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Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
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References

Abou-Samra, A.-B., H. Jüppner, T. Force, M.W. Freeman, X.-F. Kong, E. Schipani, P. Urena, J. Richards, J.V. Bonventre, J.T. Potts, Jr., H.M. Kronenberg, and G.V. Segre. 1992. Expression cloning of a common receptor for parathyroid hormone and parathyroid hormone-related peptide from rat osteoblast-like cells: A single receptor stimulates intracellular accumulation of both cAMP and inositol trisphosphates and increases intracellular free calcium. Proc. Natl. Acad. Sci. USA 89:2732-2736.

Adair, R.K. 1992. Criticism of Lednev's mechanism for the influence of weak magnetic fields on biological systems. Bioelectromagnetics 13:231-235.

Adey, W.R. 1983. Some fundamental aspects of biological effects of extremely low frequency (ELF). Pp. 561-580 in Biological Effects and Dosimetry of Nonionizing Electromagnetic Fields, M. Grandolfo and S.M. Michaelson, eds. New York: Plenum.

Adey, W.R. 1992a. ELF magnetic fields and promotion of cancer experimental studies. Pp. 23-46 in Interaction Mechanisms of Low-Level Electromagnetic Fields in Living Systems, B. Norden and C. Ramel, eds. New York: Oxford University Press.

Adey, W.R. 1992b. Collective properties of cell membranes. Pp. 47-77 in Interaction Mechanisms of Low-Level Electromagnetic Fields in Living Systems, B. Norden and C. Ramel, eds. New York: Oxford University Press.

Ahlbom, A., M. Feychting, M. Koskenvuo, J.H. Olsen, E. Pukkala, G. Schulgen, and P. Verkasalo. 1993. Electromagnetic fields and childhood cancer [letter]. Lancet 342(8882):1295-1296.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
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Albert, E.N., F. Slaby, J. Roche, and J. Loftus. 1987. Effect of amplitude-modulated 147 MHz radiofrequency radiation on calcium ion efflux from avian brain tissue. Radiat. Res. 109:19-27.

Algers, G., and J. Hultgren. 1987. Effects of long-term exposure to a 400-kV, 50-Hz transmission line on estrousand fertility in cows. Prev. Vet. Med. 5:21-36.

Anderson, J.C., and C. Eriksson. 1970. Piezoelectric properties of dry and wet bone. Nature 227:491-492.

Andrienko, L.G. 1977. The effect of an electromagnetic field of industrial frequency on the generative function in an experiment [in Russian]. Gig. Sanit. 6:22-25; Engl. Trans. Gig. Sanit. 7:27-31.

ANSI/IEEE. 1987. Procedures for Measurement of Power Frequency Electric and Magnetic Fields from AC Power Lines. ANSI/IEEE 644-1987. New York: IEEE.

Auerbach, G.D., S.J. Marx, and A.M. Spiegel. 1985. Parathyroid hormone, calcitonin and the calciferols. Pp. 1137-1217 in Williams Textbook of Endocrinology, 7th Ed., J.D. Wilson and D.W. Foster, eds. Philadelphia: Saunders.

Balcer-Kubiczek, E.K., and G.H. Harrison. 1991. Neoplastic transformation of C3H/10T1/2 cells following exposure to 120-Hz modulated 2.45-GHz microwaves and phorbol tumor promoter. Radiat. Res. 126:65-72.

Banks, R. 1988. Magnetic fields and illness. Public Health 102:393-394.

Baris, D., and B. Armstrong. 1990. Suicide among electric utility workers in England and Wales [letter]. Br. J. Ind. Med. 47:788-789.

Baroncelli, P., S. Battisti, A. Checcucci, P. Comba, M. Grandolfo, A. Serio, and P. Vecchia. 1986. A health examination of railway high-voltage substation workers exposed to ELF electromagnetic fields. Am. J. Ind. Med. 10:45-55.

Bassett, C.A.L. 1982. Pulsing electromagnetic fields: A new method to modify cell behavior in calcified and noncalcified tissues. Calcif. Tissue Int. 34:1-8.

Bassett, C.A.L. 1983. Biomedical implications of pulsing electromagnetic fields. Surg. Rounds Jan.:22-31.

Bassett, C.A.L. 1989. Fundamental and practical aspects of therapeutic uses of pulsed electromagnetic fields (PEMFs). CRC Crit. Rev. Biomed. Eng. 17:451-529.

Bassett, C.A.L. 1990. Premature alarm over electromagnetic fields. Issues Sci. Technol. 6:37-39.

Bassett, C.A.L., and R.O. Becker. 1962. Generation of electric potentials in bone in response to mechanical stress. Science 137:1063-1064.

Bassett, C.A.L., R.J. Pawluk, and R.O. Becker. 1964. Effect of electric currents on bone in vivo. Nature 204:652-654.

Bassett, C.A.L., R.J. Pawluk, and A.A. Pilla. 1974a. Augmentation of bone repair by inductively coupled electromagnetic fields. Science 184:575-577.

Bassett, C.A.L., R.J. Pawluk, and A.A. Pilla. 1974b. Acceleration of fracture

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

repair by electromagnetic fields. A surgically noninvasive method. Ann. N.Y. Acad. Sci. 238:242-262.

Bassett, C.A.L., A.A. Pilla, and R.J. Pawluk. 1977. A non-operative salvage of surgically-resistant pseudarthrodeses and non-unions by pulsing elecromagnetic fields. Clin. Orthop. Rel. Res. 124:128-143.

Bassett, C.A.L., S.N. Mitchell, and S.R. Gaston. 1982. Pulsing electromagnetic field treatment in ununited fractures and failed arthrodeses. JAMA 247:623-628.

Baum, A., M. Mevissen, K. Kamino, U. Mohr, and W. Löscher. 1995. A histopathological study on alterations in DMBA-induced mammary carcinogenesis in rats with 50 Hz, 100 µT magnetic field exposure. Carcinogenesis 16:119-125.

Bawin, S.M., and W.R. Adey. 1976. Sensitivity of calcium binding in cerebral tissue to weak environmental electric fields oscillating at low frequency. Proc. Natl. Acad. Sci. USA 73:1999-2003.

Becker, R.O. 1974. The significance of bioelectric potentials. Bioelectrochem. Bioenerget. 1:187-199.

Beniashvili, D.Sh., V.G. Bilanishvili, and M.Z. Menabde. 1991. Low-frequency electromagnetic radiation enhances the induction of rat mammary tumors by nitrosomethyl urea. Cancer Lett. 61:75-79.

Berman, E., L. Chacon, D. House, B.A. Koch, W.E. Koch, J. Leal, S. Lovtrup, E. Mantiply, A.H. Martin, G.I. Martucci, K. Hansson Mild, J.C. Monahan, M. Sandstrom, K. Shamsaifar, R. Tell, M.A. Trillo, and P. Wagner. 1990. Development of chicken embryos in a pulsed magnetic field. Bioelectromagnetics 11:169-187.

Bersani, F., A. Cossarizza, and C. Franceschi. 1989. Effects of extremely low frequency (ELF) pulsed electromagnetic fields on immunocompetent cells: In vitro studies. Alta Freq. 58:375-380.

Blackman, C.F., J.A. Elder, C.M. Weil, S.G. Benane, D.C. Eichinger, and D.E. House. 1979. Induction of calcium-ion efflux from brain tissue by radiofrequency radiation: Effects of modulation frequency and field strength. Radio Sci. 14:93-98.

Blackman, C.F., S.G. Benane, J.A. Elder, D.E. House. J.A. Lampe, and J.J. Faulk. 1980a. 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.

Blackman, C.F., S.G. Benane, W.T. Joines, M.A. Hollis, and D.E. House. 1980b. Calcium-ion efflux from brain tissue: Power-density versus internal field-intensity dependencies at 50 MHz RF radiation. Bioelectromagnetics 1:277-283.

Blackman, C.F., S.G. Benane, L.S. Kinney, W.T. Joines, and D.E. House. 1982. Effects of ELF fields on calcium-ion efflux from brain tissue in vitro. Radiat. Res. 92:510-520.

Blackman, C.F., S.G. Benane, D.E. House, and W.T. Joines. 1985a. Effects of

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
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ELF (1-120 Hz) and modulated (50 Hz) RF fields on the efflux of calcium ions from brain tissue in vitro. Bioelectromagnetics 6:1-11.

Blackman, C.F., S.G. Benane, J.R. Rabinowitz, D.E. House, and W.T. Joines. 1985b. A role for the magnetic field in the radiation-induced efflux of calcium ions from brain tissue in vitro . Bioelectromagnetics 6:327-337 [Erratum (1986) 7:347].

Blackman, C.F., S.G. Benane, D.J. Elliott, D.E. House, and M.M. Pollock. 1988a. 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., D.E. House, S.G. Benane, W.T. Joines, and R.J. Spiegel. 1988b. Effect of ambient levels of power-line-frequency electric fields on a developing vertebrate. Bioelectromagnetics 9:129-140.

Blackman, C.F., L.S. Kinney, D.E. House, and W.T. Joines. 1989. Multiple power-density windows and their possible origin. Bioelectromagnetics 10:115-128.

Blackman, C.F., S.G. Benane, and D.E. House. 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.

Blackwell, R.P. 1986. Effects of extremely-low-frequency electric fields on neuronal activity in rat brain. Bioelectromagnetics 7:425-434. Erratum 1987 8:213.

Blackwell, R.P., and A.L. Reed. 1985. Effects of electric field exposure on some indices of CNS arousal in the mouse. Bioelectromagnetics 6:105-107.

Blair, A., J. Burg, J. Foran, H. Gibb, S. Greenland, R. Morris, G. Raabe, D. Savitz, J. Teta, D. Wartenberg, O. Wong, and R. Zimmerman. 1995. Guidelines for application of meta-analysis in environmental epidemiology. Regul. Toxicol. Pharmacol. 22:189-197.

Blank, M. 1992. Na, K-ATPase function in alternating electric fields. FASEB J. 6:2434-2438.

Blank, M., and L. Soo. 1992. Threshold for inhibition of Na, K-ATPase by ELF alternating currents. Bioelectromagnetics 13:329-333.

Blank, M., L. Soo, H. Lin, and R. Goodman. 1993. Stimulation of transcription in HL-60 cells by alternating currents from electric fields . Pp. 516-519 in Electricity and Magnetism in Biology and Medicine: Review and Research Papers Presented at the First World Congress for Electricity and Magnetism in Biology and Medicine, M. Blank, ed. San Francisco: San Francisco Press.

Blasiak, J., M. Zmyslony, Z. Jozwiak, J. Rsoin, and S. Szmigielski. 1990. Enhancement or reduction of calcium-ion efflux from brain tissues in vitro following exposure to ELF fields dependent on intensity of local geomagnetic field. J. Bioelectr. 9:55-60.

Blask, D.E. 1993. Melatonin in oncology. Pp. 447-476 in Melatonin: Biosynthesis,

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Physiological Effects, and Clinical Applications, H.S. Yu and R.J. Reiter, eds. Boca Raton, Fla.: CRC.

Bonnell, J., W. Norris, J. Pickles, J. Male, and R. Cartwright. 1983. Comments on "Environmental power-frequency magnetic fields and suicide." Health Phys. 44:698-699.

Borgens, R.B. 1984. Endogenous ionic currents traverse intact and damaged bone. Science 225:478-482.

Borle, A.B. 1990. An overview of techniques for the measurement of calcium distribution, calcium fluxes, and cytosolic free calcium in mammalian cells. Environ. Health. Perspect. 84:45-56.

Bracken, T.D. 1992. Experimental macroscopic dosimetry of extremely-low-frequency electric and magnetic fields. Bioelectromagnetics Suppl. 1:15-26.

Bracken, T.D., R.F. Rankin, R.S. Senior, and J.R. Alldredge. 1992. Relationships within and between residential magnetic field exposure characterization methods. P. A-47 in Project Abstracts: The Annual Review of Research on Biological Effects of Electric and Magnetic Fields. Frederick, Md.: W/L Associates.

Bracken, T.D., L.I. Kheifets, and S.S. Sussman. 1993. Exposure assessment for power frequency electric and magnetic fields (EMF) and its application to epidemiologic studies. J. Expo. Anal. Environ. Epidemiol. 3:1-22.

Bracken, M.B., K. Belanger, K. Hellenbrand, L. Dlogoza, T.R. Holford, J.E. McSharry, K. Addeso, and B. Leaderer. 1995. Exposure to electromagnetic fields during pregnancy with emphasis on electrically heated beds: Association with birth weight and intrauterine growth retardation. Epidemiology 6:263-270.

Brainard, G.C., J.P. Gaddy, F.M. Barker, J.P. Hanifan, and M.D. Rollag. 1993. Mechanisms in the eye that mediate the biological and therapeutic effects of light. Pp. 29-54 in Light and Biological Rhythms in Man, L. Wetterberg, ed. New York: Pergamon.

Brighton, C.T., and Z.B. Friedenberg. 1974. Electrical stimulation and oxygen tension. Ann. N.Y. Acad. Sci. 238:314-320.

Brighton, C.T., and W.P. McCluskey. 1986. Cellular response and mechanisms of action of electrically induced osteogenesis. Pp. 213-254 in Bone and Mineral Research, Vol. 4, W.A. Peck, ed. Amsterdam: Elsevier.

Brighton, C.T., Z.B. Friedenberg, and J. Black. 1979. Evaluation of the use of constant direct current in the treatment of non-union. Pp. 519-545 in Electrical Properties of Bone and Cartilage: Experimental Effects and Clinical Applications, C.T. Brighton, J. Black, and S.R. Pollack, eds. New York: Grune & Stratton.

Broadbent, D.E., M.H. Broadbent, J.C. Male, and M.R. Jones. 1985. Health of workers exposed to electric fields. Br. J. Ind. Health 42:75-84.

