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Aberumand M., Mansouri E., Pourmotahari F., Mirlohi M., Abdoli Z.: Biochemical and histological effects of mobile phone radiation on enzymes and tissues of mice. Res J Pharm Biol Chem Sci 2016, 7, 1962–1971.AberumandM.MansouriE.PourmotahariF.MirlohiM.AbdoliZ.Biochemical and histological effects of mobile phone radiation on enzymes and tissues of miceRes J Pharm Biol Chem Sci2016719621971Search in Google Scholar
Adibzadeh F., Bakker J.F., Paulides M.M., Verhaart R.F., van Rhoon G.C.: Impact of head morphology on local brain specific absorption rate from exposure to mobile phone radiation. Bioelectromagnetics 2015, 36, 66–76.AdibzadehF.BakkerJ.F.PaulidesM.M.VerhaartR.F.van RhoonG.C.Impact of head morphology on local brain specific absorption rate from exposure to mobile phone radiationBioelectromagnetics201536667610.1002/bem.2188525399806Search in Google Scholar
Aldad T.S., Gan G., Gao X.B., Taylor H.S.: Fetal radiofrequency radiation exposure from 800–1,900 mhz-rated cellular telephones affects neurodevelopment and behavior in mice. Sci Rep 2012, 2, 1–8, doi: 10.1038/srep00312.AldadT.S.GanG.GaoX.B.TaylorH.S.Fetal radiofrequency radiation exposure from 800–1,900 mhz-rated cellular telephones affects neurodevelopment and behavior in miceSci Rep201221810.1038/srep00312330601722428084Open DOISearch in Google Scholar
Antonovaite N., Beekmans S.V., Hol E.M., Wadman W.J., Iannuzz D.: Structure-stiffness relation of live mouse brain tissue determined by depth-controlled indentation mapping. Biol Physics 2018, arXiv: 1802.02245v1 (physics.bio-ph).AntonovaiteN.BeekmansS.V.HolE.M.WadmanW.J.IannuzzD.Structure-stiffness relation of live mouse brain tissue determined by depth-controlled indentation mappingBiol Physics2018arXiv: 1802.02245v1 (physics.bio-ph)10.1038/s41598-018-31035-y610403730131608Search in Google Scholar
Blettner M., Berg G.: Are mobile phones harmful? Acta Oncol 2000, 39, 927–930.BlettnerM.BergG.Are mobile phones harmful?Acta Oncol20003992793010.1080/0284186005021589111206998Search in Google Scholar
Cardis E., Deltour I., Mann S., Moissonnier M., Taki M., Varsier N., Wake K., Wiart J.: Distribution of RF energy emitted by mobile phones in anatomical structures of the brain. Phys Med Biol 2008, 53, 2771–2783.CardisE.DeltourI.MannS.MoissonnierM.TakiM.VarsierN.WakeK.WiartJ.Distribution of RF energy emitted by mobile phones in anatomical structures of the brainPhys Med Biol2008532771278310.1088/0031-9155/53/11/00118451464Search in Google Scholar
Chahboune H., Ment L.R., Stewart W.B., Ma X., Rothman D.L., Hyder F.: Neurodevelopment of C57B/L6 mouse brain assessed by in vivo diffusion tensor imaging. NMR Biomed 2007, 20, 375–382.ChahbouneH.MentL.R.StewartW.B.MaX.RothmanD.L.HyderF.Neurodevelopment of C57B/L6 mouse brain assessed by in vivo diffusion tensor imagingNMR Biomed20072037538210.1002/nbm.113017451176Search in Google Scholar
Dindic B., Sokolović D., Krstić D., Petković D., Jovanović J., Muratović M.: Biochemical and histopathological effects of mobile phone exposure on rat hepatocytes and brain. Acta Med Median 2010, 49, 37–42.DindicB.SokolovićD.KrstićD.PetkovićD.JovanovićJ.MuratovićM.Biochemical and histopathological effects of mobile phone exposure on rat hepatocytes and brainActa Med Median2010493742Search in Google Scholar
Ellenbroek B., Youn J.: Rodent models in neuroscience research: is it a rat race? Dis Model Mech 2016, 9, 1079–1087.EllenbroekB.YounJ.Rodent models in neuroscience research: is it a rat race?Dis Model Mech201691079108710.1242/dmm.026120508783827736744Search in Google Scholar
Fagundes D.J., Taha M.O.: Choices criteria and current animal specimens. Acta Cir Bras 2004, 19, 59–65.FagundesD.J.TahaM.O.Choices criteria and current animal specimensActa Cir Bras200419596510.1590/S0102-86502004000100010Search in Google Scholar
