Cornea, lens and virteous

Question 1

-what is the function of the eye

Answer 1

• whole structure of the eye is related to its primary function as an organ of photoreception
• the eye is designed to convert light energy into electrical energy (action potentials) which the brain then interprets as an image

brain can only interpret electrical energy in the form of action potentials

Question 2

what structure is behind the cornea

Answer 2

• fluid filled structure called aqueous humour

- which lies in the anterior chamber

Question 3

what structure lies behind the anterior chamber

Answer 3

• the iris - which is the coloured part of the eye

Question 4

• where is the anterior segment located and what does it include

Answer 4

• • anything that is in front of the lens is the anterior segment
• -

the cornea, lens the anterior chamber , the iris

Question 5

where is the posterior segment located

Answer 5

• anything below the lens is the posterior segment

Question 6

where is the posterior chamber located

Answer 6

• the posterior chamber is part of your anterior segment - it is between the iris and the lens

Question 7

what is the differnece between the posterior and anterior segments and the posterior and anterior chambers

Answer 7

• the segments are the parts of the eyes in front of the lens and behind the lens - these are not specific structures and these segments are compirsed of several structures
• and the chambers are specific parts of the eye -

Question 8

what is the average axial length of the eye

Answer 8

• the axial length is from the front of the cornea - - the length of the eye from front to back -

the average axial length is 24mm

• this affects your vision because of focusing - if your eye is of the appropriate length and it has the right power - it all comes to a single point - if the eye is too short - your eye would focus on two seperate pints and your image would be blurred - and if your eye was too long the light would focus on two seperate points - which means that you would have a blurred image because it is not focusing on a single point

Question 9

if you have an eye that is too long what refractive error would you have -

Answer 9

• if your eye is too long you would be short sighted - ,myopic
• axial length - 26-29mm
• because if your eye is too long that means that images that are coming from very far away - they will not be focusing on a single point - if you are looking at a near image the light will be in a divergent pattern - which means that your eye will have to do a lot more work to refract it - so that by the time it gets to the back of the eye it gets to a single point.
• that is why if your eye is too long you become short sighted because near objects the light is not coming straight on it is already coming in a divergent pattern - - your eye has o do more work the more distance their is the better it is for the eye - having a long eye allows you to see close objects better - but then your not able to see far away objects because if your looking at anything that is far away and the light is coming straight on by the time it gets to the back of the eye it is not focusing on a single point
• light is focused in front of the retina
• increase in axial length of the eye increases the converging light rays to be focused in front of the retina

Question 10

if your eye is too short what refractive error would you have ?

Answer 10

• you have axial hypermetropia which means that you are long sighted
• eye = too short - 20mm
• near objects appear blurry
• light rays entering the eye are focused behind the retina
• short axial length of the eye

Question 11

in what segment is the virteous humour?

Answer 11

• the virteous humour is in the posterior segment of the eye

Question 12

what is the refractive index

Answer 12

• how fast light travels through a material

- air has a refractive index of 1

Question 13

what is the degree of refraction porportional to

Answer 13

• degree of refraction is proportional to the difference in refractive (n) between the two optical media
• refraction = bending light

when you are moving from one medium to another e.g. air to water - or air to aqueous humour - any sort of difference in medium changes the direction - of the light

• the bigger the difference between the two media - the greater the change in direction -
• the light will be refracted more if you have a greater difference in the refractive index between the two media - the light will be bend a lot more
• -

Question 14

why is the cornea a important structure in terms of refraction

Answer 14

air has a refractive index of 1 and will hit the cornea which has a refractive index of 1.37- so their is a difference of 0.37

• at the corneal interface - at the cornea you will have a tear film - - we call this the air/tear film interface
• because their is a big difference in refrcative index their is a fairly big difference in the direction of the light -

when it comes to the lense - it is in the aqueous humour

• aqueous humour has a refractive index of 1.33 and the lense has a refractive index of 1.41 - the difference is only 0.08- which means that although the lens is important in refraction - it will not have a much of an impact as the cornea will that is because their is not much difference between the refractive indicies of the aqueous humour and the lens -

Question 15

how much refractive power does the cornea account for

Answer 15

• the cornea accounts for 2/3 of refractive power of the eye (43 dipoters)

