Your search keyword '"Feeney M"' showing total 10 results

1. The Impacts of Noise Exposure on the Middle Ear Muscle Reflex in a Veteran Population.

Author

Bramhall, Naomi F., Reavis, Kelly M., Feeney, M. Patrick, and Kampel, Sean D.

Subjects

MIDDLE ear physiology, HAIR cells, COCHLEA, NOISE, ACOUSTIC reflex, COMPARATIVE studies, PEARSON correlation (Statistics), AUDIOMETRY, DIAGNOSIS, OTOACOUSTIC emissions, DESCRIPTIVE statistics, RESEARCH funding, VETERANS, NOISE-induced deafness, DATA analysis software

Abstract

Purpose: Human studies of noise-induced cochlear synaptopathy using physiological indicators identified in animal models (auditory brainstem response [ABR] Wave I amplitude, envelope following response [EFR], and middle ear muscle reflex [MEMR]) have yielded mixed findings. Differences in the population studied may have contributed to the differing results. For example, due to differences in the intensity level of the noise exposure, noise-induced synaptopathy may be easier to detect in a military Veteran population than in populations with recreational noise exposure. We previously demonstrated a reduction in ABR Wave I amplitude and EFR magnitude for young Veterans with normal audiograms reporting high levels of noise exposure compared to non-Veteran controls. In this article, we expand on the previous analysis in the same population to determine if MEMR magnitude is similarly reduced. Method: Contralateral MEMR growth functions were obtained in 92 young Veterans and non-Veterans with normal audiograms, and the relationship between noise exposure history and MEMR magnitude was assessed. Associations between MEMR magnitude and distortion product otoacoustic emission, EFR, and ABR measurements collected in the same sample were also evaluated. Results: The results of the statistical analysis, although not conventionally statistically significant, suggest a reduction in mean MEMR magnitude for Veterans reporting high noise exposure compared with non-Veteran controls. In addition, the MEMR appears relatively insensitive to subclinical outer hair cell dysfunction, as measured by distortion product otoacoustic emissions, and is not well correlated with ABR and EFR measurements. Conclusions: When combined with our previous ABR and EFR findings in the same population, these results suggest that noise-induced synaptopathy occurs in humans. In addition, the findings indicate that the MEMR may be a good candidate for noninvasive diagnosis of cochlear synaptopathy/deafferentation and that the MEMR may reflect the integrity of different neural populations than the ABR and EFR. [ABSTRACT FROM AUTHOR]

Published

2022

2. Wideband Acoustic Reflex Growth in Adults With Cystic Fibrosis.

Author

Westman, Martha R., Putterman, Daniel B., Garinis, Angela C., Hunter, Lisa L., and Feeney, M. Patrick

Subjects

INTRAVENOUS therapy, ANALYSIS of variance, ACOUSTIC reflex, AMINOGLYCOSIDES, CASE-control method, CYSTIC fibrosis, RESEARCH funding, AUDIOMETRY, DIAGNOSIS, OTOACOUSTIC emissions, REPEATED measures design, DESCRIPTIVE statistics

Abstract

Purpose: Individuals with cystic fibrosis (CF) are often treated with intravenous (IV) aminoglycoside (AG) antibiotics to manage life-threatening bacterial infections. Preclinical animal data suggest that, in addition to damaging cochlear hair cells, this class of antibiotics may cause cochlear synaptopathy and/or damage to higher auditory structures. The acoustic reflex growth function (ARGF) is a noninvasive, objective measure of neural function in the auditory system. A shallow ARGF (small reflex-induced changes in middle ear function with increasing elicitor level) has been associated with synaptopathy due to noise exposure in rodent and human studies. In this study, the ARGF was obtained in CF patients with normal hearing, some of whom have been treated with IV AGs, and a control group without CF. The hypothesis was that patients with IV-AG exposure would have a shallow ARGF due to cochlear synaptopathy caused by ototoxicity. Method: Wideband ARGFs were examined in four groups of normal-hearing participants: a control group of 29 individuals without CF; and in 57 individuals with CF grouped by lifetime IV-AG exposure: 15 participants with no exposure, 21 with low exposure, and 21 with high exposure. Procedures included pure-tone audiometry, clinical immittance, wideband acoustic immittance battery, including ARGFs, and transient evoked otoacoustic emissions. Results: CF subjects with normal pure-tone thresholds and either high or low lifetime IV-AG exposure had enhanced ARGFs compared to controls and CF participants without IV-AG exposure. The groups did not differ in transient evoked otoacoustic emission signal-to-noise ratio. Conclusion: These results diverge from the shallow ARGF pattern observed in studies of noise-induced cochlear synaptopathy and are suggestive of a central mechanism of auditory dysfunction in patients with AG-induced ototoxicity. [ABSTRACT FROM AUTHOR]

