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.
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