Ears and eyes

Question 1

What is the optic nerve?

Answer 1

A sensory nerve.

Question 2

What is the oculomotor nerve?

Answer 2

The output nerve from the brain back to the eye.

Question 3

What happens if the ciliary muscle in the eye is contracted?

Answer 3

releases tension on the zonular fibres, which allows lens to return to a spherical shape
Focus on close objects

Question 4

What happens if the ciliary muscle is relaxed?

Answer 4

zonular fibres pull lens into flattened, oval shape

Focus on distant objects

Question 5

What is shortsightedness?

Answer 5

When the eyeball is too long and the lens is too rounded

can’t focus on far objects.

Question 6

What is longsightedness?

Answer 6

The eyeball is slightly too flat.

Can’t focus on near objects

Question 7

What is cataracts?

Answer 7

When the lens becomes cloudy.

Question 8

What is glycoma?

Answer 8

Too much pressure inside the eyeball.

can damage the retina

Question 9

What are the two possible causes for glycoma?

Answer 9

Too much fluid (aqueous humour) may be being produced or the draining process may not be occurring correctly.

Question 10

What are the two treatments for glycoma?

Answer 10

Prostaglandin analogues to increase the drainage or beta-blockers to decrease production of the fluid.

Question 11

What do rods do?

Answer 11

Perceive light and dark.

sensitive and respond well to low light

Question 12

What do cones do?

Answer 12

Perceive red/green/blue light.

respond to bright light

Question 13

How are neurones in the eye different to other neurones?

Answer 13

They constantly fire action potentials in the dark - a silent neurone is firing action potentials.

Question 14

How does light change the way the neurones act?

Answer 14

Light causes the molecules in redopsin receptors to change shape and the the cell becomes less depolarised and is less likely to fire action potentials when light is present.

Question 15

What happens to rods if they are constantly exposed to light?

Answer 15

They become bleached.

Question 16

How is the input from the eyes to the brain different to the body?

Answer 16

The right side of the brain receives a little bit of input from the right eye and vice versa for the left side due to the overlap of the left and right visual fields.

Question 17

Why can you not see colour in the dark?

Answer 17

Cones can only function in bright light conditions.

Question 18

How does colourblindness arise?

Answer 18

The wavelengths of the different cones overlap as the cones are slightly different to normal.

Question 19

What is the difference between the primary visual cortex and the secondary visual cortex?

Answer 19

The primary receives input from the eyes and the secondary interpret what our eyes are telling us to see.

Question 20

What does the frontal lobe association area/cortex do?

Answer 20

Interprets our emotion from the images we see and can tell us whether something should be feared.

Question 21

What does the chochlea do?

Answer 21

Turns vibrations into sound. The fluid in the cochlea vibrates and hair cells respond to the sound coming into the ear.

Question 22

What is the cochlea?

Answer 22

The fluid filled inner ear.

Question 23

What are the semi-circular canals of the vestibular involved in?

Answer 23

Balance.

Question 24

How is the sensation of dizziness created?

Answer 24

When spinning around, the fluid in the vestibular continues moving which creates the sensation.

Question 25

Why does motion sickness occur?

Answer 25

There is a sensory mismatch, as our eyes tell us we’re stationary but the vestibular apparatus is activated.

Question 26

What are antihistamines?

Answer 26

Antagonists of histamine receptors that are involved in motion sickness.

Question 27

What can antihistamines be used to treat?

Answer 27

Sleep, hayfever, motion sickness.

Question 28

What is the difference between antihistamines used to treat motion sickness and sleep and those used to treat hayfever?

Answer 28

In motion sickness and sleep the antihistamines need to be able to cross the blood-brain barrier.

Question 29

binocular zone

Answer 29

where left and right visual fields overlap

Question 30

auditory vestibular nerve

Answer 30

provides input from ears

Question 31

What is the shape of the lens controlled by and how does it work

Answer 31

ciliary muscle
stimulated by parasympathetic nerve, contracts and lessens tension on the zonular fibres
makes the lens more spherical and more refraction (closer objects)

Question 32

why does light refract when passing into the eye

Answer 32

because the cornea is denser than air

Question 33

Macular degeneration

Answer 33

loss of vision in centre of visual field

Question 34

detached retina

Answer 34

retina becomes physically detached from the back of the eyeball

Question 35

what type of cells are rods and cones

Answer 35

photoreceptors

Question 36

what happens when rods and cones are stimulated

Answer 36

light signal converted into electrical through interaction of rods and cones with bipolar and ganglion cells

Question 37

in the absence of light

Answer 37

action of guanylyl cyclase converts GTP into cGMP
cGMP binds to cation channels and opens them
Na+ and Ca2+ flow in
The cell maintains a relatively depolarised state

Question 38

In the presence of light

Answer 38

Light strikes retinal, which changes in conformation and dissociates from opsin
There is an interaction between opsin and transducin and transducin activates cGMP-phosphodiesterase, which degrades cGMP
A decrease in cGMP means cation channels close, so hyperpolarization occurs

Question 39

what is the first step of hearing

Answer 39

the entrance of soundwaves into the external auditory canal, which amplifies and directs sound
Air molecules push up against the tympanic membrane and cause it to vibrate at the same frequency as a soundwave
The temporal membrane separates the auditory canal from the middle ear

Question 40

what are the receptor cells of the organ of corti (cochlea) called

Answer 40

hair cells

Question 41

what are the hair cells

Answer 41

mechanoreceptors that have hair-like stereocilia protruding from one end.
Movement of the tectorial membrane with sound waves moves cilia on the hair cells and effects neurotransmitter release by the hair cells

Question 42

where are hair cells also found (excluding cochlea)

Answer 42

vestibular system

Question 43

function of hair cells in vestibular system

Answer 43

detect changes in motion and position of head by stereocilia transduction mechanism similar to that of cochlear hair cells

Question 44

A rounded lens refracts more/less?

Answer 44

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