Published

2021

3. High frequency transient-evoked otoacoustic emission measurements using chirp and click stimuli.

Author

Keefe, Douglas H., Feeney, M. Patrick, Hunter, Lisa L., Fitzpatrick, Denis F., Blankenship, Chelsea M., Garinis, Angela C., Putterman, Daniel B., and Wróblewski, Marcin

Subjects

*OTOACOUSTIC emissions, *HEARING levels, *BASILAR membrane, *DEAFNESS, *EAR canal

Abstract

Abstract Transient-evoked otoacoustic emissions (TEOAEs) at high frequencies are a non-invasive physiological test of basilar membrane mechanics at the basal end, and have clinical potential to detect risk of hearing loss related to outer-hair-cell dysfunction. Using stimuli with constant incident pressure across frequency, TEOAEs were measured in experiment 1 at low frequencies (0.7–8 kHz) and high frequencies (7.1–14.7 kHz) in adults with normal hearing up to 8 kHz and varying hearing levels from 9 to 16 kHz. In combination with click stimuli, chirp stimuli were used with slow, medium and fast sweep rates for which the local frequency increased or decreased with time. Chirp TEOAEs were transformed into equivalent click TEOAEs by inverse filtering out chirp stimulus phase, and analyzed similarly to click TEOAEs. To improve detection above 8 kHz, TEOAEs were measured in experiment 2 with higher-level stimuli and longer averaging times. These changes increased the TEOAE signal-to-noise ratio (SNR) by 10 dB. Slower sweep rates were investigated but the elicited TEOAEs were detected in fewer ears compared to faster rates. Data were acquired in adults and children (age 11–17 y), including children with cystic fibrosis (CF) treated with ototoxic antibiotics. Test-retest measurements revealed satisfactory repeatability of high-frequency TEOAE SNR (median of 1.3 dB) and coherence synchrony measure, despite small test-retest differences related to changes in forward and reverse transmission in the ear canal. The results suggest the potential use of such tests to screen for sensorineural hearing loss, including ototoxic loss. Experiment 2 was a feasibility study to explore TEOAE test parameters that might be used in a full-scale study to screen CF patients for risk of ototoxic hearing loss. Highlights • Transient-evoked otoacoustic emissions non-invasively assess outer hair cell function upto 14.7 kHz. • First report of TEOAE measurements in children above 8 kHz. • Chirp stimuli elicit TEOAEs at higher sound exposure levels than possible with click stimuli. • Subset of clinically useful TEOAE measures do not require reflectance calibration for satisfactory repeatability. • High-frequency TEOAEs show promise to detect ototoxic hearing loss in children and adults. [ABSTRACT FROM AUTHOR]

Published

2019

4. Pressurized transient otoacoustic emissions measured using click and chirp stimuli.

Author

Keefe, Douglas H., Patrick Feeney, M., Hunter, Lisa L., Fitzpatrick, Denis F., and Sanford, Chris A.

Subjects

*OTOACOUSTIC emissions, *SOUND pressure, *AUDITORY perception, *AUDIO frequency, *EAR canal, *ADULTS

Abstract

Transient-evoked otoacoustic emission (TEOAE) responses were measured in normal-hearing adult ears over frequencies from 0.7 to 8 kHz, and analyzed with reflectance/admittance data to measure absorbed sound power and the tympanometric peak pressure (TPP). The mean TPP was close to ambient. TEOAEs were measured in the ear canal at ambient pressure, TPP, and fixed air pressures from 150 to −200 daPa. Both click and chirp stimuli were used to elicit TEOAEs, in which the incident sound pressure level was constant across frequency. TEOAE levels were similar at ambient and TPP, and for frequencies from 0.7 to 2.8 kHz decreased with increasing positive and negative pressures. At 4–8 kHz, TEOAE levels were larger at positive pressures. This asymmetry is possibly related to changes in mechanical transmission through the ossicular chain. The mean TEOAE group delay did not change with pressure, although small changes were observed in the mean instantaneous frequency and group spread. Chirp TEOAEs measured in an adult ear with Eustachian tube dysfunction and TPP of −165 daPa were more robust at TPP than at ambient. Overall, results demonstrate the feasibility and clinical potential of measuring TEOAEs at fixed pressures in the ear canal, which provide additional information relative to TEOAEs measured at ambient pressure. [ABSTRACT FROM AUTHOR]

Published

2018

5. Wideband acoustic immittance in children with Down syndrome: prediction of middle-ear dysfunction, conductive hearing loss and patent PE tubes.

