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8.3 Referencesforthereviewoncancerinexperimentalanimals
Adey WR, Byus CV, Cain CD, et al. Spontaneous and nitrosourea-induced primary tumours of the central nervous system in Fischer 344 rats exposed to frequency-modulated microwave fields. Cancer Res. 2000;60: 1857-1863.
Anane R, Dulou PE, Taxile M, et al. Effects of GSM-900 microwaves on DMBA-induced mammary gland tumours in female Sprague-Dawley rats. Radiat Res. 2003; 160:492-497.
Anderson LE, Sheen DM, Wilson BW, et al.Two-year chronic bioassay study of rats exposed to a 1.6 GHz radiofrequency signal. Radiat Res. 2004; 162: 201-210.
Anghileri LJ, Mayayo E, Domingo JL, Thouvenot P. Radiofrequency-induced carcinogen­ esis: cellular calcium homeostasis changes as a triggering factor. Int J Radiat Biol. 2005; 81: 205-209.
Bartsch H, Bartsch C, Seebald E, et al. Chronic exposure to a GSM-like signal (mobile phone) does not stimulate the development of DMBA­ induced mammary tumours in rats: results of three consecutive studies. Radiat Res. 2002; 157: 183-190.
Bartsch H, Kupper H, Scheurlen U, et al. Effect of chronic exposure to a GSM-like signal (mobile phone) on survival of female Sprague-Dawley rats: modula­ tory effects by month of birth and possibly stage of the solar cycle. Neuro Endocrinol Lett. 2010;31: 457-473.
Breuer M, Slebos R, Verbeek S, et al. Very high frequency of lymphoma induction by a chemical carcinogen in pim-1 transgenic mice. Nature. 1989; 340: 61-63.
Chagnaud JL, Moreau JM, Veyret B. No effect of short-term exposure to GSM-modulated low­ power microwaves on benzo(a)pyrene-induced tumours in rat. Int J Radiat Biol. 1999; 75: 1251-1256.
Chou CK, Guy AW, Kunz LL, et al. Long-term, low­ level microwave irradiation of rats. Bioelectromagnetics. 1992; 13:469-496.
Falcioni L, Bua L, Tibaldi E, Lauriola M, et al. Report of final results regarding brain and heart tumours in Sprague-Dawley rats exposed from prenatal life until natural death to mobile phone radiofrequency field representative of a 1.8 GHz GSM base station environmental emission. Environ Res. 2018;165:496- 503.
Frei MR, Berger RE, Dusch SJ, et al. Chronic expo­ sure of cancer-prone mice to low-level 2450 MHz radi­ ofrequency radiation. Bioelectromagnetics. 1998a; 19: 20-31.
Frei MR, Jauchem JR, Dusch SJ, et al. Chronic, low­ level (LO W/kg) exposure of mice prone to mammary cancer to 2450 MHz microwaves. Radiat Res. 1998b; 150: 568-576.
Heikkinen P, Ernst H, Huuskonen H, et al. No effects of radiofrequency radiation on 3-chloro-4- (dichloromethyl)-5-hydroxy-2(5H)-furanone-induced tumourigenesis in female Wistar rats. Radiat Res. 2006; 166: 397-408.
Heikkinen P, Kosma VM, Alhonen L, et al. Effects of mobile phone radiation on UV-induced skin tumourigenesis in ornithine decarboxylase transgenic and non-transgenicmice. IntJ Radiat Biol. 2003; 79: 221-233.
Heikkinen P, Kosma VM, Hongisto T, et al. Effects of mobile phone radiation on X-ray-induced tumourigenesis in mice. Radiat Res. 2001; 156: 775-785.
Hruby R, Neubauer G, Kuster N, Frauscher M Study on potential effects of "902-MHz GSM-type Wireless Communication Signals" on DMBA-induced mammary tumours in Sprague-Dawley rats. Mutat Res. 2008; 649: 34-44.
Huang TQ, Lee JS, Kim TH, et al. Effect of radiofrequency radiation exposure on mouse skin tumourigenesis initiated by 7,12-dimethybenz[alpha]anthracene. Int J Radiat Biol. 2005; 81: 861-867.
IARC, International Agency for Research on Cancer . Monographs on the evaluation of carcinogenic risks to humans, vol 102. Non-ionizing radiation, part II: radiofrequency electromagnetic fields. 2013. Lyon: International Agency for Research on Cancer.
Health impact of 5G

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