2. Loud sounds and
hearing loss
Intense sounds can cause
- hair cell death
- nerve fiber degeneration
3. Hearing testing is a
means of evaluating an
individual's overall hearing
function.
What is Hearing Testing?
4. Hearing can be impaired due to lesions in the
external ear canal, the middle ear, or the inner ear.
The purpose of hearing testing is to evaluate hearing
function and, if it is impaired, to attempt to localize
the site of lesion.
5. • Nerve deafness – impairment of the
cochlea or impairment of the auditory
nerve
• Conduction Deafness – impairment of
the physical structures that conduct
the sound into the cochlea
Types of Deafness
6. destruction of the cochlear or
the auditory nerve
Nerve Deafness
the person becomes
permanently deaf
8. Three different sized tuning forks. The
higher pitched forks (such as the 512 Hz fork)
are more appropriate for hearing testing.
Bedside Testing of Hearing
9. The single most common office
test is a tuning fork test called the
Rinne, named after Adolf Rinne,
who described this test in 1855.
Rinne’s Test
10. In the Rinne test, a comparison
is made between hearing elicited by
placing the base of a tuning fork
applied to the mastoid area (bone),
and then after the sound is no
longer appreciated, the vibrating top
is placed one inch from the external
ear canal (air).
Rinne’s Test
11. Normal Hears vibration in air after
bone conduction is over
Conduction deafness
of one ear
Vibration in air is not heard
after bone conduction is over
Partial nerve deaf-
ness of one ear
Vibration in air is heard
after bone conduction is over
Complete nerve deaf-
ness of one ear
Vibration is not heard on the
affected side
Rinne’s Test
12. In the Weber test, a 512 Hz tuning
fork is placed on the patient's forehead.
If the sound lateralizes (is louder on one
side than the other), the patient may have
either an ipsilateral conductive hearing loss
or a contralateral sensorineural hearing
loss.
Weber’s Test
13. Normal Hears equally on both
sides
Conduction deafness of
one ear
Sound louder in the
diseased ear
Partial nerve deaf-
ness of one ear
Sound louder in the normal
ear
Complete nerve deaf-
ness of one ear
Sound heard only in the
normal ear
Weber’s Test
14. Audiometry
Audiometry is the term used to
describe formal measurement of
hearing. The measurement is usually
performed using an "audiometer" by an
"audiologist".
In audiometry, hearing is measured
at frequencies varying from low pitches
(250 Hz) to high pitches (8000 Hz).
15. Produces pure tones of different
frequencies. Is used to determine the
nature of hearing disabilities.
The audiometer is calibrated so that
zero intensity level of sound at each
frequency is the loudness that can barely
be heard by the normal person (0 db).
Audiometer
16. Audiometry provides a more precise
measurement of hearing. Air conduction
is tested by having the subject wear
earphones attached to the audiometer.
Audiometry
17. Audiometry
Pure tones of controlled
intensity are delivered to one ear at
a time. The subject is asked to raise
a hand, press a button, or otherwise
indicate when he/she hears a sound.
An attachment called a bone
oscillator is placed against the bone
behind each ear (mastoid bone) to
test bone conduction.
19. The hearing level is quantified
relative to "normal" hearing in
decibels (DB), with higher numbers
of DB indicating worse hearing.
Audiometry
20. The DB score is not really percent
loss, but neverthless 100 dB hearing loss
is nearly equivalent to complete deafness
for that particular frequency.
A score of 0 is normal. It is
possible to have scores less than 0,
which indicate better than average
hearing.
Audiometry
22. When there is a hearing loss,
the next step is to try and
determine whether the loss is caused
by a sensory problem (sensorineural
hearing loss) or a mechanical problem
(conductive hearing loss).
Audiometry
23. This distinction is made by using
a bone vibrator, which bypasses the
mechanical parts of the middle ear.
If hearing is better using bone
than air, this suggests a conductive
hearing loss.
Audiometry