Unit3_Audio&Vestibular&Otology

Question 1

___?___: series of pressure waves of alternating compression (increased density) and rarefaction (decreased density) of air molecules

Answer 1

Sound

Question 2

Intensity: increase of intensity in a sound is when the air is compressed more forcefully during peak compression each cycle → _______ density of air

Answer 2

increased density

Question 3

pressure at peak of compression = ?

Answer 3

“Loudness”

Question 4

Sound above ___dB → permanent hearing loss

Answer 4

120dB

Question 5

What makes up the External Ear?

Answer 5

• Pinna
• External auditory meatus
• ends at the tympanic membrane

Question 6

Pressure waves then moves tympanic membrane.

___1___ → TM bulges out

___2___ → TM presses in

Answer 6

1. Rarefaction

2. Compression

Question 7

What makes up the Middle ear?

Answer 7

The ossicles

• Malleus
• Incus
• Stapes

Question 8

How are the ossicles of the middle ear moved?

Answer 8

Via the movement of the Tympanic Membrane

Question 9

Acoustic impedance mismatch: Air-fluid boundary causes most acoustic energy to be reflected away,:

water → __1__ impedance

air → __2__ impedance

Answer 9

water → HIGH impedance

air → LOW impedance

Question 10

How does the middle ear and ossicles allow us to overcome the 30dB loss to impedance mismatch?

Answer 10

1. area of the TM is 20x greater than that of the stapes. This amplifies any vibration at the TM.
2. Ossicle oreintation → levering action = LARGER force.

Question 11

Damage to or loss of hair cells and/or nerve fibers is known as __________ hearing loss

Answer 11

Sensorineural hearing loss: damage to or loss of hair cells and/or nerve fibers

Question 12

Degradation of mechanical transmission of sound engery in the middle ear is known as __________ hearing loss.

Answer 12

Conductive hearing loss: degraded mechanical transmission of sound energy through middle ear.

Question 13

What are the common causes of Sensorineural hearing loss?

Answer 13

1) Excessively loud sounds
2) Exposure to ototoxic drugs (diuretics, aminoglycoside antibiotics, ASA, cancer therapy drugs)
3) Age (presbycusis) - lose high frequency hearing, as we age

Question 14

What are the common causes of conductive hearing loss?

Answer 14

1) Filling of middle ear with fluid during otitis media
2) Otosclerosis - arthritic bone growth impedes ossicle movement
3) Malformation of ear canal (swimmer’s ear, cauliflower ear)
4) Perforation/rupture of tympanic membrane
5) Interruptions of ossicular chain
6) Static pressure in middle

Question 15

How can you differentiate conductive vs. sensorineural hearing loss?

Answer 15

Can overcome conductive hearing loss by placing tuning fork against bone

Question 16

BM more flexible, wider, and thicker at apex → ___FREQUENCY VIBRATION

Answer 16

APEX = LOW FREQUENCY VIBRATION

Question 17

BM thinner narrower, and more rigid near oval and round window at base of cochlea
→ ___ FREQUENCY VIBRATION

Answer 17

BASE = HIGH FREQUENCY VIBRATION

Question 18

What are the three compartments of the Cochlea?

Answer 18

scala vestibuli, scala media, scala tympani

Question 19

What sits on top of the BM and in the scala media?

Answer 19

Organ of Corti

Question 20

What seperates the scala media and the scala tympani?

Answer 20

Basilar Membrane (BM)

Mechanical properties of BM key for discrimination of sound frequency.

Question 21

_________: hole in BM at apex of cochlea, connects scala tympani to scala vestibuli, relieves pressure → both have perilymph

Answer 21

Helicotrema

Question 22

Describes the process by which sound elicits movements of the BM.

Answer 22

Stapes hits oval window (during peak of compression) → oval window bulges into scala vestibuli = “traveling wave” - reaches max amplitude at certain location along length of BM.

Particles itself are NOT traveling with wave, just going up and down → downward movement of BM to relieve compressio → compress fluid in scala tympani → round window bulges out towards middle ear (pressure relief)

Opposite happens with rarefaction - round bulges in, oval bulges out

Question 23

_____________ : sensory receptor responsible for detecting sound pressure and converting mechanical vibration into a membrane potential change (transduction)

Answer 23

Inner hair cell (IHC)

Question 24

Where are stereocilia located on the inner hair cells?

Answer 24

Apical surface of IHC

Question 25

Pushing stereocilia bundle in direction toward longest stereocilia (Kinocilla) does what?

Answer 25

Depolarization

Question 26

Pushing stereocilia bundle in direction toward the shortest stereocilia does what?

