Ear, Hearing and Equilibrium Exercise 27 BI 232. Introduction Functions: Hearing and Equilibrium Mechanoreception: because the ear receives mechanical.
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Ear, Hearing and Equilibrium
Exercise 27BI 232
Introduction Functions: Hearing
and Equilibrium Mechanoreception:
because the ear receives mechanical vibrations and translates them into nerve impulses
Static equilibrium: able to determine nonmoving position
Dynamic equilibrium: motion is detected
Hearing
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Vestibular Portion
Cochlear Portion
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Middle Ear Ossicles (Bones)
Stapes
Malleus Incus
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Vestibular Complex
Inner Ear Composed of three
areas: Cochlea Vestibule Semicircular Ducts
(canals)
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Labyrinth Cochlea- snail shaped Contains sensory
receptors for hearing, known as the organ of Corti (spiral organ)
Sensory hair cells are found in all receptor organs of the inner ear which contain long microvilli, called stereocilia
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These can be stimulated by gravitational forces in the vestibule, turning movements in the semicircular canals or sound waves in the cochlea
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• The stapes strikes the oval window of the cochlea
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• Stapes pushes on fluid of vestibular duct at oval window
• At helicotrema, vibration moves into tympanic duct
• Fluid vibration dissipated at round window which bulges
• The central structure is vibrated (cochlear duct)
helicotrema
vestibular duct
tympanic duct
round window
Cochlear duct containing the Organ of Corti
Cochlea Uncoiled
oval window
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Cochlea
Vestibulocochlear nerve sends impulses to the auditory cortex of the temporal lobe of brain and interpreted as sound
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Organ of Corti
Vestibule Consists of the utricle
and saccule Involved in the
interpretation of static equilibrium and linear acceleration
Regions known as maculae, which consist of hair cells with stereocilia and a kinocilium grouped together in a gelatinous mass called otolithic membrane and weighted with calcium caronate stones called otoliths
Vestibule As the head is
accelerated or tipped by gravity, the otoliths cause the cilia to bend, indicating that the position of the head has changed.
Visual cues play a part in this also
When visual and vestibular cues are not synchronized, a sense of imbalance or nausea can occur
Inner Ear Semicircular canals
contain sensory receptors called crista and detect change in acceleration or deceleration.
Dynamic equilibrium 3 semicircular ducts,
each at 90 degrees to one another
Filled with endolymph and has an expanded base called an ampulla
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Ampulla of the semicircular canals Inside are clusters of
hair cells and supports cells (crista ampullaris)
These cells have stereocilia and a kinocilium enclosed in a gelatinous material called the cupula.
As the head is rotated, the endolymph pushes pushes against the stereocilia.
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Types of Hearing Loss
Conductive hearing loss occurs when sound is not conducted efficiently through the outer ear canal to the eardrum and the bones of the middle ear.
Sensorineural hearing loss occurs when there is damage to the inner ear (cochlea) or to the nerve pathways from the inner ear to the brain.
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Weber Test
Ring tuning fork and place on center of head. Ask the subject where they hear the sound.
Interpreting the test: Normally, the sound is heard in
the center of the head or equally in both ears.
Sound localizes toward the poor ear with a conductive loss
Sound localizes toward the good ear with a sensorineural hearing loss
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Rinne Test
Place the vibrating tuning fork on the base of the mastoid bone.
Ask patient to tell you when the sound is no longer heard.
Immediately move the tuning fork to the front of the ear
Ask the patient to tell you when the sound is no longer heard.
Repeat the process putting the tuning fork in front of the ear first
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Rinne Test Normally, someone will hear the vibration in
the air (in front of the ear) after they stop hearing it on the bone
Conductive hearing loss: If the person hears the vibration on the bone after they no longer hear it in the air.
Bing Test Similar to the Rinne Test Strike the tuning fork
and place it on the mastoid process.
With your other hand close off the auditory canal with pad of finger.
A person with normal hearing or one with sensorineurial hearing loss will hear the sound better when ear canal is closed.
A person with conductive hearing loss will not notice a change in sound
Sound Location Have lab partner sit
with eyes closed. Strike the tuning fork
with a rubber reflex hammer above head.
Have partner describe to you where the sound is located.
Try the following locations: behind head, right side, left side, in front of head, below chin
Postural Reflex Test Unexpected changes that move the body
away from a state of equilibrium cause postural reflexes to compensate for that change.
Important for maintaining the upright position of the body.
Negative feedback mechanisms Find an area w/o obstacles Stand on tiptoes and read lab manual Lab partner should give a little nudge to left or
right (not too hard)
Barany’s Test Tests visual responses
to changes in dynamic equilibrium.
Place subject in a swivel chair with four or five students close by.
Subject sits in chair and tilts head forward about 30 degrees
Spin the chair about 10 times
Notice twitching of the eyes (nystagmus) after stopping.
Romberg Test Tests static
equilibrium Subject stands with
back to the wall. Don’t lean on wall Stand for 1 minute
and have partner watch for swaying
Do the same exercise again but have subject close eyes
The End Identify structures on models View and identify structures on cochlea slides Make sure that you understand the tests What cranial nerve is being innervated with
the tests performed in lab?
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