1. Dumanskiy, Yu.D., and Tomashevskaya, L.A. 1978. Investigation of the activity of some enzymatic systems in response to a superhigh frequency electromagnetic field. JPRS 72606, p. 1.

2. Dumanskiy, Yu.D., Popovich, V.M., and Kozyarin, I.P. 1977. Effects of low frequency (50-Hz) Electromagnetic fields on the functional state of the human body. JPRS 71136, p. I.

3 . Chernysheva, O.N., and Kholodov, F.A. 1975. Effect of a variable magnetic field of industrial frequency (50-Hz) on metabolic processes in the organs of rats. JPRS L/5615, p. 33.

4. Udinstev, N.A., Kanskaya, N.V., Schepetilnikova, A.I., Odina, O.M., and Pichurina, R.A. 1976. Dynamics of lactate dehydrogenase activity in skeletal muscle and myocardium following single exposure to alternating magnetic fields. JPRS L/67912 p. 19.

5 . Sazonova, T.E. 1964. Effect of a low-frequency electromagnetic field on the work capacity of the motor apparatus. Master's Dissertation, Leningrad University.

6. Mathewson, N.S., Oosta, G.M., Oliva, S.A., Levin, S.C., and Diamond, S.S. 1979. Influence of 45-Hz electric fields on growth, food and water consumption and blood constituents of rats. Radiat. Res. 79:468.

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

8 .Mathewson, N.S., Oliva, S.A., Oosta, G.M., and Blasco, A.P. 1977. Extremely low frequency (ELF) vertical electric field exposure of rats: Irradiation Facility, AD A045080, Technical note TN77-7. Bethesda, Md.: Armed Forces Radiobiology Research Institute.

9. Mathewson, N.S., Oosta, G.M., Levin, S.G., Ekstrom, M.E., and Diamond, S.S. 1977. Extremely low frequency (ELF) vertical electric field exposure of rats: a search for growth, food consumption and blood metabolite alterations. Bethesda, Md.: Armed Forces Radiobiology Research Institute.

10. Sivorinovskiy, G.A. 1973. The biological action of ultrasound and super high frequency electromagnetic fields in the three-centimeter range. JPRS 6246, p. 32.

11. Riesen, W., Aranyi, C., Kyle J., Valentino, A., and Miller, D. 1971. A pilot study of the interaction of extremely low frequency electromagnetic fields with brain organelles. AD 748119. Chicago, Ill.: IIT Research Institute.

12. Dumanskiy, Yu.D., and Rudichenko, V.F. 1976. Dependence of the functional activity of liver mitochondria on microwave radiation. JPRS 72606, p. 27.

13. Zalyubovskaya, N.P., Kiselev, R.I., and Turchaninova, L.N. 1977. Effects of electromagnetic waves of the millimetric range on the energy metabolism of liver mitochondria. JPRS 70101, p. 51.

14. Kholodov, F.A., and Yevtushenko, H.I. 1973. The effects of low frequency electromagnetic field pulses on skeletal muscle metabolism. JPRS 62462, p. 6.

15. Shandala, M.G., and Nozdrachev, S.I. 1976. Effect of different SHF energy levels on the functional state of the body. JPRS L/72 98, p. 17.

16. Demokidova, N.K. 1973. The biological effects of continuous and intermittent microwave radiation. JPRS 63 3 21, p. 1113 .

17. Miro, L., Loubiere, R., and Pfister, A. 1974. Effects of microwaves on the cell metabolism of the reticulo-histocytic system. In Biological effects and health hands of microwave radiation, p. 89. Warsaw: Polish Medical Publishers.

18. Beischer, D.E., Grissett, J.D., Mitchell, R.E. 1973. Exposure of man to magnetic fields alternating at extremely low frequency, AD 770140, NAMRL-1180. Pensacola, Fla.: Naval Aerospace Medical Research Laboratory.

19. Pautrizel, R., Priore, A., Dallochio, M., and Crockett, R. 1972. Influence of electromagnetic waves and magnetic fields on the lipid modifications induced in the rabbit by feeding a hypercholesteremic diet. C.R. Acad. Sci. (Paris) (D) 274:488.

20. de la Warr, G.W., and Baker, D. 1967. Biomagnetism: preliminary studies of the effect of magnetic fields on living tissue and organs in the human body. Oxford: De la Warr Laboratories.