Answer 26

Hyper-polarization

creasing a potential of 130mV, resulting in an end potential of +80mV (from the resting potential of -50mV)

Question 27

What is the fluid that is K+ rich that fills the scala media and bathes stereo cilia on the APICAL side of the hair cells called?

Answer 27

Endolymph

Question 28

What is the function of Stria Vascularis?

Answer 28

actively pumps K+ into the endolymph to maintain a high [K+] → creating endocochlear potential

Question 29

MUTATION in gap junction subunit, connexin 32 → collapse of endocochlear potential, congenital deafness is associated with what?

Answer 29

Stria Vascularis

Question 30

What is perilymph?

Answer 30

ionic composition similar to blood (high Na, low K+), fills scala vestibuli and scala tympani

Question 31

ionic composition similar to blood (high Na, low K+), fills scala vestibuli and scala tympani is known as what?

Answer 31

perilymph

Question 32

What connects the apex of stereocilla to the next adjacent taller stereocilla and plays a key role in the opening and closing of mechanically gated channels at the tips of stereocilla?

Answer 32

Tip-links

Question 33

The following describes what?

1. Generates shearing force (between basilar and tectorial membrane) that results in bending of hair cells.
2. Directly attached to outer hair cells.

Answer 33

Tectorial membrane

Question 34

Auditory nerve fibers: ______ fibers located at basal end of hair cells

Answer 34

Auditory nerve fibers: AFFERENT fibers located at basal end of hair cells

Question 35

Auditory nerve fibers: afferent fibers located at ______ end of hair cells

Answer 35

Auditory nerve fibers: afferent fibers located at BASAL end of hair cells

Question 36

Auditory nerve fibers: afferent fibers located at basal end of hair cells.

Cell bodies in ______1______.

Projects to _____2______ of brainstem.

Answer 36

1. spiral ganglion

2. cochlear nucleus

Question 37

From the hair cells, how are APs generated and sent to the second order neurons in the brainstem?

Answer 37

Hair cell depolarizes → open Ca2+ basolateral channels → synaptic vesicles release glutamate → excitation of afferent axon → AP sent to second order neurons in brainstem

Question 38

What is the cochlear amplifier?

Answer 38

Efferent innervation from central auditory system act upon OHCs to amplify movements of BM.

Question 39

Does the cochlear amplifier deal with IHC or OHC?

Answer 39

OCH - Outer Hair Cells

Question 40

OHCs responding to changes in voltage with a change in length is a process called __________.

Answer 40

“Electromotile”

Question 41

Voltage sensitive _________ protein → change length of OHC

Answer 41

Voltage sensitive PRESTIN protein → change length of OHC

Question 42

With regards to the cochlear amplifier, → OHC pulls BM toward or away from tectorial membrane → changes mechanical frequency selectivity of BM
→ Contributes __?_dB of cochlea’s sensitivity to sound.

OHC _________ movement of BM in a frequency dependent manner.

Answer 42

50dB

enhances

Question 43

What are Medial olivocochlear neurons (MOC)?

Answer 43

efferent neurons that innervate OHCs.

• senses contexts of sound env. and acts as feedback control of cochlear sensitivity (cochlear amplifier) and adjusts it to suit whether you are in a loud or quiet env.

Uses ACh.

Question 44

Is sensorineural deafness due to damage of IHCs or OHCs?

Answer 44

OHCs.

OHCs are more sensitive to damage from ABX and loud sounds.

Question 45

What is the pathophysiological process of the ototoxicity of ABX like streptomycin and gentamycin?

Answer 45

those ABX block transduction ch. of OHCs and can kill of OHCs = deafness

Question 46

____________ Cells: aka auditory nerve (8th CN), innervates hair cells

Answer 46

Spiral Ganglion

Question 47

Spiral Ganglion Cells: aka auditory nerve (8th CN), innervates hair cells.

Type I ANFs: innervate __1__, myelinated

Type II ANFs: innervate __2__, not myelinated

Answer 47

1. IHCs
2. OHCs

Type I ANFs: innervate IHC, myelinated
Make up 95% of ANFs
10-30 ANFs innervate a single IHC

Type II ANFs: innervate OHC, not myelinated
1 ANFs innervate 10 OHCs

Question 48

Unilateral lesions _______ to cochlear nuclei do NOT produce unilateral deafness

Answer 48

ROSTRAL

Question 49

_______ lesions and those including the CN produce unilateral deafness

Answer 49

CAUDAL

Question 50

______________ = physical separation in space of ears → different times of arrival of sound at two ears

Answer 50

Interaural time differences (ITD)

Question 51

______________ = ears separated by an obstacle (the head) → acoustic shadow for high frequencies

Answer 51

Interaural level differences (ILD)

Question 52

Duplex theory of sound localization:

Low frequencies → __1__
High frequencies → __2__

Answer 52

1. ITDs

2. ILDs

Question 53

______________________ : arise from direction and frequency dependent reflection and diffraction of pressure waveforms of sounds by pinna that result in broadband spectral patterns, or shapes, that change with location

Answer 53

Spectral cues - Monaural spectral shape.

