Abstract
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: One hundred and forty-seven adults (average age 76 ± 5.7 years) were evaluated. Pure-tone averages were ≥ 25 dB in 59%, mildly (> 40 dB) elevated in 23%, and moderately (> 55 dB) elevated in 6% of ears. Results: Air-conduction 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.
Acknowledgements
None.
Declaration of interest: The authors report no conflicts of interest and state that they alone are responsible for the content and writing of this article. Data from this study were presented at the XXXI World Congress of Audiology on May 3, 2012 in Moscow, and at the Coalition for Global Hearing Health Conference on May 30, 2012 in Pretoria, South Africa.