Sound Conduction and Transduction Flashcards

1
Q

What scale is used to measure how loud a sound is?

A

Decibels (logarithmic scale)

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2
Q

What is the audible range for humans in terms of frequency?

A

20-20,000 Hz

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3
Q

What is the name given to the wing shaped flap skin and cartilage that makes up the outer ear?

A

Pinna

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4
Q

Describe the shape of the outer ear and its importance.

A

It is conical – starts off wide at the external auditory meatus and narrows to the tympanic membrane
This focuses the noise and increases the pressure on the tympanic membrane

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5
Q

Is the tympanic cavity fluid-filled or air-filled?

A

Air-filled

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6
Q

State 2 ways in which the ossicles increase the pressure of vibration of the tympanic membrane.

A

Focussing the vibrations from the large surface area of the tympanic membrane to the small surface area of the oval window – this decrease in surface area means that the pressure is increased

The incus has a flexible joint with the stapes, such that the ossicles use leverage to increase the force on the oval window
This amplifies the sound by 30 dB

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7
Q

What is the point of the middle ear? Why isn’t the tympanic membrane continuous with the cochlea?

A

The cochlea contains fluid, in which you are trying to induce a pressurewave

If the tympanic membrane was continuous with the cochlea, you would go straight from air to fluid and 99% of the energy will bounce back due to impedance

Sound waves require more energy to travel through fluid than air so the increase in pressure of vibration allowed by the ossicles is crucial for this conduction

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8
Q

What 2 muscles are involved in making sure that the ossicles aren’t damaged by excessive vibration due to loud noise?

A

Tensor Tympani

Stapedius

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9
Q

What is the name given to this reflex?

A

Auditory reflex

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10
Q

What is the latency period of this reflex?

A

50-100 ms

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11
Q

What is hyperacusis?

A

Painful sensitivity to low intensity sounds – can occur in conditions that lead to flaccid paralysis of the auditory reflex muscles (e.g. Bell’s Palsy)

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12
Q

Which test is used to determine the site of damage to the auditory system, that is causing hearing loss?

A

Weber Test

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13
Q

What are the 2 specialised membranes of the cochlea?

A

Oval Window

Round Window

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14
Q

What are the three compartments of the inner ear?

A

Scala Vestibuli
Scala Media
Scala Tympani

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15
Q

Which types of fluid do each compartment contain?

A

Scala Vestibuli + Scala Tympani = perilymph

Scala Media = endolymph

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16
Q

What structure connects the two perilymph compartments?

A

Helicotrema

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17
Q

Describe how the cochlea functions.

A

The vibration of the tympanic membrane is conducted and amplified to a vibration of the oval window by the footplate of the stapes.
This vibration induces a pressure wave in the perilymph in the scala vestibuli.
This vibrates the scala media leading to vibration of the basilar membrane.
The round window vibrates as well to equalise the pressure in the cochlea.

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18
Q

Describe the difference in sensitivity of different parts of the basilar membrane.

A

Higher frequency sounds = base

Lower frequency sounds = apex

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19
Q

What is the Organ of Corti?

A

The sense organ of the cochlea, which converts sound signals into nerve impulses that are transmitted to the brain via the cochlear nerve

20
Q

Where is the Organ of Corti found?

A

It lies on top of the basilar membrane and beneath the tectorial membrane

21
Q

What are the two types of cell in the organ of corti?

A

Inner and outer hair cells

22
Q

Describe the features and function of inner hair cells.

A

Found on their own

densely innervated- multiple axons per cell
Not in contact with the tectorial membrane
Send impulses to the brain

They have stereocilia that move in response to the movement of endolymph in the scala media

Roughly 3500 in the body

23
Q

Describe the features and function of outer hair cells.

A

Found in groups of three

They are in contact with the tectorial membrane

They receive input from the brain

sparsely innervated- 1 axon for multiple cells

Electromotile so can expand and contract to amplify the amount of vibration (this is the basis of the cochlear amplifier)
Damage can result in sensorineural hearing loss
Roughly 20,000 in the body

24
Q

Which compartment of the cochlea does the stereocilia of the hair cells project into?

A

Endolymph (base is in the perilymph)

25
Q

What internally generated sounds are the outer hair cells responsible for?

A

Otoacoustic emissions

26
Q

What are stereocilia connected by?

A

Tip links

27
Q

What bony conical structure is found at the middle of the cochlea?

A

Modiolus

28
Q

Describe what happens when the basilar membrane is displaced upwards.

A

Stereocilia move away from the modiolus
K+ channels open
K+ enters from the endolymph
Depolarisation
this causes Ca+ channels in body of hair cells to open
glutamate released- depolarises axon of spiral ganglion cell

29
Q

Describe what happens when the basilar membrane is displaced downwards.

A

Stereocilia move towards the modiolus
K+ channels close
Hyperpolarisation

30
Q

Describe the difference in K+ and Na+ concentration in the different compartments of the cochlea.

A

Scala Media = High K+ and Low Na+

Scala Tympani = High Na+ and Low K+
NOTE: stria vascularis maintains this concentration

31
Q

Describe the auditory pathway from the cochlea to the primary auditory cortex.

A

Spiral ganglion -> cochlear nuclei -> superior olive -> inferior colliculus -> medial geniculate nucleus -> primary auditory cortex

32
Q

Up to what point is the auditory pathway from one ear ipsilateral?

A

Cochlear nuclei

Beyond this point there is bilateral representation

33
Q

The inferior colliculus receives input from both cochlea. What is the inferior colliculus responsible for?

A

Reflex associations – turning your head towards loud noise

34
Q

Describe a phenomenon that is involved in sharpening the signal coming from the cochlea.

A

Lateral inhibition

35
Q

To which parts of the CNS do collaterals from the auditory pathway go?

A

Reticular formation

Cerebellum

36
Q

In which lobe is the primary auditory cortex?

A

Temporal

37
Q

What is the secondary auditory cortex responsible for?

A

Responding to sounds coming off/on

Responding to the duration of sound

38
Q

What is the name given to the axons that project from the medial geniculate nucleus to the primary auditory cortex?

A

Acoustic radiations (they travel via the internal capsule)

39
Q

How do you localise short sound burst?

A

Interaural time delay

40
Q

How do you localise continuous sound?

A

Interaural intensity difference

41
Q

What is conductive hearing loss?

A

When diseases of the middle ear damage the ossicles or stiffen theirjoints so that the amplification system is eliminated – results in conductive hearing loss

42
Q

What is sensorineural hearing loss and what can it be caused by?

A

When the cochlea or cochlear nerve get damaged, the signal transmitted to the primary auditory cortex is reduced or lost

It can be caused by acoustic schwannoma (tumour of the cochlear nerve) or cerebellar tumours expanding and putting pressure on thecochlear nerve

43
Q

What is the term used to describe loss of hearing due to the death of hair cells in normal ageing?

A

Presbyacusis

44
Q

what are the different causes of conductive hearing loss

A

Outer ear:

  • congenital: collapse/ closure of ear canal
  • Wax blocking
  • foreign bodies
  • external otitis
  • exostosis- benign bony growths in ear

middle ear:
-acute otitis media
-otitis media:
o no cholesteatomatous: with or without perforation
o cholesteatoma
-otosclerosis- soft spongy growth of new bone

45
Q

what are the different causes of sensoryneuronal hearing loss

A

inner ear:

  • Presbyacusis
  • sudden- unexplained
  • ototoxic drugs- eg cisplatin
  • infections
  • noise induced : trauma or long term exposure