Use of Wideband Acoustic Immittance in Neonates and Infants

AlMakadma, Hammam; Aithal, Sreedevi; Aithal, Venkatesh; Kei, Joseph

doi:10.1055/s-0043-1764200

Semin Hear

2023

DOI: 10.1055/s-0043-1764200

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Use of Wideband Acoustic Immittance in Neonates and Infants

Hammam AlMakadma

Sreedevi Aithal

Venkatesh Aithal

et al.

Abstract: With widespread agreement on the importance of early identification of hearing loss, universal newborn hearing screening (UNHS) has become the standard of care in several countries. Despite advancements in screening technology, UNHS and early hearing detection and intervention programs continue to be burdened by high referral rates of false-positive cases due to temporary obstruction of sound in the outer/middle ear at birth. A sensitive adjunct test of middle ear at the time of screening would aid in the inte… Show more

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Cited by 2 publications

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An Absorbance Peak Template for Clinical Assessment of Sound Conduction in Newborn Ears

AlMakadma,

Reed,

Sanford

2023

J Speech Lang Hear Res

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Purpose: Power absorbance measures recorded over a wide range of frequencies allow for clinical inferences about the outer/middle ears' acoustic mechanics. A frequency-dependent feature in the newborn wideband absorbance response, the prominent mid-frequency absorbance peak, has been linked to middle-ear resonance. However, current normative methods were not designed to assess subtle changes in such features. This work aims to develop and validate an absorbance peak template (APT) for assessment of absorbance peaks in newborns. Additional objectives are to compare test performance of absorbance peaks and APTs to existing normative methods, to demonstrate APT-based methods for categorization of abnormal absorbance peaks, and to describe absorbance peak test–retest variability. Method: Peak absorbance and peak frequency were analyzed in a training data set (490 measurements in 84 newborn ears who passed transient evoked otoacoustic emissions [TEOAEs] screenings), and an APT was developed by computing normal limits on these two absorbance peak variables. Split-set analysis evaluated the reproducibility of APT, and test–retest analysis was performed. Test performance analysis, conveyed by area under the receiver operating characteristic curve (AROC) and 95% confidence intervals (CIs), compared absorbance peak variables to absorbance area indices (AAIs) in a validation data set (359 ears that passed distortion-product OAE [DPOAE] screening and 64 ears that failed). APT-based assessment paradigms for normal and abnormal ears were compared to the common absorbance normative range paradigm. Results: Split-set analysis demonstrated a good reproducibility of APT, and test–retest of absorbance peak variables showed that they were stable measures for clinical assessment. Test performance of peak absorbance (AROC = 0.83; 95% CI [0.77, 0.88]) was comparable to the top-performing AAI variables (AROC = 0.85; 95% CI [0.80, 0.90]). APT-based assessment categorized measurements based on their peak absorbance and peak frequency and enhanced the detection of subtle frequency changes that were missed by the normative range method. Conclusion: Analysis of absorbance peaks guided by APT has the potential to simplify and improve assessments of sound conduction pathways in newborn ears and can be used together with or in-place of current methods for analysis of wideband absorbance data.

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An Absorbance Peak Template for Clinical Assessment of Sound Conduction in Newborn Ears

AlMakadma,

Reed,

Sanford

2023

J Speech Lang Hear Res

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Predictive Accuracy of Wideband Absorbance under Various Pressure Conditions in Identifying Infants with a Conductive Hearing Loss

Aithal,

Kei

et al. 2024

J Am Acad Audiol

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Objective The objectives of the study were to (i) evaluate the effectiveness of wideband absorbance (WBA) at ambient pressure (WBAamb), tympanic peak pressure (WBATPP), and 0 daPa (WBA0) to identify conductive hearing loss (CHL) in infants and (ii) compare the sensitivity and specificity of the three WBA tests with that of high-frequency tympanometry (HFT) and transient-evoked otoacoustic emissions (TEOAE). Method A total of 31 ears with hearing thresholds no greater than 20 dB HL (reference group from 20 infants [mean age: 3.1 weeks]) and 47 ears with CHL from 31 infants (mean age: 3.4 weeks) were included in the study. Hearing threshold was determined using air-conduction tone-burst auditory brainstem response (TB-ABR) test, whereas CHL was determined using both air- and bone-conduction TB-ABR tests. HFT with a 1000-Hz probe tone, TEOAE, and WBA tests were conducted on all participants. Results WBAamb, WBATPP, and WBA0 of the CHL group were significantly lower than that of the reference group across a wide frequency range. Area under the receiver operating characteristic (AROC) curve for detecting CHL varied from 0.51 to 0.9 depending on the frequency. The highest AROC was obtained at 1.25 kHz for WBAamb (0.79), at 1.5 kHz for WBATPP (0.9) and at 1 kHz for WBA0 (0.80). The sensitivity and specificity were 0.98 and 0.45, respectively for HFT, and 1.0 and 0.6, respectively for TEOAE. In comparison, the WBA test had slightly lower sensitivity but higher specificity than the HFT and TEOAE tests. Conclusion WBATPP at 1.5 kHz can identify CHL in infants as good as, if not more accurately than, WBAamb or WBA0. WBATPP test had good balance of high sensitivity and specificity compared with HFT and TEOAE. The three WBA tests are useful tools for identifying CHL in infants under 6 weeks of age.

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Use of Wideband Acoustic Immittance in Neonates and Infants

Cited by 2 publications

References 68 publications

An Absorbance Peak Template for Clinical Assessment of Sound Conduction in Newborn Ears

An Absorbance Peak Template for Clinical Assessment of Sound Conduction in Newborn Ears

Predictive Accuracy of Wideband Absorbance under Various Pressure Conditions in Identifying Infants with a Conductive Hearing Loss

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