|
A. Balmori: ‘Evidence of a connection between Sparrow decline and the introduction of Phone mast GSM (Global system for mobile communication)’ |
|
Adey, W.R., 1980: “Frequency and Power windowing in tissue interactions with weak electromagnetic fields”. Proc. IEEE, 68:119-125. |
|
Arnetz, B.B. and Berg, M., 1996: "Melatonin and Andrenocorticotropic Hormone levels in video display unit workers during work and leisure. J Occup Med 38(11): 1108-1110. |
|
Bawin, S.M. and Adey, W.R., 1976: “Sensitivity of calcium binding in cerebral tissue to weak electric fields oscillating at low frequency”. Proc. Natl. Acad. Sci. USA, 73: 1999-2003. |
|
Blackman, C.F., Benane, S.G., Elliott, D.J., and Pollock, M.M., 1988: “Influence of Electromagnetic Fields on the Efflux of Calcium Ions from Brain Tissue in Vitro: A Three-Model Analysis Consistent with the Frequency Response up to 510 Hz”. Bioelectromagnetics, 9:215-227. |
|
Blackman, C.F., Kinney, L.S., House, D.E., and Joines, W.T., 1989: “Multiple power-density windows and their possible origin”. Bioelectromagnetics, 10: 115-128. |
|
Blackman, C.F., 1990: "ELF effects on calcium homeostasis". In "Extremely low frequency electromagnetic fields: The question of cancer", BW Wilson, RG Stevens, LE Anderson Eds, Publ. Battelle Press Columbus: 1990; 187-208. |
|
Blackman, C.F., Benane, S.G., and House, D.E., 1991: “The influence of temperature during electric- and magnetic-field induced alteration of calcium-ion release from in vitro brain tissue”. Bioelectromagnetics, 12: 173-182. |
|
Burch, J.B., Reif, J.S., Pittrat, C.A., Keefe, T.J. and Yost, M.G., 1997: "Cellular telephone use and excretion of a urinary melatonin metabolite". In: Annual review of Research in Biological Effects of electric and magnetic fields from the generation, delivery and use of electricity, San Diego, CA, Nov. 9-13, P-52. |
|
Burch, J.B., Reif, J.S., Yost, M.G., Keefe, T.J. and Pittrat, C.A., 1998: "Nocturnal excretion of urinary melatonin metabolite among utility workers". Scand J Work Environ Health 24(3): 183-189. |
|
Burch, J.B., Reif, J.S., Yost, M.G., Keefe, T.J. and Pittrat, C.A., 1999a: "Reduced excretion of a melatonin metabolite among workers exposed to 60 Hz magnetic fields" Am J Epidemiology 150(1): 27-36. |
|
Burch, J.B., Reif, J.S. and Yost, M.G., 1999b: "Geomagnetic disturbances are associated with reduced nocturnal excretion of melatonin metabolite in humans". Neurosci Lett 266(3):209-212. |
|
Burch, J.B., Reif, J.S., Noonan, C.W. and Yost, M.G., 2000: "Melatonin metabolite levels in workers exposed to 60-Hz magnetic fields: work in substations and with 3-phase conductors". J of Occupational and Environmental Medicine, 42(2): 136-142. |
|
Davis, S., 1997: "Weak residential Magnetic Fields affect Melatonin in Humans", Microwave News, Nov/Dec 1997. |
|
Graham, C., Cook, M.R., Cohen, H.D. and Gerkovich, M.M., 1994: "A dose response study of human exposure to 60Hz electric and magnetic fields". Bioelectromagnetics 15: 447-463. |
|
Graham, C., Cook, M.R., Sastre, A., Riffle, D.W. and Gerkovich, M.M., 2000: "Multi-night exposure to 60 Hz magnetic fields: effects on melatonin and its enzymatic metabolite". J Pineal Res 28(1): 1-8. |
|
Juutilainen, J., Stevens, R.G., Anderson, L.E., Hansen, N.H., Kilpelainen, M., Laitinen, J.T., Sobel, E. and Wilson, B.W., 2000: "Nocturnal 6-hydroxymelatonin sulphate excretion in female workers exposed to magnetic fields". J Pineal Res 28(2): 97-104. |
|
Karasek, M., Woldanska-Okonska, M., Czernicki, J., Zylinska, K. and Swietoslawski, J., 1998: "Chronic exposure to 2.9 mT, 40 Hz magnetic field reduces melatonin concentrations in humans". J Pineal Research 25(4): 240-244. |
|
Pfluger, D.M. and Minder, C.E., 1996: "Effects of 16.7 Hz magnetic fields on urinary 6-hydroxymelatonin sulfate excretion of Swiss railway workers". J Pineal Research 21(2): 91-100. |
|
Reiter, R.J., 1994: “Melatonin suppression by static and extremely low frequency electromagnetic fields: relationship to the reported increased incidence of cancer”. Reviews on Environmental Health. 10(3-4): 171-86, 1994. |
|
Reiter, R.J. and Robinson, J, 1995: "Melatonin: Your body's natural wonder drug". Publ. Bantam Books, New York. |
|
Rosen, L.A., Barber, I. and Lyle D.B., 1998: "A 0.5 G, 60 HZ magnetic field suppresses melatonin production in pinealocytes". Bioelectromagnetics 19: 123-127. |
|
Sandyk, R. 1993: "Weak magnetic fields antagonize the effects of melatonin on blood glucose levels in Parkinson's Disease". Int. J. Neuroscience 68(1-2): 85-91. |
|
Sandyk, R. 1994: "Rapid normalization of visual evoked potentials by picoTesla range magnetic fields in chronic progressive multiple sclerosis". Int. J. Neuroscience 77(304): 243-259. |
|
Sandyk, R. and Derpapas, K. 1993: "Further observations on the unique efficacy of picoTesla range magnetic fields in Parkinson's Disease". Int. J. Neuroscience 69(1-4): 167-183. |
|
Sandyk, R. and Iacono, R.P., 1993: "Reversal of visual neglect in Parkinson's Disease by treatment with picoTesla range magnetic fields". Int. J. Neuroscience 73(1-2): 93-107. |
|
Stark, K.D.C., Krebs, T., Altpeter, E., Manz, B., Griol, C. and Abelin, T., 1997: "Absence of chronic effect of exposure to short-wave radio broadcast signal on salivary melatonin concentrations in dairy cattle". J Pineal Research 22: 171-176. |
|
Vaneeck, J., 1998: "Cellular Mechanisms of Melatonin Action". Physiol. Rev. 78: 687-721. |
|
Wang, S.G. 1989: "5-HT contents change in peripheral blood of workers exposed to microwave and high frequency radiation". Chung Hua Yu Fang I Hsueh Tsa Chih 23(4): 207-210. |
|
Wilson, B.W., Wright, C.W., Morris, J.E., Buschbom, R.L., Brown, D.P., Miller, D.L., Sommers-Flannigan, R. and Anderson, L.E., 1990: "Evidence of an effect of ELF electromagnetic fields on human pineal gland function". J Pineal Research 9(4): 259-269. |
|
Wood, A.W., Armstrong, S.M., Sait, M.L., Devine, L. and Martin, M.J., 1998: "Changes in human plasma melatonin profiles in response to 50 Hz magnetic field exposure". J Pineal Research 25(2): 116-127. |
|
Yaga, K, Reiter, R.J., Manchester, L.C., Nieves, H., Sun, J.H. and Chen, L.D., 1993: "Pineal sensitivity to pulsed magnetic fields changes during the photoperiod. Brain Res Bulletin, 30 (1-2): 153-156. |
|
Dimbylow, P.J., FDTD calculatiuons of SAR for a dipole closely coupled to the head at 900 MHz and 1.9 GHz. Phys Med Biol 38:361-368, 1993. |
