1Wertheimer N, Leeper E (1982) Adult cancer related to electrical wires near the home. Int J Epidemiol 11: 345-355.
2Poole C, Trichopoulis D (1991) Extremely low-frequency magnetic fields and cancer. Cancer Causes Control 2: 267-276.
3Adey W R (1987) Evidence for tissue interactions with microwave and other nonionizing electromagnetic fields in cancer promotion. In Fiala J and Pokorny J (eds). Biophysical Aspects of Cancer. Charles University. Prague.
4Draper G, Vincent T, Kroll M E, Swanson J (2005) Childhood cancer in relation to distance from high voltage power lines in England and Wales: a case controlled study. BMJ 330: 1290-1295.
5Baris D, Armstrong B G, Deadman J, Theriault G (1996) A mortality study of electrical utility workers in Quebec. Occupational and Environmental Medicine 53: 25-31.
6Desai NR, Kesari KK, Agarwal A (2009) Pathophysiology of cell phone radiation: oxidative stress and carcinogenesis with focus on male reproductive system. Reprod Biol Endocrinol 7:114.
7Sepehrimanesh M, Davis DL. Proteomic impacts of electromagnetic fields on the male reproductive system. Comp Clin Path [Internet]. Springer London 26: 309-313.
8Sajeda S, Al-Watter Y (2011) Effect of mobile phone usage on semen analysis in infertile men. Tikrit J Pharm Sci 7: 77–82.
9Agarwal A, Deepinder F, Sharma RK, Ranga G, Li J (2008) Effect of cell phone usage on semen analysis in men attending infertility clinic: an observational study. Fertil Steril 89: 124–128.
10Sadetzki S, Chetrit A, Jarus-Hakak A, Cardis E, Deutch Y, et al. ( 2008) Cellular Phone Use and Risk of Benign and Malignant Parotid Gland Tumors—A Nationwide Case-Control Study. Am J Epidemiol 167: 457-467.
11Erogul O, Oztas E, Yildirim I, Kir T, Aydur E, et al. (2006) Effects of electromagnetic radiation from a cellular phone on human sperm motility: An in vitro study. Arch Med Res 37: 840–843.
12Agarwal A, Desai NR, Makker K, Varghese A, Mouradi R, et al. (2009) Effects of radiofrequency electromagnetic waves (RF-EMW) from cellular phones on human ejaculated semen: an in vitro pilot study. Fertil Steril 92: 1318–1325.
13Ahmed L, Baig NM (2011) Mobile phone RF-EMW exposure to human spermatozoa: an in vitro study. Pak J Zool 43: 1147–1154.
14De Iuliis G, Newey R, King B, Aitken R (2009) Mobile phone radiation induces reactive oxygen species production and DNA damage in human spermatozoa in vitro. PLoS One 4:e6446.
15Gandhi G, Singh P (2005) Mobile phone users: Another high health risk group. J Hum Ecol 18: 85-92.
16Salford L, Brun A E, Eberhardt J L, Malmgren L, Persson B R (2003) "Nerve Cell Damage in Mammalian Brain After Exposure to Microwaves from GSM Phones." Environmental Health Perspectives. 111: 881-883.
17Lahkola A, Auvinen A, Raitanen J, Schoemaker M J, Christensen H C, et al. (2007) Mobile phone use and the risk of glioma in 5 North European Countries. Int J Cancer 120: 1769-1775.
18Khurana V (2008) International Journal of Oncology 22: 399-407.
19Lahkola A, Auvinen A, Raitanen J, Schoemaker M J, Christensen H C, et al. ( 2007) Mobile phone use and the risk of glioma in 5 North European Countries. Int J Cancer 120: 1769-1775.
20Morgan L L (2008) Interphone Brain Tumors Studies To Date: An Examination of Poor Study Design Resulting in an UNDER-ESTIMATION of the Risk of Brain Tumors. BEMS, San Diego.