Burack, G.D., Y.J. Seto, S.T. Hsieh, and J.L. Dunlap. 1984. The effects of prenatal

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

exposure to a 60-Hz high-intensity electric field on postnatal development and sexual differentiation. J. Bioelectr. 3:451-467.

Byus, C.V., S.E. Pieper, and W.R. Adey. 1987. The effects of low-energy 60-Hz environmental electromagnetic fields upon the growth-related enzyme ornithine decarboxylase. Carcinogenesis 8:1385-1389.

Cain, C.D., and R.A. Luben. 1987. Pulsed EMF effects on PTH stimulated cAMP accumulation and bone resorption in mouse calvariae. Pp. 269-278 in Interaction of Biological Systems with ELF, L.E. Anderson, B.J. Kelman, and R.J. Weigel, eds. Conf. Publ. No. 24. Columbus, Ohio: Battelle Press.

Cain, C.D., W.R. Adey, and R.A. Luben. 1987. Evidence that pulsed electromagnetic fields inhibit coupling of adenylate cyclase by parathyroid hormone in bone cells. J. Bone Miner. Res. 2:437-441.

Cameron, I.L., K.E. Hunter, and W.D. Winters. 1985. Retardation of embryogenesis by extremely-low-frequency 60-Hz electromagnetic fields. Physiol. Chem. Phys. Med. NMR 17:135-138.

Caputa, K., and M.A. Stuchly. 1996. Computer controlled system for producing uniform magnetic fields and its application in biomedical research. IEEE Trans. Instrum. Meas. 45(3): 701-709.

Cardossi, R., F. Bersani, A. Cossarizza, P. Zucchini, G. Emilia, G. Torelli, and C. Franceschi. 1992. Lymphocytes and low-frequency electromagnetic fields. FASEB J. 6:2667-2674.

Carson, J.J.L., F.S. Prato, D.J. Drost, L.D. Diesbourg, and S.J. Dixon. 1990. Time-varying magnetic fields increase cytosolic free Ca2+ in HL-60 cells. Am. J. Physiol. 259:687-692.

Chahal, R., D.Q.M. Craig, and R.J. Pinney. 1993. Investigation of potential genotoxic effects of low frequency electromagnetic fields on Escherichia coli. J. Pharm. Pharmacol. 45:30-33.

Champney, T.H., A.P. Holtorf, R.W. Steger, and R.J. Reiter. 1984. Concurrent determination of enzymatic activities and substrate concentrations in the melatonin synthetic pathway within the same rat pineal gland. J. Neurosci. Res. 11:59-66.

Chen, K.M., H.R. Chuang, and C.J. Lin. 1986. Quantification of interaction between ELF-LF electric fields and human bodies. IEEE Trans. Biomed. Eng. 33:746-755.

Cheng, J., M.A. Stuchly, C. DeWagter, and L. Martens. 1995. Magnetic field induced currents in a human head from use of portable appliances. Phys. Med. Biol. 40:495-510.

Chernoff, N., J.M. Rogers, and R. Kavet. 1992. A review of the literature on potential reproductive and developmental toxicity of electric and magnetic fields. Toxicology 74:91-126.

Chiban, A., K. Isaka, M Kitagawa, T. Matsuo, M. Nagata, and Y. Yokoi. 1984. Application of finite element method to analysis of induced current densities

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

inside human models exposed to 60-Hz electric fields. IEEE Trans. Power Appar. Syst. 103:1895-1902.

Clarke, R.L., and D.R. Justesen. 1979. Behavioral sensitivity of a domestic bird to 60-Hz AC and DC magnetic fields. Radio Sci. 14:209-216.

Cleary, S.F. 1993. A review of in vitro studies: Low-frequency electromagnetic fields . J. Am. Ind. Hyg. Assoc. 54:178-185.

Cochran, G.V.B., R.J. Pawluk, and C.A.L. Bassett. 1968. Electromechanical characteristics of bone under physiologic moisture conditions. Clin. Orthop. Relat. Res. 58:249-270.

Cohen, M.M. 1986. In Vitro Genetic Effects of Electromagnetic Fields. Final Report to New York State Power Lines Project. Wadsworth Center, Albany, N.Y.

Cohen, M.M., A Kunska, J.A. Astemborski, and D. McCulloch. 1986a. The effect of low-level 60-Hz electromagnetic fields on human lymphoid cells: II. Sister-chromatid exchanges in peripheral lymphocytes and lymphoblastoid cell lines. Mutat. Res. 172:177-184.

Cohen, M.M., A. Kunska, J.A. Astemborski, D. McCulloch, and D.A. Paskewitz. 1986b. Effect of low-level 60-Hz electromagnetic fields on human lymphoid cells: I. Mitotic rate and chromosome breakage in human peripheral lymphocytes. Bioelectromagnetics 7:415-423.

Colacicco, G., and A.A. Pilla. 1983. Chemical, physical, and biological correlations in the Ca-uptake by embryonal chick tibia in vitro. Biochem. Bioenerg. 10:119-131.

Coleman, M., C.M.J. Bell, H.L. Taylor, and M. Primic-Zakelj. 1989. Leukaemia and residence near electricity transmission equipment: A case-control study. Br. J. Cancer 60:793-798.

Compere, C.L. 1982. Electromagnetic fields and bones [editorial]. JAMA 247:669.

Cone, C.D., Jr. 1971. Unified theory on the basic mechanism of normal mitotic control and oncogenesis. J. Theor. Biol. 30:151-181.

Cook, M., C. Graham, H. Cohen, and M. Gerkovich. 1992. A replication study of human exposure to 60-Hz fields: Effects on neurobehavioral measures. Bioelectromagnetics 13:261-285.

Cooke, P., and P.G. Morris. 1981. The effects of NMR exposure in living organisms. II. A genetic study of human lymphocytes. Br. J. Radiol. 54:622-625.

Cooper, L.J., H.B. Graves, J.C. Smith, D. Poznaniak, and A.H. Madjid. 1981. Behavioral responses of pigeons to high-intensity 60-Hz electric fields. Behav. Neural Biol. 32:214-228.

Cossarizza, A., D. Monti, P. Sola, G. Moschini, R. Cadossi, F. Bersani, and C. Franceschi. 1989. DNA repair after gamma irradiation in lymphocytes exposed to low-frequency pulsed electromagnetic fields. Radiat. Res. 118:161-168.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Cox, C.F., L.J. Brewer, C.H. Raeman, C.A. Schryver, S.Z. Child, and E.L. Cartensen. 1993. A test for teratological effects of power frequency magnetic fields on chick embryos. IEEE Trans. Biomed. Eng. 40:605-610.

Creim, J.A., R.H. Lovely, W.T. Kaune, and R.D. Phillips. 1984. Attempts to produce taste-aversion learning in rats exposed to 60-Hz electric fields. Bioelectromagnetics 5:271-282.

Czerska, E., J. Casamento, J. Ning, M. Swicord, H. Al-Abrazi, C. Davis, and E. Elson. 1992. Comparison of the effect of ELF on c-myc oncogene expression in normal and transformed human cells. Ann. N.Y. Acad. Sci. 649:340-342.

D'Ambrosio, G., A. Scaglione, D. Di Berardino, M.B. Lioi, L. Iannuzzi, E. Mostacciuolo, and M.R. Scarfi. 1985. Chromosomal aberrations induced by extremely low frequency electric fields. J. Bioelectr. 4:279-284.

D'Ambrosio, G., R. Massa, D. Di Berardino, M.B. Lioi, A. Scaglione, and M.R. Scarfi. 1988-1989. Chromosomal aberrations in bovine lymphocytes exposed to 50-Hz electric currents. J. Bioelectr. 7:239-245.

Davis, H.P., S.J.Y Mizumori, H. Allen, M.R. Rosenzweig, E.L. Bennet, and T.S. Tenforde. 1984. Behavioral studies with mice exposed to DC and 60-Hz magnetic fields. Bioelectromagnetics 5:147-164.

Dealler, S.F. 1981. Electrical phenomena associated with bones and fractures and the therapeutic use of electricity in fracture healing. J. Med. Eng. Technol. 5:73-79.

Deguchi, T., and J. Axelrod. 1972. Sensitive assay for serotonin N-acetyltransferase activity in rat pineal. Anal. Biochem. 50:174-179.

Delpizzo, V. 1990. A model to assess personal exposure to ELF magnetic fields from common household sources. Bioelectromagnetics 11:139-147.

Delpizzo, V. 1993. Misclassification of ELF occupational exposure resulting from spatial variation of the magnetic field. Bioelectromagnetics 14:117-130.

Delpizzo, V. 1994. Epidemiological studies of work with video display terminals and adverse pregnancy outcomes (1984-1992). Am. J. Ind. Med. 26:465-480.

Demers, P.A., D.B. Thomas, K.A. Rosenblatt, and L.M. Jimenez. 1991. Occupational exposure to electromagnetic fields and breast cancer in men. Am. J. Epidemiol. 134:340-347.

Deno, D.W. 1977. Currents induced in the human body by high voltage transmission line electric field--Measurement and calculation of distribution and dose. IEEE Trans. Power Appar. Syst. 96:1517-1527.

DerSimonian, R., and N. Laird. 1986. Meta-analysis in clinical trials. Controlled Clin. Trials 7:177-188.

Dickersin, K., and J. Berlin. 1992. Meta-analysis: State of the science. Epidemiol. Rev. 14:154-176.

Dimbylow, P.J. 1987. Finite difference calculations of current densities in a homogeneous model of a man exposed to extremely low frequency electric fields. Bioelectromagnetics 8:355-375.

Dimbylow, P.J. 1988. The calculation of induced currents and absorbed power

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

in a realistic, heterogeneous model of the lower leg for applied electric fields from 60 Hz to 30 MHz. Phys. Med. Biol. 33:1453-1468.

Dlugosz, L., J. Vena, T. Byers, L. Sever, M. Bracken, and E. Marshall. 1992. Congenital defects and electric bed heating in New York State: A registry-based case-control study. Am. J. Epidemiol. 135:1000-1011.

Dosemeci, M., S. Wacholder, and J.H. Lubin. 1990. Does nondifferential misclassification of exposure always bias a true effect toward the null value? Am. J. Epidemiol. 132:746-748.

Dovan, T., W.T. Kaune, and D.A. Savitz. 1993. Repeatability of measurements of residential magnetic fields and wire codes. Bioelectromagnetics 14:145-159.

Dowman, R., J.R. Wolpaw, R.F. Seegal, and S. Satya-Murti. 1989. Chronic exposure of primates to 60-Hz electric and magnetic fields: III. Neurophysiologic effects. Bioelectromagnetics 10:303-317.

Dowson, D.I., G.T. Lewith, M. Campbell, M.A. Mullee, and L.A. Brewster. 1988. Overhead high-voltage cables and recurrent headache and depressions. Practitioner 232:435-436.

Dumanskii, Y.D., Iu.M. Popovich, and I.P. Kozyiarin. 1977. Effect of a low-frequency (50 Hz) electromagnetic field on the functional state of the human body [in Russian]. Gig. Sanit. 12:32-35.

Dutta, S.K., K.P. Das, B. Ghosh, and C.F. Blackman. 1992a. Dose dependence of acetylcholineesterase activity in neuroblastoma cells exposed to modulated radio-frequency electromagnetic radiation. Bioelectromagnetics 13:317-322.

Dutta, S.K., B. Watson, Jr., and K.P. Das. 1992b. Intensity dependence of enolase activity by modulated radiofrequency radiation. Bioelectrochem. Bioenerg. 27:179-189.

Easley, S.P., A.M. Coelho, Jr., and W.R. Rogers. 1991. Effects of exposure to a 60-kV/m, 60-Hz electric field on the social behavior of baboons. Bioelectromagnetics 12:361-375.

Eichwald, C., and F. Kaiser. 1993. Model for receptor-controlled cystolic calcium oscillations and for external influences on the signal pathway. Biophys. J. 65:2047-2058.

EPA (U.S. Environmental Protection Agency). 1990. Evaluation of the Potential Carcinogenicity of Electromagnetic Fields. Review Draft. EPA/600/6-90/005B. U.S. Environmental Protection Agency, Washington, D.C.

EPA (U.S. Environmental Protection Agency). 1992. EMF in Your Environment: Magnetic Field Measurements of Everyday Electrical Devices. EPA/402/R-92/008. Office of Radiation and Indoor Air, U.S. Environmental Protection Agency, Washington, D.C.

EPA (U.S. Environmental Protection Agency). 1993. EMF Exposure Environments Summary Report. Contract 68D20185. Prepared by the Volpe National Transportation Systems Center for the Office of Radiational and Indoor Air, Radiation Studies Division, U.S. Environmental Protection Agency, Washington, D.C.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

EPRI (Electric Power Research Institute). 1990. The EMDEX Project: Technology Transfer and Occupational Measurements. Project RP2966-1. Rep. EN7048-V1,-V2, and-V3. Prepared by T. Dan Bracken, Inc., for Electric Power Research Institute, Palo Alto, Calif.

EPRI (Electric Power Research Institute). 1992a. Assessment of Children's Long-Term Exposure to Magnetic Fields (the Geomet Study). Project RP2966-04. Rep. TR-101406. Prepared by Geomet Technologies, Inc., for Electric Power Research Institute, Palo Alto, Calif.

EPRI (Electric Power Research Institute). 1992b. Assessment of Children's Long-Term Exposure to Magnetic Fields (the Enertech Study). Project RP2966-06. Rep. TR-101407. Prepared by Enertech Consultants and High Voltage Transmission Research Center for Electric Power Research Institute, Palo Alto, Calif.

EPRI (Electric Power Research Institute). 1993a. Survey of Residential Magnetic Field Sources: Goals, Results, and Conclusions, Vol. 1. Project RP3335-02. Rep. TR-102759-V1. Prepared by High Voltage Transmission Research Center for Electric Power Research Institute, Palo Alto, Calif.

EPRI (Electric Power Research Institute). 1993b. The EMDEX Project Residential Study: Interim Report. Project RP2966-01. Rep. TR-102011. Prepared by T. Dan Bracken, Inc., for Electric Power Research Institute, Palo Alto, Calif.