Question 54

Spectral cues - Monaural spectral shape ~ primarily with ___ frequency sounds.

Answer 54

high frequency

Question 55

ITDs encoded in ________________ - nucleus of superior olivary complex

Answer 55

Medial superior olive (MSO)

Question 56

MSO contains input from CONTRALATERAL ear (already crossed in trapezoid body), so projects ___________ up to auditory midbrain

Answer 56

IPSILATERALLY

Question 57

MSO contains input from ____________ ear (already crossed in trapezoid body), so projects IPSILATERALLY up to auditory midbrain

Answer 57

CONTRALATERAL

Question 58

MSO receives excitatory input from both ears via cells of the what nucleus?

Answer 58

anteroventral cochlear nucleus (AVCN).

AVCN receive excitatory inputs from ANFs
AVCN organized tonotopically

Question 59

1) Afferent input to MSO neurons from ANF/AVCN carry timing info via ___________ neural responses.
2) MSO neurons = ___________ (what type of detectors) → maximal response when AP from AVCN cells from L ear coincide with R ear.
3) Axons of AVCN cells input to MSO form delay lines due to differences in _________ (what?) from AVCN to MSO → differences in neural conduction times to MSO; Projection to contralateral MSO = longer path length than ipsilateral MSO

Answer 59

1) phase-locked
2) coincidence detectors
3) neural path length

All 3 → *Allows for a place code for the horizontal location of sounds in terms of timing between the two ears

Question 60

ILDs encoded by the ______________ olive.

Answer 60

ILDs = Lateral superior olive (LSO)

Question 61

Ipsilateral ear input to LSO conveyed via ANF synapses with AVCN cells → ___(which side?)___ LSO

Answer 61

ipsilateral LSO

Question 62

Contralateral ear input to LSO conveyed from AVCN → across midline to neurons of ____1. what nucleus?___

AVCN synapse onto MNTB = ____2____= LARGEST synapse in entire CNS.

MNTB neurons = ____3____→ inhibitory effect on LSO

Answer 62

1. medial nucleus of trapezoid body (MNTB)
2. calyx of Held
3. glycinergic

Question 63

The net results of ILS encoded by the LSO is the ____1____ excitation and ____2____ inhibition of LSO neurons allowing computation of difference between intensity of sounds present at the two ears.

Answer 63

1. ipsilateral excitation

2. contralateral inhibition

Question 64

ILDs:

Spectral cues encoded in _____________ Nucleus → across midline to excitatory synapse on inferior colliculus.

Answer 64

Dorsal Cochlear Nucleus.

Lesion → can’t tell if sound is above or below you, but can still localize in horizontal plane.

Question 65

Primary auditory cortex A1 = Brodmann’s area ?

Secondary auditory cortex A2 = Brodmann’s area ?

Answer 65

Primary auditory cortex A1 = Brodmann’s area 41

Secondary auditory cortex A2 = Brodmann’s area 42

Question 66

Clinical importance: IC represents sound in contralateral hemisphere, and MSO, LSO and DCN reconverge at contralateral IC.

Unilateral lesions in IC or above → deficits in sound source localization for sources contralateral to lesion.

IC sends excitatory projections to ipsilateral thalamus medial geniculate body (MGB) → auditory cortical areas located in superior temporal gyrus

Answer 66

Clinical importance: IC represents sound in contralateral hemisphere, and MSO, LSO and DCN reconverge at contralateral IC.

Unilateral lesions in IC or above → deficits in sound source localization for sources contralateral to lesion.

IC sends excitatory projections to ipsilateral thalamus medial geniculate body (MGB) → auditory cortical areas located in superior temporal gyrus

Question 67

What are the Otolith organs? (3)

Answer 67

• Utricle
• Saccule
• Sensory epithelia (Maculae)

Question 68

Where is the Utricle and what is its function?

Answer 68

lies at floor of vestibule.

Senses position of head with respect to gravity.

Question 69

Where is the Saccule and what is its function?

Answer 69

hangs vertically on lateral wall of vestibule.

