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 |
---|---|---|---|---|---|---|---|
Maskey D et al. | 2010 | animal, mouse/ICR, whole body | expression of calbindin-D(28k) and calretinin in the mouse hippocampus | 835 MHz | 1.6–4 W/kg | continuous exposure for up to one month (see details) | mobile phone, CDMA, mobile communications |
Maskey D et al. | 2010 | animal, mouse/ICR, whole body | brain damage (expression fo calbindin D28k and GFAP and apoptosis in different hippocampus areas) | 835 MHz | 1.6 W/kg | continuous for 8 hr/day for 3 months | CDMA, mobile communications, RF field |
Maskey D et al. | 2014 | animal, mouse/ICR, whole body | - | 835 MHz | 4 W/kg | - | mobile phone, CDMA, mobile communications, RF field |
Mausset AL et al. | 2001 | animal, rat/Wistar, partial body: head | neurotransmitter/GABA content | 900 MHz | 4–32 W/kg | continuous for 2 h | GSM, mobile communications |
Megha K et al. | 2012 | animal, rat/Fischer 344, whole body | oxidative stress and cytokine production in rat brain, spatial memory and learning | 900 MHz | 0.5835–0.5953 mW/kg | 2 h/day, 5 days a week for 30 days | mobile phone, mobile communications, microwaves |
Meral I et al. | 2007 | animal, guinea pig, whole body | different blood vitamin levels, oxidative stress in the brain | 890–915 MHz | 0.95 W/kg | continuous for 12 h/day (11 h 45 min stand-by mode, 15 min speaking mode) on 30 days | mobile communications, mobile phone, RF field |
Nittby H et al. | 2008 | animal, rat/Fischer 344, whole body | gene expression and gene ontology analysis for cortex and hippocampus | 1,800 MHz | 13–30 mW/kg | continuous for 6 h | mobile communications, digital mobile phone, GSM |
Noor NA et al. | 2011 | animal, rat/albino | amino acid neurotransmitter levels in different brain areas | 900 MHz | 1.165 W/kg | continuous for 1 h/day for up to 4 months | mobile phone, mobile communications |
Prochnow N et al. | 2011 | animal, rat/Wistar albino, partial body: head (brain) | release of stress hormones (corticosterone and ACTH), long-term depression, long-term potentiation | 2 GHz | 2–10 W/kg | continuous for 2 h | mobile phone, UMTS, mobile communications |
Rasouli Mojez M et al. | 2021 | animal, rat/Wistar | - | 900–1,800 MHz | - | - | mobile communications, mobile phone, RF field |
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 |
Sharma A et al. | 2020 | animal, rat/Wistar | - | 1,800 MHz | - | - | mobile communications, RF field |
Shedid SM et al. | 2019 | animal, rat/albino | - | 950 MHz | - | - | mobile communications, co-exposure |
Singh KV et al. | 2020 | animal, rat/Wistar | - | 1,966.1 MHz | - | - | mobile communications, mobile phone, UMTS |
Singh KV et al. | 2022 | animal, rat/ Wistar, whole body | - | 1,964.7 MHz | - | - | mobile communications, mobile phone |
Son Y et al. | 2016 | animal, mouse/transgenic 5xFAD (contains 5 human genes associated with Alzheimer's disease), whole body | memory and beta-amyloid protein metabolism in Alzheimer's disease model mice | 1,950 MHz | 5 W/kg | 2 h/day, 5 days/week for 3 months | mobile phone, UMTS, W-CDMA, mobile communications, RF field |
Son Y et al. | 2018 | - | - | 1,950 MHz | - | - | W-CDMA, mobile communications |
Sowa P et al. | 2018 | animal, rat/ Wistar | - | 900 MHz | - | - | mobile communications, mobile phone |
Tripathi R et al. | 2022 | animal, rat/ Wistar albino | - | 1,760 MHz | - | - | mobile communications, mobile phone, GSM, also other exposures without EMF, co-exposure |
Tripathi R et al. | 2023 | animal, rat/ Wistar albino | - | 1,760 MHz | - | - | mobile communications, mobile phone, GSM, also other exposures without EMF, co-exposure |
Ustunova S et al. | 2022 | animal, rat/Wistar albino | - | 900 MHz | - | - | mobile communications, GSM, mobile phone |
Varghese R et al. | 2018 | animal, rat/Sprague Dawley, whole body | - | - | - | - | mobile communications, mobile phone, 2.45 GHz, W-LAN/WiFi |
Volkow ND et al. | 2011 | human, partial body: left and right ear | brain activity (brain glucose metabolism) | 837.8 MHz | 0.901 W/kg | continuous for 50 min | mobile phone, digital mobile phone, CDMA, mobile communications |
Wardzinski EK et al. | 2022 | human, partial body | - | 900 MHz | - | - | mobile communications, mobile phone, GSM |
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 |
Yahyazadeh A et al. | 2020 | animal, rat/Wistar albino | - | 900 MHz | - | - | mobile communications, RF field |
Zhang JP et al. | 2017 | animal, mouse/C57BL/6, whole body | - | 1.8 GHz | - | - | mobile phone, mobile communications, RF field |
de Seze R et al. | 1998 | human, partial body: ear | serum hormone concentrations, anterior pituitary function | 890–900 MHz | - | repeated daily exposure for 2 h/day, 5 days/week, for 4 weeks | mobile communications, GSM |
Özdemir E et al. | 2021 | animal, rat/Wistar albino | - | - | - | - | mobile communications, mobile phone, LTE |
This website uses cookies to provide you the best browsing experience. By continuing to use this website you accept our use of cookies.