View in EDS

Objective verification of audibility in bone conduction devices

Saved in:
Bibliographic Details
Title: Objective verification of audibility in bone conduction devices
Authors: Persson, Ann -Charlotte, Håkansson, Bo, 1953, Fredén Jansson, Karl-Johan, 1988, Reinfeldt, Sabine, 1978, Eeg-Olofsson, Mans
Source: International Journal of Audiology. 64(3):217-223
Subject Terms: skin microphone, objective verification, audibility, hearing rehabilitation, Bone conduction devices
Description: ObjectiveTo objectively measure audibility in patients wearing bone conduction devices (BCDs) with a new approach using a skin microphone at the patient's forehead.DesignThe skin microphone was attached by a softband and shielded by an earmuff. This set-up was confirmed not to be influenced by neither noise floor nor sound bypassing the BCD. Sound field warble tones were used for measuring aided hearing thresholds and maximum power output (MPO) whereas an international speech test signal (ISTS) was presented at different speech levels.Study sample29 patients were tested (two were bilateral), 19 used percutaneous, eight used active transcutaneous and two used passive transcutaneous devices.ResultsThe skin microphone responses at ISTS levels, hearing threshold and MPO, could be obtained in all patients. Two patients with poor audibility are highlighted in this article as examples. After adjusting the gain of the BCD, they were retested with the skin microphone (for verification) and with speech-in-noise tests (for validation). Both tests confirmed an improved audibility after the adjustments.ConclusionIn summary, the proposed measurement of audibility of speech using a skin microphone is a promising method that can be used in a clinical setting for all types of BCDs.
File Description: electronic
Access URL: https://research.chalmers.se/publication/540748
https://research.chalmers.se/publication/540748/file/540748_Fulltext.pdf
Database: SwePub
Description
Abstract:ObjectiveTo objectively measure audibility in patients wearing bone conduction devices (BCDs) with a new approach using a skin microphone at the patient's forehead.DesignThe skin microphone was attached by a softband and shielded by an earmuff. This set-up was confirmed not to be influenced by neither noise floor nor sound bypassing the BCD. Sound field warble tones were used for measuring aided hearing thresholds and maximum power output (MPO) whereas an international speech test signal (ISTS) was presented at different speech levels.Study sample29 patients were tested (two were bilateral), 19 used percutaneous, eight used active transcutaneous and two used passive transcutaneous devices.ResultsThe skin microphone responses at ISTS levels, hearing threshold and MPO, could be obtained in all patients. Two patients with poor audibility are highlighted in this article as examples. After adjusting the gain of the BCD, they were retested with the skin microphone (for verification) and with speech-in-noise tests (for validation). Both tests confirmed an improved audibility after the adjustments.ConclusionIn summary, the proposed measurement of audibility of speech using a skin microphone is a promising method that can be used in a clinical setting for all types of BCDs.
ISSN:14992027
17088186
DOI:10.1080/14992027.2024.2335511