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Aboul Ezz, H.S., Y.A. Khadrawy, N.A. Ahmed, N.M. Radwan. El Bakry, M.M. (2013). The effect of pulsed electromagnetic radiation from mobile phone on the levels of monoamine neurotransmitters in four different areas of rat brain. Eur Rev Med Pharmacol Sci 17(13): 1782-1788.

Ait-Aissa, S., F.P. de Gannes, M. Taxile, B. Billaudel, A. Hurtier, E. Haro, G. Ruffie, A. Athane, B. Veyret, Lagroye, I. (2013). In situ expression of heat-shock proteins and 3-nitrotyrosine in brains of young rats exposed to a WiFi signal in utero and in early life. Radiat Res 179(6): 707-716

Aït-Aïssa, S., B. Billaudel, F.P. De Gannes, A. Hurtier, E. Haro, M. Taxile, G. Ruffie, A. Athane, B. Veyret, Lagroye, I. (2010). In situ detection of gliosis and apoptosis in the brains of young rats exposed in utero to a Wi-Fi signal. Comptes Rendus Physique 11(9): 592-601.

Aldad, T.S., G. Gan, X. B. Gao, Taylor, H.S. (2012). Fetal radiofrequency radiation exposure from 800-1900 mhz-rated cellular telephones affects neurodevelopment and behavior in mice. Sci Rep 2: 312.

ANSES (2017a). Radiofréquences et santé - Comprendre où en est la recherche. Maisons-Alfort, Agence nationale de sécurité sanitaire de l’alimentation, de l’environnement et du travail.

ANSES (2017b). Radiofréquences & santé. Maisons-Alfort, Agence nationale de sécurité sanitaire de l’alimentation, de l’environnement et du travail.

ANSES (2016b). Regards sur dix ans de recherche - Le PNR EST, de 2006 à 2015. Maisons-Alfort, Agence nationale de sécurité sanitaire de l’alimentation, de l’environnement et du travail.

ANSES (2013). Update of the Radiofrequency electromagnetic fields and health” expert appraisal. Agence nationale de sécurité sanitaire de l’alimentation, de l’environnement et du travail, Maisons-Alfort.

Arendash, G.W., J. Sanchez-Ramos, T. Mori, M. Mamcarz, X. Lin, M. Runfeldt, L. Wang, G. Zhang, V. Sava, J. Tan, Cao, C. (2010). Electromagnetic field treatment protects against and reverses cognitive impairment in Alzheimer's disease mice. J Alzheimers Dis 19(1): 191-210.

Barthelemy, A., A. Mouchard, M. Bouji, K. Blazy, R. Puigsegur, Villegier, A.S. (2016). Glial markers and emotional memory in rats following acute cerebral radiofrequency exposures. Environ Sci Pollut Res Int 23(24): 25343-25355.

Bouji, M., A. Lecomte, C. Gamez, K. Blazy, Villegier, A.S. (2016). Neurobiological effects of repeated radiofrequency exposures in male senescent rats. Biogerontology 17(5-6): 841-857.

Bouji, M., A. Lecomte, Y. Hode, R. de Seze, Villégier, A.S. (2012). Effects of 900MHz radiofrequency on corticosterone, emotional memory and neuroinflammation in middle-aged rats. Experimental Gerontology 47(6): 444-451.

Celikozlu, S.D., M. S. Ozyurt, A. Cimbiz, M.Y. Yardimoglu, M.K. Cayci, Ozay, Y. (2012). The effects of long-term exposure of magnetic field via 900-MHz GSM radiation on some biochemical parameters and brain histology in rats. Electromagn Biol Med 31(4): 344-355.

Chaturvedi, C.M., V.P. Singh, P. Singh, P. Basu, M. Singaravel, R.K. Shukla, A. Dhawan, A.K. Pati, R.K. Gangwar, Singh, P. (2011). 2.45 GHz (CW) microwave irradiation alters circadian organization, spatial memory, DNA structure in the brain cells and blood cell counts of male mice, Mus musculus. Progr Electromagn Res B 29: 23-42.

