDHY907<sup>b</sup> (ARG+ revertant; <i>CAN1</i> encodes the arginine permease), FY3<sup>c</sup> | mutagenesis and genomic stability (mutation rate and deletions) | 900 MHz | 0.13–1.3 W/kg | continuous for 1 h | GSM, mobile communications, PW pulsed wave |
| Markova E et al. | 2005 | intact cell/cell culture | chromatin conformation, analysis of tumor suppressor p53-binding protein 1 (53BP1) and of phosphorylated histone H2AX (gamma-H2AX) | 905–915 MHz | 37 mW/kg | continuous for 1 h | GSM, mobile communications, microwaves |
| Valbonesi P et al. | 2008 | intact cell/cell culture, HTR-8/SVneo (human trophoblast cell line) | comet assay, gene and protein expression | 1,817 MHz | 2 W/kg | continuous for 1 h | digital mobile phone, GSM, mobile communications |
| Luukkonen J et al. | 2009 | intact cell/cell culture, SH-SY5Y (human neuroblastoma cell line) | DNA damage, production of reactive oxygen species | 872 MHz | 5 W/kg | continuous for 1 h | GSM, mobile communications, RF field, CW continuous wave, co-exposure |
This website uses cookies to provide you the best browsing experience. By continuing to use this website you accept our use of cookies.
