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Alterations in activity at auditory nuclei of the rat induced by exposure to microwave radiation: autoradiographic evidence using [14C]2-deoxy-D-glucose.

Publication ,  Journal Article
Wilson, BS; Zook, JM; Joines, WT; Casseday, JH
Published in: Brain Res
April 14, 1980

Autoradiographic maps of brain activity in rats exposed to pulsed or continuous-wave (CW) microwave radiation were made using [14C]2-deoxy-D-glucose ([14C]2-DG). Special emphasis was given to measurements of activity in the auditory system because previous work had shown that pulsed microwave radiation can elicit auditory responses in man and other animals. In particular, one middle ear was ablated in nine rats to attenuate the transmission of air-borne sound to one cochlea. The resulting imbalance in auditory input for four animals not exposed to microwave radiation was reflected as a bilateral asymmetry of [14C]2-DG uptake at the inferior colliculus and medial geniculate body. In contrast, a symmetrical pattern of uptake at these structures in an animal exposed to pulsed microwave radiation showed that this stimulus bypasses the middle ear in eliciting auditory responses. This result established the utility of the [14C]2-DG method for demonstrating a known effect of microwave radiation on brain activity. The results also revealed responses at auditory nuclei in 4 animals exposed to CW microwave radiation. These responses, which have not been observed with other methods, were evident at the power densities of 2.5 and 10 mW/sq. cm. To exclude the possibility that CW microwave radiation produced this result by direct action on brain tissue, additional data were obtained from two rats with one cochlea destroyed. In both animals, the uptake of [14C]2-DG at the inferior colliculus and medial geniculate body was virtually identical to the uptake in animals not exposed to microwave radiation, i.e. greatest on the side of the brain contralateral to the intact cochlea. This finding, coupled with the finding of a bilateral symmetry of [14C]2-DG uptake in the auditory pathways of animals with one middle ear ablated, confirmed the hypothesis that auditory responses to CW microwave radiation originate within the cochlea. Effects on brain activity outside of the auditory system were not found in qualitative analyses of autoradiographs for the conditions of exposure to CW microwave radiation noted above or for exposure to pulsed microwave radiation at the average power density of 2.5 mW/sq. cm.

Duke Scholars

Published In

Brain Res

DOI

ISSN

0006-8993

Publication Date

April 14, 1980

Volume

187

Issue

2

Start / End Page

291 / 306

Location

Netherlands

Related Subject Headings

  • Rats
  • Neurology & Neurosurgery
  • Microwaves
  • Deoxyglucose
  • Deoxy Sugars
  • Carbon Radioisotopes
  • Brain
  • Biological Transport
  • Autoradiography
  • Auditory Pathways
 

Citation

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Wilson, B. S., Zook, J. M., Joines, W. T., & Casseday, J. H. (1980). Alterations in activity at auditory nuclei of the rat induced by exposure to microwave radiation: autoradiographic evidence using [14C]2-deoxy-D-glucose. Brain Res, 187(2), 291–306. https://doi.org/10.1016/0006-8993(80)90204-8
Wilson, B. S., J. M. Zook, W. T. Joines, and J. H. Casseday. “Alterations in activity at auditory nuclei of the rat induced by exposure to microwave radiation: autoradiographic evidence using [14C]2-deoxy-D-glucose.Brain Res 187, no. 2 (April 14, 1980): 291–306. https://doi.org/10.1016/0006-8993(80)90204-8.
Wilson, B. S., et al. “Alterations in activity at auditory nuclei of the rat induced by exposure to microwave radiation: autoradiographic evidence using [14C]2-deoxy-D-glucose.Brain Res, vol. 187, no. 2, Apr. 1980, pp. 291–306. Pubmed, doi:10.1016/0006-8993(80)90204-8.
Journal cover image

Published In

Brain Res

DOI

ISSN

0006-8993

Publication Date

April 14, 1980

Volume

187

Issue

2

Start / End Page

291 / 306

Location

Netherlands

Related Subject Headings

  • Rats
  • Neurology & Neurosurgery
  • Microwaves
  • Deoxyglucose
  • Deoxy Sugars
  • Carbon Radioisotopes
  • Brain
  • Biological Transport
  • Autoradiography
  • Auditory Pathways