Wide Frequency Band Test of Hearing in Veterans
| Status: | Enrolling by invitation |
|---|---|
| Conditions: | Other Indications, Other Indications, Other Indications, Other Indications, Other Indications, Infectious Disease, Infectious Disease, Infectious Disease, Gastrointestinal |
| Therapuetic Areas: | Gastroenterology, Immunology / Infectious Diseases, Other |
| Healthy: | No |
| Age Range: | 20 - 89 |
| Updated: | 2/17/2019 |
| Start Date: | December 1, 2014 |
| End Date: | January 31, 2020 |
Comprehensive Wide Bandwidth Test Battery of Auditory Function in Veterans
The accurate assessment of auditory status is critical for planning treatment for Veterans
with hearing loss to include medical and audiological management. Current physiologic tests
of auditory function in the standard clinical audiological test battery for Veterans have
limited sensitivity in detecting some middle-ear disorders, and do not include a direct test
of cochlear function. Recent studies have shown promise for new wide-bandwidth (WB) tests of
absorbance for improved sensitivity in the assessment of middle-ear function including
acoustic reflex testing. The addition of WB tests of cochlear function included in the WB
test battery provides an opportunity to improve audiological diagnosis of a range of hearing
disorders in Veterans. The automation provided by the WB test battery could provide
additional benefits in reducing the duration of the evaluation, leaving more time for
evaluation of test findings and counseling. Results from this study may lead to the
improvement of audiological care for Veterans with hearing loss.
with hearing loss to include medical and audiological management. Current physiologic tests
of auditory function in the standard clinical audiological test battery for Veterans have
limited sensitivity in detecting some middle-ear disorders, and do not include a direct test
of cochlear function. Recent studies have shown promise for new wide-bandwidth (WB) tests of
absorbance for improved sensitivity in the assessment of middle-ear function including
acoustic reflex testing. The addition of WB tests of cochlear function included in the WB
test battery provides an opportunity to improve audiological diagnosis of a range of hearing
disorders in Veterans. The automation provided by the WB test battery could provide
additional benefits in reducing the duration of the evaluation, leaving more time for
evaluation of test findings and counseling. Results from this study may lead to the
improvement of audiological care for Veterans with hearing loss.
The goal of this research is to evaluate a comprehensive test battery of new wide-bandwidth,
i.e., wideband (WB), acoustical tests of auditory function in the differential diagnosis of
middle ear, cochlear and neural pathologies in a population of Veterans. WB tests refer to
ear canal tests using sound responses measured from 0.2 kilohertz (kHz) to frequencies as
high as 8 kHz, a bandwidth that is critical for speech perception. There will be tests in the
battery for middle-ear assessment using power absorption, cochlear assessment using
otoacoustic emissions (OAEs) and the acoustic stapedius reflex (ASR) using middle ear power
absorption. Results will be compared with a standard single-frequency clinical immittance
test battery routinely used in the assessment of auditory function in Veterans. Aim 1 seeks
to evaluate the accuracy of the WB test battery in the differential diagnosis of middle-ear
pathology and related conductive hearing loss by comparing the sensitivity and specificity of
the WB battery to the traditional immittance battery for the following disorders common in
Veterans: tympanic membrane perforation, serous otitis media, cholesteatoma, and
otosclerosis. Aim 2 seeks to modify a WB ASR test to provide automatic detection of the ASR
threshold for comparison with the traditional single-frequency ASR threshold. Aim 3 seeks to
validate the use of Transient-evoked otoacoustic emission (TEOAE) and spontaneous otoacoustic
emissions (SOAEs)tests in Veterans to assess cochlear status, and evaluate their test
performance in classifying ears with normal hearing and sensorineural hearing loss. Finally,
Aim 4 seeks to compare the diagnostic accuracy of the full WB test battery with the full
single-frequency admittance test battery to detect any type of hearing loss including
sensorineural, conductive and mixed. The hypothesis is that the WB test battery is more
accurate than the traditional immittance test battery in identifying ears with normal
auditory status and ears with a range of risks for auditory pathology.