Kim J.H., Da HY., Huh Y.H., Lee E.H., Kim H.G., Kim H.R.: Long-term exposure to 835 MHz RF-EMF induces hyperactivity, autophagy, and demyelination in the cortical neurons of mice. Sci Rep 2017, doi: 10.1038/srep41129.KimJ.H.DaHY.HuhY.H.LeeE.H.KimH.G.KimH.R.Long-term exposure to 835 MHz RF-EMF induces hyperactivity, autophagy, and demyelination in the cortical neurons of miceSci Rep201710.1038/srep41129524770628106136Open DOISearch in Google Scholar
Krewski D., Byus C.V., Glickman B.W., Lotz W.G., Mandeville R., McBride M.L., Prato F.S., Weaver D.F.: Recent advances in research on radiofrequency fields and health. J Toxicol Environ Health 2001, 4, 145–159.KrewskiD.ByusC.V.GlickmanB.W.LotzW.G.MandevilleR.McBrideM.L.PratoF.S.WeaverD.F.Recent advances in research on radiofrequency fields and healthJ Toxicol Environ Health2001414515910.1080/10937400145946711202059Search in Google Scholar
Kokturk S., Yardimoglu M., Celikozlu S.D., Dolanbay E.G., Cimbiz A.: Effect of Lycopersicon esculentum extract on apoptosis in the rat cerebellum, following prenatal and postnatal exposure to an electromagnetic field. Exp Ther Med 2013, 6, 52–56.KokturkS.YardimogluM.CelikozluS.D.DolanbayE.G.CimbizA.Effect of Lycopersicon esculentum extract on apoptosis in the rat cerebellum, following prenatal and postnatal exposure to an electromagnetic fieldExp Ther Med20136525610.3892/etm.2013.1123373591223935717Search in Google Scholar
Lahkola A., Auvinen A., Raitanen J., Schoemaker M.J., Christensen H.C., Feychting M., Johansen C., Klaeboe L., Lönn S., Swerdlow A.J., Tynes T., Salminen T.: Mobile phone use and risk of glioma in 5 North European countries. Int J Cancer 2007, 120, 1769–1775.LahkolaA.AuvinenA.RaitanenJ.SchoemakerM.J.ChristensenH.C.FeychtingM.JohansenC.KlaeboeL.LönnS.SwerdlowA.J.TynesT.SalminenT.Mobile phone use and risk of glioma in 5 North European countriesInt J Cancer20071201769177510.1002/ijc.2250317230523Search in Google Scholar
Lessard-Beaudoin M., Laroche M., Demers M.J., Grenier G., Graham R.K.: Characterisation of age-associated changes in peripheral organ and brain region weights in C57BL/6 mice. Exp Gerontol 2015, 63, 1–28.Lessard-BeaudoinM.LarocheM.DemersM.J.GrenierG.GrahamR.K.Characterisation of age-associated changes in peripheral organ and brain region weights in C57BL/6 miceExp Gerontol20156312810.1016/j.exger.2015.01.00325597278Search in Google Scholar
Lönn S., Ahlbom A., Hall P., Feychting M.: Long-term mobile phone use and brain tumor risk. Am J Epidemiol 2005, 161, 526–535.LönnS.AhlbomA.HallP.FeychtingM.Long-term mobile phone use and brain tumor riskAm J Epidemiol200516152653510.1093/aje/kwi09115746469Search in Google Scholar
Mausset-Bonnefont A.L., Hirbec H., Bonnefont X., Privat A., Vignon J., de Sèze R.: Acute exposure to GSM 900-MHz electromagnetic fields induces glial reactivity and biochemical modifications in the rat brain. Neurobiol Dis 2004, 17, 445–454.Mausset-BonnefontA.L.HirbecH.BonnefontX.PrivatA.VignonJ.de SèzeR.Acute exposure to GSM 900-MHz electromagnetic fields induces glial reactivity and biochemical modifications in the rat brainNeurobiol Dis20041744545410.1016/j.nbd.2004.07.00415571980Search in Google Scholar
Mirich J.M., Williams N.C., Berlau D.J., Brunjes P.C.: Comparative study of aging in the mouse olfactory bulb. J Comp Neurol 2002, 454, 361–372.MirichJ.M.WilliamsN.C.BerlauD.J.BrunjesP.C.Comparative study of aging in the mouse olfactory bulbJ Comp Neurol200245436137210.1002/cne.1042612455003Search in Google Scholar
Meena J.K., Verma A., Kohli C., Ingle G.K.: Mobile phone use and possible cancer risk: Current perspectives in India. Indian J Occup Environ Med 2016, 20, 5–9.MeenaJ.K.VermaA.KohliC.IngleG.K.Mobile phone use and possible cancer risk: Current perspectives in IndiaIndian J Occup Environ Med2016205910.4103/0019-5278.183827492227827390472Search in Google Scholar