Chen, C., Q. Ma, C. Liu, P. Deng, G. Zhu, L. Zhang, M. He, Y. Lu, W. Duan, L. Pei, M. Li, Z. Yu, Zhou, Z. (2014). Exposure to 1800 MHz radiofrequency radiation impairs neurite outgrowth of embryonic neural stem cells. Sci Rep 4: 5103.

Dasdag, S., M.Z. Akdag, M.E. Erdal, N. Erdal, O.I. Ay, M.E. Ay, S.G. Yilmaz, B. Tasdelen, Yegin, K. (2015a). Effects of 2.4 GHz radiofrequency radiation emitted from Wi-Fi equipment on microRNA expression in brain tissue. Int J Radiat Biol 91(7): 555-561.

Dasdag, S., M.Z. Akdag, M.E. Erdal, N. Erdal, O. I. Ay, M.E. Ay, S.G. Yilmaz, B. Tasdelen, Yegin, K. (2015b). Long term and excessive use of 900 MHz radiofrequency radiation alter microRNA expression in brain. Int J Radiat Biol 91(4): 306-311.

Finnie, J.W., Z. Cai, J. Manavis, S. Helps, Blumbergs, P.C. (2010). Microglial activation as a measure of stress in mouse brains exposed acutely (60 minutes) and long-term (2 years) to mobile telephone radiofrequency fields. Pathology 42(2): 151-154.

Fragopoulou, A.F., A. Samara, M.H. Antonelou, A. Xanthopoulou, A. Papadopoulou, K. Vougas, E. Koutsogiannopoulou, E. Anastasiadou, D.J. Stravopodis, G.T. Tsangaris, Margaritis, L.H. (2012). Brain proteome response following whole body exposure of mice to mobile phone or wireless DECT base radiation. Electromagn Biol Med 31(4): 250-274.

Haghani, M., M. Shabani, Moazzami, K. (2013). Maternal mobile phone exposure adversely affects the electrophysiological properties of Purkinje neurons in rat offspring. Neuroscience 250: 588-598.

Harbo Poulsen, A., E. Stenager, C. Johansen, J. Bentzen, S. Friis, Schüz, J. (2012). Mobile phones and multiple sclerosis--a nationwide cohort study in Denmark. PLoS One, 7(4): e34453.

He, G.L., Y. Liu, M. Li, C.H. Chen, P. Gao, Z.P. Yu, Yang, X.S. (2014). The amelioration of phagocytic ability in microglial cells by curcumin through the inhibition of EMF-induced pro-inflammatory responses. J Neuroinflammation 11: 49.

Hirose, H., A. Sasaki, N. Ishii, M. Sekijima, T. Iyama, T. Nojima, Ugawa, Y. (2010). 1950 MHz IMT-2000 field does not activate microglial cells in vitro. Bioelectromagnetics 31(2): 104-112.

ICNIRP (2018). Draft - ICNIRP Guidelines: Guidelines for limiting exposure to time-varying electric, magnetic and electromagnetic fields (100 kHz to 300 GHz): Appendix B: Health Risk Assessment Literature.

Imge, E.B., B. Kilicoglu, E. Devrim, R. Cetin, Durak, I. (2010). Effects of mobile phone use on brain tissue from the rat and a possible protective role of vitamin C - a preliminary study. Int J Radiat Biol 86(12): 1044-1049.

Jing, J., Z. Yuhua, Y. Xiao-Qian, J. Rongping, G. Dong-Mei, Xi, C. (2012). The influence of microwave radiation from cellular phone on fetal rat brain. Electromagnetic biology and medicine 31(1): 57-66.

Jany, M., J. Enderlin, F. Poulletier de Gannes, E. Haro, Hurtier, A. et al.. Neurogenesis and neuroinflammation after mobile phone exposure. BIOEM2014 conference, Jun 2014, Cape Town, South Africa.

Jeong, Y.J., G.Y. Kang, J.H. Kwon, H.D. Choi, J.K. Pack, N. Kim, Y.S. Lee, Lee, H.J. (2015). 1950 MHz Electromagnetic Fields Ameliorate Abeta Pathology in Alzheimer's Disease Mice. Curr Alzheimer Res 12(5): 481-492.

