2.1 Cochlear Anatomy ll

Question 1

What cells are also called the rod of corti?

Answer 1

Pillar cells

Question 2

What did experts think occurred at the rod of corti?

Answer 2

It used to be thought of as the source of cochlear resonance.

Question 3

What is the connection between the tectorial membrane and inner hair cell stereocilia? (2)

Answer 3

Stereocilia on the OHCs are physically embedded in the tectorial membrane, at least for OHCs.

IHCs, the stereocilia are bent by Henson’s strip and hydraulic coupling.

Question 4

What is the supporting cell at the top and bottom of the outer hair cell?

Answer 4

Deiter cells

Question 5

Where do hair cells contact the fluid? Which fluid?

Answer 5

Only the top surface of the HCs contact the endolymph. The bodies of the HCs are in fluid very similar to perilymph (Corti fluid)

Question 6

Where are tight junctions located in the organ of corti?

Answer 6

Around the tops of the HCs and supporting cells.

Question 7

What is the primary role of tight junctions located in the organ of corti?

Answer 7

To separate endolymph and perilymph.

Question 8

Where are tight junctions formed?

Answer 8

At the level of the reticular lamina.

Question 9

What is the basilar membrane permeable to?

Answer 9

Perilymph.

Question 10

What structure is located above the hair cells?

Answer 10

The tectorial membrane.

Question 11

What kind of structure is the tectorial membrane (composition)?

Answer 11

Gel protein and fibrous structure.

Question 12

How does the tectorial membrane relate to the outer hair cell and inner hair cell?

Answer 12

The stereocilia of the OHCs are physically embedded in the tectorial membrane, but the stereocilia of the IHCs are not.

Question 13

What direction do the connections of the tectorial membrane make the stereocilia move? When does this occur?

Answer 13

In a radial direction (from the modiolus to the lateral wall).
When the BM moves up and down.

Question 14

What are the two potential mechanisms that cause the bending of IHC stereocilia?

Answer 14

The potential mechanisms are Henson’s stripe and hydraulic coupling (vibrations of water—this one is more important).

Question 15

Which hair cells are supported by the Deiter cells?

Answer 15

OHC

Question 16

Describe what the “fingers” of the Deiter cells do?

Answer 16

The fingers go from the bottom of one OHC to the top of another OHC.

Question 17

What is the freedom of movement like for the outer hair cells?

Answer 17

The larger portion of the OHC bodies are free of contact with supporting cells. I.e., free to move

Question 18

What is the take home point of this image? What is it showing?

Answer 18

Deiter’s cells don’t attach to the OHC bodies. It is the fingers of the DCs that go from the bottom of one OHC to the top of another.

Question 19

What is meant by the mosaic shape as it relates to the hair cells?

Answer 19

Each HC in isolated from other HCs thus mosaic shape. Each is surrounded by supporting cells.

Question 20

What happens if the hair cells die?

Answer 20

Hearing loss—if HCs die, they can’t be regenerated.

Question 21

How do we number the outer hair cells from the inside out?

Answer 21

1, 2, 3 from the inside out.

Question 22

What supporting cells participate in making this mosaic shape? (2)

Answer 22

The Deiter cells and the outer pillar cells.

Question 23

Where is the stereocilia?

Answer 23

The stereocilia are on the top surface of the OC(i.e., on the reticular lamina)

Question 24

What is the difference in shape configuration for the OHC and IHC that we can observe on the reticular lamina?

Answer 24

OHC are 3 W-shape rows
IHC are single U straight line.

Question 25

How does the size of stereocilia change?

Answer 25

The most lateral is the tallest.

Question 26

How do the OHC and IHC differ in their contact with the sulcus cells?

Answer 26

IHCs—fully contacted with SCs. OHCs—largely free of contact with SCs.

Question 27

Why is the changing of shape important for OHC?

Answer 27

OHCs are responsible for the amplification of sound by changing shape. Therefore, they need to move freely.
(They are still restricted at the top and bottom. Only the length changes (shape change))

Question 28

What is the shape analogy of the OHC vs the IHC?