21. Minayev, V.V., Zhdanovich, N.U., Udalov, Yu.F., and Bazilevich, O.I. 1975. Effects of SHF fields on enzymatic activity and pyridoxine levels in the organs of white rats. JPRS 655112, p. 77.

22. Gabovich, R.D., Minkh, A.A., and Mikhalyuk, I.A. 1975. Effects of superhigh frequency fields of different intensities on the levels of copper, manganese, molybdenum and nickel in experimental animals. JPRS 65512, p. 33.

23. Kozyarin, I.P., Yukhalyuk, I.A., and Fesenko, L.D. 1977. Influence of an electric field of commercial frequency on the levels of copper, molybdenum and iron in experimental animals. JPRS 70101, p. 6.

24. Gabovich, R.D., Kozyarin, I.P, Mikhalyuk, I.A., and Fesenko, L.D. 1978. Copper, molybdenum, iron and manganese metabolism in rat tissues in response to a 50-Hz electric field. JPRS 71136, p. 31.

25. Andrienko, L.G., Dumanskiy, Yu.D., Rouditchenko, V.F., and Meliechko, G.I. 1977. The influence of an electric field of industrial frequency on spermatogenesis. Vrach. Delo. 18:116.

26. Udinstev, N.A., and Khlynin, S.M. 1977. Effects of an intermittent magnetic field on enzymatic activity, carbohydrate metabolism, and oxygen uptake in testicular tissue. JPRS 72606, p. 8.

27. Ostrovskaya, I.S., Yashina, L.N., and Yevtushenko, G.l. 1974. Changes in the testes of animals due to a low-frequency pulsed electromagnetic field. JPRS 66512, p. 51.

28. Andrienko, L.G. Experimental study of the effects of industrial frequency electromagnetic fields on reproductive function. JPRS 70101, p. 1.

29. Tarakhovskiy, M.L., Samborska, Ye.P., Medvedev, B.M., Zadorozhna, T.D., Okhronchuk, B.V., and Likhtenshteyn, E.M. 1971. Effect of constant and variable magnetic fields on metabolic processes in white rats. JPRS 62865, p. 37.

30. Ilchevich, N.V., Gorodetskaya, S.F. 1975. Effect of chronic application of electromagnetic fields on the function and morphology of the reproductive organs of animals. JPRS L/5615 p. 5.

31. Markov, V.V. 1973. The effects of continuous and intermittent microwave radiation on weight and arterial-pressure dynamics of animals. JPRS 66321, p. 95.

32. Noval, J.J., Sohler, A., Reisberg, R.B., Coyne, H., Straub, K.D., and McKinney, H. 1977. Extremely low frequency electric field induced changes in rate of growth and brain and liver enzymes of rats. In Compilation of Navy sponsored ELF biomedical and ecological research reports, vol. 3, AD A035955. Bethesda, Md.: Naval Medical Research and Development Command.

33. Giarola, A.J., and Krueger, W.F. 1974. Continuous exposure of chicks and to electromagnetic fields, IEEE Trans. Microwave Theory Tech. MTT 22:432.

34. Marino, A.A., Becker, R.O. and Ullrich, B. 1976. The effect of continuous exposure to low frequency electric fields on three generation of mice: 1 pilot study. Experientia 32: 565.

35. Grissett, J.D., Kupper, J.L., Kessler, M.J., Brown, R.J. Prettyman, G.D., Cook L.L., and Griner, T.A. 1977. Exposure of primates for one year to electric and magnetic fields associated with ELF communications systems, NAMRL-1240. Pensacola, Fla.: Naval Aerospace Medical Research Laboratory.

36. Batkin, S., and Tabrah, F.L. 1977. Effects of alternating magnetic field (12 gauss) on transplanted neuroblastoma. Res. Comm. Chem. Path Pharm. 16:351.

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

38. Marino, A.A., Cullen, J.M., Reichmanis, M., and Becker, R.0. 1979. Power frequency electric fields and biological stress: a cause-and-effect relationship. In Biological effects of extremely low frequency electromagnetic fields, p. 258. Washington, D.C.: U.S. Dept. of Energy.