|
Dimbylow, P.J. and Mann, J.M., SAR calculations in an anatomically realistic model of the head for mobile communication transceivers at 900 MHz and 1.8 GHz. Phys Med Biol 39:1527-1553, 1994. |
|
Martens, L., DeMoerloose, J., DeWagter, C. and DeZutter, D., Calculation of the electromagnetic fields induced in the head of an operator of a cordless telephone. Radio Sci 30:415-420, 1995. |
|
Chang, B.K., Huang, A.T., Joines, W.T. and Kramer, R.S., The effect of microwave radiation (1.0 GHz) on the blood-brain-barrier. Radio Sci 17:165-168, 1982. |
|
Lin, J.C. and Lin, M.F., Studies on microwaves and blood-brain barrier interaction. Bioelectromagnetics 1:313-323, 1980. |
|
Lin, J.C. and Lin, M.F., Microwave hyperthermia-induced blood-brain barrier alterations. Radiat Res 89:77-87, 1982. |
|
Goldman, H., Lin, J.C., Murphy, S. and Lin, M.F., Cerebrovascular permeability to Rb-86 in the rat after exposure to pulsed microwaves. Bioelectromagnetics 5:323-330, 1984. |
|
Neilly, J.P. and Lin, J.C., Interaction of ethanol and microwaves on the blood-brain-barrier of rats. Bioelectromagnetics 7:405-414, 1986. |
|
Sutton, C.H. and Carroll, F.B., Effects of microwave-induced hyperthermia on the blood-brain barrier of the rat. Radio Sci 14:329-334, 1979. |
|
Ward, T.R., Elder, J.A., Long, M.D. and Svendsgaard, D., Measurement of blood-brain barrier permeation in rats during exposure to 2450-MHz microwaves. Bioelectromagnetics 3:371-383, 1982. |
|
Ward, T.R. and Ali, J.S., Blood-brain barrier permeation in the rat during exposure to low-power 1.7-GHz microwave radiation. Bioelectromagnetics 2:131-143, 1981. |
|
Williams, W.M., Hoss, W., Formaniak, M. and Michaelson, S.M., Effect of 2450 MHz microwave energy on the blood-brain-barrier to hydrophilic molecules, A. Effect on the permeability to sodium fluorescein. Brain Res Rev 7:165-170, 1984. |
|
Williams, W.M., del Cerro, M. and Michaelson, S.M., Effect of 2450 MHz microwave energy on the blood-brain barrier to hydrophilic molecules, B. Effect on the permeability to HRP. Brain Res Rev 7: 171-181, 1984. |
|
Williams, W.M., Platner, J. and Michaelson, S.M., Effect of 2450 MHz microwave energy on the blood-brain-barrier to hydrophilic molecules, C. Effect on the permeability to 14C-sucrose. Brain Res Rev 7:183-190, 1984. |
|
Williams, W.M., Lu, S.-T., del Cerro, M. and Michaelson, S.M., Effect of 2450 MHz microwave energy on the blood-brain-barrier to hydrophilic molecules, D. Brain temperature and blood-brain-barrier permeability to hydrophilic tracers. Brain Res Rev 7:191-212, 1984. |
|
Frey, A.H., Feld, S.R. and Frey, B., Neural function and behavior: defining the relationship. Ann N Y Acad Sci 247:433-439, 1975. |
|
Merritt, J.H., Chamness, A.F. and Allens, S.J., Studies on blood-brain-barrier permeability after microwave radiation. Radiat Environ Biophys 15:367-377, 1978. |
|
Albert, E.N., Light and electron microscopic observations on the blood-brain-barrier after microwave irradiation, in: "Symposium on Biological Effects and Measurement of Radio Frequency Microwaves," D.G. Hazzard, ed., HEW Publication (FDA) 77-8026, Rockville, MD, 1977. |
|
Oscar, K.J. and Hawkins, T.D., Microwave alteration of the blood-brain-barrier system of rats. Brain Res 126:281-293, 1977. |
|
Preston, E., Vavasour, E.J. and Assenheim, H.M., Permeability of the blood-brain- barrier to mannitol in the rat following 2450 MHz microwave irradiation. Brain Res 174:109-117, 1979. |
|
Oscar, K.J., Gruenace, S.P., Folker, M.T. and Rapoport S.L., Local cerebral blood flow after microwave exposure. Brain Res 204:220-225, 1981. |
|
Neubauer, C., Phelan, A.M., Kues, H. and Lange, D.G., Microwave irradiation of rats at 2.45 GHz activates pinocytotic-like uptake of tracer by capillary endothelial cells of cerebral cortex. Bioelectromagnetics 11:261-268, 1990. |
|
Salford, L.G., Brun, A., Sturesson, K., Eberhardt, J.L. and Persson, B.R., Permeability of the blood-brain barrier by 915 MHz electromagnetic radiation, continuous wave and modulated at 8, 16, 50, and 200 Hz. Microsc Res Tech 27:535-542, 1994. |
|
Albert, E.N. and DeSantis, M., Do microwaves alter nervous system structure? Ann NY Acad Sci 247:87-108, 1975. |
|
Gordon, Z.V., Biological effects of microwaves in occupational hygiene, Israel Program for Scientific Translations, Jerusalem, Israel, NASA77F-633, TT70-50087:NTIS N71-14632, 1970. |
|
Tolgskaya, M.S. and Gordon, Z.V., Pathological effects of radiowaves, (Translated from Russian by B. Haigh), Consultants Bureau, New York, NY, 1973. |
|
Baranski, S., Histological and histochemical effects of microwave irradiation on the central nervous system of rabbits and guinea pigs. Am J Physiol Med 51:182-190, 1972. |
|
Switzer, W.G. and Mitchell, D.S., Long-term effects of 2.45 GHz radiation on the ultrastructure of the cerebral cortex and hematologic profiles of rats. Radio Sci 12:287-293, 1977. |
|
Kues, H.A. and Monahan, J.C., Microwave-induced changes to the primate eye. Johns Hopkins APL Tech Digest 13:244-254, 1992. |
|
Kues, H.A., Monahan, J.C., D'Anna, S.A., McLeod, D.S., Lutty, G.A. and Koslov, S., Increased sensitivity of the non-human primate eye to microwave radiation following ophthalmic drug pretreatment. Bioelectromagnetics 13:379-393, 1992. |
|
Preston-Martin, S., Pike, M.C., Ross, R.K., Jomes, P.A. and Henderson, B.E., Increased cell division as a cause of human cancer. Cancer Res 50:7415-7421, 1990. |
|
Chou, C.K. and Guy, A.W., Effects of electromagnetic fields on isolated nerve and muscle preparation. IEEE Trans Microwave Th Tech MTT-26:141-147, 1978. |
|
Arber, S.L. and Lin, J.C., Microwave-induced changes in nerve cells: effects of modulation and temperature. Bioelectromagnetics 6:257-270, 1985. |
|
D'Inzeo, G., Bernardi, P., Eusebi, F., Grassi, F., Tamburello, C. and Zani, B.M., Microwave effects on acetylcholine-induced channels in cultured chick myotubes. Bioelectromagnetics 9:363-372, 1988. |
|
Johnson, C.C. and Guy, A.W., Nonionizing electromagnetic wave effect in biological materials and systems. Proc IEEE 60:692-718, 1972. |
|
Taylor, E.M. and Ashleman, B.T., Some effects of electromagnetic radiation on the brain and spinal cord of cats. Ann NY Acad Sci 247:63-73, 1975. |
|
Baranski, S. and Edelwejn, Z., Pharmacological analysis of microwave effects on the central nervous system in experimental animals, in: "Biological Effects and Health Hazards of Microwave Radiation: Proceedings of an International Symposium," P. Czerski, et al., eds., Polish Medical Publishers, Warsaw, 1974. |
