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RECORD NUMBER: 449 OF 2885

OLS Field Name OLS Field Data
Main Title Calcium Ion Efflux Induction in Brain Tissue by Radio-Frequency Radiation.
Author Blackman, C. F. ; Joines, W. T. ; Elder, J. A. ;
CORP Author Health Effects Research Lab., Research Triangle Park, NC. Experimental Biology Div.;Experimental Biology Div.
Year Published 1981
Report Number EPA-600/S-80-082;
Stock Number PB82-128588
Additional Subjects Radiation effects ; Brain ; Calcium ; Induction ; Tissues(Biology) ; Physiological effects ; Reprints ; Nonionizing radiation ; Biological effects
Holdings
Library Call Number Additional Info Location Last
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Status
NTIS  PB82-128588 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 06/23/1988
Collation 18p
Abstract
One of the most interesting and controversial papers on the biological effects of nonionizing radiation was published by Bawin, Kaczmarek and Adey in 1975. They found a 147 MHz carrier wave could elicit and enhance efflux of calcium ions from chick brain tissue only when amplitude modulated at certain sub-ELF frequencies. In addition to being one of the few U. S. reports at that time which described a biological response to an exposure at a power below 10 mW/cm. sq., the results demonstrated a modulation frequency-specific response with a maximum effect at 16 Hz. This response was particularly significant because the effective modulating frequencies were within the range of frequencies found in the electroencephalogram (EEG) of the intact animal. An important feature of the research was the relatively simple biological procedure: halves of chick brains were labeled with a radioisotope (45Ca++), exposed to RF fields for a short time, and the amount of 45Ca++ released into the medium during irradiation was measured. In 1979, the authors reported their success in replicating the essential characteristics of the frequency response curve. However, success was achieved only after exploring a range of power densities at 147 MHz carrier frequency, 16 Hz amplitude modulation. The result demonstrated the existence of a power density window at 0.83 mW/cm. sq. in that no enhanced calcium efflux was found at either higher or lower power densities. Subsequent to this work, we examined the effect of 9 Hz modulation on the power density response and found that the location of the window was unchanged.