Author

Hunter, Lisa L., Keefe, Douglas H., Feeney, M. Patrick, Brown, David K., Meinzen-Derr, Jareen, Elsayed, Alaaeldin M., Amann, Julia M., Manickam, Vairavan, Fitzpatrick, Denis, and Shott, Sally R.

Subjects

AUDIOMETRY, IMPEDANCE audiometry, CONFIDENCE intervals, DIAGNOSIS, OTOACOUSTIC emissions, RESEARCH funding, MIDDLE ear ventilation, DOWN syndrome, CONDUCTIVE hearing loss

Abstract

Objective: The purpose of this study was to evaluate pressurised wideband acoustic immittance (WAI) tests in children with Down syndrome (DS) and in typically developing children (TD) for prediction of conductive hearing loss (CHL) and patency of pressure equalising tubes (PETs).Design: Audiologic diagnosis was determined by audiometry in combination with distortion-product otoacoustic emissions, 0.226 kHz tympanometry and otoscopy. WAI results were compared for ears within diagnostic categories (Normal, CHL and PET) and between groups (TD and DS).Study sample: Children with DS (n = 40; mean age 6.4 years), and TD children (n = 48; mean age 5.1 years) were included.Results: Wideband absorbance was significantly lower at 1–4 kHz in ears with CHL compared to NH for both TD and DS groups. In ears with patent PETs, wideband absorbance and group delay (GD) were larger than in ears without PETs between 0.25 and 1.5 kHz. Wideband absorbance tests were performed similarly for prediction of CHL and patent PETs in TD and DS groups.Conclusions: Wideband absorbance and GD revealed specific patterns in both TD children and those with DS that can assist in detection of the presence of significant CHL, assess the patency of PETs, and provide frequency-specific information in the audiometric range. [ABSTRACT FROM PUBLISHER]

Published

2017

6. Comparing otoacoustic emissions evoked by chirp transients with constant absorbed sound power and constant incident pressure magnitude.

Author

Keefe, Douglas H., Feeney, M. Patrick, Hunter, Lisa L., and Fitzpatrick, Denis F.

Subjects

*OTOACOUSTIC emissions, *ABSORPTION of sound, *SOUND pressure, *EAR canal, *FREQUENCY-domain analysis, *EVOKED response audiometry

Abstract

Human ear-canal properties of transient acoustic stimuli are contrasted that utilize measured ear-canal pressures in conjunction with measured acoustic pressure reflectance and admittance. These data are referenced to the tip of a probe snugly inserted into the ear canal. Promising procedures to calibrate across frequency include stimuli with controlled levels of incident pressure magnitude, absorbed sound power, and forward pressure magnitude. An equivalent pressure at the eardrum is calculated from these measured data using a transmission-line model of ear-canal acoustics parameterized by acoustically estimated ear-canal area at the probe tip and length between the probe tip and eardrum. Chirp stimuli with constant incident pressure magnitude and constant absorbed sound power across frequency were generated to elicit transient-evoked otoacoustic emissions (TEOAEs), which were measured in normal-hearing adult ears from 0.7 to 8 kHz. TEOAE stimuli had similar peak-to-peak equivalent sound pressure levels across calibration conditions. Frequency-domain TEOAEs were compared using signal level, signal-to-noise ratio (SNR), coherence synchrony modulus (CSM), group delay, and group spread. Time-domain TEOAEs were compared using SNR, CSM, instantaneous frequency and instantaneous bandwidth. Stimuli with constant incident pressure magnitude or constant absorbed sound power across frequency produce generally similar TEOAEs up to 8 kHz. [ABSTRACT FROM AUTHOR]

Published

2017

7. Comparisons of transient evoked otoacoustic emissions using chirp and click stimuli.

Author

Keefe, Douglas H., Feeney, M. Patrick, Hunter, Lisa L., and Fitzpatrick, Denis F.