|
Goldstein, L. and Sisko, Z., A quantitative electro-encephalographic study of the acute effect of X-band microwaves in rabbits, in: "Biological Effects and Health Hazards of Microwave Radiation: Proceedings of an International Symposium," P. Czerski, et al., eds., Polish Medical Publishers, Warsaw, 1974. |
|
Servantie, B., Servantie, A.M. and Etienne, J., Synchronization of cortical neurons by a pulsed microwave field as evidenced by spectral analysis of electrocorticograms from the white rat. Ann N Y Acad Sci 247:82-86, 1975. |
|
Bawin, S.M., Gavalas-Medici, R.J. and Adey, W.R., Effects of modulated very high frequency fields on specific brain rhythms in cats. Brain Res 58:365-384, 1973. |
|
Chizhenkova, R.A., Slow potentials and spike unit activity of the cerebral cortex of rabbits exposed to microwaves. Bioelectromagnetics 9:337-345, 1988. |
|
Dumansky, J.D. and Shandala, M.G., The biologic action and hygienic significance of electromagnetic fields of super high and ultra high frequencies in densely populated areas, in: "Biologic Effects and Health Hazard of Microwave Radiation: Proceedings of an International Symposium," P. Czerski, et al., eds., Polish Medical Publishers, Warsaw, 1974. |
|
Shandala, M.G., Dumanski, U.D., Rudnev, M.I., Ershova, L.K. and Los, I.P., Study of nonionizing microwave radiation effects upon the central nervous system and behavior reaction. Environ Health Perspect 30:115-121, 1979. |
|
Takashima, S., Onaral, B. and Schwan, H.P., Effects of modulated RF energy on the EEG of mammalian brain. Rad Environ Biophys 16:15-27, 1979. |
|
Chou, C.K., Guy, A.W., McDougall, J.B. and Han, L.F., Effects of continuous and pulsed chronic microwave exposure on rabbits. Radio Sci 17:185-193, 1982. |
|
Catravas, C.N., Katz, J.B., Takenaga, J. and Abbott, J.R., Biochemical changes in the brain of rats exposed to microwaves of low power density (symposium summary). J Microwave Power 11:147-148, 1976. |
|
Merritt, J.H., Hartzell, R.H. and Frazer, J.W., The effect of 1.6 GHz radiation on neurotransmitters in discrete areas of the rat brain, in: "Biological Effects of Electromagnetic Waves," vol. 1, C.C. Johnson and M.C. Shore, eds., HEW Publication (FDA) 77-8010, Rockville, MD, 1976. |
|
Modak, A.T., Stavinoha, W.B. and Dean, U.P., Effect of short electromagnetic pulses on brain acetylcholine content and spontaneous motor activity in mice. Bioelectromagnetics 2:89-92, 1981. |
|
Snyder, S.H., The effect of microwave irradiation on the turnover rate of serotonin and norepinephrine and the effect of microwave metabolizing enzymes, Final Report, Contract No. DADA 17-69-C-9144, U.S. Army Medical Research and Development Command, Washington, DC (NTLT AD-729 161), 1971. |
|
Grin, A.N., Effects of microwaves on catecholamine metabolism in brain, US Joint Pub Research Device Rep JPRS 72606, 1974. |
|
Dutta, S.K., Das, K., Ghosh, B. and Blackman, C.F., Dose dependence of acetylcholinesterase activity in neuroblastoma cells exposed to modulated radio-frequency electromagnetic radiation. Bioelectromagnetics 13:317-322, 1992. |
|
Lai, H., Horita, A., Chou, C.K. and Guy, A.W., Low-level microwave irradiation affects central cholinergic activity in the rat. J Neurochem 48:40-45, 1987. |
|
Lai, H., Horita, A. and Guy, A.W., Acute low-level microwave exposure and central cholinergic activity: studies on irradiation parameters. Bioelectromagnetics 9:355-362, 1988. |
|
Lai, H., Carino, M.A., Horita, A. and Guy, A.W., Low-level microwave irradiation and central cholinergic systems. Pharmac Biochem Behav 33:131-138, 1989. |
|
Lai, H., Carino, M.A., Horita, A. and Guy, A.W., Acute low-level microwave exposure and central cholinergic activity: a dose-response study. Bioelectromagnetics 10:203-209, 1989. |
|
Lai, H., Carino, M.A., Wen, Y.F., Horita, A. and Guy, A.W., Naltrexone pretreatment blocks microwave-induced changes in central cholinergic receptors. Bioelectromagnetics 12:27-33, 1991. |
|
Polc, P., Electrophysiology of benzodiazepine receptor ligands: multiple mechanisms and sites of action. Prog Neurobiol 31:349-424, 1988. |
|
Braestrup, C., Neilsen, M., Neilsen, E.B. and Lyon, M., Benzodiazepine receptors in the brain as affected by different experimental stresses: the changes are small and not unidirectional. Psychopharmacology 65:273-277, 1979. |
|
Medina, J.H., Novas, M.L., Wolfman, C.N.V., Levi DeStein, M. and DeRobertis, E., Benzodiazepine receptors in rat cerebral cortex and hippocampus undergo rapid and reversible changes after acute stress. Neurosci 9:331-335, 1983. |
|
Johnson, R.B., Hamilton, J., Chou, C.K. and Guy, A.W., Pulsed microwave reduction of diazepam-induced sleeping in the rat. Abst Ann Meeting Bioelectromagnetrics Soc 2:4, 1980. |
|
Thomas, J.R., Burch, L.S. and Yeandle, S.C., Microwave radiation and chlordiazepoxide: synergistic effects on fixed interval behavior. Science 203:1357-1358, 1979. |
|
Lai, H., Carino, M.A., Horita, A. and Guy, A.W., Single vs repeated microwave exposure: effects on benzodiazepine receptors in the brain of the rat. Bioelectromagnetics 13:57-66, 1992. |
|
Gandhi, C.R. and Ross, D.H., Microwave induced stimulation of 32 Pi- incorporation into phosphoinositides of rat brain synaptosomes. Radiat Environ Biophys 28:223-234, 1989. |
|
Sanders, A.P., Schaefer, D.J. and Joines, W.T., Microwave effects on energy metabolism of rat brain. Bioelectromagnetics 1:171-182, 1980. |
|
Sanders, A.P., Joines, W.T. and Allis, J.W., The differential effect of 200, 591, and 2450 MHz radiation on rat brain energy metabolism. Bioelectromagnetics 5:419-433, 1984. |
|
Sanders, A.P., Joines, W.T. and Allis, J.W., Effect of continuous-wave, pulsed, and sinusoidal-amplitude-modulated microwaves on brain energy metabolism. Bioelectromagnetics 6:89-97, 1985. |
|
Merritt, J.H., Shelton, W.W. and Chamness, A.F., Attempts to alter 45Ca2+ binding to brain tissue with pulse-modulated microwave energy. Bioelectromagnetics 3:475-478, 1982. |
|
Shelton, W.W., Jr. and Merritt, J.H., In vitro study of microwave effects on calcium efflux in rat brain tissue. Bioelectromagnetics 2:161-167, 1981. |
|
Bawin, S.M., Kaczmarek, L.K. and Adey, W.R., Effects of modulated VHF fields on the central nervous system. Annals NY Acad Sci 247:74-81, 1975. |
|