Answer 28

OHC—cylinder. IHC—vase.

Question 29

Is the OHC lateral wall thick or thin? What is the function of this?

Answer 29

OHC lateral wall is thick, which is what allows them to stand up without support of supporting cells.

Question 30

What is at the top and what is at the bottom of OHC? (2)

Answer 30

Contact with supporting cells at the top and bottom.
Tight junction at the top and the nuclei at the bottom.

Question 31

What type of neurons innervate the OHC? And which nerve?

Answer 31

Afferent: Type II SGNs. 5%
Efferent: Medial efferent.
Nerve: Auditory nerve.

Question 32

Where is there greater efferent innervation for OHC in the cochlea?
(Apex or Base)

Answer 32

Greater efferent innervation for the OHCs at the base of the cochlea

Question 33

What is the difference between the cuticular plate and the reticular lamina?

Answer 33

Cuticular plate is on top of each HC. Reticular lamina is the plate structure formed by the tops of HCs and supporting cells.

Question 34

Is the IHC lateral wall thick or thin?

Answer 34

Thin.

Question 35

Where is the nuclei of the IHCs and the nuclei of the OHC?

Answer 35

IHC: middle of the cell.
OHC: bottom

Question 36

Which type of neurons innervate IHC?

Answer 36

Afferent: Type I SGNs. Efferent: Lateral efferent

Question 37

Which innervation as it relates to the hair cell (IHC or OHC) is the main ascending info pathway? What about the other one?

Answer 37

IHCs- Type 1 SGN = main ascending information pathway from the cochlea to the brain.

The OHCs only synapse with type II SGNs, which we know very little about their functions.

Question 38

What is the major role of the OHC?

Answer 38

The major role of the OHCs is to not provide neuronal information pathway, but to provide mechanical amplification.

Question 39

What is the difference (in general and in one sentence) between an efferent and afferent pathway?

Answer 39

Afferent pathway: carries information to the brain. Efferent: carries information away from the brain.

Question 40

What is the cochlear innervation as it relates to the efferent and afferent pathway (hint, connect it to the IHC and OHC)

Answer 40

Afferent: IHCs to Type I SGNs and OHCs to Type II SGNs
Efferent: Medial efferent to OHCs, lateral efferent to IHCs

Question 41

What are the 4 main parts of the cochlear pathway in innervation (relating to structure).

Answer 41

Habenula perforata, Rosenthal’s canal, modiolus, internal auditory meatus.

Question 42

For the efferent pathway of OHC, where do the neurons pass for innervation?

Answer 42

The medial efferent fibers to OHCs form a bridge that goes THROUGH the tunnel of Corti.

Question 43

Cochlear duct is ________ at basal turn, OSL is _____ at base.

Answer 43

Larger
Wider

Question 44

The tunnel of Corti is supported by _________.

Answer 44

Pillar cells (rod of corti)

Question 45

What is the connection between DC and HC? (3)

Answer 45

• DCs are structurally strong
• Transfer BM vibration to hair cells
• The finger of DC goes up to other HCs—making
  longitude connection

Question 46

What is the link between the SC and the HC?

Answer 46

IHCs: vase shape, fully contact with SCs
OHCs: cylinder shape, largely free of contact with SCs

Question 47

What are 4 characteristics of OHC and their contact with the Sulcus cells?

Answer 47

Cylinder shape
Thick lateral wall,
Tight junction at top
Nuclei at bottom
Contact with SC at top and bottom

Question 48

How many layers do OHC have?

Answer 48

3, they have that many to help support their body.

Question 49

What is the name of the artery that supplies 80% of the blood in the cochlea?

Answer 49

Spiral Modiolar Artery

Question 50

IHC receive about ___ % of the afferent nerve fibers.

Answer 50

95%

Question 51

OHC receive about ____% of the afferent nerve fibers.

Answer 51

5%