21Morgan L L (2008) Interphone Brain Tumors Studies To Date: An Examination of Poor Study Design Resulting in an UNDER-ESTIMATION of the Risk of Brain Tumors. BEMS, San Diego.
22N.J. Abbott, A.A. Patabendige, D.E. Dolman, S.R. Yusof, D.J (2010) Begley Structure and function of the blood-brain barrier Neurobiol. Dis 37: 13-25.
23Zenaro E, Piacentino G, Constantin G (2017) The blood-brain barrier in Alzheimer's disease. Neurobiol Dis 107: 41-56.
24Stam R (2010) Electromagnetic fields and the blood-brain barrier, Brain Res Rev 65: 80-97.
25Aalto S, Haarala C, Brück A, Sipilä H, Hämäläinen H, et al. (2006) Mobile phone affects cerebral blood flow in humans. Journal of Cerebral Blood Flow & Metabolism 26: 885–890.
26Stam R. (2010) Electromagnetic fields and the blood-brain barrier. Brain Res Rev 65: 80-97.
27Salford L G, Brun A, Sturesson K, Eberhardt J L, Persson B R (1994) Permeability of the blood-brain barrier induced by 915 MHz electromagnetic radiation, continuous wave and modulated at 8, 16, 50, and 200 Hz. Microsc Res Tech 27: 535-542.
28Salford L, Brun A E, Eberhardt J L, Malmgren L , Persson B R (2003) "Nerve Cell Damage in Mammalian Brain After Exposure to Microwaves from GSM Phones." Environmental Health Perspectives 111: 881-883.
29Schirmacher A, Winters S, Fischer S, Goeke J, Galla HJ, et al. (2000) Electromagnetic fields (1.8 GHz) increase the permeability to sucrose of the blood-brain barrier in vitro. Bioelectromagnetics 21: 338-345.
30Poulletier de Gannes F, Masuda H, Billaudel B, Poque-Haro E, Hurtier A, et al. (2017) Effects of GSM and UMTS mobile telephony signals on neuron degeneration and blood-brain barrier permeation in the rat brain. .Sci Rep 7: 15496.
31Nittby H, Grafström G, Eberhardt JL, Malmgren L, Brun A, et al. (2008) Salford LG.Radiofrequency and extremely low-frequency electromagnetic field effects on the blood-brain barrier. Electromagn Biol Med. 27: 103-126.
32Nittby H, Brun A, Eberhardt J, Malmgren L, Persson BR, et al. (2009) Increased blood-brain barrier permeability in mammalian brain 7 days after exposure to the radiation from a GSM-900 mobile phone. Pathophysiology. 16: 103-112.
33Sırav B, Seyhan N (2009) Blood-Brain Barrier Disruption by Continuous Wave Radio Frequency Radiation, Electromagnetic Biology and Medicine 27.
34Sirav B, Seyhan N (2016) Effects of GSM modulated radio-frequency electromagnetic radiation on permeability of blood-brain barrier in male and female rats. J Chem Neuroanat 75: 123.
35Nawashiro H, Shima K, Chigasaki H (1994) Blood-brain barrier, cerebral blood flow, and cerebral plasma volume immediately after head injury in the rat. Acta Neurochir Suppl (Wien) 60: 440-442.
36Jingtao J, Sato S• Yamanaka N (1999) Changes in cerebral blood flow and blood brain barrier in the gerbil hippocampal CA1 region following repeated brief cerebral ischemia. Med Electron Microsc 32: 175-183.
37Litovitz T A, Krause D, Montrose C J, Mullins J M (1994) Temporally incoherent magnetic fields mitigate the response of biological systems to temporally coherent magnetic fields. Bioelectromagnetics 15: 399-409.
38Litovitz T A, Penafiel L M, Farrel J M, Krause D, Meister R, et al. (1997) Bioeffects induced by exposure to microwaves are mitigated by superposition of ELF noise. Bioelectromagnetics 18: 422-430.