Question 16

describe the structure of the cornea

Answer 16

• transparent structure - if it is not transparent then the light will not be able to get through - cornea needs to be transparent
• oval shaped - 10.6mm vertically and 11.7mm horizontally - shorter vertically than horizontally - when you are measuring the pressure of the eye the thickness of the eye affects it
• thinner centrally (- 540 um) and thicker peripherally ( - 670 um)
• presents a physical barrier against trauma and infection

Question 17

why does the cornea account for more refractive power than the lens

Answer 17

• because their is a big difference in the refractive index between air and the cornea and the tear film interface the cornea is responsible for 2/3 of the total refractive power of the eye
• the eye itself has a refractive power of 60 diopters and the cornea is responsible for 43 and your lens is responsible for 17- 20 because it can change its shape

Question 18

what is refractive power a function of and how does this affect the cornea and the lens

Answer 18

• refractive power is a function of the difference in the refractive indicies between two media
• air/ tear film interface at the cornea - large difference - high refraction
• aqueous/ lens interface - smaller difference - less refraction

Question 19

how does the cornea maintain its transparency

Answer 19

• avascular structure (i.e. no blood supply)- no blood vessels in the cornea
• smooth epithelium
• regular stromal arrangement
• relatively dehydrated - compared to the aqueous humour is fairly dehydrated - their is not a lot of water in the cornea - the more water their is the more opaque something becomes

Question 20

what are the 5 layers of the cornea

Answer 20

• corneal epithelium - top of the cornea - around 5 to 6 layers thick
• bowmans layer - this layer has no cells - acts as a support to the epithelium
• stroma- usually 200- 250 layers thick
• decesments membrane - basement membrane for the corneal endothelium which is at the bottom
• endothelium

Question 21

describe the structure of the corneal epithelium

Answer 21

• stratified (layered), squamous (cell type thats in the corneal epithelium) , non keratinised epithelium
• 5- 6 layers thick
• 50- 60 micrometers thick

stem cells present at the limbus- limbus is the edge of the cornea - where the cornea ends and the sclera starts (palisades of vogt)

• these stem cells repilcate by mitosis allowing replacement of the epitheliel cells - if you lose corneal epitheliel cells then your cornea is unable to repair itself
• that can lead to epitheliel defects
• corneal epithelium responds to disruptions by amboeid sliding movements - - esentially covering the defect -
• corneal epi

corneal epithelium responds to disruptions by ammeboid sliding movements

Question 22

describe the structure of bowmans layer

Answer 22

• acellular
• composed of collagen
• 8-12 um thick - very thin
• cannot repair itself - compared to corneal epithelium the stem cells cannot replacde those cells- because it is an acellular structure - corneal epithelium heals by scarring -

Question 23

describe the structure of the cornea

Answer 23

• 90% corneal thickness
• 200- 250 layers of collagenous lamellae
• modified star shaped fibroblasts called keratocytes lie between each lamellae
• the lamellae are regualy arranged - which is essentail for corneal transparency
• if the cornea wasnt regualry arranged it would be white and you wouldnt be able to see anything at all -
• important because the sclera- which is the white of the eye- has the same structure as the cornea - because the collagen instead of being layer over layer is just a random arrangement you end up with a white structure.

Question 24

how is the stroma involved in the maintence of corneal transparency

Answer 24

• regular arrangement of the collagenos lamellae - keatcoytes help maintain the regular arrangement
• regular diametre and spacing of collagen fibrils- allows them to maintain the regular arrangement - regulated by glycosamnioglycans (GAGS)
• No blood or lymphatic vessels present in the stroma - would interfere with light entering the cornea
• state of relative dehydration - not a lot of water in the stroma

Question 25

why is the sclera white

Answer 25

• because of the irregular arrangement of the collagenous lamellae

Question 26

describe the structure of descements membrane

Answer 26

• descements membrane is composed of a fine lattice of collagen fibrils (different from the collagen in the stroma)
• 8-12 micrometres thick
• acts as a basement membrane for the corneal endothelium