EPRI (Electric Power Research Institute). 1993c. Survey of Residential Magnetic Field Sources: Protocol, Data Analysis, and Management, Vol. 2. Project RP3335-02. Rep. TR-102759-V2. Prepared by High Voltage Transmission Research Center for Electric Power Research Institute, Palo Alto, Calif.

EPRI (Electric Power Research Institute). 1994a. Residential Transient Magnetic Field Research: Interim Report. Project RP2966-07. Rep. TR-103470. Electric Power Research Institute, Palo Alto, Calif.

EPRI (Electric Power Research Institute). 1994b. Association of Wire Code Configuration with Long-Term Average 60-Hz Magnetic Fields: Interim Report. Project RP3533-01. Rep. TR-104656-V2. Electric Power Research Institute, Palo Alto, Calif.

Fairbairn, D.W., and K.L. O'Neill. 1994. The effect of electromagnetic field exposure on the formation of DNA single strand breaks in human cells. Cell. Mol. Biol. 40:561-567.

Fajardo-Gutierrez, A, J. Garduno-Espinosa, L. Yamamoto-Kimura, D.M. Hernandez-Hernandez, A. Gomez-Delgado, M. Mrjia-Arangure, A. Cartagena-Sandoval, and M.C. Martinez-Garcia. 1993. Residence close to high-tension electric power lines and its association with leukemia in children (in Spanish). Biol. Med. Hosp. Infant Mex. 50:32-38.

Falugi, C., M. Grattorola, and G. Prestipino. 1987. Effects of low-intensity pulsed electromagnetic fields on the early development of sea urchins. Biophys. J. 51:999-1003.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Fam, W.Z. 1980. Long-term biological effects of very intense 60 Hz electric field on mice. IEEE Trans. Biomed. Eng. 27:376-381.

Fewtrell, C. 1993. Ca2+ oscillations in non-excitable cells. Annu. Rev. Physiol. 55:427-454.

Feychting, M., and A. Ahlbom. 1993. Magnetic fields and cancer in children residing near Swedish high-voltage power lines. Am. J. Epidemiol. 138:467-481.

Feychting, M., and A. Ahlbom. 1994. Magnetic fields, leukemia, and central nervous system tumors in Swedish adults residing near high-voltage power lines . Epidemiology 5:501-509.

Fiorani, M., O. Cantoni, P. Sestili, R. Conti, P. Nicolini, F. Vetrano, and M. Dachà. 1992. Electric and/or magnetic field effects on DNA structure and function in cultured human cells. Mutat. Res. 282:25-29.

Fiorio, R., E. Morichetti, R. Vellosi, and G. Bronzetti. 1993. Mutagenicity and toxicity of electromagnetic fields. J. Environ. Pathol. Toxicol. Oncol. 12(3):139-142.

Fitton-Jackson, S., and C.A.L. Bassett. 1980. The response of skeletal tissues to pulsed magnetic fields. Pp. 21-28 in Use of Tissue Culture in Medical Research II, R.J. Richards and K.T. Rajan, eds. Oxford, U.K.: Pergamon.

Fitzsimmons, R.J., J.R. Farley, W.R. Adey, and D.J. Baylink. 1989. Frequency dependence of increased cell proliferation, in vitro, in exposures to a low-amplitude, low-frequency electric field: Evidence for dependence on increased mitogen activity released into culture medium. J. Cell. Physiol. 139:586-591.

Fitzsimmons, R.J., D.D. Strong, S. Mohan, and D.J. Baylink. 1992. Low-amplitude, low-frequency electric field-stimulated bone cell proliferation may in part be mediated by increased IGF-II release. J. Cell. Physiol. 150:84-89.

Fleiss J., and A.J. Gross. 1991. Meta-analysis in epidemiology, with special reference to studies of the association between exposure to environmental tobacco smoke and lung cancer: A critique. J. Clin. Epidemiol. 44:127-139.

Floderus, B., T. Persson, C. Stenlund, A. Wennberg, A. Ost, and B. Knave. 1993. Occupational exposure to electromagnetic fields in relation to leukemia and brain tumors: A case-control study in Sweden. Cancer Causes Control 4:465-476.

Floderus, B., S. Tornqvist, and C. Stenlund. 1994. Incidence of selected cancers in Swedish railway workers, 1961-79. Cancer Causes Control 5:189-194.

Foster, K.R., and H.P. Schwan. 1986. Dielectric permittivity and electrical conductivity of biological materials. Pp. 27-96 in Handbook of Biological Effects of Electromagnetic Fields, C. Polk and E. Postow, eds. Boca Raton, Fla.: CRC.

Frazier, M.E., J.A. Reese, J.E. Morris, R.F. Jostes, and D.L. Miller. 1990. Exposure of mammalian cells to 60-Hz magnetic or electric fields: Analysis of DNA repair induced, single-strand breaks. Bioelectromagnetics 11:229-234.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Free, M.J., W.T. Kaune, R.D. Phillips, and H.C. Cheng. 1981. Endocrinological effects of strong 60-Hz electric fields on rats. Bioelectromagnetics 2:105-121.

Friedenberg, Z.B., and C.T. Brighton. 1966. Bioelectric potentials in bone. J. Bone Jt. Surg. 48-A:915-923.

Friedenberg, Z.B., and C.T. Brighton. 1981. Bioelectricity and fracture healing. Plast. Reconstr. Surg. 68:435-443.

Friedenberg, Z.B., E.T. Andrews, B.I. Smolenski, B.W. Pearl, and C.T. Brighton. 1970. Bone reaction to varying amounts of direct current. Surg. Gynecol. Obstet. 131:894-899.

Friedenberg, Z.B., P.G. Roberts, Jr., N.H. Didizian, and C.T. Brighton. 1971a. Stimulation of fracture healing by direct current in the rabbit fibula. J. Bone Jt. Surg. 53-A:1400-1408.

Friedenberg, Z.B., M.C. Harlow, and C.T. Brighton. 1971b. Healing of nonunion of the medial malleolus by means of direct current: A case report. J. Trauma 11:883-885.

Friedenberg, Z.B., M.C. Harlow, R.B. Heppenstall, and C.T. Brighton. 1973. The cellular origin of bioelectric potentials in bone. Calcif. Tissue Res. 13:53-62.

Friedenberg, Z.B., L.M. Zemsky, R.P. Pollis, and C.T. Brighton. 1974. The response of non-traumatized bone to direct current. J. Bone Jt. Surg. 56-A:1023-1030.

Frolen, H., B.-M. Svedenstal, and L.-E. Paulsson. 1993. Effects of pulsed magnetic fields on the developing mouse embryo. Bioelectromagnetics 14:197-204.

Fukuda, E., and I. Yasuda. 1957. On the piezoelectric effect of bone. J. Phys. Soc. Jpn. 10:1158-1162.

Fulton, J.P., S. Cobb, L. Preble, L. Leone, and E. Forman. 1980. Electrical wiring configurations and childhood leukemia in Rhode Island. Am. J. Epidemiol. 111:292-296.

Gamberale, F., B.A. Olson, P. Eneroth, T. Lindh, and A. Wennberg. 1989. Acute effects of ELF electromagnetic fields: A field study of linesmen working with 400 kV power lines. Br. J. Ind. Med. 46:729-737.

Gandhi, O.P., and J.-Y. Chen. 1992. Numerical dosimetry at power-line frequencies using anatomically based models. Bioelectromagnetics Suppl. 1:43-60.

Garciá-Sagredo, J.M., and J.L. Monteagudo. 1991. Effect of low-level pulsed electromagnetic fields on human chromosomes in vitro: Analysis of chromosomal aberrations. Hereditas 115:9-11.

Garciá-Sagredo, J.M., A.L. Parada, and J.L. Monteagudo. 1990. Effect on SCE in human chromosomes in vitro of low-level pulsed magnetic field. Environ. Mol. Mutagen. 16:185-188.

Gimenez-Gonzalez, M., F. Martinez-Soriano, E. Armanazas, and A. Ruiz-Torner. 1991. Morphometric and structural study of the pineal gland of the Wistar

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

rat subjected to the pulse action of 52 gauss (50 Hz) magnetic field. Evaluative analysis over 21 days. J. Hirnforsch. 6:779-786.

Goodman, R., and A. Shirley-Henderson. 1991. Transcription and translation in cells exposed to extremely low frequency electromagnetic fields. Bioelectrochem. Bioenerg. 25:335-355.

Goodman, R., J. Bumann, L.-X. Wei, and A. Shirley-Henderson. 1992. Exposure of human cells to electromagnetic fields: Effect of time and field strength on transcript levels. Electro-Magnetobiology 11:19-28.

Graves, H.B. 1981. Detection of a 60-Hz electric field by pigeons. Behav. Neural Biol. 32:229-234.

Graves, H.B., J.H. Carter, D. Kellmel, L. Cooper, D.T. Poznaniak, and J.W. Bankoske. 1978. Perceptibility and electrophysiological response of small birds to intense 60-Hz electric fields. IEEE Trans. Power Appar. Syst. PAS-97:1070-1073.

Greenland, S. 1994. Invited commentary: A critical look at some popular meta-analytic methods. Am. J. Epidemiol. 140:290-296.

Grota, L.J., R.J. Reiter, P. Keng, and S. Michaelson. 1994. Electric field exposure alters serum melatonin but not pineal melatonin synthesis in male rats. Bioelectromagnetics 15:427-437.

Grundeler, W., F. Kaiser, F. Keilmann, and J. Wolleczek. 1992. Mechanisms of electromagnetic field interaction with cellular systems. Naturwissenschaften 79:551-559.

Hackman, R.M., and H.B. Graves. 1981. Corticosterone levels in mice exposed to high-intensity electric fields. Behav. Neural Biol. 32:201-213.

Halle, B. 1988. On the cyclotron resonance mechanism for magnetic field effects on transmembrane ion conductivity. Bioelectromagnetics 9:381-385.

Harkins, T.T., and C.B. Grissom. 1994. Magnetic field effects on B12 ethanolamine ammonia lyase: Evidence for a radical mechanism. Science 263:958-960.

Harkness, J.E., and M.D. Ridgway. 1980. Chromodacryorrhea in laboratory rats (Rattus norvegicus): Etiologic considerations. Lab. Anim. Sci. 30:841-844.

Hart, F.X. 1990. Use of a spread sheet to calculate the current-density distribution produced in human and rat models by low-frequency electric fields . Bioelectromagnetics 11:213-228.

Hart, F.X. 1992a. Numerical and analytical methods to determine the current density distributions produced in human and rat models by electric and magnetic fields. Bioelectromagnetics Suppl. 1:27-42.

Hart, F.X. 1992b. Electric fields induced in rat and human models by 60-Hz magnetic fields: Comparison of calculated and measured values. Bioelectromagnetics 13:313-316.

Hart, F.X., K. Evely, and C.D. Finch. 1993. Use of a spreadsheet program to calculate the electric field/current density distributions induced in irregularly

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

shaped, inhomogeneous biological structures by low-frequency magnetic fields. Bioelectromagnetics 14:161-172.

Harvey, S.M. 1987. Magnetic field exposure apparatus for small animal studies: Phase II. Rep. No. 87-118-K. Ontario Hydro Research Division.

Hassler, C.R., E.F. Rybicki, R.B. Diegle, and L.C. Clark. 1977. Studies of enhanced bone healing via electrical stimuli. Clin. Orthop. Relat. Res. 124:9-19.

Hatch, M. 1992. The epidemiology of electric and magnetic field exposures in the power frequency range and reproductive outcomes. Paediatr. Perinat. Epidemiol. 6:198-214.

Haysom, C., D. Dowson, and M. Campbell. 1990. The relevance of headaches and migraine in populations resident near overhead power lines--An epidemiological study. Computers Med. Res. 4:12-15.

Hedges, L.V., and I. Olkin. 1985. Statistical Methods for Meta-Analysis. Orlando, Fla.: Academic.

Hill, A. Bradford. 1961. The environment and disease: Association or causation? Proc. R. Soc. Med. 58:295-300.

Hilton, D.I., and R.D. Phillips. 1980. Cardiovascular response of rats exposed to 60-Hz electric fields. Bioelectromagnetics 1:55-64.

Hiraki, Y., N. Endo, M. Takigawa, A. Asada, H. Takahashi, and F. Suzuki. 1987. Enhanced responsiveness to parathyroid hormone and induction of functional differentiation of cultured rabbit costal chondrocytes by a pulsed electromagnetic field. Biochim. Biophys. Acta 931:94-100.

Hjeresen, D.L., W.T Kaune, J.R. Decker. and R.D. Phillips. 1980. Effects of 60-Hz electric fields on avoidance behavior and activity of rats . Bioelectromagnetics 1:299-312.

Hjeresen, D.L., M.C. Miller, W.T. Kaune, and R.D. Phillips. 1982. A behavioral response of swine to a 60-Hz electric field. Bioelectromagnetics 3:443-451.

Hong, C.-Z., P. Huestis, R. Thompson, and J. Yu. 1988. Learning ability of young rats is unaffected by repeated exposure to static electromagnetic field in early life. Bioelectromagnetics 9:269-273.

Huang, T.-S., J. Duyster, and J.Y.J. Wang. 1995. Biological response to phorbol ester determined by alternative G1 pathways. Proc. Natl. Acad. Sci. USA 92:4793-4797.

Hungate, F.P., M.P. Fujihara, and S.R. Strankman. 1979. Mutagenic effects of high-strength electric fields. Pp. 530-537 in Biological Effects of Extremely Low Frequency Magnetic Fields, Proceedings of the 18th Annual Hanford Life Sciences Symposium, R.D. Phillips, M.F. Gillis, W.T. Kaune, and D.D. Malham, eds. Technical Information Center, U.S. Department of Energy, Oak Ridge, Tenn.