39. Phillips, R.D. 1980. Biological effects of electric fields on small laboratory animals. Presented at the Review of Research in Biological Effects from Electric Fields From High Voltage Transmission Lines, 18-19 November 1980, U.S. Dept. of Energy, Washington D.C.

40. Shaposhnikov, Yu.G., Yaresko, I.F., and Vernigora, Yu.V. 1975. Histological investigation of regeneration of wounds in animals exposed to the long-term action of low-intensity microwaves. JPRS L/561 5, p. 29.

41. Kapustin, A.A., Rudnev, M.I., Leonskaya, G.I., and Konobeyeva, G.I. 1976. Cytogenetic effect of a variable electromagnetic field in the superhigh frequency range. JPRS L/6791, p. 11.

42. Baranski, S. 1972 . Effects of microwaves on the reactions of the white blood system. Acta Physiol. Pol. 23:685.

43. Marino, A.A., Berger, T.J., Mitchell, J.T., Duhacek, B.A., and Becker, R.0. 1974. Electric field effects in selected biologic systems. Ann. N.Y. Acad. Sci. 238:43336.

44. Mitchell, J.T., Marino, A.A., Berger, T.J., and Becker, R.0. 1978. Effect of electrostatic fields on the chromosomes of Ehrlich ascites tumor cells exposed in vivo. Physiol. Chem. Phys. 10:79.

45. Manikowska, E., Luciani, J.M., Servantie, B., Czerski, P., Obrenovitch, J., and Stahl, A. 1979. Effects of 9.4 GHz microwave exposure on meiosis in mice. Experientia 35:388.

46. Yao, K.T.S., and Jiles, M.M. 1970. Effects of 2450 MHz microwave radiation on cultivated rat kangaroo cells. In Biological effects and health implications of microwave radiation, PB193898. Washington D.C.: U.S. Dept. of HEW.

47. Mickey, G.H., Heller, J.H., and Snyder, E. 1974. Non-thermal hazards of exposures to radio-frequency fields, ADA019359. Ridgefield, Conn.: The New England Institute.

48. Rossner, P., and Matejka, M. 1977. Potential genetic risks from stationary magnetic fields. J. Hyg. Epidemiol. Microbiol. Immunol. (Praha) 21:465.

49. Baranski, S., Czerski, P., and Szrnigielski, S. 1969. Microwave effects on mitosis in vivo and in vitro. Genetica Polonica 10: No. 3-4.

50. Heller, J.H. 1970. Cellular effects of microwave radiation. In Biological effects and health implications of microwave radiation, PB193898. Washington D.C.: U.S. Dept. of HEW.

51. Harte, C. 1975. Mutagenesis by radiowaves in Antirrhinum majus L. Mutation Res. 29:71.

52. McElhaney, J.H., Stalnaker, R., and Bullard, R. 1968. Electric fields and bone loss of disuse. J. Biomechanics 1:47.

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

54. Phillips, R.D., Anderson, L.B., and Kaune, W.T. 1979. Biological effects of high strength electric fields on small laboratory animals, DOE/TIC-10084. Washington D.C.: U.S. Dept. Energy.

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

56. Schwan, H. 1980. Testimony on behalf of Home Box Office, Inc., in the matter of the application of Home Box Office to construct a satellite receiving station for microwaves, Rockaway Township Board of Adjustment, Rockaway, N.J., July 1980.

57. Justesen, D. 1980. Testimony on behalf of American International Communications of Syracuse, Inc., in the matter of the construction of a television broadcast tower by American International Communications, Inc., Town Board of Onondaga, N.Y., Aug, 1980.

58. Miller, M. 1980. Testimony on behalf of the Philadelphia Electric Co. (in the matter of the construction of a high-voltage transmission line), Albert T. Goadby vs Philadelphia Electric, Civil Action No. 80-2759, U.S. District Court for the Eastern District of Pennsylvania, Oct. 1980.

59. Michaelson, S. 1975. Testimony on behalf of Rockland Utilities Co., in the matter of Rockland Utilities Co. to construct a microwave transmitting antenna, Board of Public Utility Commissioners, Newark, N.J., May 1975.

60. Carstensen, E.L. 1977. Testimony on behalf of the Appalachian Power Co. (in the matter of the construction of a high-voltage transmission line), Public Service Commission of West Virginia. Aug. 1977.

Chapter 8 Index