Blackman, C.F., Elder, J.A., Weil, C.M., Benane, S.G., Eichinger, D.C. and House, D.E., Induction of calcium-ion efflux from brain tissue by radio-frequency radiation: effects of modulation frequency and field strength. Radio Sci 14:93-98, 1979. |
|
Blackman, C.F., Benane, S.G., Elder, J.A., House, D.E., Lampe, J.A. and Faulk, J.M., Induction of calcium ion efflux from brain tissue by radiofrequency radiation: effect of sample number and modulation frequency on the power-density window. Bioelectromagnetics 1:35-43, 1980. |
|
Blackman, C.F., Benane, S.G., Joines, W.T., Hollis, M.A. and House, D. E., Calcium ion efflux from brain tissue: power density versus internal field-intensity dependencies at 50-MHz RF radiation. Bioelectromagnetics 1:277-283, 1980. |
|
Blackman, C.F., Benane, S.G., House, D.E. and Joines, W.T., Effects of ELF (1-120 Hz) and modulated (50 Hz) RF field on the efflux of calcium ions from brain tissue in vitro. Bioelectromagnetics 6:1-11, 1985. |
|
Sheppard, A.R., Bawin, S.M. and Adey, W.R., Models of long-range order in cerebral macro-molecules: effect of sub-ELF and of modulated VHF and UHF fields. Radio Sci 14:141-145, 1979. |
|
Adey, W.R., Bawin, S.M. and Lawrence, A.F., Effects of weak amplitude-modulated microwave fields on calcium efflux from awake cat cerebral cortex. Bioelectromagnetics 3:295-307, 1982. |
|
Lin-Liu, S. and Adey, W.R., Low frequency amplitude modulated microwave fields change calcium efflux rate from synaptosomes. Bioelectromagnetics 3:309-322, 1982. |
|
Dutta, S.K., Subramoniam, A., Ghosh, B. and Parshad, R., Microwave radiation-induced calcium ion efflux from human neuroblastoma cells in culture. Bioelectromagnetics 5:71-78, 1984. |
|
Dutta, S.K., Ghosh, B. and Blackman, C.F., Radiofrequency radiation-induced calcium ion efflux enhancement from human and other neuroblastoma cells in culture. Bioelectromagnetics 10:197-202, 1989. |
|
Blackman, C.F., Benane, S.G., Elliot, D.J., House, D.E. and Pollock, M.M., Influence of electromagnetic fields on the efflux of calcium ions from brain tissue, in vivo: a three-model analysis consistent with the frequency response up to 510 Hz. Bioelectromagnetics 9:215-227, 1988. |
|
Blackman, C.F., Kinney, L.S., House, D.E. and Joines, W.T., Multiple power density windows and their possible origin. Bioelectromagnetics 10:115-128, 1989. |
|
Blackman, C.F., Benane, S.G. and House, D.E., The influence of temperature during electric and magnetic-field induced alteration of calcium-ion release from in vitro brain tissue. Bioelectromagnetics 12:173-182, 1991. |
|
Garaj-Vrhovac, V., Horvat, D. and Koren, Z., The effect of microwave radiation on cell genome. Mutat Res 243:87-93, 1990. |
|
Garaj-Vrhovac, V., Horvat, D. and Koren, Z., The relationship between colony-forming ability, chromosome aberrations and incidence of micronuclei in V79 Chinese hamster cells exposed to microwave radiation. Mutat Res 263:143-149, 1991. |
|
Maes, A., Verschaeve, L., Arroyo, A., DeWagter. C. and Vercruyssen, L., In vitro cytogenetic effects of 2450 MHz waves on human peripheral blood lymphocytes. Bioelectromagnetics 14:495-501, 1993. |
|
Narasimhan, V. and Huh, W.K., Altered restriction patterns of microwave irradiated lambdaphage DNA. Biochem Inter 25:363-370, 1991. |
|
Sagripanti, J.L. and Swicord, M.L., DNA structural changes caused by microwave radiation. Inter J Rad Biol 50:47-50, 1986. |
|
Verschaeve, L., Slaets, D., Van Gorp, U., Maes, A. and Vankerkom, J., In vitro and in vivo genetic effects of microwaves from mobile telephone frequencies in human and rat peripheral blood lymphocytes. Proceedings of Cost 244 Meetings on Mobile Communication and Extremely Low Frequency Field: Instrumentation and Measurements in Bioelectromagnetics Research. D. Simunic (ed.), pp. 74-83, 1994. |
|
Singh, N., Rudra, N., Bansal, P., Mathur, R., Behari, J. and Nayar, U., Poly ADP ribosylation as a possible mechanism of microwave-biointeraction. Indian J Physiol Pharmacol 38:181-184, 1994. |
|
Sarkar, S., Ali, S. and Bahari, J., Effects of low power microwave on the mouse genome: a direct DNA analysis. Mutat Res 320:141-147, 1994. |
|
Lai, H. and Singh, N.P., Acute low-intensity microwave exposure increases DNA single-strand breaks in rat brain cells. Bioelectromagnetics 16:207-210, 1995. |
|
Lai, H. and Singh, N.P., DNA Single- and double-strand DNA breaks in rat brain cells after acute exposure to low-level radiofrequency electromagnetic radiation. Int J Radiat Biol 69:513-521, 1996. |
|
Repacholi, M.H., Basten, A., Gebski, V., Noonan, D., Finnie, J. and Harris, A.W., Lymphomas in E-Pim1 transgenic mice exposed to pulsed 900-MHz electromagnetic fields. Radiat Res 147:631-40, 1997. |
|
Adey, W.R., Byus, C.V., Cain, C.D., Haggren, W., Higgins, R.J., Jones, R.A., Kean, C.J., Kuster, N., MacMurray, A., Phillips, J.L., Stagg, R.B. and Zimmerman, G., Brain tumor incidence in rats chronically exposed to digital cellular telephone fields in an initiation-promotion model. 18th Annual Meeting of the Bioeletromagnetics Society, Victoria, B.C., Canada, June 9-14, 1996. |
|
Adey, W.R., Byus, C.V., Cain, C.D., Haggren, W., Higgins, R.J., Jones, R.A., Kean, C.J., Kuster, N., MacMurray, A., Phillips, J.L., Stagg, R.B. and Zimmerman, G., Brain tumor incidence in rats chronically exposed to frequency-modulated (FM) cellular phone fields. Second World Congress for Electricity in Biology and Medicine, Bologna, Italy, June 8-13, 1997. |
|
Lai, H. and Singh, N.P., Melatonin and a spin-trap compound blocked radiofrequency radiation-induced DNA strand breaks in rat brain cells. Bioelectromagnetics 18:446-454, 1997. |
|
Forster, M.J., Dubey, A., Dawson, K.M., Stutts, W.A., Lal, H. and Sohal, R.S., Age-related losses of cognitive function and motor skills in mice are associated with oxidative protein damage in the brain. Proc Nat Acad Sci (USA) 93:4765-4769, 1996. |
|
Sohal, R.S. and Weindruch, R., Oxidative stress, caloric restriction, and aging. Science 273:59-63, 1996. |
|
Borlongan, C.V., Kanning, K., Poulos, S.G., Freeman, T.B., Cahill, D.W. and Sanberg, P.R., Free radical damage and oxidative stress in Huntington's disease. J Florida Med Assoc 83: 335-341, 1996. |
|
Owen, A.D., Schapira, A.H., Jenner, P. and Marsden, C.D., Oxidative stress and Parkinson's disease. Ann NY Acad Sci 786:217-223, 1996. |
|
Aruoma, O.I., Nutrition and health aspects of free radicals and antioxidants. Food Chem Toxiciol 32:671-683, 1994. |