-

Question 27

what is corneal oedema

Answer 27

• when the cornea becomes filled with water

- the descements membrane which is very thin begins to fold on itself

Question 28

describe the structure of the corneal endothelium

Answer 28

• at the bottom of the cornea
• simple sqaumous epithelium - it dosnt have several layers -
• an epithelium is a tissue whose cells lie on a basement membrane
• the corneal endothelium is of the epitheleil cell type - epithelium = any tissue that lies on a basement membrane
• csince the conreal endothelium lies on descements membrane - which acts as a basement membrane - the tissue type is epitheliel - however the tissue itself is distinct from the corneal epithelium

critical role in maintaining level of corneal hydration

• has lots of mitchondria - lots of energy needed to actively pump water out of the stroma

because it lies on a basememt membrane the tissue type is epitheliel cells - the corneal endothelium which is the layer in the bottom has a epitheliel cell type because of descements membrane

corneal endothelium is esponsible for maintaining the corneas relative state of dehydration - corneal endothelium uses energy to push water out of the stroma

Question 29

describe the corneal endthelium pump

Answer 29

• to maintain corneal clarity , endothelium has sodium pottasium atpase pump (active transport) to pump sodium ions ( low water potential) back out of the aqueous from the cornea against a conc grad
• water moves down the conc grad and the stroma is kept realtively dehydrated

-

Question 30

why does damage to the corneal endothelium cause corneal odema

Answer 30

• corneal endotheliel cells have a very poor regenerative capacity - damage to the corneal endothelium can rapidly lead to corneal oodema and opacity since water accumulates in the stroma
• if it gets damaged their is nothing to push the water out of the cornea which means water keeps accumulating in the stroma - as water accumulates you end up with a opaque cornea - whitish apperance due to lots of water in cornea = corneal odema

Question 31

what nerves innervate the cornea

Answer 31

• nerves that supply the cornea - you need nerves as a protexctive mechanism - because if you have something touching your eye you have a reflex to blink and that is called the blinking reflex -
• or if their is dust or wind
• opthalmic division (v1 ) of trigmeninal nerve
• splits into anterolateral portion of cavernous sinus into

v1 has 3 branches

lacrimal

frontal

nasocillary- gives off long cillary nerves

• long cillary nerves supply the cornea - provides sensation to the cornea -

terminal branches perice bowmans membrane

pass between epitheliel cells

Question 32

how much refractive power is the cornea responsible for

Answer 32

• accounts for 2/3 of total refractive power of the eye (due to higher diifference in refractive at air/ tear film interface)

Question 33

what are the 5 layers of the cornea

Answer 33

• corneal epithelium
• bowmans membrane
• stroma
• descements membrane
• corneal endothelium

Question 34

how is the stroma involved in maintaining conreal transparency

Answer 34

• stromal collagen is regularly arranged and the stroma is kept relativley dehydrated for corneal trasnparency

Question 35

how does the corenal endothelium keep the stroma dehydrated

Answer 35

• corenal endothelium activley keeps the stroma dehydrated through the corneal endothelium atp-ase pump

pumps sodium ions out into the aqueous -

Question 36

what does damage to the cornea endothelium lead to

Answer 36

• conreal odema

- due to poor regernative capacity of the cells in the cornea

Question 37

what is the cornea innervated by

Answer 37

• cornea is innervated via the long cillary nerve (which comes of the nasociallry nerve ) which itself is a branch of v1 (opthalmic division of the trigeminal nerve)

Question 38

describe the lens

Answer 38

• located just behind the iris
• transparent structure accounting for 1/3 (17- 20) dipotres of total refrcative power of the eye
• dioptric power can change as the lens can change its shape
• lies behind the iris and in front of the virteous humour
• it has a biconvex shape

-

Question 39

what is the process called when the lens changes its shape?