Jorge-Mora, T., M.J. Misa-Agustino, J.A. Rodriguez-Gonzalez, F.J. Jorge-Barreiro, F.J. Ares-Pena, Lopez-Martin, E. (2011). The effects of single and repeated exposure to 2.45 GHz radiofrequency fields on c-Fos protein expression in the paraventricular nucleus of rat hypothalamus. Neurochem Res 36(12): 2322-2332.

Karaca, E., B. Durmaz, H. Altug, T. Yildiz, C. Guducu, M. Irgi, M.G.C. Koksal, F. Ozkinay, C. Gunduz, Cogulu, O. (2012). The genotoxic effect of radiofrequency waves on mouse brain. Journal of neuro-oncology 106(1): 53-58.

Kim, J.H., D.H. Yu, Y.H. Huh, E.H. Lee, H.G. Kim, Kim, H.R. (2017). Long-term exposure to 835 MHz RF-EMF induces hyperactivity, autophagy and demyelination in the cortical neurons of mice. Sci Rep. 2017.

Kokturk, S., M. Yardimoglu, S.D. Celikozlu, E.G. Dolanbay, Cimbiz, A. (2013). Effect of Lycopersicon esculentum extract on apoptosis in the rat cerebellum, following prenatal and postnatal exposure to an electromagnetic field. Exp Ther Med 6(1): 52-56.

Lameth, J., A. Gervais, C. Colin, P. Lévêque, T.M. Jay, J.M. Edeline, Mallat, M. (2017). Acute Neuroinflammation Promotes Cell Responses to 1800 MHz GSM Electromagnetic Fields in the Rat Cerebral Cortex. Neurotox Res. 32(3): 444-459.

Liu, M.-L., J.-Q. Wen, Fan, Y.-B. (2011). Potential protection of green tea polyphenols against 1800 MHz electromagnetic radiation-induced injury on rat cortical neurons. Neurotoxicity research 20(3): 270-276.

Liu, Y.X., J.L. Tai, G.Q. Li, Z.W. Zhang, J.H. Xue, H.S. Liu, H. Zhu, J.D. Cheng, Y.L. Liu, A.M. Li, Zhang, Y. (2012). Exposure to 1950-MHz TD-SCDMA electromagnetic fields affects the apoptosis of astrocytes via caspase-3-dependent pathway. PLoS One 7(8): e42332.

Lu, Y., M. He, Y. Zhang, S. Xu, L. Zhang, Y. He, C. Chen, C. Liu, H. Pi, Z. Yu, Zhou, Z. (2014). Differential pro-inflammatory responses of astrocytes and microglia involve STAT3 activation in response to 1800 MHz radiofrequency fields. PLoS One 9(9): e108318.

Luna, J., J.P. Leleu, P.M. Preux, P. Corcia, P. Couratier, B. Marin, Boumediene, F. (Fralim Consortium) (2019). Residential exposure to ultra high frequency electromagnetic fields emitted by Global System for Mobile (GSM) antennas and amyotrophic lateral sclerosis incidence: A geo-epidemiological population-based study. Environ Res. 176:108525. doi: 10.1016/j.envres.2019.108525.

Lv, B., Z. Chen, T. Wu, Q. Shao, D. Yan, L. Ma, K. Lu, Xie, Y. (2014). The alteration of spontaneous low frequency oscillations caused by acute electromagnetic fields exposure. Clin Neurophysiol 125(2): 277-286.

Maskey, D., H.G. Kim, M.W. Suh, G.S. Roh, Kim, M.J. (2014). Alteration of glycine receptor immunoreactivity in the auditory brainstem of mice following three months of exposure to radiofrequency radiation at SAR 4.0 W/kg. Int J Mol Med 34(2): 409-419.

Maskey, D., H.J. Kim, H.G. Kim, Kim, M.J. (2012). Calcium-binding proteins and GFAP immunoreactivity alterations in murine hippocampus after 1 month of exposure to 835 MHz radiofrequency at SAR values of 1.6 and 4.0 W/kg. Neurosci Lett 506(2): 292-296.

