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 |
---|---|---|---|---|---|---|---|
Rosado MM et al. | 2014 | animal, mouse/C57BL/6Thy1<sup>b</sup>Igh<sup>b</sup> (wild type B/6), whole body | hematopoietic precursor cell differentiation and proliferation in thymus and spleen (ability of bone marrow precursor cells to colonize lymphoid organs and to differentiate in mature T cells and B lymphocytes) | 900 MHz | 2 W/kg | continuous for 2 h/day and 5 days/week for 4 weeks | GSM, mobile communications |
Salas-Sánchez AA et al. | 2019 | animal, rat/Sprague-Dawley | - | 900 MHz–2.45 GHz | - | - | mobile communications, GSM, 2.45 GHz, RF field |
Siqueira EC et al. | 2016 | human | cytokine expression in parotid gland saliva | - | - | up to 200 minutes per month for up to 10 years | mobile phone, mobile communications |
Taheri M et al. | 2017 | human | - | - | - | - | mobile phone base station, mobile communications |
Tuschl H et al. | 2006 | cell suspensions | functional immune competence of human immune cells | 1,950 MHz | 1 mW/g | intermittent, 5 min on/10 min off for 8 h | GSM, mobile communications |
Yadav H et al. | 2023 | intact cell/cell culture, THP-1 cells (human monocytic leukemia cell line) | - | 2,318 MHz | - | - | mobile communications, mobile phone, 4G |
Yinhui P et al. | 2019 | animal, mouse/BALB/c | - | 1,800–1,900 MHz | - | - | mobile communications, mobile phone, CDMA, LTE |
Zarei S et al. | 2020 | animal, mouse/BALB/c | - | - | - | - | mobile communications, mobile phone, GSM, co-exposure |
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