Senses linear acceleration in vertical direction

Question 70

Sensory epithelia (maculae): contains hair cells and supporting cells, with ____1____ surface overlaid with gelatinous mass knwon as what?

Answer 70

1. apical

otolithic membrane

Question 71

Sensory epithelia (maculae) has thousands of hair cells and otoconia (Calcium carbonate crystals) that lie over hair cells on sensory epithelia
→ assist with what function?

Answer 71

gravity detection, postural changes = “static” receptors

Question 72

Hair cell axes of polarity are _________ in utricle and saccule.

Answer 72

OPPOSITE

Saccule hair bundles oriented facing AWAY from striola (Central region of epithelium) while utricle hair bundles face TOWARDS
→ maximum excitation (depolarized) of one group of hair cells, while opposing hair bundle orientations maximally inhibited (hyperpolarized)

Question 73

What is the func. of Sensory epithelia (maculae)?

Answer 73

Function: Detect linear acceleration (change in velocity) of head and position with respect to gravity

Question 74

What are the 3 semicircular canals?

Answer 74

horizontal, anterior, and posterior canals

Question 75

Which 3 semicircular canals works in the following way?

the canals on L and R work together - while one is maximally stimulated the other is maximally inhibited.

Answer 75

Horizontal Canals

Question 76

Which 3 semicircular canals works in the following way?

____1____ canal on one side works with ____2____ canal from other side

Answer 76

1. Posterior

2. Anterior

Question 77

The swelling at one end of each canal with specialized patch of epithelium, “crista” → contain sensory hair cells is called what?

Answer 77

Ampulla

Question 78

Describe the functional process of the Ampulla.

Answer 78

Hair bundles project into cupula (gel-like substance).
Endolymph moves cupula and stimulates hair cells in the crista ampullaris → Firing rate will increase, and then adapt (due to endolymph inertia).

Hair bundles in a given crista all have kinocilia oriented the same way → when cupula deflected by endolymph during a movement of the head, all hair bundles in a given crista deflected the same way.

Question 79

The tallest cilium within on one side of hair bundle is known as the what?

Answer 79

Kinocillium

Question 80

What are tip links?

Answer 80

connect adjacent cilia, and their lower end to an ion channel

Question 81

____1____ = high K+, low Na and Ca2+

____2____ = low K+, high Na and Ca2+

Answer 81

1. Endolymph = high K+, low Na and Ca2+

2. Perilymph = low K+, high Na and Ca2+

Question 82

during head rotation, vestibular system signals how fast head is moving and oculomotor system responds to keep visual field stable.

This reflex is known as what?

Answer 82

Vestibular Ocular Reflex (VOR)

Question 83

In the VOR, eye movement will be in the ________ direction from the head rotation.

Answer 83

OPPOSITE

Question 84

in VOR:

Move head left → endolymph moves in opposite direction to rotation → hair cells excited on ___1___, inhibited on ___2___. (which side)

Answer 84

1. LEFT

2. RIGHT

Question 85

In VOR:

1) Vestibular afferent fibers synapse in ________ nucleus.
2) _________ nerve innervates medial rectus on LEFT side (excite, contract).
3) At same time, get excitatory signal from LEFT horizontal canal via (what CN?) nerve to excite lateral rectus muscle on RIGHT eye

Answer 85

1. vestibular
2. Oculomotor
3. CN6

Question 86

Where is the Vestibular nuclei and what is its overall function?

Answer 86

Vestibular nuclei: located at border of caudal pons and rostral medulla, integrate vestibular signals with information from spinal cord, cerebellum, and visual system.

Question 87

What are the 4 nuclei of the Vestibular nucleus?

Answer 87

1. Superior Vestibular nucleus
2. Medial Vestibular nucleus
3. Desc/Inferior Vestibular nucleus
4. Lateral Vestibular nucleus

Question 88

_____which two?_____ Vestibular nuclei: receive fibers mostly from semicircular canals.

→ Gaze control
→ medial longitudinal fasciculus/medial vestibulospinal tract → oculomotor nuclei and cervical motor neurons of neck musculature
Coordinates eye and head movements

Answer 88

Superior and Medial Vestibular nucleus

Question 89

Coordination of eye and head movements are the functions of what Vestibular Nuclei?

Answer 89

Superior and Medial Vestibular nucleus

Question 90

_______________ Vestibular Nuclei:
Input from saccule, utricle, and semicircular canals, spine, and cerebellum
All projects to vermal cerebellum, reticular formation, and other brainstem centers

Answer 90

Descending/Inferior Vestibular nucleus

Question 91

____________ Nuclei: input from canals and otoliths
Aka lateral vestibulospinal tract → excitation of extensor muscles of limbs, postural reflexes
Also gets input from spine and cerebellum

Answer 91

Lateral Vestibular nucleus

Question 92

Utricles → lateral, medial, inferior vestibular nucleus.

