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 |
---|---|---|---|---|---|---|---|
Cao Y et al. | 2009 | intact cell/cell culture, SHG44 cells (human glioma cells) | oxidative stress, cell proliferation, cell cycle distribution, apoptosis | 900 MHz | - | continuous for 2 h/day on 3 days | mobile phone, mobile communications, co-exposure |
Balakrishnan K et al. | 2014 | human | stress marker levels in the blood | - | - | daily mobile phone > 5 hours for 1-5 years | mobile phone, mobile communications |
Silva V et al. | 2016 | intact cell/cell culture, primary human thyroid cells (from normal thyroid tissue) | - | 895–900 MHz | - | - | mobile phone, mobile communications |
Ohtani S et al. | 2016 | - | - | 2.14 GHz | - | - | W-CDMA, mobile communications, RF field |
Bourdineaud JP et al. | 2017 | invertebrate, earthworm (<i>Eisenia fetida</i>) | - | 900 MHz | - | - | mobile communications, mobile phone |
Poque E et al. | 2021 | intact cell/cell culture | - | 1,800 MHz | - | - | GSM, mobile communications, W-LAN/WiFi, CW continuous wave, PW pulsed wave |
Wang Y et al. | 2021 | invertebrate, <i>Drosophila melanogaster</i>, whole body | - | 3.5 GHz | - | - | mobile communications, 5G |
Ushiyama A et al. | 2014 | animal, rat/Sprague-Dawley | - | 2.14 GHz | - | - | W-CDMA, mobile communications, mobile phone |
Migdal P et al. | 2023 | invertebrate, honeybee | - | 900 MHz | - | - | mobile communications, mobile phone, RF field |
Molina-Montenegro MA et al. | 2023 | invertebrate, honey bee (<i>Apis mellifera</i>) and other pollinators | - | - | - | - | mobile communications, mobile phone base station, power transmission line, magnetic field |
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 |
Deshmukh PS et al. | 2015 | animal, rat/Fischer 344, whole body | cognitive function, Hsp70 protein expression and DNA damage in the rat brain | 900 MHz | 0.5853–0.6672 mW/kg | continuous for 2 h/day, 5 days/week for 180 days | mobile communications, microwaves, 2.45 GHz |
Kwee S et al. | 2001 | intact cell/cell culture, transformed human epithelial amnion cells (AMA) | production of heat-shock proteins | 960 MHz | 2.1 mW/kg | continuous for 20 min | GSM, mobile communications, microwaves |
Hirose H et al. | 2007 | intact cell/cell culture, A172 (human glioblastoma cells) and IMR90 fibroblasts (from fetal lungs) | cellular stress response (Hsp27 (heat-shock protein 27) content and hsp27 phosphorylation) | 2.1425 GHz | 80–800 mW/kg | continuous for 2, 24, or 48 h for A172 cells | mobile phone base station, CDMA, mobile communications, microwaves |
Calabro E et al. | 2012 | intact cell/cell culture, SH-SY5Y (human neuroblastoma cell line) | cellular stress response (heat shock protein expression, cell viability and apoptosis) | 1,760 MHz | 0.086 W/kg | continuous for 2 h and 4 h | mobile phone, GSM, mobile communications |
Watilliaux A et al. | 2011 | animal, rat/Wistar, partial body: head (mainly) | stress reaction and glial activation in the immature brain | 1,800 MHz | 0.13–2.5 W/kg | continuous for 2 h on postnatal day 5, 15 or 35 | GSM, mobile communications |
Gurisik E et al. | 2006 | intact cell/cell culture, human neuroblastoma cell line (SK-N-SH) and monocytes cell line (U937) | gene expression, cell viability | 900 MHz | 0.2 W/kg | continuous for 1 or 2 h | digital mobile phone, GSM, mobile communications |
Terro F et al. | 2012 | intact cell/cell culture, primary cerebral cortical cells (neurons and astrocytes) of rat embryos | chaperone-mediated auto-phagocytosis, apoptosis | 900 MHz | 0.25 W/kg | continuous for 24 h | GSM, mobile communications, PW pulsed wave |
Kesari KK et al. | 2014 | animal, rat/ Wistar, whole body | DNA damage, protein expression, apoptosis and oxidative stress in brain | 2,115 MHz | 0.26–0.9 W/kg | continuous for 2 hours/day for 60 days | mobile phone, mobile communications |
Lee JS et al. | 2005 | animal, mouse/<i>hsp</i>70.1-deficient (<i>hsp</i>70.1 -/-) and wild type (<i>hsp</i>70.1 +/+), whole body | stress response (expression of heat shock proteins) | 849 MHz | 0.4 W/kg | twice daily for 45 min with a 15 min interval, 5 days a week for 4, 8 and 10 weeks | CDMA, mobile communications, RF field |
Lim HB et al. | 2005 | blood samples | activation of stress response genes | 900 MHz | 0.4–3.6 W/kg | continuous for 4 hours | GSM, mobile communications |
Lantow M et al. | 2006 | intact cell/cell culture, Mono Mac 6 (human monocytes) and K562 cells (human erythroleukemic cell line) | stress response (production of free radicals and expression of heat shock proteins) | 1,800 MHz | 0.5–2 W/kg | continuous for 45 min | GSM, mobile communications |
Laszlo A et al. | 2005 | intact cell/cell culture, HeLa S3 (human cervical carcinoma cell line); hamster ovary HA-1 fibroblasts; C3H 10T1/2 (mouse fibroblast cells) | stress response (DNA-binding activity of heat-shock factor) | 835.62 MHz | 0.6–5 W/kg | continuous for 5, 15, 30 and 60 min or 24 h | CDMA, FDMA, mobile communications, microwaves |
Yu Y et al. | 2008 | intact cell/cell culture, human lens epithelial cells (HLEC) | protein expression of heat shock proteins, activation (phosphorylation) of mitogen-activated protein kinases | 1.8 GHz | 1 W/kg | up to 2 h | digital mobile phone, GSM, mobile communications |
Lixia S et al. | 2006 | intact cell/cell culture, SRA01/04-hLEC (human eye lens epithelial cells) | comet assay, stress response/gene expression, cell proliferation | 1.8 GHz | 1–3 W/kg | continuous for 2 h | digital mobile phone, GSM, TDMA, mobile communications |
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