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.
ELECTROMAGNETISM & LIFE - 119