Abstract

Objective: The objectives were to measure the occlusion effect produced by three earphones—circumaural, supra-aural, and insert—and to compare air- and bone-conduction thresholds obtained with manual and automated methods for subjects with sensorineural hearing loss. Design: Acoustic and psychoacoustic occlusion effects were measured with each earphone. Manual and automated, air- and bone-conduction thresholds were compared. Study sample: Occlusion effects were measured for six adult subjects with normal external and middle ears. Pure-tone thresholds were measured for nineteen ears of thirteen subjects with sensorineural hearing loss. Results: The supra-aural earphone produced the largest occlusion effects, followed by the insert and circumaural earphones. Some systematic differences in air-conduction thresholds were found for the two procedures that may be attributable to earphone differences. A large air-bone gap at 4 kHz, reported in a previous study, was replicated. Conclusions: From 0.5 to 8.0 kHz, occlusion effects produced by the circumaural earphone are sufficiently small that covering the ear does not appreciably alter bone-conduction thresholds. Air-conduction threshold differences warrant further study to determine if reference equivalent threshold sound pressure levels for the two earphones produce equivalent thresholds. The large air-bone gap at 4 kHz suggests the possibility of an incorrect reference equivalent threshold force level at that frequency.SumarioObjetivo: Los objetivos fueron medir el efecto de oclusión producido por tres auriculares – circumaural, supra-aural y de inserción – y comparar umbrales de conducción aérea y ósea obtenidos con métodos manuales y automatizados para sujetos con hipoacusia sensorineural. Diseño: Se midieron los efectos de oclusión acústicos y psicoacústicos con cada auricular. Se compararon los umbrales de conducción aérea y ósea manuales y automatizados. Muestra del Estudio: Se midieron los efectos de oclusión para seis sujetos adultos con oídos externos y medios normales. Resultados: Los auriculares supra-aurales produjeron los mayores efectos de oclusión, seguidos de los auriculares de inserción y los circumaurales. Se encontraron algunas diferencias sistemáticas en los umbrales de conducción aérea para los dos procedimientos que pueden atribuirse a las diferencias en los auriculares. Una gran brecha aéreo-ósea en 4 kHz que se reportó en un estudio previo, fue replicada. Conclusiones: De 0.5 a 8 kHz, los efectos de oclusión producidos por los auriculares circumaurales son lo suficientemente pequeños por lo que cubrir el cubrir el oído no altera apreciablemente los umbrales de conducción ósea. Las diferencias en los umbrales de conducción aérea exigen estudios adicionales para determinar si los niveles umbrales equivalentes de referencia de presión sonora para los dos auriculares producen umbrales equivalentes. La mayor brecha aéreo-ósea en 4 kHz sugiere la posibilidad de un nivel de referencia equivalente de fuerza umbral en esa frecuencia.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
False air-bone gaps at 4 kHz in listeners with normal hearing and sensorineural hearing loss
Robert H Margolis ... Brian C J Moore
International Journal of Audiology | VOL. 52
Robert H Margolis, et. al.Robert H Margolis ... Brian C J Moore
29 May 2013
Evaluation of Two Circumaural Earphones for Audiometry.
Clae C Smull ... Robert H Margolis
Ear & Hearing | VOL. 40
Clae C Smull, et. al.Clae C Smull ... Robert H Margolis
01 Jan 2019
Air conduction, bone conduction, and soft tissue conduction audiograms in normal hearing and simulated hearing losses.
Rachel Fraenkel ... Haim Sohmer
Journal of the American Academy of Audiology | VOL. 26
Rachel Fraenkel, et. al.Rachel Fraenkel ... Haim Sohmer
01 Jan 2015
Comparison of Thresholds Obtained With the Radioear B-71 and B-81 Bone-Conduction Transducers.
Aparna Rao ... Robert H Margolis
Ear & Hearing | VOL. 41
Aparna Rao, et. al.Aparna Rao ... Robert H Margolis
01 Nov 2020
View more papers

More From: International Journal of Audiology

Paper Title
Journal
Date
Author
“Can physical activity reduce the risk of having tinnitus?”
A Chalimourdas ... S Michiels
International Journal of Audiology | VOL. ahead-of-print
A Chalimourdas, et. al.A Chalimourdas ... S Michiels
14 Nov 2024
Risky leisure noise exposure during the transition to adulthood and the impact of major life events – results of the OHRKAN cohort study
Jonas Huß ... Stefanie Heinze
International Journal of Audiology | VOL. ahead-of-print
Jonas Huß, et. al.Jonas Huß ... Stefanie Heinze
13 Nov 2024
Applications of automatic speech recognition and text-to-speech technologies for hearing assessment: a scoping review
Mohsen Fatehifar ... Kevin J Munro
International Journal of Audiology | VOL. ahead-of-print
Mohsen Fatehifar, et. al.Mohsen Fatehifar ... Kevin J Munro
12 Nov 2024
Central auditory processing and cognitive abilities after mild traumatic brain injury in school-aged children
Fauve Duquette-Laplante ... Amineh Koravand
International Journal of Audiology | VOL. ahead-of-print
Fauve Duquette-Laplante, et. al.Fauve Duquette-Laplante ... Amineh Koravand
07 Nov 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.