|
Kurose, I., Higuchi, H., Kato, S., Miura, S. and Ishii, H., Ethanol-induced oxidative stress in the liver. Alcohol Clin Exp Res 20 (1 Suppl):77A-85A, 1996. |
|
Wachsman, J.T., The beneficial effects of dietary restriction: reduced oxidative damage and enhanced apoptosis. Mutat Res 350:25-34, 1996. |
|
Haque, M.F., Aghabeighi, B., Wasil, M., Hodges, S. and Harris, M., Oxygen free radicals in idiopathic facial pain. Bangladesh Med Res Council Bull 20:104-116, 1994. |
|
Clarkson, P.M., Antioxidants and physical performance. Crit Rev Food Sci Nutri 35:131-141, 1995. |
|
Lai, H., Neurological effects of microwave irradiation. In: "Advances in Electromagnetic Fields in Living Systems, Vol. 1", J.C. Lin (ed.), Plenum Press, New York, 1994, pp. 27-80. |
|
Lai, H., Horita, A. and Guy, A.W., Microwave irradiation affects radial-arm maze performance in the rat. Bioelectromagnetics 15:95-104, 1994. |
|
Lai, H., Research on the neurological effects of nonionizing radiation at the University of Washington. Bioelectromagnetics 13:513-526, 1992. |
|
Ahuja YR, Bhargava A, Sircar S, Rizwani W, Lima S, Devadas AH, Bhargava SC. (1997) Comet assay to evaluate DNA damage caused by magnetic fields. In: Proceedings of the International Conference on Electromagnetic Interference and Compatibility, Hyderabad, India, pp. 273-276. |
|
Ahuja YR, Vijayashree B, Saran R, Jayashri EL, Manoranjani JK, Bhargava SC. (1999) In vitro effects of low-level, low-frequency electromagnetic fields on DNA damage in human leucocytes by comet assay. Indian J Biochem Biophys 36:318-322. |
|
Garaj-Vrhovac V, Horvat D, Koren Z. (1991) The relationship between colony-forming ability, chromosome aberrations and incidence of micronuclei in V79 Chinese hamster cells exposed to microwave radiation. Mutat Res 263:143-149. |
|
Guy AW, Wallace J, McDougall JA. (1979) Circular polarized 2450-MHz waveguide system for chronic exposure of small animals to microwaves. Radio Sci 14(6S):63-74. |
|
Hannan CJ, Liang Y, Allison JD, Pantazis CG, Searle JR. (1994) Chemotherapy of human carcinoma xenografts during pulsed magnetic field exposure. Anticancer Res 14:1521-1524. |
|
Lai H, Singh NP. (1995) Acute low-intensity microwave exposure increases DNA single-strand breaks in rat brain cells. Bioelectromagnetics 16:207-210. |
|
Lai H, Singh NP. (1996) DNA Single- and double-strand DNA breaks in rat brain cells after acute exposure to low-level radiofrequency electromagnetic radiation. Int J Radiat Biol 69:513-521. |
|
Lai H, Singh NP. (1997a) Acute exposure to a 60-Hz magnetic field increases DNA strand breaks in rat brain cells. Bioelectromagnetics 18:156-165. |
|
Lai H, Singh NP. (1997b) Melatonin and N-tert-butyl--phenylnitrone blocked 60-Hz magnetic field-induced DNA single and double strand breaks in rat brain cells. J Pineal Res 22:152-162. |
|
Lai H, Singh NP. (1997c) Melatonin and a spin-trap compound blocked radiofrequency radiation-induced DNA strand breaks in rat brain cells. Bioelectromagnetics 18:446-454. |
|
Lai H, Horita A, Guy AW. (1993) Effects of a 60-Hz magnetic field on central cholinergic systems of the rat. Bioelectromagnetics 14:5-15. |
|
Liang Y, Hannan CJ, Chang BK, Schoenlein PV. (1997) Enhanced potency of daunorubicin against multidrug resistant subline KB-ChR-8-5-11 by a pulsed magnetic field. Anticancer Res 17:2083-2088. |
|
Maes A, Verschaeve L, Arroyo A, De Wagter C, Vercruyssen L. (1993) In vitro cytogenetic effects of 2450 MHz waves on human peripheral blood lymphocytes. Bioelectromagnetics 14:495-501. |
|
Phillips JL, Campbell-Beachler M, Ivaschuk O, Ishida-Jones T, Haggnen W. (1997) Exposure of molt-4 lypmhoblastoid cells to a 1 g sinusoidal magnetic field at 60-Hz: effects on cellular events related to apoptosis, In: 1997 Annual Review of Research on Biological Effects of Electric and Magnetic Fields from the Generation, Delivery, and Use of Electricity; W/L Associates, Ltd, Frederick, MD. |
|
Phillips JL, Ivaschuk O, Ishida-Jones T, Jones RA, Campbell-Beachler M, Haggren W. (1998) DNA damage in Molt-4 T-lymphoblastoid cells exposed to cellular telephone radiofrequency fields in vitro. Bioelectrochem Bioenerg 45:103-110. |
|
Sarkar S, Ali S, Behari J. (1994) Effect of low power microwave on the mouse genome: a direct DNA analysis. Mutat Res 320:141-147. |
|
Simko M, Kriehuber R, Weiss DG, Luben RA. (1998) Effects of 50 Hz EMF exposure on micronucleus formation and apoptosis in transformed and nontransformed human cell lines. Bioelectromagnetics 19:85-91. |
|
Singh NP, Lai H. (1998) 60 Hz magnetic field exposure induces DNA crosslinks in rat brain cells. Mutat Res 400:313-320. |
|
Svedenstal BM, Johanson KL, Mattsson MO, Paulson LE. (1999a) DNA damage, cell kinetics and ODC activities studied in CBA mice exposed to electromagnetic fields generated by transmission lines. In Vivo 13:507-514. |
|
Svedenstal BM, Johanson KL, Mild KH. (1999b) DNA damage induced in brain cells of CBA mice exposed to magnetic fields. In Vivo 13:551-552. |
|
Tofani S, Barone D, Cintorino M, de Santi MM, Ferrara A, Orlassino R, Ossola P, Peroglio F, Rolfo K, Ronchetto F. (2001) Static and ELF magnetic fields induce tumor growth inhibition and apoptosis. Bioelectromagnetics 22:419-428. |
|
Verschaeve L, Slaetes D, Van Gorp U, Maes A, Vankerkom J. (1994) In vitro and in vivo genetic effects of microwaves from mobile telephone frequencies in human and rat peripheral blood lymphocytes. In: Proceedings of the COST 244 Meetings on Mobile Phone Communication and Extremely-Low-Frequency Field: Instrumentation and Measurements in Bioelectromagnetics Research, Bled, Slovenia, edited by D. Simunic, pp. 74-83. |
|
Zotti-Martelli L, Peccatori M, Scarpato R, Migliore L. (2000) Induction of micronuclei in human lymphocytes exposed in vitro to microwave radiation. Mutat Res 472:51-58. |
|
Akyel, Y., Hunt, E.L., Gambrill, C., and Varga, C. Jr., 1991, Immediate postexposure effects of high-peak-power microwave pulses on operant behavior of Wistar rats, Bioelectromagnetics 12:183-195. |
|
Barenski, S., 1972, Histological and histochemical effects of microwave radiation on the central nervous system of rabbits and guinea pigs, Am J Physiol Med 51:182-190. |
|
Bawin, S.M., Gavalas-Medici, R.J., and Adey, W.R., 1973, Effects of modulated very high frequency fields on specific brain rhythms in cats, Brain Res 58:365-384. |
|