Huuskonen, H., J. Juutilainen, and H. Kamulainen. 1993. Effects of low-frequency magnetic fields on fetal development in rats. Bioelectromagnetics 14:205-213.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Ikeda, K., T. Sugimoto, M. Fukase, and T. Fujita. 1991. Protein kinase C is involved in PTH-induced homologous desensitization by directly affecting PTH receptor in the osteoblastic osteosarcoma cells. Endocrinology 128:2901-2906.

Iskander, M.F. 1993. Electromagnetic Fields and Waves. Englewood Cliffs, N.J.: Prentice Hall.


Jackson, J.D. 1992. Are the stray 60-Hz electromagnetic fields associated with the distribution and use of electric power a significant cause of cancer? Proc. Natl. Acad. Sci. USA 89:3508-3510.

Jaffe, R.A., B.L. Laszewski, D.B. Carr, and R.D. Phillips. 1980. Chronic exposure to a 60-Hz electric field: Effects on synaptic transmission and the peripheral nerve function in the rat. Bioelectromagnetics 1:131-147.

Jaffe, R.A., B.L. Laszewski, and D.B. Carr. 1981. Chronic exposure to a 60-Hz electric field: Effects on neuromuscular function in the rat. Bioelectromagnetics 2:277-239.

Jaffe, R.A., C.A. Lopresti, D.B. Carr, and R.D Phillips. 1983. Perinatal exposure to 60-Hz electric fields: Effects on the development of the visual-evoked response in rats. Bioelectromagnetics 4:327-339.

Jahn, T.L. 1968. A possible mechanism for the effect of electrical potentials on apatite formation in bone. Clin. Orthop. Relat. Res. 56:261-273.

John, E.M., D.A. Savitz, and D.P. Sandler. 1991. Prenatal exposure to parents' smoking and childhood cancer. Am. J. Epidemiol. 133:123-132.

Joines, W.T., and C.F. Blackman. 1980. Power density, field intensity, and carrier frequency determinants of RF-energy-induced calcium-ion efflux from brain tissue. Bioelectromagnetics 1:271-275.

Joines, W.T., C.F. Blackman, and M.A. Hollis. 1981. Broadening of the RF power-density window for calcium-ion efflux from brain tissue. IEEE Trans. Biomed. Eng. 28:568-573.

Jones, T. 1993. EMF wire code research. IEEE Power Eng. Rev. 13:10-12.

Jones, T.L., C.H. Shih, D.H. Thurston, B.J. Ware, and P. Cole. 1993. Selection bias from differential residential mobility as an explanation for associations of wire codes with childhood cancer. J. Clin. Epidemiol. 46:545-548.

Juutilainen, J., and A. Liimatainen. 1986. Mutation frequency in Salmonella exposed to weak 100-Hz magnetic fields. Hereditas 104:145-147.

Juutilainen, J., P. Matilainen, S. Saarikoski, E. Laara, and S. Suonio. 1993. Early pregnancy loss and exposure to 50-Hz magnetic fields. Bioelectromagnetics 14:229-236.


Karabakhtsian, R., N. Broude, N. Shalts, S. Kochlatyi, R. Goodman, and A.S. Henderson. 1994. Calcium is necessary in the cell response to EM fields. FEBS Lett. 349:1-6.

Kato, M., K. Honma, T. Shigemitsu, and Y. Shiga. 1993. Effects of exposure to circularly polarized 50-Hz magnetic field on plasma and pineal melatonin levels in rats. Bioelectromagnetics 14:97-106.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Kato, M., K. Honma, T. Shigemitsu, and Y. Shiga. 1994a. Circularly polarized 50-Hz magnetic field exposure reduces pineal gland and blood melatonin concentrations of Long-Evans rats. Neurosci. Lett. 166:59-62.

Kato, M., K. Honma, T. Shigemitsu, and Y. Shiga. 1994b. Horizontal or vertical 50-Hz, 1-µT magnetic fields have no effect on pineal gland or plasma melatonin concentration of albino rats. Neurosci. Lett. 168:205-208.

Kaune, W.T. 1981a. Interactive effects in 60-Hz electric field exposure systems. Bioelectromagnetics 2:33-50.

Kaune, W.T. 1981b. Power-frequency electric fields averaged over the body surfaces of grounded humans and animals. Bioelectromagnetics 2:403-406.

Kaune, W.T., and W.C. Forsythe. 1985. Current densities measured in human models exposed to 60-Hz electric fields. Bioelectromagnetics 6:13-32.

Kaune, W.T., and W.C. Forsythe. 1988. Current densities induced in swine and rat models by power-frequency electric fields. Bioelectromagnetics 9:1-24.

Kaune, W.T., and M.L. Gillis. 1981. General properties of the interaction between animals and ELF electric fields . Bioelectromagnetics 2:1-11.

Kaune, W.T., and R.D. Phillips. 1980. Comparison of coupling of grounded humans, swine and rats to vertical 60-Hz electric fields. Bioelectromagnetics 1:117-129.

Kaune, W.T., and D.A. Savitz. 1994. Simplification of the Wertheimer-Leeper wire code. Bioelectromagnetics 15:275-282.

Kaune, W.T., and L.E. Zaffanella. 1994. Assessing historical exposures of children to power-frequency magnetic fields. J. Expo. Anal. Environ. Epidemiol. 4:149-170.

Kaune, W.T., R.G. Stevens, N.J. Callahan, R.K. Severson, and D.B. Thomas. 1987. Residential magnetic and electric fields. Bioelectromagnetics 8:315-335.

Kaune, W.T., S.D. Darby, S.N. Gardner, Z. Hrubec, R.H. Iriye, and M.S. Linet. 1994. Development of a protocol for assessing time-weighted average exposures of young children to power-frequency magnetic fields. Bioelectromagnetics 15:33-51.

Kavaliers, M., and K.P. Ossenkopp. 1986a. Stress-induced opioid analgesia and activity in mice: Inhibitory influences of exposure to magnetic fields. Psychopharmacology 89:440-443.

Kavaliers, M., and K.P. Ossenkopp. 1986b. Magnetic fields differentially inhibit mu, delta, kappa and sigma opiate-induced analgesia in mice. Peptides 7:449-453.

Kavaliers, M., and K.P. Ossenkopp. 1986c. Magnetic field inhibition of morphineinduced analgesia and behavioral activity in mice: Evidence for involvement of calcium ions. Brain Res. 379:30-38.

Kavet, R. 1991. An alternate hypothesis for the association between electrical wiring configurations and cancer. Epidemiology 2:224-229.

Kavet, R.I., J.M. Silva, and D. Thornton. 1992. Magnetic-field exposure assessment

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

for adult residents of Maine who live near and far away from overhead transmission lines. Bioelectromagnetics 13:35-55.

Kelsey, J.L., W.D. Thompson, and A.S. Evans. 1986. Methods in Observational Epidemiology. New York: Oxford University Press.

Kempf, E., P. Mandel, A. Oliverio, and S. Puglisi-Allegra. 1982. Circadian variations of noradrenaline, 5-hydroxytryptamine and dopamine in specific brain areas of C57BL/6 and BALB/c mice. Brain Res. 232:472-478.

Khalil, A.M., and W. Qassem. 1991. Cytogenic effects of pulsing electromagnetic field on human lymphocytes in vitro: Chromosome aberrations, sister-chromatid exchanges and cell kinetics. Mutat. Res. 247:141-146.

Kikkawa, U., A. Kishimoto, and Y. Nishizuka. 1989. The protein kinase C family: Heterogeneity and its implications. Annu. Rev. Biochem. 58:31-44.

Kinlen, L.J., and S.M. John. 1994. Wartime evacuation and mortality from childhood leukemia in England and Wales in 1945-9. Br. Med. J. 390:197-202.

Kirschvink, J.L. 1992. Uniform magnetic fields and double-wrapped coil systems: Improved techniques for the design of bioelectromagnetic experiments. Bioelectromagnetics 13:401-411.

Klaassen, C.D., and D.L. Eaton. 1991. Principles of toxicology. Pp. 12-49 in Casarett and Doull's Toxicology: The Basic Science of Poisons, 4th Ed., M.O. Amdur, J. Doull, and C.D. Klaassen, eds. New York: Pergamon.

Klavinsh, E.E., Y.Y. Galvanovsky, and A.P. Kreimanis. 1991. Low-frequency electromagnetic pulses enhance calcium intake by chick small intestine in vitro. Bioelectrochem. Bioenerg. 25:437-446.

Knave, B., F. Gamberale, S. Bergstrom, E. Birke, A. Iregrin, B. Kolmodin-Hedman, and A. Wennberg. 1979. Long-term exposure to electric fields: A cross-sectional epidemiologic investigation of occupationally exposed workers in high-voltage substations. Scand. J. Work Environ. Health 5:115-125.

Kowalczuk, C.I., and R.D. Saunders. 1990. Dominant lethal studies in male mice after exposure to a 50-Hz electric field. Bioelectromagnetics 11:129-137.

Kraus, J.D. 1992. Electromagnetics, 4th Ed. New York: McGraw-Hill.

Lacy-Hulbert, A., R.C. Wilkins, T.R. Hesketh, and J.C. Metcalfe. 1995. No effect of 60-Hz electromagnetic fields on myc or beta-actin in human leukemic cells. Radiat. Res. 144:9-17.

LaPorte, R., L. Kus, R.A. Wisniewski, M.M. Perchel, B. Azar-Kia, and J.A. McNulty. 1990. Magnetic resonance imaging (MRI) effects on rat pineal neuroendocrine function. Brain Res. 506:294-296.

Lednev, V.V. 1991. Possible mechanism for the influence of weak magnetic fields on biological systems. Bioelectromagnetics 12:71-75.

Lee, Q.P., A.W. Guy, H. Lai, and A. Horita. 1987. The Effects of Modulated Radio-Frequency Radiation on Calcium Efflux from Chick Brains In Vitro. Abstract, p. 10. Ninth Annual Bioelectromagnetics Society Meeting, June 21-25, 1987, Portland Oreg.

Lee, J.M., Jr., F. Stromshak, J.M. Thompson, P. Thiessen, L.J. Painter, E.G.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Olenchels, D.C. Hess, R. Forbes, and D.L. Foster. 1993. Melatonin secretion and puberty in female lambs exposed to environmental electric and magnetic fields. Biol. Reprod. 49:857-864.

Leeper, E., N. Wertheimer, D. Savitz, F. Barnes, and H. Wachtel. 1991. Modification of the 1979 ''Denver Wire Code" for different wire or plumbing types. Bioelectromagnetics 12:315-318.

Leung, F.C., D.N. Rommereim, R.A. Miller, and L.E. Andersen. 1990. Brown-colored deposits on the hair of female rats chronically exposed to 60-Hz electric fields. Bioelectromagnetics 11:257-259.

Levy, D.D., and B. Rubin. 1972. Inducing bone growth in vivo by pulse stimulation. Clin. Orthop. Relat. Res. 88:218-222.

Libertin, C.R., J. Panozzo, K.R. Groh, C.M. Chang-Liu, S. Schreck, and G.E. Woloschak. 1994. Effects of gamma rays, ultraviolet radiation, sunlight, microwaves, and electromagnetic fields on gene expression mediated by human immunodeficiency virus promoter. Radiat. Res. 140:91-96.

Liboff, A.R., J.R. Thomas, and J. Scrot. 1989. Intensity threshold for 60-Hz magnetically induced behavioral changes in rats. Bioelectromagnetics 10:111-113.

Liboff, A.R., B.R. McLeod, and S.D. Smith. 1990. Ion cyclotron resonance effects in biological systems. Pp. 251-289 in Extremely Low Frequency Fields: The Question of Cancer, B.W. Wilson, R.G. Stevens, and L.E. Anderson , eds. Columbus, Ohio: Battelle Press.

Liburdy, R.P. 1992a. ELF fields and the immune system: Signal transduction, calcium metabolism, and mitogenesis in lymphocytes with relevance to carcinogenesis. Pp. 217-239 in Interaction Mechanisms of Low-Level Electromagnetic Fields in Living Systems, B. Norden and C. Ramel, eds. New York: Oxford University Press.

Liburdy, R.P. 1992b. Calcium signaling in lymphocytes and ELF field: Evidence for an electric field metric and a site of interaction involving the calcium ion channel. FEBS Lett. 301:53-59.

Liburdy, R.P., D.E. Callahan, and J.D. Harland. 1993a. Protein shedding and ELF magnetic fields: Antibody binding at the CD3 and CD20 receptor sites of human lymphocytes. Pp. 651-653 in Electricity and Magnetism in Biology and Medicine: Review and Research Papers Presented at the First World Congress for Electricity and Magnetism in Biology and Medicine, M. Blank, ed. San Francisco: San Francisco Press.

Liburdy, R.P., T.R. Sloma, R. Sokolic, and P. Yaswen. 1993b. ELF magnetic fields, breast cancer, and melatonin: 60-Hz fields block melatonin's oncostatic action on ER-positive breast cancer cell proliferation. J. Pineal Res. 14:89-97.

Liburdy, R.P., D.E. Callahan, T.R. Sloma, and P. Yaswen. 1993c. Intracellular calcium, calcium transport, and c-myc mRNA induction in lymphocytes exposed to 60-Hz magnetic fields: The cell membrane and the signal transduction pathway . Pp. 311-314 in Electricity and Magnetism in Biology and

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Medicine: Review and Research Papers Presented at the First World Congress for Electricity and Magnetism in Biology and Medicine, M. Blank ed. San Francisco: San Francisco Press.

Lin, R., and P. Lu. 1989. An epidemiologic study of childhood cancer in relation to residential exposure to electromagnetic fields. P. A-40 in Project Abstracts: The Annual Review of Research on Biological Effects of Electric and Magnetic Fields. DOE/EPRI Contractor's Review Meeting. Bioelectromagnetics Society, Federick, Md.

Lin, H., R. Goodman, and A. Shirley-Henderson. 1994. Specific region of the c-myc promoter is responsive to electric and magnetic fields. J. Cell. Biochem. 54:281-288.

