Hearing protection: Surpassing the limits to attenuation imposed by the bone-conduction pathways

Berger, Elliott H.; Kieper, Ronald W.; Gauger, Dan

doi:10.1121/1.1605415

Cited by 80 publications

(67 citation statements)

References 10 publications

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“…We evaluated the performance of an audiometer employing passive attenuation using insert earphones covered by circumaural earcups coupled with real-time monitoring of environmental noise for air-conduction and boneconduction threshold measurement in a natural environment. Double transducer attenuation using insert foam plugs and circumaural earcups produces a significant increase in ambient noise attenuation that may actually exceed typical attenuation for transportable sound booths (Berger, Kieper & Gauger, 2003;Franks, 2001). Results of the current study confirmed statistically and clinically equivalent hearing thresholds as measured in a natural environment versus a sound-treated booth.…”

Section: Discussionmentioning

confidence: 99%

“…Active noise monitoring provides a measure of quality control. Furthermore, the system can be set to monitor noise levels according to the average attenuation provided by the test setup in a typical group of subjects as opposed to double attenuation values previously reported (Berger, Kieper & Gauger, 2003). By employing these attenuation levels, the software can be programmed to monitor ambient noise levels across octave or interactive levels, according to standards for audiometric test environments (e.g.…”

Section: Discussionmentioning

confidence: 99%

“…Forehead placement bone-conduction audiometry was conducted with both ears occluded by the deep insertion of the earphones. Placement of the insert earphones was deep with the foam tip inserted completely into the canal to improve the attenuation of ambient noise (Berger & Killion, 1989;Berger, 1983;Berger, Kieper & Gauger 2003) and to minimize the occlusion effect. Placing insert earphones down to the bony part of the ear canal reduces the occlusion effect allowing for bone-conduction evaluation with occluded ears (Dean & Martin, 2000;Stenfelt & Goode, 2005;Swanepoel & Biagio, 2011).…”

Section: Methodsmentioning

confidence: 99%

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Validity of diagnostic pure-tone audiometry without a sound-treated environment in older adults

Maclennan-Smith

Swanepoel

Hall

2012

International Journal of Audiology

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Objective: To investigate the validity of diagnostic pure-tone audiometry in a natural environment using a computer-operated audiometer with insert earphones covered by circumaural earcups incorporating real-time monitoring of environmental noise. Design: A within-subject repeated measures design was employed to compare air (250 to 8000 Hz) and bone (250 to 4000 Hz) conduction pure-tone thresholds measured in retirement facilities with thresholds measured in a sound-treated booth. Study sample: 147 adults (average age 76 ± 5.7 years) were evaluated. Pure-tone averages were normal in 59%, mildly (>40 dB) elevated in 23% and moderately (>55 dB) elevated in 6% of ears. Results: Air-conduction Validity of diagnostic pure tone audiometry without a sound-treated…/ 2 thresholds (n=2259) corresponded within 0 to 5 dB in 95% of all comparisons between the two test environments. Bone-conduction thresholds (n=1669) corresponded within 0 to 5 dB in 86% of comparisons. Average threshold differences (-0.6 to 1.1) and standard deviations (3.3 to 5.9) were within typical test-retest reliability limits. Thresholds recorded showed no statistically significant differences (Paired Samples T-test:p˃0.01) except at 8000 Hz in the left ear. Conclusion: Valid diagnostic pure-tone audiometry can be performed in a natural environment with recently developed technology, offering the possibility of access to diagnostic audiometry in communities where sound-treated booths are unavailable.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Validity of diagnostic pure-tone audiometry without a sound-treated environment in older adults

Maclennan-Smith

Swanepoel

Hall

2012

International Journal of Audiology

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“…At and above 2 kHz there is almost no change in attenuation as a function of insertion depth until the fit becomes so poor that depth of insertion is none at all. Except for the NI fitting, the attenuation at and above 2 kHz approaches and is limited by the flanking bone-conduction (BC) pathways to the inner ear (Berger et al, 2003) and thus varies little as insertion depth is increased. A feature of particular interest is the dip in attenuation at 2 kHz for the SI and DI fittings.…”

Section: Resultsmentioning

confidence: 99%

'Calibrating' the insertion depth of roll-down foam earplugs

Berger

2013

Proceedings of Meetings on Acoustics

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“…One of the advantages of the dual system is that it enables the listener to communicate with the least intrusion from background noise, resulting in better communication. [10] In [11] These organizations sometimes face situations during which, if the rescue and military personnel hear a signal but misinterpret it, they could convey the wrong message to a partner and face capture or even death from their enemy. [8] The purpose of the present study is to find the most sensitive placement of the skull in order to perceive speech through the bone vibrator in various protection methods while being exposed to noise.…”

Section: Introductionmentioning

confidence: 99%

Effects of Hearing Protection Methods and Noise Directions on Bone-Conduction Sensitivity

Han¹

2013

THE JOURNAL OF THE ACOUSTICAL SOCIETY OF KOREA

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The present study aimed to find the most sensitive placement of the skull to perceive speech through the bone vibrator in various protection methods while being exposed to noise. Twenty young normal-hearing adults (10 male and 10 female) participated in the study. As stimulus, Korean spondee words were presented via one of five skull locations (i.e., jaw angle, condyle, temple, mastoid, and vertex), while the participants wore one of four protection methods (i.e., ear form, ear plug, ear muff, and ear form and muff together) against white noise in one of four noise directions (i.e., 0, 90, 180, 270 degrees). The results showed: 1) there was a significant difference among the five skull locations with condyle being the most sensitive placement; 2) there was a significant difference among the four protection methods, with the ear form plus ear muff condition (or dual protection) providing the lowest threshold; 3) when exposed to noise from 90 degrees, the significantly lowest threshold was found; 4) there was no significant difference in results by gender. The pattern of results suggests that the communicative condition via the condyle bone conduction and the dual protection of the air conduction under any noise direction might be ideal for preventing noise-induced hearing loss, although further studies should be undertaken in this area.

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Hearing protection: Surpassing the limits to attenuation imposed by the bone-conduction pathways

Cited by 80 publications

References 10 publications

Validity of diagnostic pure-tone audiometry without a sound-treated environment in older adults

Validity of diagnostic pure-tone audiometry without a sound-treated environment in older adults

'Calibrating' the insertion depth of roll-down foam earplugs

Effects of Hearing Protection Methods and Noise Directions on Bone-Conduction Sensitivity

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