Carroll, D.R., Levinson, D.M., Justesen, D.R., and Clarke, R.L., 1980, Failure of rats to escape from a potenially lethal microwave field, Bioelectromagnetics 1:101-115. |
|
Chizhenkova, R.A., 1988, Slow potentials and spike unit activity of the cerebral cortex of rabbits exposed to microwaves, Bioelectromagnetics 9:337-345. |
|
Chou, C.K., Guy, A.W., and Galambos, R., 1982a, Auditory perception of radiofrequency electromagnetic fields, J Acoust Soc Am 71:1321-1334. |
|
Chou, C.K., Guy, A.W., McDougall, J.B., and Han, L.F., 1982b, Effects of continuous and pulsed chronic microwave exposure on rabbits, Radio Sci 17:185-193. |
|
Czerski, P., Ostrowski, K., Shore, M.L., Silverman, C.H., Sues, M.J., and Waldeskog, B., eds., 1974, "Biological Effects and Health Hazard of Microwave Radiation: Proceedings of an International Symposium," Polish Medical Publisher, Warsaw. |
|
D'Andrea, J.A., Gandhi, O.P., and Kesner, R.P., 1976, Behavioral effects of resonant electromagnetic power absorption in rats. In: "Biological Effects of Electromagnetic Waves," vol 1, C.C. Johnson and M.L. Shore, eds., HEW Publication (FDA) 77-8010, Rockville, MD. |
|
D'Andrea, J.A., Gandhi, O.P., and Lords J.L., 1977, Behavioral and thermal effects of microwave radiation at resonant and nonresonant wavelengths, Radio Sci 12:251-256. |
|
D'Andrea, J.A., Gandhi, O.P., Lords, J.L., Durney, C.H., Johnson, C.C., and Astle, L., 1979, Physiological and behavioral effects of chronic exposure to 2450-MHz microwaves, J Microwave Power 14:351-362. |
|
D'Andrea, J.A., Gandhi, O.P., Lords. J.L., Durney, C.H., Astle, L., Stensaas, L.J., and Schoenberg, A.A., 1980, Physiological and behavioral effects of prolonged exposure to 915 MHz microwaves, J Microwave Power 15(2):123-135. |
|
D'Andrea, J.A., DeWitt, J.R., Emmerson, R.Y., Bailey, C., Stensaas, S., and Gandhi, O. P., 1986a, Intermittent exposure of rat to 2450-MHz microwaves at 2.5 mW/cm2: behavioral and physiological effects, Bioelectromagnetics 7:315-328. |
|
D'Andrea, J.A., DeWitt, J.R., Gandhi, O. P., Stensaas, S., Lords, J.L., and Nielson, H.C., 1986b, Behavioral and physiological effects of chronic 2450-MHz microwave irradiation of the rat at 0.5 mW/cm2, Bioelectromagnetics 7:45-56. |
|
D'Andrea, J.A., Cobb, B.L., and de Lorge, J., 1989, Lack of behavioral effects in the rhesus monkey to high peak power microwave pulses at 1.3 GHz, Bioelectromagnetics 10:65-76. |
|
de Lorge, J.O. , 1984, Operant behavior and colonic temperature of Macaca mulatta exposed to radiofrequency fields at and above resonant frequencies. Bioelectromagnetics 5:233-246. |
|
de Lorge, J., and Ezell, C.S., 1980, Observing-responses of rats exposed to 1.28- and 5.62-GHz microwaves, Bioelectromagnetics 1:183-198. |
|
DeWitt, J.R., D’Andrea, J.A., Emmerson, R.Y., and Gandhi, O.P., 1987, Behavioral effects of chronic exposure to 0.5 mW/cm2 of 2450-MHz microwaves. Bioelectromagnetics 8:149-157. |
|
Dumansky, J.D., and Shandala, M.G., 1974, The biologic action and hygienic significance of electromagnetic fields of super high and ultra high frequencies in densely populated areas. In: "Biologic Effects and Health Hazard of Microwave Radiation: Proceedings of an International Symposium," P. Czerski, et al., eds., Polish Medical Publishers, Warsaw. |
|
Frey, A.H., 1977, Behavioral effects of electromagnetic energy. In: "Symposium on Biological Effects and Measurement of Radio Frequency Microwaves," D.J. Hazzard, ed., HEW Publication (FDA), 77-8026, Rockville, MD. |
|
Frey, A.H., and Feld, S.R., 1975, Avoidance by rats of illumination with low power nonionizing electromagnetic energy, J Comp Physiol Psychol 89:183-188. |
|
Frey, A.H., Feld, S.R., and Frey, B., 1975, Neural function and behavior: defining the relationship. Ann N Y Acad Sci 247:433-439. |
|
Gage, M.I., 1979, Behavior in rats after exposure to various power densities of 2450 MHz microwaves, Neurobehav Toxicol 1:137-143. |
|
Goldstein, L., and Sisko, Z., 1974, A quantitative electroencephalographic study of the acute effect of X-band microwaves in rabbits. In: "Biological Effects and Health Hazards of Microwave Radiation: Proceedings of an International Symposium," P. Czerski, et al., eds., Polish Medical Publishers, Warsaw. |
|
Hjeresen, D.L., Doctor, S.R., and Sheldon, R.L., 1979, Shuttlebox-side preference as mediated by pulsed microwaves and conventional auditory cue. In: "Electromagnetic Fields in Biological System," S.S.Stuchly, ed., Ottawa,Canada. |
|
Hunt, E.L., King, N.W., and Phillips, R.D., 1975, Behavioral effects of pulsed microwave radiation, Ann NY Acad Sci 247:440-453. |
|
Johnson, R.B., Spackman, D., Crowley, J., Thompson, D., Chou, C.K., Kunz, L.L., and Guy, A.W., 1983, Effects of long-term low-level radiofrequency radiation exposure on rats, vol. 4, Open field behavior and corticosterone, USAF SAM-TR83-42, Report of USAF School of Aerospace Medicine, Brooks AFB, San Antonio, TX. |
|
King, N.W., Justesen, D.R., and Clarke, R.L., 1971, Behavioral sensitivity to microwave irradiation, Science 172:398-401. |
|
Krylova, I.N., Dukhanin, A.S., Il’in, A.B., Kuznetsova, E.Iu., Balaeva, N.V., Shimanovskii, N.L., Pal’tsev, Iu.P., and Iasnetsov, V.V., 1992, The effect of ultrahigh frequency electromagnetic radiation on learning and memory processes (article in Russian), Biull Eksp Biol Med 114:483-484. |
|
Krylov, I.N., Iasnetsov, V.V., Dukhanin, A.S., and Pal’tsev, Iu.P., 1993, Pharmacologic correction of learning and memory disorders induced by exposure to high-frequency electromagnetic radiation (article in Russian), Biull Eksp Biol Med 115:260-262. |
|
Kunjilwar, K.K., and Behari, J., 1993, Effect of amplitude-modulated radio frequency radiation on cholinergic system of developing rats, Brain Res 601:321-324. |
|
Lai, H., Horita, A., Chou, C.K., and Guy, A.W., 1987, Low-level microwave irradiation affects central cholinergic activity in the rat, J Neurochem 48:40-45. |
|
Lai, H., Carino, M.A., and Guy, A.W., 1989, Low-level microwave irradiation and central cholinergic systems, Pharmac Biochem Behav 33:131-138. |
|
Lai, H., Carino, M.A., Horita, A. and Guy, A.W., 1990, Corticotropin-releasing factor antagonist blocks microwave-induced changes in central cholinergic activity in the rat, Brain Res Bull 25:609-612. |
|
Lai, H., Carino, M.A., Horita, A. and Guy, A.W., 1992, Opioid receptor subtypes that mediate a microwave-induced decrease in central cholinergic activity in the rat. Bioelectromagnetics 13:237-246. |
