Study overviews

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.

Experimental studies on mobile communications

1694 studies in total
  1. Health
    736 studies
  2. DNA, proteins, and oxidative stress
    560 studies
  3. Brain
    510 studies
  4. Cells
    220 studies
  5. Other
    204 studies
  6. Cell functions
    118 studies

Cells

220 studies in total
  1. Apoptosis/cell death
    111 studies
  2. Cell proliferation/growth
    81 studies
  3. Cell morphology
    37 studies
  4. Cell cycle
    33 studies
  5. Cell viability
    33 studies
  6. Cell differentiation
    8 studies
  7. Cell orientation
    one study

Cell cycle 33 studies in total

List view
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Authors Year Exposed system Endpoints Frequency range SAR Exposure duration Parameters
Authors Year Exposed system Endpoints Frequency range SAR Exposure duration Parameters
Lee KY et al. 2011 intact cell/cell culture, MCF-7 (human breast cancer cell line) cell cycle distribution and its regulatory proteins 837 MHz 0.105–0.262 W/kg continuous for 1 h either CDMA (4 W/kg) alone or simultaneously CDMA (2 W/kg) and WCDMA (2 W/kg) CDMA, W-CDMA, mobile communications, RF field, co-exposure
Higashikubo R et al. 2001 intact cell/cell culture, C3H 10T1/2 cells (derived from mouse embryo fibroblasts) and U87MG (human glioblastoma cells) cell cycle progression 835.62 MHz 0.6 W/kg continuous for up to 13 h or up to 100 h CDMA, mobile communications
Antonopoulos A et al. 1997 human blood samples cell cycle progression 380 MHz 80–1,700 mW/kg 48 h, 52 h, 56 h, 64 h and 68 h GSM, TETRA/TETRAPOL, mobile communications
Zeni O et al. 2003 intact cell/cell culture incidence of micronuclei, cell cycle kinetics 900 MHz 0.2–1.6 W/kg intermittent; 6 min on/3 h off, 14 on/off cycles of exposure, altogether 44 h GSM, mobile communications
Czyz J et al. 2004 intact cell/cell culture, pluripotent R1 embryonic stem cells, wild-type D3 and p53-deficient; embryonic carcinoma cells of line P19 gene expression, cell differentiation, cell cycle phase, and proliferation 1.71 GHz 0.4–16 W/kg intermittent, 5/30 min On/Off cycles for 6 or 48 hours GSM, mobile communications
Capri M et al. 2004 intact cell/cell culture mitochondrial functionality, proliferation; cell cycle progression; spontaneous/induced apoptosis 900 MHz 70–76 mW/kg repeated daily exposure, 1 h/day during 48 h or 72 h of culture GSM, mobile communications
Scarfi MR et al. 2006 intact cell/cell culture DNA damage (micronucleus formation), cell cycle kinetic 900 MHz 1–10 W/kg continuous for 24 h GSM, mobile communications
Lantow M et al. 2006 intact cell/cell culture, Mono Mac 6 cells (human monocytes) cell cycle (cell cycle phase, proliferation, apoptosis, necrosis) 1,800 MHz 2 W/kg continuous for 12 h GSM, mobile communications
Nikolova T et al. 2005 intact cell/cell culture, ES R1 cells (mouse embryonic stem cells) different effects (e.g. different transcript levels, genotoxicity, proliferation, apoptosis, cytotoxicity, mitochondrial function) 50 Hz–1.25 kHz 1.5 W/kg intermittent, 5 min on/30 min off, for 6 h and 48 h GSM, mobile communications, 50/60 Hz, power transmission line
Choi J et al. 2020 intact cell/cell culture - 1.7 GHz - - LTE, mobile communications