Answer 39

• accomodation

non accomodative lens become thinner

accomodative lens becomes fatter - refractive power of the lens increases

Question 40

describe the structure of the lens

Answer 40

• enclosed in a capsule
• biconvex sructure
• continues to grow through life
• encircled by zonular fibres - zonules connect the lens to the cillary body which has a muscle which can contract - when this muscle contracts it is responsbile for accomodation - the lens is surrounded by zonular fibres
• lens gets thicker as you get older

Question 41

what happens during accomodation

Answer 41

• • your cillary muscles contract

your zonules become less tight - (tension in zoular fibres is released)

• which means that your lens is less stretched and becomes fatter - increased dioptric power
• and therefore more powerful

accomodation reflex kicks in when looking at a near object

Question 42

what are the 3 components of the accomodation reflex

Answer 42

• convergene (eyes move in towards object of interest)
• miosis (increases focus) - pupils constrict - pupil constriction = miosis
• lens becomes more powerful to focus image (cillary muscles contract - zonular fibres become less tight - lens becomes fatter - increasing dioptric power)

Question 43

what is a cataract

Answer 43

• loss of lens transparency - - when the lens loses its transparency

Question 44

what are the causes of cataracts

Answer 44

• age - happens over years
• uv light exposure - e.g. exposed to lots of light
• trauma - e.g. hit on the eye - you will have an immeadite catarat
• radiation -patients who have radiotherapy
• steroids - patients who are on long term steroids

conditons such as downs , diabetes

congential - e.g. rubella

post operative

Question 45

what does loss of lens transparency lead to

Answer 45

-loss of lens transparency leads to cataract treated surgically (phacoemulsification)

Question 46

what is the vitreous

Answer 46

• structure at the back of the eye
• transparent gel like structure lying in the virteous cavity
• accounts for 2/3 of eye volume
• 2-4 x more viscous than water
• 98% water
• remainder is hylauronic acid, collagen, fibronectin . fibrillin and opticin

gel like consitiency depends on the collagen

central virteous is more liquid than the peripheral virteous

Question 47

describe the structure of the virteous

Answer 47

• the virteous has certain points of attachement to the retina at

the ora serrata - structure at the anterior edge of the retina - virtoeus base - very strong - where the virteous is most strongly attached - hard to pull the virteous away from the eye at this place

optic disc margin - fairly strong

• perifoveal - fairly weak

peripheral blood vessels - usually weak

• the edges of the virteous are usually thicker in consitency

Question 48

what is the main function of the virteous

Answer 48

• it gives the eye its shape and it maintains its shape

Question 49

what is a posterior virteous dettachement

Answer 49

• thin potential space between the virteous and the retina may fill with fluid in virtoeus dettachment
• as you get older your virteous becomes more liquid - the virteous usually has a gel like structure when it becomes more liquid it pulls away from the retina
• usually occurs due to age related changes in the virteous
• may lead to a retinal dettachment if the virtoeus pulls on the retina
• a person with just a virteous dettachment wont lose vision - if it has created a tear in the retina this person will lose vision- in these cases they do need surgery

Question 50

describe the structure of the virteous

Answer 50

• gel like structure

- transparent

Question 51

what happens to the virteous with age and what are the consequences of this

Answer 51

becomes more liquid with age - a process called virteous syneresis

posterior virtoeus dettachment may occur with age

and may lead to a retinal dettachement (if the virteous pulls the retina along)

Question 52

How does the cornea recieve its nutrition

Question 53

what are some different types of cataracts and what symptons may a patient complain of

Question 54

how is a posterior virteous dettachement differnet from a retinal dettachement and how are the two linked

Question 55

what are signs and symptons in a PVD and in RD

Question 56

why is vision blurry when opening the eyes under water, but clear with goggles on

Answer 56

• because the refractive index is greater between cornea and air than the cornea and water
• higher difference in refractive index between two media = greater degree of refraction - which allows light to focus on your retina - difference in refractive index is important when your thinking about focusing images on the eyes
• by using goggles the swimmer is effectivley preserving the air/ tear film interface which provides a greater difference in refractive indicies and thus greater refraction to allow light to focus on the retina
• without goggles the difference in refractive index between water and tear film is so small that light isnt sufficently refracted to focus on the retina

Question 57

why does the cornea have twice the refractive power compared to the lens

Answer 57

• the difference between the refractive index of air. - and the refractive index of the cornea is much higher than that between the aqueous humour and the lens which is why the cornea has twice the refractive power compared to the lens
• cornea is responsible for 2/3 of the refractive power whereas the lens is responsible for a 1/3
• air tear film interface at the cornea - large difference in refraction
• aqeuous/ lens interfafe - smaller difference - less refraction

