G D Searchfield1, K Kobayashi2, K Proudfoot2, H Tevoitdale2, S Irving2. 1. Audiology Section, The University of Auckland, Private Bag 92019, Auckland 92019, New Zealand. Electronic address: g.searchfield@auckland.ac.nz. 2. Audiology Section, The University of Auckland, Private Bag 92019, Auckland 92019, New Zealand.
Abstract
BACKGROUND: A software-based method for assessing and tinnitus in three-dimensional (3D) 'virtual' auditory space is described and tested. NEW METHOD: Phase I was a proof-of-concept evaluation of tinnitus localization in the horizontal plane in 19 participants. Phase II assessed the reliability of software developed from phase I findings in 34 participants. The software used interaural timing and level differences and an average Head Related Transfer Function (HRTF) to match tinnitus in the horizontal and vertical plane. The reliability of the localization method was assessed across two sessions at least 1 week apart and compared to the test-retest repeatability of pitch and loudness matching using both the new assessment software and a traditional audiometer-based method. The validity of the method was compared to participants' verbal self-reports of tinnitus and their handwritten markings of tinnitus position on an image of a head. RESULTS: Participants could localize sound to a position in or around the head that was a good match to their self-report of location. COMPARISON WITH EXISTING METHOD(S): The method showed test-retest reliability (intraclass correlation: azimuth 0.78; elevation 0.37) comparable to matching other tinnitus attributes (intraclass correlation: pitch 0.73; loudness 0.48). CONCLUSIONS: Tinnitus has a spatial attribute that can be more precisely described than "at the ear(s)" or "in the head". The method has important ramifications for the assessment and management of tinnitus that make use of the spatial representation of sound.
BACKGROUND: A software-based method for assessing and tinnitus in three-dimensional (3D) 'virtual' auditory space is described and tested. NEW METHOD: Phase I was a proof-of-concept evaluation of tinnitus localization in the horizontal plane in 19 participants. Phase II assessed the reliability of software developed from phase I findings in 34 participants. The software used interaural timing and level differences and an average Head Related Transfer Function (HRTF) to match tinnitus in the horizontal and vertical plane. The reliability of the localization method was assessed across two sessions at least 1 week apart and compared to the test-retest repeatability of pitch and loudness matching using both the new assessment software and a traditional audiometer-based method. The validity of the method was compared to participants' verbal self-reports of tinnitus and their handwritten markings of tinnitus position on an image of a head. RESULTS:Participants could localize sound to a position in or around the head that was a good match to their self-report of location. COMPARISON WITH EXISTING METHOD(S): The method showed test-retest reliability (intraclass correlation: azimuth 0.78; elevation 0.37) comparable to matching other tinnitus attributes (intraclass correlation: pitch 0.73; loudness 0.48). CONCLUSIONS:Tinnitus has a spatial attribute that can be more precisely described than "at the ear(s)" or "in the head". The method has important ramifications for the assessment and management of tinnitus that make use of the spatial representation of sound.
Authors: P Neff; J Simões; S Psatha; A Nyamaa; B Boecking; L Rausch; J Dettling-Papargyris; C Funk; P Brueggemann; B Mazurek Journal: Sci Rep Date: 2021-01-26 Impact factor: 4.379