Subjects

*OTOACOUSTIC emissions, *AUDITORY perception, *ACOUSTIC filters, *NONLINEAR systems, *NOISE control

Abstract

Transient-evoked otoacoustic emission (TEOAE) responses (0.7–8 kHz) were measured in normal-hearing adult ears using click stimuli and chirps whose local frequency increased or decreased linearly with time over the stimulus duration. Chirp stimuli were created by allpass filtering a click with relatively constant incident pressure level over frequency. Chirp TEOAEs were analyzed as a nonlinear residual signal by inverse allpass filtering each chirp response into an equivalent click response. Multi-window spectral and temporal averaging reduced noise levels compared to a single-window average. Mean TEOAE levels using click and chirp stimuli were similar with respect to their standard errors in adult ears. TEOAE group delay, group spread, instantaneous frequency, and instantaneous bandwidth were similar overall for chirp and click conditions, except for small differences showing nonlinear interactions differing across stimulus conditions. These results support the theory of a similar generation mechanism on the basilar membrane for both click and chirp conditions based on coherent reflection within the tonotopic region. TEOAE temporal fine structure was invariant across changes in stimulus level, which is analogous to the intensity invariance of click-evoked basilar-membrane displacement data. [ABSTRACT FROM AUTHOR]

Published

2016

8. Sources of Variability in Wideband Energy Reflectance Measurements in Adults.

Author

Feeney, M. Patrick, Stover, Bert, Keefe, Douglas H., Garinis, Angela C., Day, Jessica E., and Seixas, Noah

Subjects

*MIDDLE ear physiology, *DIAGNOSIS of deafness, *ANALYSIS of variance, *AUDIOMETRY, *IMPEDANCE audiometry, *DIAGNOSIS, *OTOACOUSTIC emissions, *RESEARCH methodology evaluation, *DESCRIPTIVE statistics

Abstract

Background: Wideband acoustic immittance measurements of the middle ear, such as wideband energy reflectance (ER), can provide information about how the middle ear functions across the traditional audiometric frequency range. These measurements are being investigated as a new means of evaluating conductive hearing disorders, and studies have been reported on a number of middle-ear disorders. However, the normative database for wideband ER is still being developed, and more information is needed about sources of test variability. Purpose: The purpose of the present study was to evaluate sources of variability in wideband ER measurements at baseline and across annual tests for up to 5 yr in subjects with normal hearing. Study Sample: The main group consisted of 112 subjects (187 ears), 24 females and 88 males, with normal hearing and normal 0.226-kHz admittance tympanometry. An additional 24 adults with abnormal 0.226-kHz tympanometry provided baseline comparison data. Research Design: A longitudinal design was used in obtaining annual measurements of audiometry, tympanometry, and wideband ER at ambient pressure in adults. Data Collection and Analysis: Clinical audiometry and tympanometry data and 1/3-octave wideband ER measurements were obtained at baseline and annually for up to four additional tests. Descriptive statistics and t-tests were used to explore differences in 1/3-octave baseline ER measures in terms of subject age, test ear, sex, and clinical tympanometry. Longitudinal mixed-effects linear regression models at 1.0, 2.0, and 4.0 kHz were used to examine the different sources of variance affecting ER over time. Results: There were small but statistically significant mean differences in ER for baseline measurements as a function of ear, sex, and age. Compared with these results, data for 29 ears with abnormal 0.226-kHz tympanometry differed from mean normal data across a broad frequency range by as much as 20%. ER varied as a function of peak compensated static acoustic admittance (Ytm) for measures at 1.0 kHz but was unrelated to Ytm at 2.0 and 4.0 kHz. ER also varied as a function of the test ear, with significantly higher ER on the left at 1.0 and 2.0 kHz, but was not significantly related to the test ear at 4.0 kHz. The standard deviation for test-retest variability was about 0.1 at each frequency, which is consistent with previous studies. Conclusions: Mean wideband ER at baseline showed small but significant differences related to sex, ear, and age. ER was significantly related to Ytm at 1.0 kHz in the longitudinal data but not at 2.0 or 4.0 kHz and to the test ear at 1.0 and 2.0 kHz but not at 4.0 kHz. When evaluated at ambient pressure, ER for ears with negative middle-ear pressure was similar to that of ears with abnormally low Ytm. Therefore it might be necessary to evaluate wideband acoustic immittance compensated for middle-ear pressure by using tympanometry to obtain an effective differential diagnosis of middle-ear disorders in adults. [ABSTRACT FROM AUTHOR]

Published

2014

9. Developing standards for distortion product otoacoustic emission measurements.

Author

Mills, David M., Feeney, M. Patrick, Drake, Eli J., Folsom, Richard C., Sheppard, Lianne, and Seixas, Noah S.