39Litovitz T A, Montrose C J, Doinov P, Brown K M, Barber M (1994) Superimposing spatially coherent electromagnetic noise inhibits field-induced abnormalities in developing chick embryos. Bioeletromagnetics 15: 105-113.
40Litovitz T.A, Penafiel L.M, Farrel J.M, Krause D, et al. (1997) Bioeffects induced by exposure to microwaves are mitigated by superposition of ELF noise. Bioelectromagnetics 18: 422-430.
41Wu W, Yao K, Wang K J, Lu D Q, He J L, et al. (2008) Blocking 1800 MHz mobile phone radiation-induced reactive oxygen species production and DNA damage in lens epithelial cells by noise magnetic fields. Zhejiang Da Xue Xue Bao Yi Xue Ban 37: .34-38.
42Yao K, et al. (2008) “Electromagnetic noise inhibits radiofrequency radiation-induced DNA damage and reactive oxygen species increase in human lens epithelial cells”. Molecular Vision 14: 964-969.
43(2006) Smirnov I V. Polymer Material Providing Compatibility between Technologically Originated EMR and Biological Systems. Explore Magazine 4: 26-32.
44(2002) Smirnov I V. Electromagnetic Radiation Optimum Neutralizer. Explore Magazine 11: 45-50.
45Fisher H W, Pisarek S, Smirnov I V (2008) The Beneficial Effect of MRET-Shield on Blood Morphology in Vitro Following the Exposure to Electromagnetic Radiation of Cell Phone. Explore Magazine.
46Fisher H W, Gauvin C, Pisarek S (2010) Darkfield Microscopic Evaluation of the Noise Field Polymer on the Reduction of Live Blood Effects Caused by Radio Frequency Radiation. Explore magazine 19: 3.
47Fisher H W. Pisarek S, Smirnov I V (2009) Thermographic Evaluation of the MRET-Shield Polymer on the Reduction of Thermal Effects Caused by Radio Frequency Radiation. Explore Magazine 18: 14-17.
48Fisher H W, Gauvin C, Pisarek S (2009) The Effect of Radio Frequency Radiation (RFR) from Cell Phone Usage on In Vitro Human Astrocyte Cells (Glial Cells) and the Subsequent Intervention of the MRET Polymer on RFR Effects. Explore Magazine 18-24.
49Smirnov I V (2009) Synopsis: Exposure of Normal Human Astrocytes Cells to Mobile Phone Radiation with and without MRET-Nylon Protection. Global Quantech, Inc.
50Smirnov I.V. (2011) The Passive Generation of Low Frequency Noise Field by MRET-Shield Polymer Compound and Following Amplitude Modulation of RF Carrier Signals. International Journal of Biophysics 1: 1-10.
51https://www.spectratech.co.jp/En/product/productOegSpo2En.html
52Treado P. J, Levin I. W, Lewis E. N (1992) "Near-Infrared Acousto-Optic Filtered Spectroscopic Microscopy: A Solid-State Approach to Chemical Imaging". Applied Spectroscopy 46: 553–559.
53Nawashiro H, Shima K, Chigasaki H (1994) Blood-brain barrier, cerebral blood flow, and cerebral plasma volume immediately after head injury in the rat. Acta Neurochir Suppl (Wien) 60: 440-442.
54Jingtao J, Sato S, Yamanaka N (1999) Changes in cerebral blood flow and blood brain barrier in the gerbil hippocampal CA1 region following repeated brief cerebral ischemia. Med Electron Microsc 32: 175-183.
55Stam R. (2010) Electromagnetic fields and the blood-brain barrier. Brain Res Rev 65: 80-97.
56Salford L G, Brun A, Sturesson K, Eberhardt J L, Persson B R, et al. (1994) Permeability of the blood-brain barrier induced by 915 MHz electromagnetic radiation, continuous wave and modulated at 8, 16, 50, and 200 Hz. Microsc Res Tech. 27: 535-542.