Methods:
Subjects- Human subjects will be recruited for this study who have had a hearing evaluation
from the VA Audiology Service at the Portland VA Medical Center and the H. Quillen VA Medical
Center. These subjects will respond to flyers or be contacted from an IRB-approved human
subject volunteer registry. Additional details regarding recruitment and selection criteria
may be found in the next sections of the protocol. The investigators will recruit
approximately equal numbers of subjects, with a total of 640. Data will be acquired at the
two sites from a total of 190 adult subjects with normal hearing and 180 adult subjects with
sensorineural hearing loss. These subjects will be recruited from three age groups: 20-39
years, 40-59 years and 60-79 years for age comparisons of normative middle-ear data. Data
will also be acquired at both sites from 250 adult subjects with middle-ear disorders and/or
conductive hearing loss from ages 20-89 years. Of this latter group, the investigators plan
to enroll 50 subjects with tympanic membrane perforation, 50 subjects with serous otitis
media, 50 subjects with cholesteatoma, 50 subjects with otosclerosis, and 50 subjects with
unspecified middle-ear disorders. The investigators expect that approximately 20 subjects
(from all groups, normal hearing, sensorineural hearing loss, and middle-ear disorders) will
be lost as screen failures or will drop from the study, and thus, the investigators will
recruit an additional 20 subjects to replace these. This brings the total planned number of
subjects recruited for study to 640.
Testing- All subjects will receive the same clinical and WB test battery. Each subject will
be tested in one laboratory visit. Subjects will be enrolled in this study that upon
otoscopic inspection of their ear canals, have no active drainage from the ears, and have ear
canals free of cerumen (wax) impaction, bilaterally. Subjects who are found to have draining
ears or cerumen impaction will be referred for treatment. These individuals may be enrolled
in the study following successful treatment for their conditions. All subjects will have a
standard pure-tone air- and bone-conduction audiogram while comfortably seated in a
sound-treated booth. Standard insert earphones and a bone-conduction vibrator will be used to
present the sound stimuli. Next, speech audiometry will be completed and the speech reception
thresholds, uncomfortable loudness test for speech, and speech recognition scores will be
obtained. Then the subjects will have a standard immittance test battery consisting of a
tympanogram and acoustic reflex threshold testing. Stimuli will not exceed a level of 100
decibels hearing level (dB HL). Finally, the wideband test battery will be performed with
adults seated comfortably in a sound-treated booth. A small probe with a soft rubber tip will
be inserted in the subject's ear canal, and the subject will be asked to remain quiet while
sounds are presented to an ear via sound sources within the probe. Responses will be measured
using a miniature microphone within the probe. The tests in the wideband battery are similar
to the clinical admittance battery and include ambient absorbance, absorbance tympanometry
and acoustic reflex threshold. The otoacoustic emission testing is a separate measurement of
inner ear function typically conducted in the clinic using different equipment.
i.e., wideband (WB), acoustical tests of auditory function in the differential diagnosis of
middle ear, cochlear and neural pathologies in a population of Veterans. WB tests refer to
ear canal tests using sound responses measured from 0.2 kilohertz (kHz) to frequencies as
high as 8 kHz, a bandwidth that is critical for speech perception. There will be tests in the
battery for middle-ear assessment using power absorption, cochlear assessment using
otoacoustic emissions (OAEs) and the acoustic stapedius reflex (ASR) using middle ear power
absorption. Results will be compared with a standard single-frequency clinical immittance
test battery routinely used in the assessment of auditory function in Veterans. Aim 1 seeks
to evaluate the accuracy of the WB test battery in the differential diagnosis of middle-ear
pathology and related conductive hearing loss by comparing the sensitivity and specificity of
the WB battery to the traditional immittance battery for the following disorders common in
Veterans: tympanic membrane perforation, serous otitis media, cholesteatoma, and
otosclerosis. Aim 2 seeks to modify a WB ASR test to provide automatic detection of the ASR
threshold for comparison with the traditional single-frequency ASR threshold. Aim 3 seeks to
validate the use of Transient-evoked otoacoustic emission (TEOAE) and spontaneous otoacoustic
emissions (SOAEs)tests in Veterans to assess cochlear status, and evaluate their test
performance in classifying ears with normal hearing and sensorineural hearing loss. Finally,
Aim 4 seeks to compare the diagnostic accuracy of the full WB test battery with the full
single-frequency admittance test battery to detect any type of hearing loss including
sensorineural, conductive and mixed. The hypothesis is that the WB test battery is more
accurate than the traditional immittance test battery in identifying ears with normal
auditory status and ears with a range of risks for auditory pathology.