Maskey, D., J. Pradhan, B. Aryal, C.M. Lee, I.Y. Choi, K.S. Park, S.B. Kim, H.G. Kim, Kim, M.J. (2010). Chronic 835-MHz radiofrequency exposure to mice hippocampus alters the distribution of calbindin and GFAP immunoreactivity. Brain Res 1346: 237-246.

Masuda, H., S. Hirota, A. Ushiyama, A. Hirata, T. Arima, H. Kawai, K. Wake, S. Watanabe, M. Taki, A. Nagai, Ohkubo, C. (2015). No Dynamic Changes in Inflammation-related Microcirculatory Parameters in Developing Rats During Local Cortex Exposure to Microwaves. In Vivo 29(5): 561-567.

Masuda, H., A. Ushiyama, M. Takahashi, J. Wang, O. Fujiwara, T. Hikage, T. Nojima, K. Fujita, M. Kudo, Ohkubo, C. (2009). Effects of 915 MHz electromagnetic-field radiation in TEM cell on the blood-brain barrier and neurons in the rat brain. Radiat Res 172(1): 66-73.

Milham, S., Stetzer, D. (2013). Dirty electricity, chronic stress, neurotransmitters and disease. Electromagn Biol Med 32(4): 500-507.

Moretti, D., A. Garenne, E. Haro, F. Poulletier de Gannes, I. Lagroye, P. Leveque, B. Veyret, Lewis, N. (2013). In-vitro exposure of neuronal networks to the GSM-1800 signal. Bioelectromagnetics 34(8): 571-578.

Motawi, T.K., H.A. Darwish, Y.M. Moustafa, Labib, M.M. (2014). Biochemical modifications and neuronal damage in brain of young and adult rats after long-term exposure to mobile phone radiations. Cell Biochem Biophys 70(2): 845-855.

Narayanan, S.N., R.S. Kumar, K.M. Karun, S.B. Nayak, Bhat, P.G. (2015). Possible cause for altered spatial cognition of prepubescent rats exposed to chronic radiofrequency electromagnetic radiation. Metab Brain Dis 30(5): 1193-1206.

Noor, N.A., H.S. Mohammed, N.A. Ahmed, Radwan, N.M. (2011). Variations in amino acid neurotransmitters in some brain areas of adult and young male albino rats due to exposure to mobile phone radiation. Eur Rev Med Pharmacol Sci 15(7): 729-742.

Petitdant, N., A. Lecomte, F. Robidel, C. Gamez, K. Blazy, Villegier, A.S. (2016). Cerebral radiofrequency exposures during adolescence: Impact on astrocytes and brain functions in healthy and pathologic rat models. Bioelectromagnetics 37(5): 338-350.

Ragbetli, M.C., A. Aydinlioglu, N. Koyun, C. Ragbetli, Karayel, M. (2009). Effect of prenatal exposure to mobile phone on pyramidal cell numbers in the mouse hippocampus: a stereological study. Int J Neurosci 119(7): 1031-1041.

SCENIHR (2015). Potential health effects of exposure to electromagnetic fields (EMF). Scientific Committee on Emerging and Newly Identified Health Risks, Brussels.

Sahin, A., A. Aslan, O. Bas, A. Ikinci, C. Ozyilmaz, O. F. Sonmez, S. Colakoglu, Odaci, E. (2015). Deleterious impacts of a 900-MHz electromagnetic field on hippocampal pyramidal neurons of 8-week-old Sprague Dawley male rats. Brain Res 1624: 232-238.

Saikhedkar, N., M. Bhatnagar, A. Jain, P. Sukhwal, C. Sharma, Jaiswal, N. (2014). Effects of mobile phone radiation (900 MHz radiofrequency) on structure and functions of rat brain. Neurol Res 36(12): 1072-1079.

Umur, A. S., C. Yaldiz, A. Bursali, N. Umur, B. Kara, M. Barutcuoglu, S. Vatansever, D. Selcuki, Selcuki, M. (2013). Evaluation of the effects of mobile phones on the neural tube development of chick embryos. Turkish neurosurgery 23(6): 742-752.

Yang, L., D. Hao, M. Wang, Y. Zeng, S. Wu, Zeng, Y. (2012). Cellular neoplastic transformation induced by 916 MHz microwave radiation. Cell Mol Neurobiol 32(6): 1039-1046.