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Brain tumour development in rats exposed to electromagnetic fields used in wireless cellular communication

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Abstract

It has been suggested that electromagnetic fields (EMF) act as promoters late in the carcinogenesis process. To date, however, there is no convincing laboratory evidence that EMFs cause tumour promotion at non‐thermal exposure levels. Therefore the effects of exposure to electromagnetic fields were investigated in a rat brain glioma model. Some of the exposures correspond to electromagnetic fields used in wireless communication. Microwaves at 915 MHz were used both as continuous waves (1 W), and pulse‐modulated at 4, 8, 16 and 217 Hz in 0.57 ms pulses and 50 Hz in 6.67 ms pulses (2 W per pulse). Fischer 344 rats of both sexes were used in the experiments. By stereotaxic technique rat glioma cells (RG2 and N32) were injected into the head of the right caudate nucleus in 154 pairs of rats, exposed and matched controls. Starting on day 5 after inoculation, the animals were exposed for 7 hours a day, 5 days a week during 2–3 weeks. Exposed animals were kept unanaesthetized in well‐ventilated TEM cells producing 915 MHz continuous or modulated microwaves. Their matched controls were kept in identical TEM cells without EMF exposure. All brains were examined histopathologically and the tumour size was estimated as the volume of an ellipsoid. Our study of 154 matched pairs of rats does not show any significant difference in tumour size between animals exposed to 915 MHz, and those not exposed. Thus our results do not support that even an extensive daily exposure to EMF promotes tumour growth when given from the fifth day after the start of tumour growth in the rat brain until the sacrifice of the animal after about 16 days.

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References

  1. A.T. Aas, C. Blennow, A. Brun, S. Strömblad and L.G. Salford, The RG2 rat glioma model, J. Neuro-Oncology 23 (1995) 175–183.

    Google Scholar 

  2. W.R. Adey, Nonlinear electrodynamics in cell membrane transductive coupling, in: Membrane Transport and Information Storage (Alan Liss, New York, 1990) pp. 1–27.

    Google Scholar 

  3. W.R. Adey, in: Extremely Low Frequency Electromagnetic Fields: the Question of Cancer, eds. B.W. Wilson, R.G. Stevens and L.E. Anderson (Batelle Press, Richland, 1990).

    Google Scholar 

  4. E.K. Balcer-Kubiczek and G.H. Harrison, Induction of neoplastic transformation in C3H/10T112 cells by 2.45 GHz microwaves and phorbol ester, Radiat. Res. 117 (1989) 531–537.

    Google Scholar 

  5. Burger, F.S. Vogel, S.B. Green and T.A. Strike, Glioblastoma multiforme and anaplastic astrocytoma; pathologic criteria and prognostic implication, Cancer 56 (1985) 1106–1111.

    Google Scholar 

  6. C.V. Byus, K. Kartum, S. Pieper and W.R. Adey, Increased ornithine decarboxylase activity in cultured cells exposed to low energy modulated microwave fields and phorbolester tumor promoters, Cancer Res. 48 (1988) 4222–4226.

    Google Scholar 

  7. C.D. Cain, D.L. Thomas, L. Jimenez, R.A. Jones and W.R. Adey, 837 MHz digital cellular telephone Rf fields and copromotion of focus formation, in vitro, in: Abstract Book Sixteenth Annual Meeting of Bio Electro Magnetic Society (The Bioelectromagnetic Society, Frederick, MD, 1994) pp. 69–70.

    Google Scholar 

  8. E.M. Czerska, E.C. Elson, C.C. Davis, M.L. Swicord and P. Czerski, Effects of continuous and pulsed 2450 MHz radiation on spontaneous lymphoblastoid transformation of human lymphocyte in vitro, Bioelectromagnetics 13 (1992) 247–257.

    Google Scholar 

  9. R.L. Davis and F.K. Mostofi, Cluster of testicular cancer in police officers exposed to hand held radar, Amer. J. Ind. Med. 24 (1993) 231–233.

    Google Scholar 

  10. Electromagnetic fields and the risk of cancer, Report of an advisory group on non-ionizing radiation, National Radiological Protection Board, Chilton, Didcot, Oxon, U.K. (1992).

  11. H.L. Friedman, Are chronic exposure to microwaves and polycythemia associated? New England J. Med. 304 (1981) 357–358.

    Google Scholar 

  12. D.R. Groothuis, J.M. Fischer, G. Lapin, D.D. Bigner and N.A. Vick, Permeability of different experimental brain tumour models to horseradish peroxidase, J. Neuropath. Exper. Neurol. 41 (1982) 164–185.

