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 |
---|---|---|---|---|---|---|---|
Wang H et al. | 2023 | animal, rat/ Wistar | - | 1.5 GHz | - | - | mobile communications, microwaves |
Vecsei Z et al. | 2018 | human | - | 1,750–1,947 MHz | - | - | mobile communications, mobile phone, LTE, UMTS |
Hinrichs H et al. | 2006 | human, partial body: head, ear | EEG | 1,800 MHz | 0.61–2.28 W/kg | intermittent, 4 min on/3.5 min off, for each condition | digital mobile phone, GSM, mobile communications, CW continuous wave, PW pulsed wave |
Nanou E et al. | 2009 | human, partial body: right ear | EEG | 1,800 MHz | - | continuous for 45 min | mobile phone, mobile communications, RF field |
Occelli F et al. | 2018 | animal, rat/Wistar, partial body | - | 1,800 MHz | - | - | GSM, mobile communications, RF field |
Souffi S et al. | 2022 | animal, rat/Wistar, partial body | - | 1,800 MHz | - | - | LTE, mobile communications |
Orlacchio R et al. | 2022 | animal, mouse/C57BL/6 | - | 1.8 GHz | - | - | mobile communications, GSM, mobile phone, CW continuous wave |
Hinrichs H et al. | 2004 | human, partial body: head (left ear) | neural activity during retrieval task | 1.87 GHz | 0.61–1.14 W/kg | continuous for 30 min | GSM, mobile communications |
Roggeveen S et al. | 2015 | human, partial body: ear or chest | event related potentials in the EEG | 1.9291–1.9397 GHz | 0.69 W/kg | - | mobile phone, UMTS, mobile communications |
Roggeveen S et al. | 2015 | human, partial body: ear or chest | changes in the EEG | 1.9291–1.9397 GHz | 0.69 W/kg | continuous for 15 minutes | mobile phone, UMTS, mobile communications |
Trunk A et al. | 2013 | human, partial body: head | - | 1,947 MHz | 1.75–3.75 W/kg | continuous for 30 min | digital mobile phone, UMTS, mobile communications |
Nakatani-Enomoto S et al. | 2020 | human | - | 1,950 MHz | - | - | mobile communications, mobile phone, LTE, RF field |
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 |
Bhangari DS et al. | 2018 | human, partial body | - | 2–10 GHz | - | - | mobile communications, mobile phone |
Hidisoglu E et al. | 2016 | animal, rat/Wistar albino, partial body: head | visual evoked potentials and oxidative stress in the brain | 2,100 MHz | 0.57–0.95 W/kg | 2 hours/day for 7 days | GSM, mobile communications, RF field |
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 |
Hidisoglu E et al. | 2018 | animal, rat/Wistar albino | - | 2.1 GHz | - | - | GSM, mobile communications, RF field |
Lv B et al. | 2014 | human, partial body: right ear | resting state brain activity | 2.573 GHz | 0.9–2.36 W/kg | continuous for 30 minutes | mobile phone, LTE, mobile communications |
Lv B et al. | 2014 | human, partial body: right ear | neural synchronization in the brain | 2.573 GHz | - | continuous for 30 min | mobile phone, LTE, mobile communications |
Lv B et al. | 2015 | - | - | 2.573 GHz | - | - | LTE, mobile communications |
Yang L et al. | 2021 | human | - | 2.573 GHz | - | - | mobile communications, mobile phone, LTE, 4G |
Yang L et al. | 2022 | human, partial body | - | 2.573 GHz | - | - | 4G, mobile communications, mobile phone, LTE |
Yang L et al. | 2017 | human, partial body: right ear | resting EEG | 2.61 GHz | 1.34–1.96 W/kg | continuous for 30 minutes | mobile phone, LTE, mobile communications |
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