Adaptive Recalibration of Chronic Auditory Gain

 

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ABSTRACT

This report follows up and extends an exploratory investigation of a hypothetical adaptive chronic gain (amplification of suprathreshold information) process within the auditory system. In theory, this hypothetical gain process is plastic and can be systematically modified and recalibrated. The idea of an adaptive auditory gain mechanism is a fundamental concept in the treatment of both tinnitus and hyperacusis with tinnitus retraining therapy (TRT). This notion, however, has gone virtually untested. The hypothesis of this research is that judgments of loudness provide a functional index of chronic auditory gain. Further, chronic auditory gain can be manipulated either upward or downward in a controlled way by prolonged reduction or enhancement in the levels of background sound to which a listener is exposed. To evaluate these assertions, 8 normal-hearing volunteers were assigned randomly to continuous (23 hours/day), chronic (4-week) external sound treatments. Participants were exposed either to low-level sound produced by bilateral in-the-ear noise generators (NGs) or were fitted bilaterally with sound-attenuating earplugs (EPs) in a sequential crossover design. Both treatments produced elevated audibility thresholds, mainly above 1000 Hz. The effects of each treatment type on loudness judgments were evaluated to test the following predictions: (1) The EPs would enhance the magnitude of perceived loudness and the resulting loudness growth functions would become steeper as a consequence of chronic sound attenuation (consistent with enhanced system gain in response to diminished peripheral sound input); whereas, (2) the NGs would reduce the magnitude of perceived loudness and the resulting loudness growth functions would become shallower (consistent with diminished system gain in response to the elevated background input). Results after 4 weeks of each treatment were consistent with the above predictions, providing support for a plastic, chronic auditory gain process, and the use of sound therapy (i.e., NGs) in TRT.

REFERENCES

• 1 Salvi R J, Henderson D, Fiorino F, Colletti V. Auditory System Plasticity and Regeneration. New York; Thieme 1996
  Search in Google Scholar
• 2 Formby C, Gold S L, Keaser M L, Block K L, Hawley M L. Secondary benefits from tinnitus retraining therapy: clinically significant increases in loudness discomfort level and expansion of the auditory dynamic range.  Semin Hear. 2007;  28 227-260
  Thieme ConnectPubMedSearch in Google Scholar
• 3 Hazell J WP, Sheldrake J B. Hyperacusis and tinnitus. In: Aran JM, Dauman R Fourth International Tinnitus Seminar. Amsterdam, The Netherlands; Kugler 1992: 249-253
  Search in Google Scholar
• 4 Jastreboff P J, Hazell J WP. A neurophysiological approach to tinnitus: clinical implications.  Br J Audiol. 1993;  27 7-17
  PubMedSearch in Google Scholar
• 5 Gold S L, Formby C, Gray W C. Celebrating a decade of evaluation and treatment: the University of Maryland Tinnitus & Hyperacusis Center.  Am J Audiol. 2000;  9 69-74
  CrossrefPubMedSearch in Google Scholar
• 6 Hazell J WP. Tinnitus masking therapy. In: Hazell JWP Tinnitus. London, UK; Churchill Livingston 1987: 96-117
• 7 Jastreboff P J. Phantom auditory perception (tinnitus): mechanisms of generation and perception.  Neurosci Res. 1990;  8 221-254
  CrossrefPubMedSearch in Google Scholar
• 8 Formby C, Gold S L. Modification of loudness discomfort level: evidence for adaptive chronic auditory gain and its clinical relevance.  Semin Hear. 2002;  23 21-36
  Thieme ConnectPubMedSearch in Google Scholar
• 9 Jastreboff P J, Jastreboff M M. Decreased sound tolerance. In: Snow, Jr., JB Tinnitus: Theory and Management. Hamilton, Canada; BC Decker 2004: 8-15
  Search in Google Scholar
• 10 Coles R RA. Tinnitus and its management. In: Stephens SDG, Kerr AG Scott-Brown's Otolaryngology. Guilford, United Kingdom; Butterworth 1987
  Search in Google Scholar
• 11 Formby C, Sherlock L P, Gold S L. An experimental study to test the concept of adaptive recalibration of chronic auditory gain: interim findings. In: Patuzzi, R Proceedings of the Seventh International Tinnitus Seminar. Crawley, Australia; University of Western Australia 2002: 165-169
  Search in Google Scholar
• 12 Formby C, Sherlock L P, Gold S L. Adaptive plasticity of loudness induced by chronic attenuation and enhancement of the acoustic background.  J Acoust Soc Am. 2003;  114 55-58
  CrossrefPubMedSearch in Google Scholar
• 13 Gold S L, Gray W C, Jastreboff P J. Selection and fitting of noise generators and hearing aids for tinnitus patients. In: Reich G, Vernon J Proceedings of the Fifth International Tinnitus Seminar. Portland, OR; American Tinnitus Association 1996: 312-314
  Search in Google Scholar
• 14 Cox R M, Alexander G C, Taylor I M, Gray C A. The contour test of loudness perception.  Ear Hear. 1997;  18 388-400
  CrossrefPubMedSearch in Google Scholar
• 15 Formby C, Sherlock L P, Gold S L, Frederick E, Palmer S. Intervention for restricted dynamic range and reduced sound tolerance. Presented at: IHCON, International Hearing Aid Research Conference August 2002 Lake Tahoe, CA;
  Search in Google Scholar
• 16 Hawley M L, Sherlock L P, Gold S L, Segar A, Gmitter C, Formby C. Intervention for restricted dynamic range and reduced sound tolerance: clinical trial update. Presented at: IHCON, International Hearing Aid Research Conference August 16-20, 2006 Lake Tahoe, CA;
  Search in Google Scholar

C. FormbyPh.D. 

Dept. of Communicative Disorders, University of Alabama

700 University Blvd., Rm 1451, Box 870242, Tuscaloosa, AL 35487-0242

Email: cformby@as.ua.edu