Advanced search
Publication Cover
Journal of Bioelectricity Volume 4, 1985 - Issue 2
Journal homepage
17
Views
9
CrossRef citations to date
0
Altmetric
Original Article

Mechanisms and Physiologic Significance of Microwave Action on the Auditory System

Blake S. Wilson Neurosclence Program Office Research Triangle Institute Research Triangle Park, NC, 27709
&
William T. Joines Department of Electrical, Engineering Duke University Durham, NC, 27709
Pages 495-526 | Published online: 07 Jul 2009

References

  • Frey A. H. Auditory System Response to RF Energy. Aerospace Medicine 1961; 32: 1140–1142
  • Frey A. H. Human Auditory System Response to Modulated Electromagnetic Energy. J. Applied Physiol. 1962; 17: 689–692
  • Frey A. H. Some Effects on Human Subjects of Ultra-High-Frequency Radiation. Am. J. Med. Elect. 1963; 2: 28–31
  • Jones R. C., Stevens S. S., Lurie M. Three Mechanisms of Hearing by Electrical Stimulation. J. Acoustical Soc. of Am. 1940; 12: 281–290
  • Taylor E. M., Ashleman B. T. Analysis of the Central Nervous System Involvement in the Microwave Auditory Effect. Brain Res. 1974; 74: 201–208
  • Foster K. R., Finch E. D. Microwave Hearing: Evidence for Therraoacoustic Auditory Stimulation by Pulsed Microwaves. Science 1974; 185: 256–258
  • Borth D. E., Cain C. C. Theoretical Analysis of Acoustic Signal Generation in Materials Irradiated with Microwave Energy. IEEE Trans. Microwave Theory and Technology MTT 1977; 25: 944–954
  • Lin J. C. Microwave Auditory Effects and Applications. C.C. Thomas, Springfield, IL 1978
  • Joines W. T., Wilson B. S. Field-Induced Forces at Dielectric Interfaces as a Possible Mechanism of RF Hearing Effects. Bull. Math. Biol. 1981; 43: 401–413
  • Wilson B. S., Joines W. T., Casseday J. H., Kobler J. B. Responses in the Auditory Nerve to Pulsed, CW, and Sinusoidally-Modulated Microwave Radiation. Bioelectromagnetics 1980; 1: 237
  • Wilson B. S., Zook J. M., Joines W. T., Casseday J. H. 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. 1980; 187: 291–306
  • Wilson B. S., Kobler J. B., Casseday J. H., Joines W. T. Spectral Content of Microwave-Induced Auditory Stimuli as Demonstrated by [14c]-2-deoxy-D-glucose Uptake at the Inferior Colllculus. Bloelectromagnetlcs Abstracts 1983; 5: 46
  • Chou C. K., Galambos R., Guy A. W., Lovely R. H. Cochlear Microphonics Generated by Microwave Pulses. J. Microwave Power 1975; 10: 361–367
  • Chou C. K., Guy A. W., Galambos R. Characteristics of Microwave-Induced Cochlear Microphonics. Radio Science 1977; 12: 221–227
  • Chou C. K., Guy A. W., Galambos R. Auditory Perception of Radio-Frequency Electromagnetic Fields. J. Acoustical Soc. of Am. 1982; 71: 1321–134
  • Foster K. R., Wlederhold M. L. Auditory Responses in Cats Produced by Pulsed Ultrasound. J. Acoustical Soc. of Am., 63: 1199–1205; 2978
  • Frey A. H. Reply: Holographic Assessment of Microwave Hearing. Science 1980; 209: 1144–1145
  • Frey A. H., Coren E. Holographic Assessment of a Hypothesized Microwave Hearing Mechanism. Science 1979; 206: 232–234
  • Tyazhelov V. V., Tlgranian R. E., Khizhniak E. P., Akoev I. G. Some Peculiarities of Auditory Sensations Evoked by Pulsed Microwave Fields. Radio Science 1979; 14: 259–263
  • Gournay L. S. Conversion of Electromagnetic to Acoustic Energy by Surface Heating. J. Acoustical Soc. of Ara. 1966; 28: 1322–1330
  • Johnson C. C., Guy A. M. Nonionizing Electromagnetic Wave Effects in Biological Materials and Systems. Proc. IEEE 1972; 60: 672–718