57Salford L, Brun A E, Eberhardt J L, Malmgren L , Persson B R (2003) "Nerve Cell Damage in Mammalian Brain After Exposure to Microwaves from GSM Phones." Environmental Health Perspectives. 111: 881-883.
58Schirmacher A, Winters S, Fischer S, Goeke J, Galla HJ, Kullnick U (2000) Electromagnetic fields (1.8 GHz) increase the permeability to sucrose of the blood-brain barrier in vitro. Bioelectromagnetics. 21: 338-345.
59Poulletier de Gannes F, Masuda H, Billaudel B, Poque-Haro E, Hurtier A, et al. (2017) Effects of GSM and UMTS mobile telephony signals on neuron degeneration and blood-brain barrier permeation in the rat brain. .Sci Rep 7: 15496.
60Nittby H, Grafström G, Eberhardt JL, Malmgren L, Brun A, et
al. (2008) Salford LG.Radiofrequency and extremely low-frequency
electromagnetic field effects on the blood-brain barrier. Electromagn
Biol Med 27: 103-126.
61Nittby H, Brun A, Eberhardt J, Malmgren L, Persson BR, et al.
(2009) Increased blood-brain barrier permeability in mammalian
brain 7 days after exposure to the radiation from a GSM-900 mobile
phone. Pathophysiology 16: 103-112.
62Sırav B, Seyhan N (2009) Blood-Brain Barrier Disruption by Continuous
Wave Radio Frequency Radiation, Electromagnetic Biology
and Medicine 27.
63Sirav B, Seyhan N (2016) Effects of GSM modulated radio-frequency
electromagnetic radiation on permeability of blood-brain
barrier in male and female rats. J Chem Neuroanat 75: 123.
64Li C, Jiang H, Fu Y (1998) A study on dose-effect of suppression
to gap junctional intercellular communication function by 50-Hz
magnetic fields]Zhonghua Yu Fang Yi Xue Za Zhi 32: 142-144.
65Zeng Q, Chiang H, Fu Y, Lu D, Xu Z Electromagnetic noise blocks
the gap-junctional intercellular communication suppression induced
by 50 Hz magnetic field]
66Zhonghua Lao Dong Wei Sheng Zhi Ye Bing Za Zhi (2002) 20:
243-245.
67Litovitz T A, Montrose C J, Doinov P, Brown K M, Barber M
(1994) Superimposing spatially coherent electromagnetic noise inhibits
field-induced abnormalities in developing chick embryos. Bioeletromagnetics
15: 105-113.
68Litovitz T A, Penafiel L M, Farrel J M, Krause D, Meister R, et al.
(1997) Bioeffects induced by exposure to microwaves are mitigated
by superposition of ELF noise. Bioelectromagnetics 18: 422-430.
69Litovitz T A, Krause D, Montrose C J, Mullins J M (1994) Temporally
incoherent magnetic fields mitigate the response of biological
systems to temporally coherent magnetic fields. Bioelectromagnetics
15: 399-409.
70Yao K, Wu W, Wang K, Ni S, Ye P, et al. (2008) Electromagnetic
noise inhibits radiofrequency radiation-induced DNA damage and
reactive oxygen species increase in human lens epithelial cells. Mol
Vis 14: 964-969.
71Yao K, Wu W, Yu Y, Zeng Q, He J, et al. (2008) Effect of superposed
electromagnetic noise on DNA damage of lens epithelial cells
induced by microwave radiation. Invest Ophthalmol Vis Sci 49:
2009-2015.
72Wu W, Yao K, Wang K J, Lu D Q, He J L, et al. (2008) Blocking
1800 MHz mobile phone radiation-induced reactive oxygen species
production and DNA damage in lens epithelial cells by noise magnetic
fields. Zhejiang Da Xue Xue Bao Yi Xue Ban 37: 34-38.
73Li C, Jiang H, Fu Y (1998) A study on dose-effect of suppression
to gap junctional intercellular communication function by 50-Hz
magnetic fields] Zhonghua Yu Fang Yi Xue Za Zhi 32: 142-144.