Lindbohm, M., L. Hietanen, P. Kyyronen, M. Sallmen, P. Von Mandelstadh, H. Taskinen, M. Pekkarinen, M. Ylikoski, and K. Hemminki. 1992. Magnetic fields of video display terminals and spontaneous abortion. Am. J. Epidemiol. 136:1041-1051.

Litovitz, T.A., D. Krauss, and J.M. Mullins. 1991. Effect of coherence time of the applied magnetic field on ornithine decarboxylase activity. Biochem. Biophys. Res. Commun. 178:862-865.

Livingston, G.K., O.P. Gandhi, I. Chatterjee, K. Witt, and J.L. Roti Roti. 1986. Reproductive integrity of mammalian cells exposed to 60-Hz electromagnetic fields. Final Report. New York State Power Lines Project Contract No. 218209. Wadsworth Center for Laboratories and Research, New York.

Livingston, G.K., K.L. Witt, O.P. Gandhi, I. Chatterjee, and J.L. Roti Roti. 1991. Reproductive integrity of mammalian cells exposed to power frequency electromagnetic fields. Environ. Mol. Mutagen. 17:49-58.

Loew, L.M. 1992. Voltage-sensitive dyes: Measurement of membrane potentials induced by DC and AC electric fields. Bioelectromagnetics Suppl. 1:179-189.

London, S.J., D.C. Thomas, J.D. Bowman, E. Sobel, T.-C. Cheng, and J.M. Peters. 1991. Exposure to residential electric and magnetic fields and risk of childhood leukemia. Am. J. Epidemiol. 134:923-937.

London, S.J., J.D. Bowman, E. Sobel, D.C. Thomas, D.H. Garabrant, N. Pearce, L. Bernstein, and J.M. Peters. 1994. Exposure to magnetic fields among electrical workers in relation to leukemia risk in Los Angeles County. Am. J. Ind. Med. 26:47-60.

Loomis, D.P., D.A. Savitz, and C.V. Ananth. 1994. Breast cancer mortality among female electrical workers in the United States. J. Natl. Cancer Inst. 86:921-925.

Löscher, W., M. Mevissen, W. Lehmacher, and A. Stamm. 1993. Tumor promotion in a breast cancer model by exposure to a weak alternating magnetic field. Cancer Lett. 71:75-81.

Löscher, W., U. Wahnschaffe, M. Mevissen, A. Lerchl, and A. Stamm. 1994. Effects of weak alternating magnetic fields on nocturnal melatonin production and mammary carcinogenesis in rats. Oncology 51:288-295.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Lovely, R.H., J.A. Creim, W.T. Kaune, M.C. Miller, R.D. Phillips. and L.E. Anderson. 1992. Rats are not aversive when exposed to 60-Hz magnetic fields at 3.03 mT. Bioelectromagnetics 13:351-362.

Lowenthal, R., J. Panton, M. Baikie, and J. Lickiss. 1991. Exposure to high tension power lines and childhood leukemia: A pilot study [letter]. Med. J. Aust. 155:347.

Luben, R.A. 1991. Effects of low-energy electromagnetic fields (pulsed and DC) on membrane signal transduction processes in biological systems. Health Phys. 61:15-28.

Luben, R.A. 1993. Effects of low-energy electromagnetic fields (EMF) on signal transduction by G protein-linked receptors. Pp. 57-62 in Electricity and Magnetism in Biology and Medicine: Review and Research Papers Presented at the First World Congress for Electricity and Magnetism in Biology and Medicine, M. Blank, ed. San Francisco: San Francisco Press.

Luben, R.A. 1994. In vitro systems for study of electromagnetic effects on bone and connective tissue. In Biological Effects of Electric and Magnetic Fields, 2 vol., D.O. Carpenter and S. Ayrapetyan, eds. San Diego, Calif.: Academic.

Luben, R.A., C.D. Cain, M.Y.C. Chen, D.M. Rosen, and W.R. Adey. 1982. Inhibition of parathyroid hormone actions on bone cells in culture by induced low energy electromagnetic fields. Proc. Natl. Acad. Sci. USA 79:4180-4184.

Lymangrover, L.R., E. Keku, and J.J.Seto. 1983. 60-Hz electric field alters the steroidogenic response of rat adrenal tissue in vitro. Life Sci. 32:691-696.

MacGregor, D.G., P. Slovic, and M.G. Morgan. 1994. Perception of risks from electromagnetic fields: A psychometric evaluation of a risk-communication approach. Risk Anal. 14:815-828.

MacMahon, B. 1992. Is acute lymphoblastic leukemia in children virus-related? Am. J. Epidemiol. 136:916-924.

MacMahon B., and V.A. Newell. 1962. Birth characteristics of children dying of malignant neoplasms. J. Natl. Cancer Inst. 28:231-244.

Mader, D.L., and S.B. Peralta. 1992. Residential exposure to 60-Hz magnetic fields from appliances. Bioelectromagnetics 13:287-301.

Manolagas, S.C., and R.L. Jilka. 1995. Bone marrow, cytokines, and bone remodeling: Emerging insights into the pathophysiology of osteoporosis. New Engl. J. Med. 332:305-311.

Margonato, V., and D. Viola. 1982. Gonadal function in the rat exposed to high-intensity fields of 50 Hz [in Italian]. Boll. Soc. Ital. Biol. Sper. 58:275-281.

Marino, A.A., and R.O. Becker. 1977. Biological effect of extremely low frequency electric and magnetic fields: A review. Physiol. Chem. Phys. 9:131-139.

Marino, A.A., R.O. Becker, and B. Ullrich. 1976. The effect of continuous exposure to low frequency electric fields on three generations of mice: A pilot study. Experientia 32:565-566.

Marino, A.A., T.J. Berger. B.P. Austin, R.O. Becker, and F.X. Hart. 1977. In

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

vivo bioelectrochemical changes associated with exposure to extremely low frequency electric fields. Physiol. Chem. Phys. 9:433-441.

Marino, A.A., M. Reichmanis, R.O. Becker, B. Ullrich, and J.M. Cullen. 1980. Power frequency electric fields induces biological changes in successive generations of mice. Experientia 36:309-311.

Martin, A. 1992. Development of chicken embryos following exposure to 60-Hz magnetic fields with differing waveforms. Bioelectromagnetics 13:223-230.

Martin, R.B., and W. Gutman. 1978. The effect of electric fields on osteoporosis of disuse. Calcif. Tissue Res. 25:23-27.

Martinez-Soriano, F., M. Gimenez-Gonzalez, E. Armanazas, and A. Ruiz-Torner. 1992. Pineal "synaptic ribbons" and serum melatonin levels in the rat following the pulse action of 52-Gs (50 Hz) magnetic fields: An evolutive analysis over 21 days. Acta Anat. 143:289-293.

Matanoski, G.M., P.N. Breysse, and E.A. Elliott. 1991. Electromagnetic field exposure and male breast cancer [letter]. Lancet 337 (8743):737.

Matanoski, G.M., E.A. Elliott, P.N. Breysse, and M.C. Lynberg. 1993. Leukemia in telephone linemen. Am. J. Epidemiol. 137:609-619.

Matsushima, S., Y. Sakai, Y. Hira, M. Kato, T. Shigemitsu, and Y. Shiga. 1993. Effect of magnetic field on pineal gland volume and pinealocyte size in rat. J. Pineal Res. 14:145-150.

McCann, J.E., F. Dietrich, C. Rafferty, and A.O. Martin. 1993. A critical review of the genotoxic potential of electric and magnetic fields . Mutat. Res. 297:61-95.

McClanahan, B.J., and R.D. Phillips. 1983. The influence of electric field exposure on bone growth and fracture repair in rats. Bioelectromagnetics 4:11-19.

McDowall, M.E. 1986. Mortality of persons resident in the vicinity of electricity transmission facilities. Br. J. Cancer 53:271-279.

McGivern, R.F., R.A. Sokol, and W.R. Adey. 1990. Prenatal exposure to a low-frequency electromagnetic field demasculinizes adult scent marking behavior and increases accessory sex organ weights in rats. Teratology 41:1-8.

McLean, J.R.N., M.A. Stuchly, R.E.J. Mitchel, D. Wilkinson, H. Yang, M. Goddard, D.W. Lecuyer, M. Schunk, E. Callary, and S.D. Morrison. 1991. Cancer promotion in a mouse-skin model by a 60-Hz magnetic field: II. Tumor development and immune response. Bioelectromagnetics 12:273-287.

McLeod, B.R., A.A. Pilla, and M.W. Sampsel. 1983. Electromagnetic fields induced by Helmholtz aiding coils inside saline-filled boundaries. Bioelectromagnetics 4:357-370.

McLeod, K.J. 1992. Microelectrode measurements of low frequency electric field effects in cells and tissues. Bioelectromagnetics Suppl. 1:161-178.

McLeod, K.J., and C.T. Rubin. 1990. Frequency specific modulation of bone adaptation by induced electric fields. J. Theor. Biol. 145:385-396.

McLeod, K.J., and C.T. Rubin. 1992. The effect of low-frequency electrical fields on osteogenesis. J. Bone Jt. Surg. 74-A:920-929.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

McLeod, K.J., R.C. Lee, and H.P. Ehrlich. 1987. Frequency dependence of electric field modulation of fibroblast protein synthesis. Science 236:1465-1468.

McLeod, K.J., H.J. Donahue, P.E. Levin, and C.T. Rubin. 1991. Low-frequency sinusoidal electric fields alter calcium fluctuations in osteoblast-like cells. Pp. 111-115 in Electromagnetics in Biology and Medicine, C.T. Brighton and S.R. Pollack, eds. San Francisco: San Francisco Press.

McLeod, K.J., H.J. Donahue, P.E. Levin, M.A. Fontaine, and C.T. Rubin. 1993. Electric fields modulate bone cell function in a density-dependent manner. J. Bone Min. Res. 8:977-984.

McMahan, S., J. Ericson, and J. Meyer. 1994. Depressive symptomatology in women and residential proximity to high-voltage transmission lines. Am. J. Epidemiol. 139:58-63.

McRobbie, D., and M.A. Foster. 1985. Pulsed magnetic field exposure during pregnancy and implications for NMR feotal imaging: A study with mice. Magn. Reson. Imaging 3:231-234.

Merritt, R., C. Purcell, and G. Stroink. 1983. Uniform magnetic fields produced by three, four and five square coils. Rev. Sci. Instrum. 54:879-882.

Mevissen, M., A. Stamm, S. Buntenkotter, R. Zwingelberg, U. Wahnschaffe, and W. Löscher. 1993. Effects of magnetic fields on mammary tumor development induced by 7,12-dimethylbenz[a]anthracene in rats. Bioelectromagnetics 14:131-143.

Meyer, T., and L. Stryer. 1991. Calcium spiking. Annu. Rev. Biophys. Chem. 20:153-174.

Mileva, M. 1982. Effect of a permanent magnetic field on human lymphocytes. Kosm. Biol. Aviakosm. Med. 16:86-87.

Milham, S. 1982. Mortality from leukemia in workers exposed to electrical and magnetic fields [letter]. New Engl. J. Med. 307:249.

Milin, J., M. Bajic, and V. Borkus. 1988. Morphodynamic response of the pineal gland of rats chronically exposed to stable strong magnetic field. NeuroScience 26:1083-1092.

Miller, D.L. 1991. Miniature-probe measurements of electric fields and currents induced by a 60-Hz magnetic field in rat and human models. Bioelectromagnetics 1:157-171.

Miller, D.L., M.C. Miller, and W.T. Kaune. 1989. Addition of magnetic field capability to existing extremely-low-frequency electric field exposure systems. Bioelectromagnetics 10:85-98.

Misakian, M. 1991. In vitro exposure parameters with linearly and circularly polarized ELF magnetic fields. Bioelectromagnetics 12:377-381.

Misakian, M., and W.T. Kaune. 1990. Optimal experimental design for in vitro studies with ELF magnetic fields. Bioelectromagnetics 11:251-255.

Misakian, M., A.R. Sheppard, D. Krause, M.E. Frazier, and D.L. Miller. 1993. Biological, physical, and electrical parameters for in-vitro studies with ELF magnetic and electric fields: A primer. Bioelectromagnetics Suppl. 2:1-73.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Moore, R.L. 1979. Biological effects of magnetic fields: Studies with microorganisms. Can. J. Microbiol. 25:1145-1151.

Morgan, G. 1995. Fields from Electric Power. Part 1: What Are Fields? Part 2: Do 60-Hz Fields Pose Health Risks? Part 3: What Can and Should Be Done? Department of Engineering and Public Policy, Carnegie Mellon University, Pittsburgh, Pa.

Morgan, W.W., L.S. McFaddin, and L.Y. Harvey. 1973. A daily rhythm of norepinephrine content in regions of the hamster brain. Comp. Gen. Pharmacol. 4:47-52.

Morris, J.A. 1991. The age of incidence of childhood acute lymphoblastic leukaemia. Med. Hypotheses 35:4-10.

Moses, G.C., and A.H. Martin. 1992. Effects of extremely low-frequency electromagnetic fields on three plasma membrane-associated enzymes in early chicken embryos. Biochem. Int. 28:659-664.

Murphy, J.C., D.A. Kaden, J. Warren, and A. Sivak (International Commission for Protection Against Environmental Mutagens and Carcinogens). 1993. Power frequency electric and magnetic fields: A review of genetic toxicology. Mutat. Res. 296:221-240.

Myers, A., A.D. Clayden, R.A. Cartwright, and S.C. Cartwright. 1990. Childhood cancer and overhead power lines: A case-control study. Br. J. Cancer 62:1008-1014.

Nair, I., M. Granger-Morgan, and H.K. Florig. 1989. Biological Effects of Power Frequency Electric and Magnetic Fields. Publ. No. OTA-BP-E-53. Office of Technology Assessment, Washington, D.C.