Question 58

what type of cells does the corneal endothelium contain

Answer 58

• the endothelium contains epitheliel cells
• because the corneal endothelium lies on a basement membrane - descements membrane which is above the corneal endothelium
• remember - anything that lies on a basement membrane is a of the epitheliel CELL type - this is different from the tissue itself

Question 59

how many layers does the stroma have

Answer 59

• has 200- 250 layers of collagenous lamellae

Question 60

how does the cornea recieve nutrients and oxygen

Answer 60

• the cornea is avascular - because it needs to be transparent
• instead the anteror cornea - the front surface of the cornea - recieves 02 mainly direclty from the air (which diffuses into the tear film)

the posterior cornea recieves its nutrients and oxygen via aqueous humour

• anterior cornea recieves its oxygen directly from air
• oxygen from the air diffuses from the tear film- and from the tear film it goes directly into the cornea
• some o2 and nutrients are also delivered indirectly by the anterior cillary arteries at the limbus

Question 61

where is the limbus

Answer 61

• where the cornea ends and the sclera starts

Question 62

what is corneal odema

Answer 62

• where the cornea stroma is being filled with water - this makes it lose its transparency

Question 63

what nerves is the cornea innervated by

Answer 63

• the cornea is innervated by the nasocillary branch of v1 (opthalmic division of the trigeminal nerve)

Question 64

what are the 3 branches of v1

Answer 64

• lacrimal
• frontal
• nasocillary

Question 65

which of the branches of the opthamlmic division of the trigeminal nerve passes inside the ctr in the superior orbital fissure

Answer 65

• nasocillary branch

- the lacrimal and frontal pass outside the ctr

Question 66

what happens during accomodation

Answer 66

-the cillary muscles contract ( they tend to contract inwards ) releasing the tension on the zonular fibres - because the zonular fibres become more relaxed and are not pulling the lens as much refractive and the lens becomes rounder which increases the refractive power which gives you extra power to see things nearby- it increases near vision

Question 67

what symptons are most likely to be seen with a cataract

Answer 67

• • gradual painless decline in visual acuity ( unless traumatic cataract)
• glare - often reported - as light scatters around the eye due to lens opacification catarcat = lens opacity - loses its clarity- so when the light is reaching it one point it is scattered in your retina- so that is why you have a glare
• as lens becomes denser - refractive power increases - this effectivley renders the eye more myopic and hence reduced the need for near reading glasses
• reduced need to wear glasses for reading - your lens becomes more dense- this increases refractive power - the eye is becoming more short sighted- if you have a more powerful refraction in the eye- that means light will focus more further in front of the eye- you become more short sighted which is why you dont need glasses for reading

Question 68

what types of age related catarcacts

Answer 68

• nuclear cataracts - increase the refractive power - reduce the need for glasses
• cortical - - gives a spoke like pattern
• posterior subcapsule cataract - - lies in the middle of the pupil - because it is in the middle of your visual axis- it gives you lots of visual problems e.g. glare in the middle of the night - they have difficulty driving - because when headlights are shining in their eyes because it is in the middle of your visual field

Question 69

what type of cataract is often seen in steroid induced catarcats

Answer 69

• posterior subcapsular is often seen in sterioid induced cataracts - and because they lie in the visual axis you often have glare symptons

Question 70

what are some of the cataracts you can get from secondary causes

Answer 70

snowflake cataract - diabetes

• myotonic dystrophy - stellate cataract
• atopic dermatitis- eczema - - shield like cataract

Question 71

what keeps the gel like consistency of the virteous

Answer 71

• the collagen

Question 72

what is the most important differentiating feature between a virteous and a retinal dettachement

Answer 72

• visual loss- when a patient has a posterior virteous dettachement -the biggest concern = if they have visual loss- then you can be certain that they have also had a retinal dettachment - they may not yet have a retinal dettachment but sometimes they have a retinal tear in which case you may some blood vessels lying in the virteous

a pvd on its own does not cause visual loss

Question 73

what is retinal dettachment

Answer 73

• refers to dettachment of the neurosensory retina - which contains the photorecpetos from the retinal pigmented epithelium
• leads to visual loss since the detached retina no longer detects light

can be caused by traction due to posterior virteous dettachment (pvd)

pvd on its own does not cause visual loss