Spine and cerebellum → lateral nucleus.

Semicircular canals → medial, superior vestibular nuclei.

Answer 92

Utricles → lateral, medial, inferior vestibular nucleus.

Spine and cerebellum → lateral nucleus.

Semicircular canals → medial, superior vestibular nuclei.

Question 93

Second-order cells in different nuclei project to different regions of CNS, and some project directly to ____________ lobe of cerebellum

Answer 93

flocculo-nodular lobe

Question 94

_______________ reflex helps maintaine head stability and upright stance of the head.

Answer 94

Vestibulo-collic reflex (VCR)

Question 95

_______________ reflex assist balance and provide a framework for coordinated motion of the limbs during ambulation.

Answer 95

Vestibulospinal reflex (VSR)

Question 96

when you don’t have to tell your arms and legs where to go to help your balance, and when you do fall down, this reflex helps to break your fall. d

Answer 96

Vestibularspinal Reflex (VSR)

Question 97

What does a value of Zero indicate on an audiogram?

Answer 97

0 = normal hearing threshold of a young adult

Question 98

The pt. should have good clarity at a decibel level adequate for patient. If not, what is likely wrong?

Answer 98

a neural hearing loss issue like schwannoma

Question 99

_____________: gradual, progressive, bilateral hearing loss caused by degenerative physiologic changes associated with aging.

Answer 99

Presbycusis

• Decreased hearing threshold sensitivity.
• Decreased ability to understand suprathreshold speech.
• Central auditory process impairment.

Question 100

Noise exposure that leads to noise trauma will result in an audiogram that looks like what?

What type of hearing loss is this?

Answer 100

Audiogram with have a sharp peak in the higher freq.

Noise truama ~ Sensory Hearing Loss

Question 101

Name some common Ototoxic agents:

Answer 101

• aminoglycosides (gentamicin)
• loop diuretics
• cancer agents (cis-platinum)
• macrolides (erythromycin)
• ASA
• quinine
• hydrocodone
• viagra

Question 102

What is Endolymphatic Hydrops

Answer 102

• expansion/distention of endolymphatic compartment of the inner.
• idiopathic and pathological with recurrent episodes of VERTIGO, sensorineural hearing loss, tinnitus, and aural fullness.

Question 103

Disordered inner ear fluid homeostasis causes dysfunction in what?

Answer 103

Stria Vascularis; Vascular dysfunction and/or vasculitis.

• Systemic metabolic disorders: DM, hyperthyroidism, renal failure, arteriosclerosis.
• Immune system disorders: lupus, Cogan’s syndrome, sarcoidosis, Wegener’s granulomatosis, autoimmune inner ear disease

Question 104

Endocochlear potential is the normal func. of what ear structure?

Answer 104

ORGAN OF CORTI

• Serves as driving force for ion movement in sensory transduction.
• Issue with pumping of K+ and EC ion conc.

Question 105

Meniere’s Disease = aka?

Answer 105

Endolymphatic Hydrops: a swelling of the endolymphatic space~distention

Question 106

a swelling of the endolymphatic space~distention = ?

Answer 106

Meniere’s Disease = Endolymphatic Hydrops

Question 107

What is the Tx of sensorineural hearing loss?

Answer 107

• Air Conduction Hearing Aids
• Implantable Hearing Aids
• Cochlear Implants
	○ Eclectically stim the ear
	○ Indicated in peds after age 1.; Will allow them to dev normal speech and language. 
• Assistive Listening Devices
•Speech and Language Training

Question 108

How do you Tx a Vestibular Schwannoma?

Answer 108

Surgical Resection

Stereotactic Radiosurgery: a single dose drug that stops the tumor from growing.

Question 109

Neurofibromatosis Type 2 (NF2) is ~ what hearling loss disease?

Answer 109

NF2 is a form of Vestibular Schwannoma.

the other form is sporadic.

Question 110

What is a Cholesteatoma in the ear?

Answer 110

○ Skin cyst ~ Squamous epi
○ NOT CANCERS!
○ Erosive and espansile --> destructions of the bone of the middle ear.
	§ Can spread to the base of skull.
○ Leads to chronically draining ears.

Question 111

Is Cholesteatoma cancerous?

Answer 111

NO!!!

Question 112

• __dB is normal hearing threshold.

* __ - __dB is conversational level.

Answer 112

• 25dB is normal hearing threshold.

* 50-60dB is conversational level.