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Transcript
Otoacoustic Emissions
Katherine Andreadis
Instrumentation
Background
The presence of cochlear emissions was
hypothesized in the 1940’s on the basis of
mathematical models of cochlear nonlinearity.
However, OAEs could not be measured until the
late 1970s, when technology created the
extremely sensitive low-noise microphones
needed to record these responses.
David Kemp first discovered Otoacoustic
emissions in 1978.
Otoacoustic Emissions
 Otoacoustic emissions are sounds that are produced by
healthy ears in response to acoustic stimulation.
 OAE’s arise because our ears have evolved a special
mechanism to give us extra hearing sensitivity and
frequency responsiveness. The mechanism is known as
the cochlear amplifier and it depends on a specialized
type of cell called “outer hair cells.”
 It’s the job of the cochlea to receive the sound energy
collected by the outer and middle ear and to prepare it
for neural transmission.
Purpose of OAE’s
 The primary purpose of otoacoustic emission




(OAE) tests is to determine cochlear status,
specifically hair cell function. This information
can be used to
(1) screen hearing
(2) partially estimate hearing sensitivity within a
limited range
(3) differentiate between the sensory and neural
components of sensorineural hearing loss
(4) test for functional hearing loss.
Types of OAE’s
Types
Spontaneous OAE’s
(SPOAE’s)
Distortion Product
OAE’s (DPOAE’s)
Transient Evoked
OAE’s (TEOAE’s)
Spontaneous OAE’s
 Occurs in the absence of any intentional stimulation of




the ear.
Prevalence is in about 40-60% of normal hearing people.
When you record SOAE’s, you average the number of
samples of sounds in the ear and perform a spectral
analysis.
SOAE’s are more common in the right ear and two times
more common in females than males.
The presence of SOAE’s is usually considered to be a
sign of cochlear health, but the absence of SOAE’s is not
necessarily a sign of abnormality.
Distortion Product OAE’s
 Result from the interaction of two simultaneously presented pure
tones.
 Stimuli consist of 2 pure tones at 2 frequencies (ie, f1, f2 [f2>f1])
and 2 intensity levels (ie, L1, L2). The relationship between L1-L2
and f1-f2 dictates the frequency response.
 DPOAEs allow for a greater frequency specificity and can be used to
record at higher frequencies than TOAE’s. Therefore, DPOAE’s may
be useful for early detection of cochlear damage as they are for
ototoxicity and noise-induced damage.
 DPOAEs often can be recorded in individuals with mild-to-moderate
hearing losses for whom TOAE’s are absent.
*DPOAE’s do not occur in the frequency
regions with up to 50-55dB Hearing loss.
* DPOAE’s can be elicited from ears that
have a greater hearing loss than TEOAE’s.
Transient Evoked OAE
 TEOAE’s are frequency responses that follow




a brief acoustic stimulus, such as a click or tone burst.
The evoked response from this type of stimulus covers the
frequency range up to around 4 kHz.
In normal adult ears, the click-elicited TEOAE typically falls off for
frequencies more than 2 kHz, and is rarely present over 4 kHz,
because of both technical limitations in the ear-speaker at higher
frequencies and the physical features of adult ear canals so that is
why DPOAE’s would be more efficacious.
For newborns and older infants, the TEOAE is much more robust by
about 10 dB and typically can be measured out to about 6 kHz
indicating that smaller ear canals influence the acoustic
characteristics of standard click stimuli much differently than do
adult ears.
TEOAE’s do not occur in people with a hearing loss greater than
30dB.
TEOAE & DPOAE
Recording OAE’s
 OAEs are measured by presenting a series of very brief
acoustic stimuli, clicks, to the ear through a probe that is
inserted in the outer third of the ear canal. The probe contains
a loudspeaker that generates clicks and a microphone that
measures the resulting OAE’s that are produced in the
cochlea and are then reflected back through the middle ear
into the outer ear canal.
 The resulting sound that is picked up by the microphone is
digitized and processed by specially designed hardware and
software. The very low-level OAEs are separated by the
software from both the background noise and from the
contamination of the evoking clicks.
Absent OAE’s due to….
Cyst
Otosclerosis
External
Otitis
Cholseteatoma
Stenosis
Cochlear Pathology
Types of Machines for OAE
 Today otoacoustic emission recording is achieved by a
variety of otoacoustic instruments. Hand-held and
pocket-sized screeners are available which provide a
quick indication of the status of the ear and are widely
used for infant screening.
 Because OAE’s are blocked by middle ear immobility,
these instruments alert to both conductive and sensory
dysfunction. Some OAE screeners provide a single
indicator of function across speech frequencies
Clinical Use
 The creation of OAE’s by the cochlea and the reemission of this energy as sound from the ear serve no
important physiological purpose that can be determined.
Their clinical significance is that they are evidence of a
vital sensory process arising in the cochlea.
 OAE’s only occur in a normal cochlea with normal
hearing. If there is damage to the outer hair cells
producing mild hearing loss, then OAE’s are not evoked.
A good rule of thumb is that OAE’s are present if hearing
is 35 dB or better. Because OAE’s are evoked by signals
that have a wide frequency response, a broad region of
the cochlea responds, providing information on the
frequency range from 1000 Hz to 4000 Hz.
Usefullness
 OAE's are most appropriate for use in difficult-to-test patients:
newborn infants, young children, patients who are attempting to
feign a hearing loss, and developmentally delayed populations.
OAEs only provide information about the activity of the cochlea, and
do not assess the status of the rest of the auditory pathway.
 TEOAE's are commonly used to screen infant hearing, to validate
auditory thresholds obtained via other techniques, and to assess the
cochlear contribution to hearing.
 DPOAE's are also used for infant screening. They can be obtained in
persons in whom TOAE's cannot be obtained, and they can be
obtained at higher frequencies than TOAE's (i.e. over 1000 hz).