    Google Scholar 

  13. B. Knave, Electric and magnetic fields and health outcomes – an overview, Scand. J. Work Environ. & Health 20 (1994) 78–89.

    Google Scholar 

  14. L.L. Kunz, R.B. Johnson, D. Thomson, J. Crowley, C.-K. Chou and A.W. Guy, Evaluation of longevity, cause of death, and histopathological findings, Vol. 8 of Effects of Long-Term Low-Level Radiation Exposure on Rats, Report USAFSAM TR-85-11, USAF School of Aerospace Medicine, Brooks Air Force Base, TX (1985).

    Google Scholar 

  15. J.R. Lester and D.E. Moore, Cancer mortality and air force bases, J. Bioelectricity 1 (1982) 77–82.

    Google Scholar 

  16. C. Marino, Preliminary studies on biological effects of microwaves: ”in vivo” experimental models, in: Abstract Book Sixteenth Annual Meeting of Bio Electro Magnetic Society (The Bioelectromagnetic Society, Frederick, MD, 1994) p. 70.

    Google Scholar 

  17. L. Martens, J. Van Hese, D. De Zutter, C. De Wagter, L. Malmgren, B.R.R. Persson and L.G. Salford, Electromagnetic field calculations used for exposure experiments on small animals in TEM-cells, Bioelectrochem. and Bioenerg. 30 (1992) 313–318.

    Google Scholar 

  18. S. Milham, Mortality in workers exposed to electromagnetic fields, Environ. Health Perspect. 62 (1985) 297–300.

    Google Scholar 

  19. P. Polson and J.H. Merritt, Cancer mortality and air force bases: a reevaluation, J. Bioelectricity 4 (1985) 121–127.

    Google Scholar 

  20. C.D. Robinette, C. Silverman and S. Jablon, Effects upon health of occupational exposure to microwave radiation (radar), Amer. J. Epidemiol. 112 (1980) 39–53.

    Google Scholar 

  21. L.G. Salford and A. Brun, Xenotransplantation of human astrocytomas grade II–IV into the brain of normal and Cyclosporin A treated adult rats, in: Proc. Tenth International Congress of Neuropathology, Stockholm, Comm. 505 (1986) p. 251.

    Google Scholar 

  22. L.G. Salford, A. Brun, B.R.R. Persson and J. Eberhardt, Experimental studies of brain tumour development during exposure to continuous and pulsed 915 MHz radiofrequency radiation, Bioelectrochem. Bioenerget. 30 (1993) 313–318.

    Google Scholar 

  23. P. Siesjö, E. Visse, M. Lindvall, L.G. Salford and H.O. Sjögren, Immunization with mutagen treated tum-cells causes rejection of nonimmunogenic rat glioma, Cancer Immunol. and Immunother. 37 (1993) 67–74.

    Google Scholar 

  24. W. Stodolnik-Baranska, Lymphoblastoid transformation of lymphocytes in vitro after microwave irradiation, Nature 214 (1967) 102.

    Google Scholar 

  25. S. Szmigielski, A. Szudzinski, A. Pietraszek, M. Bielec, M. Janiak and J.K. Wrembel, Accelerated development of spontaneous and benzopyrene-induced skin cancer in mice exposed to 2450 MHz microwave radiation, Bioelectromagnetics 3 (1982) 179–191.

    Google Scholar 

  26. J. Van Hese, L. Martens, D. De Zutter, C. De Wagter, L. Malmgren, B.R.R. Persson and L.G. Salford, Simulation of the effect of inhomogenities in TEM transmission cells using the FDTD-method, IEEE Trans. Electromagn. Compat. 34(3) (1991) 292–298.

    Google Scholar 

  27. W. Wechsler, P. Kleihues, S. Matsumoto, K.I. Zülch, S. Ivankovic, R. Preussman and H. Druckrey, Pathology of experimental neurogenic tumors chemically induced during prenatal and postnatal life, Ann. New York Acad. Sci. 159 (1969) 360.

    Google Scholar 

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  1. Lund University, S‐221 85, Lund, Sweden

    Leif G. Salford, Arne Brun & Bertil R.R. Persson

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  1. Leif G. Salford
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  2. Arne Brun
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  3. Bertil R.R. Persson
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Salford, L.G., Brun, A. & Persson, B.R. Brain tumour development in rats exposed to electromagnetic fields used in wireless cellular communication. Wireless Networks 3, 463–469 (1997). https://doi.org/10.1023/A:1019102627678

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