|
Lai, H., Horita, A., and Guy, A.W., 1994, Microwave irradiation affects radial-arm maze performance in the rat, Bioelectromagnetics 15:95-104. |
|
Lebovitz, R.M., 1980, Behavioral changes during long-term microwave irradiation. In: "Proceeding of the International Symposium on the Biological Effects of Electromagnetic waves," UNSI, CNFRS, Jouy-en-Josas, France. |
|
Levinson, D.M., Grove, A.M., Clarke, L.R., and Justesen, D.R., 1982, Photic cueing of escape by rats from an intense microwave field, Bioelectromagnetics 3:105-116. |
|
Lin, J.C., 1978, “Microwave Auditory Effects and Applications”, Charles C, Thomas, Springfield, IL. |
|
Lovely, R.H., Myers, D.E., and Guy, A.W., 1977, Irradiation of rats by 918-MHz microwaves at 2.5 mW/cm2: delineating the dose-response relationship, Radio Sci 12(6):139-146. |
|
Mickley, G.A. and Cobb, B.L., 1998, Thermal tolerance reduces hyperthermia-induced disruption of working memory: a role for endogenous opiates? Physiol Beh 63:855-865. |
|
Mitchell, C.L., McRee, D.J., Peterson, N.J., and Tilson, H.A., 1988, Some behavioral effects of short-term exposure of rats to 2.45-GHz microwave radiation, Bioelectromagnetics 9:259-268. |
|
Mitchell, D.S., Switzer, W.G., and Bronaugh, E.L., 1977, Hyperactivity and disruption of operant behavior in rats after multiple exposure to microwave radiation, Radio Sci 12(6):263-271. |
|
Moe, K.E., Lovely, R.H., Meyers D.E., and Guy, A.W., 1976, Physiological and behavioral effects of chronic low-level microwave radiation in rats. In: "Biological Effects of Electromagnetic Waves," vol. 1, C.C. Johnson and M.L. Shore, eds., HEW Publication (FDA) 77-8010, Rockville, MD. |
|
Monahan, J.C., and Henton, W., 1977, Free operant avoidance and escape from microwave radiation. In: “Symposium on Biological Effects and Measurement of Radio Frequency Microwaves”, D.J. Hazzard, ed, HEW Publication (FDA) 77-8026, Rockville, MD. |
|
Navakatikian, M.A., and Tomashevskaya, L.A., 1994, Phasic behavioral and endocrine effects of microwaves of nonthermal intensity. In: “Biological Effects of Electric and Magnetic Fields, vol. 1”, D.O. Carpenter, ed., Academic Press, San Diego, CA. |
|
Oscar, K.J., and Hawkins, T.D., 1977, Microwave alteration of the blood-brain barrier system of rats, Brain Res 126:281-293. |
|
Ray, S., and Behari, J., 1990, Physiological changes in rats after exposure to low levels of microwaves. Rad Res 123:199-202. |
|
Roberti, B., Heebels, G.H., Hendricx, J.C.M., deGreef, A.H.A.M., and Wolthuis, O.L., 1975, Preliminary investigation of the effect of low-level microwave radiation on spontaneous motor activity in rats, Ann NY Acad Sci 247:417-424. |
|
Rudnev, M., Bokina, A., Eksler, N., and Navakatikyan, M., 1978, The use of evoked potential and behavioral measures in the assessment of environmental insult. In: "Multidisciplinary Perspectives in Event-Related Brain Potential Research," D.A. Otto, ed., EPA-600/9-77-043, U.S. Environmental Protection Agency, Research Triangle Park, NC. |
|
Schrot, J., Thomas, J.R., and Banvard, R.A., 1980, Modification of the repeated acquisition of response sequences in rats by low-level microwave exposure, Bioelectromagnetics 1:89-99. |
|
Schwan, H.P., 1971, Interaction of microwave and radiofrequency radiation with biological systems, IEEE Microwave Th Tech MTT-19:146-150. |
|
Sienkiewicz, Z., 1999, Behavioural effects of radiofrequency fields. In “Mobile Telephones and Health: an Update on the Latest Research”, Gothenburg, Sweden. |
|
Takashima, S., Onaral, B., and Schwan, H.P., 1979, Effects of modulated RF energy on the EEG of mammalian brain, Rad Environ Biophys 16:15-27. |
|
Thomas, J.R., Finch, E.D., Fulk, D.W., and Burch, L.S., 1975, Effects of low level microwave radiation on behavioral baselines, Ann NY Acad Sci 247:425-432. |
|
Wang, B.M. and Lai, H., 2000, Acute exposure to pulsed 2450-MHz microwaves affects water-maze performance of rats, Bioelectromagnetics 21:52-56. |
|
S. Baranski, and P. Czerski, Biological effects of Microwaves. Stroudsburg, PA: Dowden, Hutchinson, and Ross, Inc. 1976. |
|
I.R. Petrov, Ed., Influence of Microwave Radiation on the Organism of Men and Animals. Leningrad, USSR: Meditsina Press, 1970, NASA TTF-708, 1972. |
|
Z. V. Gordon, Biological Effects of Microwave in Occupational Hygiene, 1966, translated from Russian, NASA TTF-633, 1970. |
|
C. Silverman, “Epidemiological Studies of Microwave Effects”, Proc. IEEE, vol.68,pp.78-84, Enero, 1980. |
|
C. Silverman, “Nervous and behavioral effects of microwave radiation in humans,” American Journal of Epidemiology, vol.97, pp.219-224, 1973. |
|
Szmigielski, S., “Eastern european RF protection guides and rationales”, in Electromagnetic Interaction with Biological Systems, pp.221-244, Edit. Plenum Press 1989. |
|
Proceedings of “International Conference on Cell Tower Siting”, Federal State of Salzburg-University of Vienna-Institute of Environmental Health, Austria, 2000. |
|
Abelin, T., 1999: "Sleep disruption and melatonin reduction from exposure to a shortwave radio signal". Seminar at Canterbury Regional Council, New Zealand. August 1999. |
|
Abramson J.H., et al., “The Cornell Medical Index as a health measure in epidemiological studies”, Br. J. Prev. Soc. Med. 19, pp.103-110, 1965. |
|
Adey W.R., “Evidence for cooperative mechanisms in the susceptibility of cerebral tissue to environmental and intrinsic electric fields”, Biological Effects of Electromagnetic Radiation, Edited by John M. Osepchuk, pp.108-116, 1975, IEEE Press- John Wiley & Sons. |
|
Adey W.R., “Neurophysiologic effects of Radiofrequency and Microwave Radiation”, Bull. N.Y. Acad. Med., Vol.55, no.11, pp1079-1093, 1979. |
|
Adey W.R., Bawin S.M., Lawrence A.F., “Effects of weak amplitude-modulated microwave fields on calcium efflux from awake cat cerebral cortex”. Bioelectromagnetics, 3, pp.295-307. |
|
Adey W.R., “Electromagnetic fields and the essence of living systems”. In “Modern Radio Science”, J. Bach Anderson Ed., Oxford University Press, pp.1-37, 1990. |
|
Altpeter, E.S., Krebs, Th., Pfluger, D.H., von Kanel, J., Blattmann, R., et al., 1995: "Study of health effects of Shortwave Transmitter Station of Schwarzenburg, Berne, Switzerland". University of Berne, Institute for Social and Preventative Medicine, August 1995 |
|
Balcer-Kubiczek, E.K. and Harrison, G.H. “Evidence for microwave carcinogenesis”, Carcinogenesis, 6: 859-864, 1985 |