Subjects

*OTOACOUSTIC emissions, *BIOACOUSTICS, *EAR, *SOUND, *HEARING, *TESTING

Abstract

Characteristics of distortion product otoacoustic emission (DPOAE) measurements were investigated by comparing responses from two different emission measurement systems in 40 volunteers (78 ears) and making test–retest measurements of each system in 20 ears. For transformation of results between systems, it was shown that the minimum data set consisted of input–output (growth) functions obtained by stepping stimulus levels across a wide range, for each set of stimulus frequencies (1–8 kHz). Linear transformations were considered which involved either recalibration of the emission amplitude (vertical transformation) or of the stimulus levels (horizontal transformation). Horizontal transformations provided better agreement between growth functions from the two systems. For frequencies 4–8 kHz, the means of the horizontal shifts required ranged from 8 to 14 dB, clearly exceeding test–retest variability. The optimal horizontal transformation was derived and applied uniformly to all emission measurements; correlations r=0.81–0.89 were found between transformed emission amplitudes. To minimize the necessity for such transformations and to reduce the variability found both within and between systems, development of standardized equipment and methods is suggested for DPOAE measurements, including: (1) an optimized in-ear probe assembly; (2) use of intensity calibration; and (3) a focus on emission “threshold” measurement and analysis. [ABSTRACT FROM AUTHOR]

Published

2007

10. Cochlear Microphonic and Summating Potential Responses from Click-Evoked Auditory Brain Stem Responses in High-Risk and Normal Infants.

Author

Hunter, Lisa L., Blankenship, Chelsea M., Gunter, Rebekah G., Keefe, Douglas H., Feeney, M. Patrick, Brown, David K., and Baroch, Kelly

Subjects

*COCHLEA physiology, *ACOUSTIC reflex, *AUDIOLOGY, *AUDIOMETRY, *EVOKED response audiometry, *AUDITORY evoked response, *BONE conduction, *BRAIN stem, *CHILDREN'S hospitals, *COMPARATIVE studies, *CONFIDENCE intervals, *DEAFNESS, *DIAGNOSIS, *HYPERBILIRUBINEMIA, *LONGITUDINAL method, *NEONATAL intensive care, *OTOACOUSTIC emissions, *OTOSCOPY, *T-test (Statistics), *NEONATAL intensive care units, *CASE-control method, *DATA analysis software, *DESCRIPTIVE statistics, *MANN Whitney U Test, *AUDITORY neuropathy

Abstract

Background: Examination of cochlear and neural potentials is necessary to assess sensory and neural status in infants, especially those cared for in neonatal intensive care units (NICU) who have high rates of hyperbilirubinemia and thus are at risk for auditory neuropathy (AN). Purpose: The purpose of this study was to determine whether recording parameters commonly used in click-evoked auditory brain stem response (ABR) are useful for recording cochlear microphonic (CM) and Wave I in infants at risk for AN. Specifically, we analyzed CM, summating potential (SP), and Waves I, Ill, and V. The overall aim was to compare latencies and amplitudes of evoked responses in infants cared for in NICUs with infants in a well-baby nursery (WBN), both of which passed newborn hearing screening. Research Design: This is a prospective study in which infants who passed ABR newborn hearing screening were grouped based on their birth history (WBN and NICU). All infants had normal hearing status when tested with diagnostic ABR at about one month of age, corrected for prematurity. Study Sample: Thirty infants (53 ears) from the WBN [mean corrected age at test = 5.0 weeks (wks.)] and thirty-two infants (59 ears) from the NICU (mean corrected age at test = 5.7 wks.) with normal hearing were included in this study. In addition, two infants were included as comparative case studies, one that was diagnosed with AN and another case that was diagnosed with bilateral sensorineural hearing loss (SNHL). Data Collection and Analysis: Diagnostic ABR, including click and tone-burst air- and bone-conduction stimuli were recorded. Peak Waves I, Ill, and V; SP; and CM latency and amplitude (peak to trough) were measured to determine if there were differences in ABR and electrocochleography (ECochG) variables between WBN and NICU infants. Results: No significant group differences were found between WBN and NICU groups for ABR waveforms, CM, or SP, including amplitude and latency values. The majority (75%) of the NICU group had hyperbilirubinemia, but overall, they did not show evidence of effects in their ECochG or ABR responses when tested at about one-month corrected age. These data may serve as a normative sample for NICU and well infant ECochG and ABR latencies at one-month corrected age. Two infant case studies, one diagnosed with AN and another with SNHL demonstrated the complexity of using ECochG and otoacoustic emissions to assess the risk of AN in individual cases. Conclusions: CM and SPs can be readily measured using standard click stimuli in both well and NICU infants. Normative ranges for latency and amplitude are useful for interpreting ECochG and ABR components. Inclusion of ECochG and ABR tests in a test battery that also includes otoacoustic emission and acoustic reflex tests may provide a more refined assessment of the risks of AN and SNHL in infants. [ABSTRACT FROM AUTHOR]

Published

2018