Nordenson, I., K. Hansson Mild, S. Nordstrom, A. Sweins, and E. Birke. 1984. Clastogenic effects in human lymphocytes of power frequency electric fields: In vivo and in vitro studies. Radiat. Environ. Biophys. 23:191-201.

Nordenson, I., K. Hansson Mild, G. Anderson, and M. Sandstrom. 1994. Chromosomal aberrations in human amniotic cells after intermittent exposure to fifty hertz magnetic fields. Bioelectromagnetics 15:293-301.

Nordstrom, S., E. Birke, and L. Gustavsson. 1983. Reproductive hazards among workers at high voltage substations. Bioelectromagnetics 4:91-101.

Norton, L.A., G.A. Rodan, and L.A. Bourret. 1977. Epiphyseal cartilage cAMP changes produced by electrical and mechanical perturbations. Clin. Orthop. Relat. Res. 124:59-68.

Nossol, B., G. Buse, and J. Silney. 1993. Influence of weal static and 50-Hz magnetic fields of the redox activity of cytochrome-C oxidose. Bioelectromagnetics 14:361-372.

Novelli, G., M. Gennarelli, L. Potenza, P. Angelongi, and B. Ballagiccola. 1991. Study of the effects of DNA of electromagnetic fields using clamped homogenous electric field gel electrophoresis. Biomed. Pharmacother. 45:451-454.

NRC (National Research Council). 1983. Risk Assessment in the Federal Government: Managing the Process. Washington, D.C.: National Academy Press.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

NRPB (National Radiological Protection Board). 1992. Electromagnetic Fields and the Risk of Cancer, Vol. 3, pp. 1-138. National Radiological Protection Board, Chilton, Didcot, U.K.

NRPB (National Radiological Protection Board). 1994. Electromagnetic Fields and the Risk of Cancer, Vol. 5, pp. 77-81. National Radiological Protection Board, Chilton, Didcot, U.K.

Olcese, J., and S. Reuss. 1986. Magnetic field effects on pineal gland melatonin synthesis: Comparative studies on albino and pigmented rodents. Brain Res. 369:365-368.

Olkin, I. 1994. Invited commentary: A critical look at some popular meta-analytic methods. Am. J. Epidemiol. 140:297-299.

Olsen, J.H., A. Nielsen, and G. Schulgen. 1993. Residence near high-voltage facilities and the risk of cancer in children. Br. Med. J. 307:891-895.

ORAU (Oak Ridge Associated Universities). 1992. Health Effects of Low Frequency Electric and Magnetic Fields. Publ. No. ORAU 92/F8. Committee in Interagency Radiation Research and Policy Coordination, Oak Ridge Associated Universities, Oak Ridge, Tenn.

Ossenkopp, K.P., and D.P. Cain. 1988. Inhibitory effects of acute exposure to low-intensity 60-Hz magnetic fields on electrically kindled seizures in rats. Brain Res. 442:255-260.

Ossenkopp, K.P., and M. Kavaliers. 1987. Morphine-induced analgesia and exposure to low-intensity 60-Hz magnetic fields: Inhibition of nocturnal analgesia in mice is a function of magnetic field intensity . Brain Res. 418:356-360.

Ossenkopp, K.P., M. Kavaliers, F.S. Prato, G.C. Teskey, E. Sestini, and M. Hirst. 1985. Exposure to nuclear magnetic resonance imaging procedure attenuates morphine-induced analgesia in mice. Life Sci. 37:1507-1514.

Ozawa, H., E. Abe, Y. Shibasaki, T. Fukuhara, and T. Suda. 1989. Electric fields stimulate DNA synthesis of mouse osteoblast-like cells (MC3T3-E1) by a mechanism involving calcium ions. J. Cell. Physiol. 138:477-483.


Paneth, N. 1993. Neurological effects of power-frequency electromagnetic fields. Environ. Health Perspect. 101:101-106.

Parkinson, W.C., and C.T. Hanks. 1989a. Search for cyclotron resonance in cells in vitro. Bioelectromagnetics 10:129-145.

Parkinson, W.C., and C.T. Hanks. 1989b. Experiments on the interaction of electromagnetic fields with mammalian systems. Biol. Bull. Suppl. 176:170-178.

Parkinson, W.C., and G.L. Sulik. 1992. Diatom response to extremely low-frequency magnetic fields. Radiat. Res. 130:319-330.

Peach, H.G., W.J. Bonwick, and T. Wyse. 1992. Report of the Panel on Electromagnetic Fields and Health. The Victorian Government, Melbourne, Australia.

Peck, E.R. 1953. Electricity and Magnetism. New York: McGraw-Hill.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Perry, S., and L. Pearl. 1988. Power frequency magnetic field and illness in multi-storey blocks. Public Health 102:11-18.

Perry, S., L. Pearl, and R. Binns. 1989. Power frequency magnetic field: Depressive illness and myocardial infarction. Public Health 103:177-180.

Perry, F.S., M. Reichmanis, A.A. Marino, and R.R. Becker. 1981. Environmental power-frequency magnetic fields and suicide. Health Phys. 41:267-277.

Persinger, M.A., N.C. Carrey, G.F. Lafreniere, and A. Mazzuchin. 1978. Thirty-eight blood, tissue and consumptive measures from rats exposed perinatally and as adults to 0.5 Hz magnetic fields. Int. J. Biometeorol. 22:213-226.

Peteiro-Cartelle, F.J., and J. Cabezas-Cerrato. 1989. Absence of kinetic and cytogenic effects on human lymphocytes exposed to static magnetic fields. J. Bioelect. 8:11-19.

Peters, J.M., S. Preston-Martin, S.J. London, J.D. Bowman, J.D. Budkley, and D.C. Thomas. 1994. Processed meats and risk of childhood leukemia (California, USA). Cancer Causes Control 5:195-202.

Petitti, D. 1994. Meta-Analysis, Decision Analysis, and Cost-Effectiveness Analysis. New York: Oxford University Press. 246 pp.

Petridou E., D. Kassimos, M. Kalmanti, H. Kosmidis, S. Haidas, V. Flytzani, D. Tong, and D. Trichopoulos. 1993. Age of exposure to infections and risk of childhood leukaemia. Br. Med. J. 307:774.

Phillips, J.L., W. Hagren, W.J. Thomas, T. Ishida-Jones, and W.R. Adey . 1992. Magnetic field induced changes in specific gene transcription. Biochim. Biophys. Acta 1132:140-144.

Pienkowski, D., and S.R. Pollack. 1983. The origin of stress generated potentials in fluid saturated bone. J. Orthop. Res. 1:30-41.

Pilla, A.A. 1993. State of the art in electromagnetic therapeutics. Pp. 17-22 in Electricity and Magnetism in Biology and Medicine: Review and Research Papers Presented at the First World Congress for Electricity and Magnetism in Biology and Medicine, M. Blank, ed. San Francisco: San Francisco Press.

Polk, C. 1986. Introduction. Pp. 1-24 in Handbook of Biological Effects of Electromagnetic Fields, C. Polk and E. Postwa, eds. Boca Raton, Fla.: CRC.

Polk, C. 1990. Electric fields and surface charges due to ELF magnetic fields. Bioelectromagnetics 11:189-201.

Polk, C. 1992a. Dosimetric extrapolations of extremely-low-frequency electric and magnetic fields across biological systems. Bioelectromagnetics Suppl. 1:205-208.

Polk, C. 1992b. Dosimetry of extremely-low-frequency magnetic fields. Bioelectromagnetics Suppl. 1:209-235.

Polk, C. 1993. Therapeutic applications of low frequency electric and magnetic fields. Pp. 129-148 in Advances in Electromagnetic Fields in Living Systems, J.C. Lin, ed. New York: Plenum.

Polk, C., and J.H. Song. 1990. Electric fields induced by low frequency magnetic

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

fields in homogeneous biological structures that are surrounded by an electric insulator. Bioelectromagnetics 11:235-249.

Pollack, S.R. 1984. Bioelectrical properties of bone: Endogenous electrical signals. Orthop. Clin. North Am. 15:3-14.

Poole, C., and R. Kavet. 1993. Depressive symptoms and headaches in relation to proximity of residence to an alternating-current transmission line right-of-way. Am. J. Epidemiol. 1373:318-330.

Poole, C., and D. Trichopoulos. 1991. Extremely low-frequency electric and magnetic fields and cancer. Cancer Causes Control 2:267-276.

Portet, R., and J. Cabanes. 1988. Development of young rats and rabbits exposed to a strong electric field. Bioelectromagnetics 9:95-104.

Prato, F.S., K.P. Ossenkopp, M. Kavaliers, P. Uksik, R.L. Nicholson, D. Droat, and E.A. Sestini. 1988-1989. Effects of exposure to magnetic resonance imaging on nocturnal serum melatonin and other hormone levels in adult males: Preliminary findings. J. Bioelectr. 7:169-180.

Preston-Martin, S., J.M. Peters, M.C. Yu, D.H. Garabrant, and J.D. Bowman. 1988. Myelogenous leukemia and electric blanket use. Bioelectromagnetics 9:207-213.

Quinlan, W.J., D. Petronda, N. Lebda, S. Pettit, and S.M. Michaelson. 1985. Neuroendocrine parameter in the rat exposed to 60-Hz electric fields. Bioelectromagnetics 6:381-389.


Raisz, L.G. 1977. Bone metabolism and calcium regulation. Metab. Bone Dis. 1:1-48.

Rannug, A., T. Ekstrom, K. Hansson Mild, B. Holmberg, I. Gimenez-Conti, and T.J. Slaga. 1993a. A study on skin tumor formation in mice with 50-Hz magnetic field exposure. Carcinogenesis 14:573-578.

Rannug, A., B. Holmberg, T. Ekstrom, and K. Hansson Mild. 1993b. Rat liver foci study on coexposure with 50-Hz magnetic fields and known carcinogens. Bioelectromagnetics 14:17-27.

Rannug, A., B. Holmberg, and K. Hansson Mild. 1993c. A rat liver foci promotion study with 50-Hz alternating magnetic fields. Environ. Res. 62:223-229.

Rasmussen, H., and P.Q. Barrett. 1984. Calcium messenger system: An integrated view. Physiol. Rev. 64:938-984.

Rea, W.J., Y. Pan, E.J. Fenyes, I. Sujisava, H. Suyana, N. Samadi, and G.D. Ross. 1991. Electromagnetic field sensitivity. J. Bioelectr. 10:241-246.

Reese, J.A., R.F. Jostes, and M.E. Frazier. 1988. Exposure of mammalian cells to 60-Hz magnetic or electric fields: Analysis for DNA single-strand breaks. Bioelectromagnetics 9:237-247.

Reese, J.A., M.E. Frazier, J.E. Morris, R.L. Buschborn, and D.L. Miller. 1991. Evaluation of changes in diatom mobility after exposure to 16 Hz electromagnetic fields. Bioelectromagnetics 12:21-26.

Reichmanis, M., F. Perry, A. Marino, and R. Becker. 1979. Relation between

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

suicide and the electromagnetic field of overhead power lines. Physiol. Chem. Phys. 11:395-403.

Reiter, R.J. 1980. The pineal and its hormones in the control of reproduction in mammals. Endocr. Rev. 1:109-131.

Reiter, R.J. 1985. Action spectra, dose-response relationships, and temporal aspects of light's effects on the pineal gland. Ann. N.Y. Acad. Sci. 453:215-230.

Reiter, R.J. 1991. Pineal melatonin: Cell biology of its synthesis and of its physiological interactions. Endocr. Rev. 12:151-180.

Reiter, R.J. 1992. Alterations of the circadian melatonin rhythm by the electromagnetic spectrum: A study in environmental toxicology. Regul. Toxicol. 15:226-244.

Reiter, R.J. 1993a. The mammalian pineal glands as an end organ of the visual system. Pp. 145-160 in Light and Biological Rhythms in Man, L. Wetterberg, ed. New York: Pergamon.

Reiter, R.J. 1993b. Static and extremely low frequency electromagnetic field exposure: Reported effects of the circadian production of melatonin. J. Cell. Biochem. 51:394-403.

Reiter, R.J. 1993c. Electromagnetic fields and melatonin production. Biomed. Pharmacol. Ther. 47:439-444.

Reiter, R.J., and B.A. Richardson. 1992. Magnetic field effects on pineal indoleamine metabolism and possible biological consequences. FASEB J. 6:2283-2287.

Reiter, R.J., L.E. Anderson, R.I. Buschbom, and B.W. Wilson. 1988. Reduction of the nocturnal rise in pineal melatonin levels in rats exposed to 60-Hz electric fields in utero and for 23 days after birth. Life Sci. 42:2203-2206.

Robert, E. 1993. Birth defects and high voltage power lines: An exploratory study based on registry data. Reprod. Toxicol. 7:283-287.

Robison, L.L., and A. Daigle. 1984. Control selection using random digit dialing for cases of childhood cancer. Am. J. Epidemiol. 120:164-166.

Robison, L.L., A. Mertens, and J.P. Neglia. 1991. Epidemiology and etiology of childhood cancer. Pp. 11-28 in Clinical Pediatric Oncology, 4th Ed., D.J. Fernbach and T.J. Vietti, eds. St. Louis: Mosby Year Book.

Rodan, G.A., and T.J. Martin. 1981. Role of osteoblasts in the hormonal regulation of bone resorption--A hypothesis. Calcif. Tissue Int. 33:349-351.

Rodan, G.A., L.A. Bourret, and L.A. Norton. 1978. DNA synthesis in cartilage cells is stimulated by oscillating electric fields. Science 199:690-692.

Rogers, W., R.J. Reiter, H.D. Smith, and L. Barlow-Walden. 1995. Rapid onset/offset, variably scheduled 60-Hz electric and magnetic field exposure reduces nocturnal serum melatonin concentration in nonhuman primates. Bioelectromagnetics Suppl. 3:119-122.

Rollag, M.D., and G.D. Niswender. 1976. Radioimmunoassay of serum concentrations

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

of melatonin in sheep exposed to different lighting regimes. Endocrinology 98:482-489.