Perepelkina O.V., Golibrodo V.A., Lilp I.G., Poletaeva I.I.: Mice selected for large and small brain weight: The preservation of trait differences after the selection was discontinued. Adv Biosci Biotechnol 2013, 4, 1–8.PerepelkinaO.V.GolibrodoV.A.LilpI.G.PoletaevaI.I.Mice selected for large and small brain weight: The preservation of trait differences after the selection was discontinuedAdv Biosci Biotechnol201341810.4236/abb.2013.46A001Search in Google Scholar
Rafiqi S.I., Kumar S., Chaudhary R., Farooq U.B., Kirthika P.: Mobile phone radiations and its impact on birds, animals and human beings. Trends Vet Anim Sci 2016, 3, 24–27.RafiqiS.I.KumarS.ChaudharyR.FarooqU.B.KirthikaP.Mobile phone radiations and its impact on birds, animals and human beingsTrends Vet Anim Sci201632427Search in Google Scholar
Saikhedkar N., Bhatnagar M., Jain A., Sukhwal P., Sharma Ch., Jaiswal N.: Effects of mobile phone radiation (900 MHz radiofrequency) on structure and functions of rat brain. Neurol Res 2014, 36, 1072–1079.SaikhedkarN.BhatnagarM.JainA.SukhwalP.SharmaCh.JaiswalN.Effects of mobile phone radiation (900 MHz radiofrequency) on structure and functions of rat brainNeurol Res2014361072107910.1179/1743132814Y.000000039224861496Search in Google Scholar
Schoemaker M.J., Swerdlow A.J., Ahlbom A., Auvinen A., Blaasaas K.G., Cardis E., Christensen H.C., Feychting M., Hepworth S.J., Johansen C., Klaeboe L., Lönn S., McKinney P.A., Muir K., Raitanen J., Salminen T., Thomsen J., Tynes T.: Mobile phone use and risk of acoustic neuroma: results of the interphone case–control study in five North European countries. Br J Cancer 2005, 93, 842–848.SchoemakerM.J.SwerdlowA.J.AhlbomA.AuvinenA.BlaasaasK.G.CardisE.ChristensenH.C.FeychtingM.HepworthS.J.JohansenC.KlaeboeL.LönnS.McKinneyP.A.MuirK.RaitanenJ.SalminenT.ThomsenJ.TynesT.Mobile phone use and risk of acoustic neuroma: results of the interphone case–control study in five North European countriesBr J Cancer20059384284810.1038/sj.bjc.6602764236163416136046Search in Google Scholar
Sengupta P.: Environmental and occupational exposure of metals and their role in male reproductive functions. Drug Chem Toxicol 2012, 36, 353–368.SenguptaP.Environmental and occupational exposure of metals and their role in male reproductive functionsDrug Chem Toxicol20123635336810.3109/01480545.2012.71063122947100Search in Google Scholar
Sengupta P.: The laboratory rat: relating its age with human’s. Int J Prev Med 2013, 4, 624–630.SenguptaP.The laboratory rat: relating its age with human’sInt J Prev Med20134624630Search in Google Scholar
Singh S., Brocker C., Koppaka V., Chen Y., Jackson B.C., Matsumoto A., Thompson D.C., Vasiliou V.: Aldehyde dehydrogenases in cellular responses to oxidative/electrophilic stress. Free Radic Biol Med 2013, 56, 89–101.SinghS.BrockerC.KoppakaV.ChenY.JacksonB.C.MatsumotoA.ThompsonD.C.VasiliouV.Aldehyde dehydrogenases in cellular responses to oxidative/electrophilic stressFree Radic Biol Med2013568910110.1016/j.freeradbiomed.2012.11.010363135023195683Search in Google Scholar
Tang J., Zhang Y., Yang L., Chen Q., Tan L., Zuo S., Feng H., Chen Z., Zhu G.: Exposure to 900MHz electromagnetic fields activates the mkp-1/ERK pathway and causes blood-brain barrier damage and cognitive impairment in rats. Brain Res 2015, 1601, 92–101.TangJ.ZhangY.YangL.ChenQ.TanL.ZuoS.FengH.ChenZ.ZhuG.Exposure to 900MHz electromagnetic fields activates the mkp-1/ERK pathway and causes blood-brain barrier damage and cognitive impairment in ratsBrain Res201516019210110.1016/j.brainres.2015.01.01925598203Search in Google Scholar
Xu S., Zhou Z., Zhang L., Yu Z., Zhang W., Wang Y., Wang X., Li M., Chen Y., Chen C., He M., Zhang G., Zhong M.: Exposure to 1800MHz radiofrequency radiation induces oxidative damage to mitochondrial DNA in primary cultured neurons. Brain Res 2010, 1311, 189–196.XuS.ZhouZ.ZhangL.YuZ.ZhangW.WangY.WangX.LiM.ChenY.ChenC.HeM.ZhangG.ZhongM.Exposure to 1800MHz radiofrequency radiation induces oxidative damage to mitochondrial DNA in primary cultured neuronsBrain Res2010131118919610.1016/j.brainres.2009.10.06219879861Search in Google Scholar
