Immittance in infants 0–12 months: Measurements using a 1000 Hz probe tone

Van Rooyen, Sonia

29 October 2007

Rapid implementation of universal newborn hearing screening programs has exposed a need for a reliable test of middle ear function for timely identification of middle ear pathology and for differentiation between true sensorineural and conductive hearing losses. Use of higher probe tone frequencies for the assessment of immitance measures have proven to be more reliable and accurate in identifying MEE in infants. However a lack of classification-guidelines and age specific normative data exists. This study investigated the characteristics and normative values of high frequency tympanometric and acoustic reflex results for infants (n = 936 ears). Participants were 510 infants (262 male, 248 female) aged 0 – 12 months (mean age = 12.8 weeks) recruited from primary health care and immunization clinics in a South African community. A three-part procedure was performed on each test ear: 1) OAEs were recorded and pass results served as control variable for normal middle ear functioning; 2) 1000 Hz probe tone admittance, susceptance and conductance tympanograms were recorded and analysed in terms of shape, tympanometric peak pressure and maximum (peak) admittance; 3) 1000 Hz probe tone acoustic reflexes, measured with a 1000 Hz ipsilateral stimulus, were recorded and thresholds determined. Significant associations were observed between tympanogram shape, and OAE pass or fail results. 93% of ears with an OAE pass result displayed peaked tympanograms, while 79% of ears with absent OAE’s displayed flat tympanograms. Single peaked tympanograms were recorded in 782 ears (84%), double peaked tympanograms in 41 (4%) ears and flat sloping tympanograms in 112 (12%) ears. Admittance (Ya) tympanograms for the total sample displayed a mean admittance value of 2.9 mmho, with a standard deviation of 1.1 mmho. The 90th percent range was determined at 1.5 mmho (5th percentile) to 4.9 mmho (95th percentile). Mean tympanometric peak pressure in Ya tympanograms was 0.1 daPa, with a standard deviation of 61 daPa. The 90th percent range was -110 daPa to 90 daPa for the 5th and 95th percentiles respectively. Gender specific norms indicated a higher admittance for male ears. Age specific norms indicate a gradual increase in admittance indicating the need for age specific normative classification systems. Ipsilateral 1000 Hz stimuli acoustic reflex measurement proved successful with a 1000 Hz probe tone and present reflexes were recorded in 84% of ears tested. Significant association between acoustic reflex presence, OAE pass and peaked tympanogram results were observed. The normative tympanometric values derived from the cohort may serve as a guide for identification of middle ear effusion in neonates. High frequency tympanometry in combination with acoustic reflexes proves a useful measure for verifying middle ear functioning in young infants. / Dissertation (M (Communication Pathology))--University of Pretoria, 2006. / Speech-Language Pathology and Audiology / M (Communication Pathology) / unrestricted

Acoustic reflex

Admittance

Conductance

High frequency probe tone

Immittance

Middle ear effusion

Neonatal hearing screening

Peak admittance

Tympanometry

Tympanometric peak pressure

Susceptance

UCTD

IRM et santé auditive : un suivi de l’audition des participants au Projet Courtois NeuroMod

Fortier, Eddy

03 1900

L’imagerie par résonance magnétique (IRM) est l’une des techniques les plus utilisées en neurosciences. Malheureusement, elle implique une exposition à des niveaux de bruit importants. Cette exposition peut entraîner des effets temporaires ou permanents sur l’audition, surtout lorsqu’elle est prolongée ou répétée. Plusieurs inconnus subsistent au sujet des risques pour l’audition de sujets subissant des examens en IRM à répétition. L’objectif de ce projet était de suivre six participants de recherche subissant des examens IRM hebdomadaires et d’évaluer sur une base régulière l’évolution de leur audition. L’audition des participants a été testée périodiquement sur une période d’un an et demi. Des valeurs de référence ont été récoltées pour chacun des tests avant le début de ce projet. Des séances de tests auditifs ont ensuite été planifiées immédiatement avant et après un scan ainsi qu’à la suite d’un délai variant entre deux et sept jours après un scan. Un article scientifique présentant les résultats les plus importants de ce projet a été rédigé. Il comporte les résultats à deux des tests administrés aux participants: l’audiométrie par tons purs et les émissions otoacoustiques par produit de distorsion. Aucun effet de l’exposition au bruit du scanneur n’a été révélé par ces tests. / Magnetic resonance imaging (MRI) is one of the most commonly used tools in neuroscience. However, it implies exposure to high noise levels. It is well known that exposure to noise can lead to temporary or permanent hearing damages, especially when the exposure is long or repeated. Little is known about the hearing risks of people undergoing several MRI examinations, especially in the context of prolonged longitudinal studies. The goal of this research project was to follow six research participants undergoing weekly MRI scan sessions and test the evolution of their auditory health on a regular basis. The participants’ hearing was tested periodically, over a period of a year-and-a-half. First, baseline values were acquired for each of the hearing tests before the beginning of this research project. Hearing tests were then scheduled immediately before/after a scan and with a delay between two and seven days after a scan. A scientific publication was written outlying the main results regarding two of the administered tests: pure-tone audiometry and distortion product otoacoustic emissions. No consistent impacts of the scanner noise exposure were found for those two tests.

Audiométrie

Émissions otoacoustiques

IRM

Mémoire par article

Protection de l’audition

Réflexe stapédien

Santé auditive

Santé et sécurité

Test auditif

Tympanométrie

Article dissertation

Audiometry

Auditory health

Auditory test

Health and safety

Hearing conservation

MRI

Otoacoustic emissions

Stapedial reflex

Tympanometry

Audiology / Audiologie (UMI : 0300)