Rommereim, D.N., W.T. Kaune, R.L. Buschbom, R.D. Phillips, and M.R. Sikov. 1987. Reproduction and development in rats chronologically exposed to 60-Hz electric fields. Bioelectromagnetics 8:243-258.

Rommereim, D.N., W.T. Kaune, L.E. Anderson, and M.R. Sikov. 1989. Rats reproduce and rear litters during chronic exposure to 150-kV/m, 60-Hz electric fields. Bioelectromagnetics 10:385-389.

Rommereim, D.N., R.L. Rommereim, M.R. Sikov, R.L. Buschbom, and L.E. Anderson. 1990. Reproduction, growth, and development of rats during chronic exposure to multiple field strengths of 60-Hz electric fields. Fundam. Appl. Toxicol. 14:608-621.

Rosen, D.M., and R.A. Luben. 1983. Multiple hormonal mechanisms for the control of collagen synthesis in an osteoblast-like cell line, MMB-1. Endocrinology 112:992-999.

Rosenbaum, P.F., J.E. Vena, M.A. Zielezny, and A.M. Michalek. 1994. Occupational exposures associated with male breast cancer. Am. J. Epidemiol. 139:30-36.

Rosenberg, R.S., P.H. Duffy, and G.A. Sacher. 1981. Effects of intermittent 60-Hz high voltage electric fields in metabolism, activity, and temperature in mice. Bioelectromagnetics 2:291-303.

Rosenberg, R.S., P.H. Duffy, G.A. Sacher, and C.F. Ehret. 1983. Relationship between field strength and arousal response in mice exposed to 60-Hz electric fields. Bioelectromagnetics 4:181-191.

Rosenthal, M., and G. Obe. 1989. Effects of 50-hertz electromagnetic fields on proliferation and on chromosomal alterations in human peripheral lymphocytes untreated or pretreated with chemical mutagens. Mutat. Res. 210:329-335.

Rothman, K.J. 1986. Modern Epidemiology. Boston: Little, Brown.

Rubin, P., ed. 1983. Clinical Oncology: A Multidisciplinary Approach. New York: American Cancer Society.

Rubin, C.T., K.J. McLeod, and L.E. Lanyon. 1989. Prevention of osteoporosis by pulsed electromagnetic fields. J. Bone Jt. Surg. 71-A:411-417.

Rudolph, K., K. Kräuchi, A. Wirz-Justice, and H Feer. 1985. Weak 50-Hz electromagnetic fields activate rat open field behavior. Physiol. Behav. 35:505-508.

Saffer, J.D., and S.J. Thurston. 1995. Short exposures to 60 Hz magnetic fields do not alter myc expression in HL60 or Daudi cells. Radiat. Res. 144:18-25.

Sagan, P.M., M.E. Stell, G.K. Bryan, and W.R. Adey. 1987. Detection of 60-Hz vertical electric fields by rats. Bioelectromagnetics 8:303-313.

Sahl, J.D., M.A. Kelsh, and S. Greenland. 1993. Cohort and nested case-control studies of hematopoietic cancers and brain cancer among electric utility workers. Epidemiology 4:104-114.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Sakai, T. 1981. The mammalian Harderian gland: Morphology, biochemistry, function and physiology. Arch. Histol. Jpn. 44:299-333.

Salzinger, K., S. Freimark, M. McCullough, D. Phillips. and L. Birenbaum. 1990. Altered operant behavior of adult rats after perinatal exposure to a 60-Hz electromagnetic field. Bioelectromagnetics 11:105-116.

Savitz, D.A., and A. Ahlbom. 1994. Epidemiologic evidence on cancer in relation to residential and occupational exposures. Pp. 233-261 in Biologic Effects of Electric and Magnetic Fields: Beneficial and Harmful Effects, D.O. Carpenter and S. Ayrapetyan, eds. San Diego, Calif.: Academic.

Savitz, D.A., and E.E. Calle. 1987. Leukemia and occupational exposure to electromagnetic fields: Review of epidemiologic surveys. J. Occup. Med. 29:47-51.

Savitz, D.A., and J. Chen. 1990. Parental occupation and childhood cancer: Review of epidemiologic studies. Environ. Health Perspect. 88:325-337.

Savitz, D.A., and L. Feingold. 1989. Association of childhood cancer with residential traffic density. Scand. J. Work Environ. Health 15:360-363.

Savitz, D.A., and W.T. Kaune. 1993. Childhood cancer in relation to a modified residential wire code. Environ. Health Perspect. 101:76-80.

Savitz, D.A., and D.P. Loomis. 1995. Magnetic field exposure in relation to leukemia and brain cancer mortality among electric utility workers. Am. J. Epidemiol. 141:123-134.

Savitz, D.A., H. Wachtel, F.A. Barnes, E.M. John, and J.G. Tvrdik. 1988. Case-control study of childhood cancer and exposure to 60-Hz magnetic fields. Am. J. Epidemiol. 128:21-38.

Savitz, D.A., E.M. John, and R.C. Kleckner. 1990. Magnetic field exposure from electric appliances and childhood cancer. Am. J. Epidemiol. 131:763-773.

Savitz, D., C. Boyle, and P. Holmgreen. 1994. Prevalence of depression among electrical workers. Am. J. Ind. Med. 25:165-176.

Scarfi, M.R., F. Bersani, A. Cossarizza, D. Monti, G. Castellani, R. Cadossi, G. Franceschetti, and C. Franceschi. 1991. Spontaneous and mitomycin-C-induced micronuclei in human lymphocytes exposed to extremely low-frequency pulsed magnetic fields. Biochem. Biophys. Res. Commun. 176:194-200.

Scarfi, M.R., F. Bersani, A. Cossarizza, D. Monti, O. Zeni, M.B. Lioi, G. Granceschetti, M. Capri, and C. Franceschi. 1993. 50 Hz AC sinusoidal electric fields do not exert genotoxic effects (micronucleus formation) in human lymphocytes. Radiat. Res. 135:64-68.

Schiffman, J.S., H. Lasch, M.D. Rollag, A.E. Flanders, G.C. Brainard, and D.L. Burk, Jr. 1994. Effect of MR imaging on the normal human pineal body: Measurement of plasma melatonin levels. J. Magn. Reson. Imaging 4:7-11.

Schlesselman, J. 1982. Case-Control Studies. Design, Conduct, Analysis. New York: Oxford University Press.

Schmukler, R., and A.A. Pilla. 1982. A transient impedance approach to nonfaradaic

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

electrochemical kinetics at living cell membranes. J. Electrochem. Soc. 129:526-528.

Schreiber, G.H., G.M.H. Swaen, J.M.M. Mejers, J.J.M. Slangen, and F. Sturmans. 1993. Cancer mortality and residence near electricity transmission equipment: A retrospective cohort study. Int. J. Epidemiol. 22:9-15.

Schwartz, J.L., and G.A.R. Mealing. 1993. Calcium-ion movement and contractility in atrial strips of frog heart are not affected by low-frequency-modulated, 1 GHz electromagnetic radiation. Bioelectromagnetics 14:521-533.

Schwartz, J.L., D.E. House, and G.A.R. Mealing. 1990. Exposure of frog hearts to cw or amplitude-modulated VHF fields selective efflux of calcium ions at 16 Hz. Bioelectromagnetics 11:349-358.

Seegal, R.F., J.R. Wolpaw, and R. Dowman. 1989. Chronic exposure of primates to 60-Hz electric and magnetic fields: II. Neurochemical effects. Bioelectromagnetics 10:289-301.

Seto, Y.J., D. Majeau-Chargois, J.R. Lymangrover, W.P. Dunlap, C.F. Walker, and S.T. Hsieh. 1984. Investigation of fertility and in utero effects in rats chronically exposed to a high-intensity 60-Hz electric field. IEEE Trans. Biomed. Eng. 11:693-702.

Severson, R.K., R.G. Stevens, W.T. Kaune, D.B. Thomas, L. Heuser, S. Davis, and L.E. Sever. 1988. Acute non-lymphocytic and residential exposure to power frequency magnetic fields. Am. J. Epidemiol. 128:10-20.

Shaw, G.M., and L.A. Croen. 1993. Human adverse reproductive outcomes and electromagnetic field exposures: Review of epidemiologic studies. Environ. Health Perspect. 101 (Suppl. 4):107-119.

Shiau, U., and A.R. Valentino. 1981. ELF electric field coupling to dielectric spheroidal models of biological objects. IEEE Trans. Biomed. Eng. 28:429-437.

Sibley, D.R., J.L. Benovic, M.G. Caron, and R.J. Lefkowitz. 1988. Phosphorylation of cell surface receptors: A mechanism for regulating signal transduction pathways. Endocr. Rev. 9:38-56.

Sikov, M.R., L.D. Montgomery, L.G. Smith, and R.D. Phillips. 1984. Studies on prenatal and postnatal development in rats exposed to 60-Hz electric fields. Bioelectromagnetics 5:101-112.

Sikov, M.R., D.M. Rommereim, J.L. Beamer, R.L. Buschbom, W.T. Kaune, and R.D. Phillips. 1987. Developmental studies of Hanford miniature swine exposed to 60-Hz electric fields. Bioelectromagnetics 8:229-242.

Slovic, P. 1987. Perception of risk. Science 236:280-285.

Smith, R. 1983. Household magnetic fields and suicide. Health Phys. 44:699-700.

Smith, R.F., and D.R. Justesen. 1977. Effects of a 60-Hz magnetic field on activity levels of mice. Radio Sci. 12:279-286.

Smith, M.T., J.A. D'Andrea, and O.P. Gandhi. 1979. Behavioral effects of strong 60-Hz electric fields in rats. J. Microwave Power 14:223-228.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Smith, S.D., B.R. McLeod, A.R. Liboff, and K. Cooksey. 1987. Calcium cyclotron resonance and diatom mobility. Bioelectromagnetics 8:215-227.

Smith, S.D., B.R. McLeod, and A.R. Liboff. 1993. Effects of CR-tuned 60-Hz magnetic fields on sprouting and early growth of Raphanus sativus . Bioelectrochem. Bioenerg. 32:67-76.

Spiegel, R.J. 1976. ELF coupling to spherical models of man and animals. IEEE Trans. Biomed. Eng. 23:387-391.

Spiegel, R.J. 1977. Magnetic coupling to a prolate spheroid model of man. IEEE Trans. Power Appar. Syst. 96:208-212.

Spiegel, R.J. 1981. Numerical determination of induced currents in humans and baboons exposed to 60-Hz electric fields. IEEE Trans. Electromagn. Compat. 23:382-390.

Stern, S., and V.G. Laties. 1985. 60-Hz electric fields: Detection by female rats. Bioelectromagnetics 6:99-103.

Stern, S., and V.G. Laties. 1989. Comparison of 60-Hz electric fields and incandescent light as aversive stimuli controlling the behavior of rats. Bioelectromagnetics 10:99-109.

Stern, S., V.G. Laties, C.V. Stancampiano, C. Cox, and J.O. de Lorge. 1983. Behavioral detection of 60-Hz electric fields by rats. Bioelectromagnetics 4:215-247.

Stevens, R.G. 1987a. Electric power use and breast cancer: A hypothesis. Am. J. Epidemiol. 125:294-300.

Stevens, R.G. 1987b. Electric power use and breast cancer. Am. J. Epidemiol. 125:556-561.

Stollery, B. 1986. Effects of 50 Hz electric currents on mood and verbal reasoning skills. Br. J. Ind. Med. 43:339-349.

Stuchly, M.A., and W. Xi. 1994. Modelling induced currents in biological cells exposed to low-frequency magnetic fields. Phys. Med. Biol. 39:1319-1330.

Stuchly, M.A., and S. Zhao. 1996. Magnetic field-induced currents in the human body in the proximity of power lines. IEEE Trans. Power Delivery 11:102-107.

Stuchly, M.A., J. Ruddick, D. Villeneuve, K. Robinson, B. Reed, D.W. Lecuyer, K. Tan, and J. Wong. 1988. Teratological assessment of exposure to time-varying magnetic field. Teratology 38:461-466.

Stuchly, M.A., D.W. Lecuyer, and J. McLean. 1991. Cancer promotion in a mouse-skin model by a 60-Hz magnetic field: I. Experimental design and exposure system. Bioelectromagnetics 12:261-271.

Stuchly, M.A., J.R.N. McLean, R. Burnett, M. Goddard, D.W. Lecuyer, and R.E.J. Mitchel. 1992. Modification of tumor promotion in the mouse skin by exposure to an alternating magnetic field. Cancer Lett. 65:1-7.

Svedenstal, B.M., and B. Holmberg. 1993. Lymphoma development among mice exposed to x-rays and pulsed magnetic fields. Int. J. Radiat. Biol. 64:119-125.

Takahashi, K., I. Kaneko, M. Date, and E. Fukada. 1987. Influence of pulsing

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

electromagnetic field on the frequency of sister-chromatid exchanges in cultured mammalian cells. Experientia 43:331-332.

Takatsuji, T., M.S. Sasaki, and H. Takekoshi. 1989. Effect of static magnetic field on the induction of chromosome aberrations by 4.5 MeV protons and 23 MeV alpha particles. J. Radiat. Res. 30:238-246.

Tam, C.S., J.M.N. Heersche, T.M. Murray, and J.A. Parsons. 1982. Parathyroid hormone stimulates the bone apposition rate independently of its resorptive action. Endocrinology 110:506-512.

Tan, D.X., L.D. Chen, B. Poeggeler, L.C. Manchester, and R.J. Reiter. 1993a. Melatonin: A potent endogenous hydroxyl radical scavenger. Endocr. J. 1:57-60.

Tan, D.X., B. Poeggeler, R.J. Reiter, L.D. Chen, S. Chen, L.C. Manchester, and L.R. Barlow-Walden. 1993b. The pineal hormone melatonin inhibits DNA-adduct formation induced by the chemical carcinogen safrole in vivo. Cancer Lett. 70:65-71.