  • Flanagan J. L. Models for Approximating Basilar Membrane Displacement. Bell Systems Technical Journal 1960; 39: 1163–1191
  • Coleman J. R., Campbell M., Clerici W. J. Observations on Tonotopic Organization within the Rat Inferior Colllculus Using 2-Deoxy-D[1-3H]-Glucose. Otolaryngology and Head and Neck Surgery 1982; 90: 795–800
  • Ryan A. F., Woolf N. K., Sharp F. R. Tonotopic Organization in the Central Auditory Pathway of the Mongolian Gerbil: A 2-Deoxyglucose Study. J. Comparative Neurology 1982; 207: 369–380
  • Serviere J., Webster W. R. A Combined Electrophysiological and [14C]2-Deoxyglucose Study of the Frequency Organization of the Inferior Colllculus of the Cat. Neuroscience Letters 1981; 27: 113–118
  • Webster W. R., Serviere J., Batini C., Laplante S. Autoradiographic Demonstration with 2-(14C)deoxy-glucose of Frequency Selectivity in the Auditory System of Cats under Conditions of Functional Activity. Neuroscience Letters 1978; 10: 43–48
  • Clopton B. M., Winfield J. A. Tonotopic Organization of the Inferior Colliculus of the Rat. Brain Research 1973; 56: 355–358
  • Kennedy C., DesRosiers M. H., Jehle J. W., Reivich M., Sharp F., Sokoloff L. Mapping of Functional Neural Pathways by Autoradiographic Survey of Local Metabolic Rate with [14C]-Deoxyglucose. Science 1975; 187: 850–853
  • Plum F., Gjedde A., Samson F. E. Neuroanatomical Functional Mapping by the Radioactive 2-Deoxy-D-glucose Method. Neuroscience Res. Prog. Bull. 1976; 14: 457–518
  • Sokoloff L., Reivich M., Kennedy C., DesRosiers M. H., Patlak C. S., Pettigrew K. D., Sakurada O., Shinohara M. The [14C]-deoxyglucose Method for the Measurement of Local Cerebral Glucose Utilization: Theory, Procedure and Normal Values in the Conscious and Anesthetized Albino Rat. J. Neurochemistry 1977; 28: 897–916
  • Schwartz W. J., Sharp F. R. Autoradiographic Maps of Regional Brain Glucose Consumption in Resting, Awake Rats Using [14C]-2-Deoxyglucose. J. Comparative Neurology 1978; 177: 335–360
  • Jones L. S., Disterhoft J. F. Visualizing the Rabbit Auditory Pathway with 14C 2-deoxy-D-glucose. Neuroscience Abstracts 1979; 5: 23
  • Sasaki C. T., Kauer J. S., Babitz L. Differential [14C]2-deoxy-glucose Uptake After Deafferentiation of the Mammalian Auditory Pathway – A Model for Examining Tinnitus. Brain Research 1980; 194: 511–516
  • Silverman M. S. Deoxyglucose Demonstration of a New Auditory Projection Field within the Inferior Colliculus. Neuroscience Abstracts 1979; 5: 30
  • Sharp F. R., Ryan A. F., Goodwin P., Woolf N. K. Increasing Intensities of Wide Band Noise Increase [C]-2-Deoxyglucose Uptake in Gerbil Central Auditory Structures. Brain Research 1981; 230: 87–96
  • Bekesy G. V. Experiments in Hearing, E.G. Wever. McGraw-Hill, New York 1960
  • Tonndorf J. Bone Conduction. Foundations of Modern Auditory Theory, J.V. Tobias. Academic Press, New York 1972; Volume 2: 197–237
  • Kiang N. Y. S., Watanabe T., Thomas E. C., Clark L. F. Discharge Patterns of Single Fibers in the Cat's Auditory Nerve. MIT Press, Cambridge, MA 1965, M.I.T. Res. Monogr. No. 35
  • Williston J. S., Jewett D. L. The Q10 of Auditory Brainstem Responses in Rats under Hypothermia. Audiology 1982; 21: 457–465
  • King N. W., Justesen D. R., Clarke R. L. Behavioral Sensitivity to Microwave Irradiation. Science 1971; 172: 398–401

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.