74Zeng Q, Chiang H, Fu Y, Lu D, Xu Z (2002) Electromagnetic
noise blocks the gap-junctional intercellular communication suppression
induced by 50 Hz magnetic field] Zhonghua Lao Dong Wei
Sheng Zhi Ye Bing Za Zhi 20: 243-245.
75Litovitz T A, Montrose C J, Doinov P, Brown K M, Barber M
(1994) Superimposing spatially coherent electromagnetic noise inhibits
field-induced abnormalities in developing chick embryos. Bioeletromagnetics
15: 105-113.
76Smirnov IV (2006) Polymer Material Providing Compatibility
between Technologically Originated EMR and Biological Systems.
Explore Magazine 4: 26-32.
77Fisher H W, Pisarek S, Smirnov IV (2008) The Beneficial Effect of
MRET-Shield on Blood Morphology in vitro Following the Exposure
to Electromagnetic Radiation of Cell Phone. Explore Magazine 17.
78Stam R (2010) Electromagnetic fields and the blood-brain barrier,
Brain Res Rev 65: 80-97.
79Zenaro E, Piacentino G, Constantin G (2017) The blood-brain
barrier in Alzheimer's disease. Neurobiol Dis 107: 41-56.
80Salford L G, Brun A, Sturesson K, Eberhardt J L, Persson B R
(1994) Permeability of the blood-brain barrier induced by 915 MHz
electromagnetic radiation, continuous wave and modulated at 8, 16,
50, and 200 Hz. Microsc Res Tech 27: 535-542.
81Salford L, Brun A E, Eberhardt J L, Malmgren L, Persson B R
(2003) "Nerve Cell Damage in Mammalian Brain After Exposure to
Microwaves from GSM Phones." Environmental Health Perspectives
111: 881-883.
82Schirmacher A, Winters S, Fischer S, Goeke J, Galla HJ (2000)
Electromagnetic fields (1.8 GHz) increase the permeability to sucrose
of the blood-brain barrier in vitro. Bioelectromagnetics 21:338-345.
83Poulletier de Gannes F, Masuda H, Billaudel B, Poque-Haro E,
et al. (2017) Effects of GSM and UMTS mobile telephony signals on
neuron degeneration and blood-brain barrier permeation in the rat
brain. .Sci Rep 7: 15496.
84Nittby H, Grafström G, Eberhardt JL, Malmgren L, Brun A, et
al (2008) Radiofrequency and extremely low-frequency electromagnetic
field effects on the blood-brain barrier. Electromagn Biol Med
27: 103-126.
85Nittby H, Brun A, Eberhardt J, Malmgren L, Persson BR,et al.
(2009).Increased blood-brain barrier permeability in mammalian
brain 7 days after exposure to the radiation from a GSM-900 mobile
phone.Pathophysiology 16: 103-112.
86Salford L G, Brun A, Sturesson K, Eberhardt J L, Persson B R
(1994) Permeability of the blood-brain barrier induced by 915 MHz
electromagnetic radiation, continuous wave and modulated at 8, 16,
50, and 200 Hz. Microsc Res Tech 27: 535-542.
87Zenaro E, Piacentino G, Constantin G (2017) The blood-brain
barrier in Alzheimer's disease. Neurobiol Dis 107: 41-56.
88Masamoto K, Tanishita K (2009) Oxygen transport in brain tissue.
J Biomech Eng 131: 74–82.
89Clarke DD, Sokoloff L (1989) Circulation and energy metabolism
of the brain. In: Basic Neurochemistry, Siegel G, Agrano BV, Albers
RW, Molino PV (Eds.). New York: Raven Press 565–590.
90Smirnov IV (2013) The Effect of MRET Noise Field Generator on
Metabolic Activity of Astrocyte Cells Exposed to RF Phones Radiation,
European Journal of Science and Engineering.