Tan, D.X., R.J. Reiter, L.D. Chen, B. Poeggeler, L.C. Manchester, and L.R. Barlow-Walden. 1994. Both physiological and pharmacological levels of melatonin induced by the chemical carcinogen safrole. Carcinogenesis 15:215-218.

Tenforde, T.S. 1991. Biological interactions of extremely-low-frequency electric and magnetic fields. Bioelectrochem. Bioenerg. 25:1-17.

Tenforde, T.S. 1992. Biological interactions and potential health effects of extremely-low-frequency magnetic fields from power lines and other common sources. Annu. Rev. Public Health 13:173-196.

Tenforde, T.S., and W.T. Kaune. 1987. Interaction of extremely low frequency electric and magnetic fields with humans. Health Phys. 53:585-606.

Theriault, G.P. 1990. Cancer risks due to exposure to electromagnetic fields. Recent Results Cancer Res. 120:166-180.

Theriault, G.P., M. Goldberg, A.B. Miller, B. Armstrong, P. Guenel, J. Deadman, E. Imbernon, T. To, A. Chevalier, D. Cyr, and C. Wall. 1994. Cancer risks associated with occupational exposure to magnetic fields among electric utility workers in Ontario and Quebec, Canada, and France: 1970-1989. Am. J. Epidemiol. 139:550-572.

Thomas, A., and P.G. Morris. 1981. The effects of NMR exposure in living organisms: I. A microbial assay. Br. J. Radiol. 54:615-621.

Thomas, J.R., J. Schrot, and A.R. Liboff. 1986. Low intensity magnetic fields alter operant responding in rats. Bioelectromagnetics 7:349-357.

Thomson R.A.E., S.M. Michaelson, and Q.A. Nguyen. 1988. Influence of 60-Hz magnetic fields on leukemia. Bioelectromagnetics 9:149-158.

Tobey, R.A., H.J. Price, L.D. Scott, and K.D. Ley. 1981. Lack of effect of 60-hertz fields on growth of cultured mammalian cells. Rep. No. LA-8831-MS. Los Alamos Scientific Laboratory, Los Alamos, N.M.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

Tomenius, L. 1986. 50-Hz electromagnetic environment and the incidence of childhood tumors in Stockholm County. Bioelectromagnetics 7:191-207.

Tucker, R.D., and O.H. Schmitt. 1978. Tests for human perception of 60-Hz moderate strength magnetic fields. IEEE Trans. Biomed. Eng. 25:509-518.

Tynes, T., and A. Andersen. 1990. Electromagnetic fields and male breast cancer [letter]. Lancet 336(8743):1596.

Tynes, T., J.B. Reitan, and A. Andersen. 1994a. Incidence of cancer among workers in Norwegian hydroelectric power companies. Scand. J. Work Environ. Health 20:339-344.

Tynes, T., H. Jynge, and A.I. Vistnes. 1994b. Leukemia and brain tumors in Norwegian railway workers, a nested case-control study. Am. J. Epidemiol. 139:645-653.

Uckun, F.M., T. Kurosaki, J. Jin, X. Jun, J. Bolen, and R.A. Luben. 1995. Exposure of B-lineage lymphoid cells to low energy electromagnetic fields stimulates Lyn kinase. J. Biol. Chem. 270:27666-27670.

U.S. Surgeon-General. 1964. Smoking and Health. Report of the Advisory Committee to the Surgeon General of the U.S. Public Health Service. PHS Publ. No. 1103. U.S. Public Health Service, Washington, D.C.


Vasquez, B.J., L.E. Anderson, C.I. Lowery, and W.R. Adey. 1988. Diurnal pattern in brain amines of rats exposed to 60-Hz electric fields. Bioelectromagnetics 9:229-236.

Vena, J.E., S. Graham, R. Hellman, M. Swanson, and J. Brasure. 1991. Use of electric blankets and risk of postmenopausal breast cancer. Am. J. Epidemiol. 134:180-185.

Verkasalo, P.K., E. Pukkala, M.Y. Hongisto, J.E. Valjus, P.J. Drvinen, K.V. Heikkil, and M. Koskenvuo. 1993. Risk of cancer in Finnish children living close to power lines. Br. Med. J. 307:895-899.

Verreault, R., N.S. Weiss, K.A. Hollenbach, C.L. Strader, and J.R. Daling. 1990. Use of electric blankets and the risk of testicular cancer. Am. J. Epidemiol. 131:759-762.

Villa, M., P. Mustrarelli, and M. Caprotti. 1991. Biological effects of magnetic fields. Life Sci. 49:85-92.

Voigt, L.F., S. Davis, and S. Heuser. 1992. Random digit dialing: The potential effect of sample characteristics on the conversion of nonresidential telephone numbers. Am. J. Epidemiol. 136:1393-1399.


Waksberg, J. 1978. Sampling methods for random digit dialing. J. Am. Stat. Assoc. 73:40-46.

Walleczek, J. 1992. Electromagnetic field effects on cells of the immune system: The role of calcium signaling. FASEB J. 6:3177-3185.

Walleczek, J., and T.F. Budinger. 1992. Pulsed magnetic field effects on calcium signaling in lymphocytes: Dependence on cell status and field intensity. FEBS Lett. 314:351-355.

Walleczek, J., and R.P. Liburdy. 1990. Nonthermal 60 Hz sinusoidal magnetic-field

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

exposure enhances 45Ca2+ uptake in rat thymocytes: Dependence on mitogen activation. FEBS Lett. 271:157-160.

Wang, W., T.A. Litovitz, L.M. Penafiel, and R. Meister. 1993. Determination of the induced ELF electric field distribution in a two-layer in-vitro system simulating biological cells in nutrient solution. Bioelectromagnetics 14:29-39.

Ward, E.M., S. Kramer, and A.T. Meadows. 1984. The efficacy of random digit dialing in selecting matched controls for a case-control study of pediatric cancer. Am. J. Epidemiol. 120:582-591.

Wartenberg, D., and C. Chess. 1992. Risky business: The inexact art of hazard assessment. Sciences March-April:16-21.

Wartenberg, D., and D.A. Savitz. 1993. Evaluating exposure cut point bias in epidemiologic studies of electric and magnetic fields. Bioelectromagnetics 14:237-245.

Washburn, E., M. Orza, J. Berlin, W. Nicholson, A. Todd, H. Frumkin, and T. Chalmers. 1994. Residential proximity to electricity transmission and distribution equipment and risk of childhood leukemia, childhood lymphoma, and childhood nervous system tumors: Systematic review, evaluation, and meta-analysis . Cancer Causes Control 5:299-309.

Watson, J., and E.M. Downes. 1979. Clinical aspects of the stimulation of bone healing using electrical phenomena. Med. Biol. Eng. Comput. 17:161-169.

Weigel, R.J., R.A. Jaffe, D.L. Lundstrom, W.C. Forsythe, and L.E. Anderson. 1987. Stimulation of cutaneous mechanoreceptors by 60-Hz electric fields. Bioelectromagnetics 8:337-350.

Weiss, N.S. 1981. Inferring causal relationships: Elaboration of the criterion of ''dose-response." Am. J. Epidemiol. 113:487-490.

Wertheimer, N., and E. Leeper. 1979. Electrical wiring configurations and childhood cancer. Am. J. Epidemiol. 109:273-284.

Wertheimer, N., and E. Leeper. 1980. RE: "Electrical wiring configurations and childhood leukemia in Rhode Island" [letter]. Am. J. Epidemiol. 111:461-462.

Wertheimer, N., and E. Leeper. 1982. Adult cancer related to electrical wires near the home. Int. J. Epidemiol. 11:345-355.

Wertheimer, N., and E. Leeper. 1986. Possible effects of electric blankets and heated waterbeds on fetal development. Bioelectromagnetics 7:13-22.

Wertheimer, N., and E. Leeper. 1989. Fetal loss associated with two seasonal sources of electromagnetic field exposure. Am. J. Epidemiol. 129:220-224.

Whitson, G.L., W.L. Carrier, A.A. Francis, C.C. Shih, S. Georghiou, and J.D. Reagan. 1986. Effects of extremely low frequency (ELF) electric fields on cell growth and DNA repair in human skin fibroblasts. Cell Tissue Kinet. 19:39-47.

Wiley, M.J., P. Corey, R. Kavet, J. Charry, S. Harvey, D. Agnew, and M. Walsh.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

1992. The effects of continuous exposure to 20 k-Hz sawtooth magnetic fields on the litters of CD-1 mice. Teratology 46:391-398.

Wilson, B.W., W. Snedden, P.E. Mullen, R.E. Silman, I. Smith, and J. Laudon. 1977. A gas chromatography-mass spectrometry method for the quantitative analysis of melatonin in plasma and cerebrospinal fluid. Anal. Biochem. 81:283-291.

Wilson, B.W., L.E. Anderson, D.I. Hilton, and R.D. Phillips. 1981. Chronic exposure to 60-Hz electric fields: Effects on pineal function in the rat. Bioelectromagnetics 2:371-380.

Wilson B.W., L.E. Anderson, D.I. Hilton, and R.D. Phillips. 1983. Erratum. Chronic exposure to 60-Hz electric fields: Effects on pineal function in the rat [1981, 2:371-380]. Bioelectromagnetics 4:293.

Wilson, B.W., E.K. Chess, and L.E. Anderson. 1986. 60-Hz electric-field effects on pineal melatonin rhythms: Time course for onset and recovery. Bioelectromagnetics 7:239-242.

Wilson, B.W., R.G. Stevens, and L.E. Anderson. 1989. Neuroendocrine mediated effects of electromagnetic-field exposure: Possible role of the pineal gland. Life Sci. 45:1319-1332.

Wilson, B.W., C.W. Wright, J.E. Morris, R.L. Buschbom, D.P. Brown, D.L. Miller, R. Sommers-Flannigan, and L.E. Anderson. 1990a. Evidence for an effect of ELF electromagnetic fields on human pineal gland function. J. Pineal Res. 9:259-269.

Wilson, B.W., R.G. Stevens, and L.E. Anderson, eds. 1990b. Extremely Low Frequency Electromagnetic Eields: The Question of Cancer. Columbus, Ohio: Battelle Press.

Wilson, B.W., K. Caputa, M.A. Stuchly, J.D. Saffer, K.C. Davis, C.E. Washam, L.G. Washam, G.R. Washam, and M.A. Wilson. 1994. Design and fabrication of well confined uniform magnetic field exposure systems. Bioelectromagnetics 15:563-577.

Wolf, F. 1986. Meta-Analysis: Quantitative Methods for Research Synthesis. Newbury Park, Calif.: Sage Publications.

Wolff, J. 1892. Gesetz der Transformation der Knochen. Berlin.

Wolff, S., L.E. Crooks, P. Brown, R. Howard, and R.B. Painter. 1980. Tests for DNA and chromosomal damage induced by nuclear magnetic resonance imaging. Radiology 136:707-710.

Wolpaw, J.R., R.F. Seegal, and R. Dowman. 1989. Chronic exposure of primates to 60-Hz electric and magnetic fields: I. Exposure system and measurements of general health and performance. Bioelectromagnetics 10:277-288.

Xi, W., and M.A. Stuchly. 1994. High spatial resolution analysis of electric currents induced in men by ELF magnetic fields. Appl. Comput. Electromagn. Soc. J. 9:127-134.

Xi, W., M.A. Stuchly, and O.P. Gandhi. 1994. Induced electric currents in models

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×

of man and rodents from 60 Hz magnetic fields. IEEE Trans. Biomed. Eng. 41:1018-1023.

Yellon, S.M. 1994. Acute 60 Hz magnetic field exposure effects on the melatonin rhythm in the pineal gland and circulation of the adult Djungarian hamster. J. Pineal Res. 16(3):136-144.

Yost, M.G., and R.P. Liburdy. 1992. Time-varying and static magnetic fields act in combination to alter calcium signal transduction in the lymphocyte. FEBS Lett. 296:117-122.

Yost, M.G., J.D. Wu, G. Lee, L. Hristova, and R. Neutra. 1992. Multivariate modeling of residential wire codes and measured magnetic field parameters . Pp. 27-28 in Project Abstracts: The Annual Review of Research on Biological Effects of Electric and Magnetic Fields. Frederick, Md.: W/L Associates.

Youngson, J.H.A.M., A.D. Clayden, A. Myers, and R.A. Cartwright. 1991. A case/control study of adult haematological malignancies in relation to overhead powerlines. Br. J. Cancer 63:977-985.


Zusman, I.P., H.P. Yaffe, and A. Ornoy. 1990. Effects of pulsing electromagnetic fields on the prenatal and postnatal development in mice and rats: In vivo and in vitro studies. Teratology 42:157-170.

Zwingelberg, R., G. Obe, M. Rosenthal, M. Mevissen, S. Buntenkötter, and W. Löscher. 1993. Exposure of rats to a 50-Hz 30-mT magnetic field influences neither the frequencies of sister-chromatid exchanges nor proliferation characteristics of cultured peripheral lymphocytes. Mutat. Res. 302:39-44.

Suggested Citation:"References." National Research Council. 1997. Possible Health Effects of Exposure to Residential Electric and Magnetic Fields. Washington, DC: The National Academies Press. doi: 10.17226/5155.
×
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Can the electric and magnetic fields (EMF) to which people are routinely exposed cause health effects? This volume assesses the data and draws conclusions about the consequences of human exposure to EMF. The committee examines what is known about three kinds of health effects associated with EMF: cancer, primarily childhood leukemia; reproduction and development; and neurobiological effects. This book provides a detailed discussion of hazard identification, dose-response assessment, exposure assessment, and risk characterization for each.

Possible Health Effects of Exposure to Residential Electric and Magnetic Fields also discusses the tools available to measure exposure, common types of exposures, and what is known about the effects of exposure. The committee looks at correlations between EMF exposure and carcinogenesis, mutagenesis, neurobehavioral effects, reproductive and developmental effects, effects on melatonin and other neurochemicals, and effects on bone healing and stimulated cell growth.

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