|
Clemens M.R., “Free radicals in chemical carcinogenesis”, Klinische Wochenschrift, Vol.69, no.21-23, pp.1123-1134, 1991. |
|
Cherry N., “Potencial and actual adverse effects of radiofrequency and microwave radiation at levels near and below 2 W/cm2”. PhD. Thesis. Lincoln University, 1998. |
|
Daly M.B., Tyroler H.A., “Cornell Medical Index Health responses as a predictor of mortality”, Br. J. Prev. Soc. Med. 26, pp.159-164, 1972. |
|
Dolk, H., Shaddick, G., Walls, P., Grundy, C., Thakrar, B., Kleinschmidt, I. and Elliott, P., 1997a: “Cancer incidence near radio and television transmitters in Great Britain, I - Sutton-Colfield transmitter”. American J. of Epidemiology, 145(1):1-9. |
|
EuroQol-A new facility for the measurement of health related quality of life. Health Policy; 16, pp.199-208, 1990. |
|
Ferrís i Tortajada J., García i Castell J., EL CÀNCER, CAUSES, DESENVOLUPAMENT I PREVENCIÓ, 2000. |
|
Goldsmith, J.R., 1997b: "Epidemiologic evidence relevant to radar (microwave) effects". Environmental Health Perspectives, 105 (Suppl 6): 1579-1587. |
|
Hocking, B., Gordon, I.R., Grain, H.L., and Hatfield, G.E., 1996: “Cancer incidence and mortality and proximity to TV towers”. Medical Journal of Australia, Vol 165, 2/16 December, pp 601-605. |
|
Johnson-Liakouris, A.J.. 1998: "Radiofrequency (RF) Sickness in the Lilienfeld Study: an effect of modulated microwaves". Arch Environ Heath 53(3):236-238. |
|
Lilienfeld, A.M., Tonascia, J., and Tonascia S., Libauer, C.A., and Cauthen, G.M., 1978: “Foreign Service health status study - evaluation of health status of foreign service and other employees from selected eastern European posts”. Final Report (Contract number 6025-619073) to the U.S. Dept of State, July 31, 1978. |
|
Litovitz T.A., Krause D. and Mullins J.M., “Effects of coherence time of the applied magnetic field on Ornithine Decarboxylase Activity”, Vol. 178, No. 3, Biochemical and Biophysical Research Communications, pgs 862-865, 1991 |
|
Litovitz T.A et al., “The role of coherence time in the effect of microwaves on ornithine decarboxylase activity”. Bioelectromagnetics 14: 395-403, 1993. |
|
Litovitz T.A., Montrose C.J., Doinov P., Barber M. and Brown K.M., “Superimposing spatially coherent electromagnetic noise inhibits field-induced abnormalities in developing chick embryos”. Bioelectromagnetics 15, 105-113, 1994 |
|
Luben, R., “Statement of Dr. Richard A. Luben on the biology and biochemistry of EMR, including RF/MW”, Planning Tribunal Hearing. Decision A 15/96 |
|
Lyle, D.B., Schechter P., Adey W.R. and Lundak R.L., “ Supression of T lymphocyte cytotoxicity following exposure to sinusoidally amplitude modulated fields”. Bioelectromagnetics, Vol.4, pp.281-292, 1983. |
|
Maskarinec, G. Cooper, J. and Swygert, L., 1994: "Investigation of increased incidence in childhood leukemia near radio towers in Hawaii: Preliminary observations". J. Environ Pathol Toxicol and Oncol 13(1): 33-37. |
|
M.J. Norusis, SPSS/PC+ Manual Base and SPSS/PC+ Statistics, SPSS Inc. Chicago, 1990. |
|
Organización Mundial de la Salud. Informe de la Conferencia Internacional sobre Atención Primaria de Salud. Alma-Ata. 1978. |
|
Organización Mundial de la Salud. Estrategia mundial de Salud para Todos en el Año 2000. Ginebra 1981. |
|
Organización Mundial de la Salud. Objetivos de Salud para Todos. Conpenhagen 1985. |
|
Reiter R.J. “Melatonin suppression by static and extremely low frequency electromagnetic fields: relathionship to the reported increased incidence of cancer”. Reviews on Environmental Health, Vol.10, no.3-4, pp.171-86, 1994. |
|
Reiter R.J. “Oxidative processes and antioxidative defense mechanisms in the aging brain”, FASEB J., vol. 9, pp.526-533, 1995. |
|
Reiter R.J., Melchiorri D., Sewerynek E., Poeggeler B., Barlow-Waiden L., Chuang J., Ortiz G.G. and Acuña-Castroviejo D., “A review of the evidence supporting melatonin’s role as an antioxidant”, J. Pineal Res. Vol.18, pp.1-11. |
|
Repacholi M.H., “Environmental Health Criteria 137: Electromagnetic fields (300Hz to 300 GHz)”. World Health Organization, Ginebra, 1993. |
|
Repacholi M.H., Basten A., Gebski V., Finnie J.H., and Harris A.W., “Lymphomas in E-Pim1 transgenic Mice Exposed to Pulsed 900MHz Electromagnetic Fields”, Radiation Research, Vol.147, pp.631-640, 1997. |
|
Robinette, C.D., Silverman, C. and Jablon, S., 1980: “Effects upon health of occupational exposure to microwave radiation (radar)”. American Journal of Epidemiology, 112(1):39-53, 1980. |
|
Schultz T.J., “Synthesis of social surveys on noise annoyance”, Journal of the Acoustical Society of America, Vol.64, No.2, pp.377-405, August 1978. |
|
Schwartz J.L., House D.E., and Mealing A.R.,“Exposure of frog hearts to CW or amplitude modulated VHF fields: selective efflux of calcium ions at 16Hz”, Bioelectromagnetics, vol.11, pp.349-358, 1990. |
|
J. Segura, E.A. Navarro, R. Sanchís and M. Regalado, “Caracterización del paisaje electromagnético en la banda de 300KHz a 3GHz”, Proc. XV Simposium Nacional de la URSI, Vol. I, pp.389-390. Zaragoza.13-15 de Septiembre 2000. |
|
Steinhardt R.W. et al. “Appraisal of physical and mental healt of the elderly: Use of Cornell Medical Index and supplementary health questionnaire”. JAMA 151; pp.378-382, 1953. |
|
Sumiyoshi, H., Baer, A.R. and Wargovich, M.J., “Heterogenicity of ornithine decarboxylase during mouse colon carcinogenesis and in human colon tumors”. Cancer Research, 51: 2069-2072, 1991 |
|
Szmigielski, S., 1996: “Cancer morbidity in subjects occupationally exposed to high frequency (radiofrequency and microwave) electromagnetic radiation”. Science of the Total Environment, Vol 180, 1996, pp 9-17. |
|
Walleczek J. , “Electromagnetic field effects on cells of the immune system: the role of calcium signaling”, FASEB J., 6, pp3176-3185, 1992. |
|
Walleczek J., Budinger T.F. , “Pulsed magnetic field effects on calcium signaling in lymphocytes: dependence on cell status anf field intensity”, FEBS 11896, 314 (3), pp351-355, 1992. |
|
Wilson B.W., Chess E.K. and Anderson L.E., “60Hz electric field effects on pineal melatonin rhythms: time course and onset of recovery”, Bioelectromagnetics, vol.7, pp239-242, 1986. |
|
Yoshida, M., Hayashi, H., Taira, M. and Isono, K., “Elevated expresión of the ornithine decarboxylase gene in human esophageal cancer”. Cancer Research, 52: 6671-6675, 1992. |
|
|