Distribution Characteristics of Air-Bone Gaps: Evidence of Bias in Manual Audiometry

Five databases were mined to examine distributions of air-bone gaps obtained by automated and manual audiometry. Differences in distribution characteristics were examined for evidence of influences unrelated to the audibility of test signals. The databases provided air- and bone-conduction threshold...

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Published in	Ear and hearing Vol. 37; no. 2; p. 177
Main Authors	Margolis, Robert H, Wilson, Richard H, Popelka, Gerald R, Eikelboom, Robert H, Swanepoel, De Wet, Saly, George L
Format	Journal Article
Language	English
Published	United States 01.03.2016
Subjects	Adult Aged Aged, 80 and over Audiometry, Pure-Tone - methods Bone Conduction Databases, Factual Female Hearing Loss, Conductive - diagnosis Hearing Loss, Mixed Conductive-Sensorineural - diagnosis Hearing Loss, Sensorineural - diagnosis Humans Male Middle Aged Young Adult
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Abstract	Five databases were mined to examine distributions of air-bone gaps obtained by automated and manual audiometry. Differences in distribution characteristics were examined for evidence of influences unrelated to the audibility of test signals. The databases provided air- and bone-conduction thresholds that permitted examination of air-bone gap distributions that were free of ceiling and floor effects. Cases with conductive hearing loss were eliminated based on air-bone gaps, tympanometry, and otoscopy, when available. The analysis is based on 2,378,921 threshold determinations from 721,831 subjects from five databases. Automated audiometry produced air-bone gaps that were normally distributed suggesting that air- and bone-conduction thresholds are normally distributed. Manual audiometry produced air-bone gaps that were not normally distributed and show evidence of biasing effects of assumptions of expected results. In one database, the form of the distributions showed evidence of inclusion of conductive hearing losses. Thresholds obtained by manual audiometry show tester bias effects from assumptions of the patient's hearing loss characteristics. Tester bias artificially reduces the variance of bone-conduction thresholds and the resulting air-bone gaps. Because the automated method is free of bias from assumptions of expected results, these distributions are hypothesized to reflect the true variability of air- and bone-conduction thresholds and the resulting air-bone gaps.
AbstractList	Five databases were mined to examine distributions of air-bone gaps obtained by automated and manual audiometry. Differences in distribution characteristics were examined for evidence of influences unrelated to the audibility of test signals. The databases provided air- and bone-conduction thresholds that permitted examination of air-bone gap distributions that were free of ceiling and floor effects. Cases with conductive hearing loss were eliminated based on air-bone gaps, tympanometry, and otoscopy, when available. The analysis is based on 2,378,921 threshold determinations from 721,831 subjects from five databases. Automated audiometry produced air-bone gaps that were normally distributed suggesting that air- and bone-conduction thresholds are normally distributed. Manual audiometry produced air-bone gaps that were not normally distributed and show evidence of biasing effects of assumptions of expected results. In one database, the form of the distributions showed evidence of inclusion of conductive hearing losses. Thresholds obtained by manual audiometry show tester bias effects from assumptions of the patient's hearing loss characteristics. Tester bias artificially reduces the variance of bone-conduction thresholds and the resulting air-bone gaps. Because the automated method is free of bias from assumptions of expected results, these distributions are hypothesized to reflect the true variability of air- and bone-conduction thresholds and the resulting air-bone gaps.
Author	Margolis, Robert H Eikelboom, Robert H Popelka, Gerald R Saly, George L Wilson, Richard H Swanepoel, De Wet
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Snippet	Five databases were mined to examine distributions of air-bone gaps obtained by automated and manual audiometry. Differences in distribution characteristics...
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SubjectTerms	Adult Aged Aged, 80 and over Audiometry, Pure-Tone - methods Bone Conduction Databases, Factual Female Hearing Loss, Conductive - diagnosis Hearing Loss, Mixed Conductive-Sensorineural - diagnosis Hearing Loss, Sensorineural - diagnosis Humans Male Middle Aged Young Adult
Title	Distribution Characteristics of Air-Bone Gaps: Evidence of Bias in Manual Audiometry
URI	https://www.ncbi.nlm.nih.gov/pubmed/26627469
Volume	37
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