Methods:
Subjects- Human subjects will be recruited for this study who have had a hearing evaluation
from the VA Audiology Service at the Portland VA Medical Center and the H. Quillen VA Medical
Center. These subjects will respond to flyers or be contacted from an IRB-approved human
subject volunteer registry. Additional details regarding recruitment and selection criteria
may be found in the next sections of the protocol. The investigators will recruit
approximately equal numbers of subjects, with a total of 640. Data will be acquired at the
two sites from a total of 190 adult subjects with normal hearing and 180 adult subjects with
sensorineural hearing loss. These subjects will be recruited from three age groups: 20-39
years, 40-59 years and 60-79 years for age comparisons of normative middle-ear data. Data
will also be acquired at both sites from 250 adult subjects with middle-ear disorders and/or
conductive hearing loss from ages 20-89 years. Of this latter group, the investigators plan
to enroll 50 subjects with tympanic membrane perforation, 50 subjects with serous otitis
media, 50 subjects with cholesteatoma, 50 subjects with otosclerosis, and 50 subjects with
unspecified middle-ear disorders. The investigators expect that approximately 20 subjects
(from all groups, normal hearing, sensorineural hearing loss, and middle-ear disorders) will
be lost as screen failures or will drop from the study, and thus, the investigators will
recruit an additional 20 subjects to replace these. This brings the total planned number of
subjects recruited for study to 640.
Testing- All subjects will receive the same clinical and WB test battery. Each subject will
be tested in one laboratory visit. Subjects will be enrolled in this study that upon
otoscopic inspection of their ear canals, have no active drainage from the ears, and have ear
canals free of cerumen (wax) impaction, bilaterally. Subjects who are found to have draining
ears or cerumen impaction will be referred for treatment. These individuals may be enrolled
in the study following successful treatment for their conditions. All subjects will have a
standard pure-tone air- and bone-conduction audiogram while comfortably seated in a
sound-treated booth. Standard insert earphones and a bone-conduction vibrator will be used to
present the sound stimuli. Next, speech audiometry will be completed and the speech reception
thresholds, uncomfortable loudness test for speech, and speech recognition scores will be
obtained. Then the subjects will have a standard immittance test battery consisting of a
tympanogram and acoustic reflex threshold testing. Stimuli will not exceed a level of 100
decibels hearing level (dB HL). Finally, the wideband test battery will be performed with
adults seated comfortably in a sound-treated booth. A small probe with a soft rubber tip will
be inserted in the subject's ear canal, and the subject will be asked to remain quiet while
sounds are presented to an ear via sound sources within the probe. Responses will be measured
using a miniature microphone within the probe. The tests in the wideband battery are similar
to the clinical admittance battery and include ambient absorbance, absorbance tympanometry
and acoustic reflex threshold. The otoacoustic emission testing is a separate measurement of
inner ear function typically conducted in the clinic using different equipment.
Inclusion Criteria:
Adults with normal hearing
- Veteran status
- Age between 20 and 79 years
- All puretone thresholds at 25 dB HL or lower
Adults with sensory neural hearing loss
- Veteran status
- Age between 20 and 79 years
- Average hearing thresholds between 26 and 55 dB HL
Adults with middle ear disorders
- Veteran status
- Adult between 20 and 89 years
- Diagnosis of middle ear disorder
Exclusion Criteria:
- Draining ear
- Sensory neural hearing loss greater than 55 dB HL
- Cerumen impaction of ear canal
We found this trial at
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sites
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Mountain Home, Tennessee 37684
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