Visual System

Question 1

Why do we have 2 eyes

Answer 1

Stereopsis = able to see in 3D
Widens our visual field

Question 2

Number of layers of the eye

Answer 2

3

Question 3

3 layers of the eye

Answer 3

Outer layer = sclera and cornea
Middle layer = uvea
Inner layer = retina

Question 4

Sclera

Answer 4

Tough fibrous outer coat
Made of collagen

Question 5

Why must the outer layer of the eye be transparent - cornea

Answer 5

Light transmission

Question 6

Why must the outer layer of the eye be tough

Answer 6

Barrier to trauma and infection
Maintains shape of eye

Question 7

What is the cornea and sclera made out of

Answer 7

Collagen

Question 8

Outer layer of eye and refraction

Answer 8

Responsible for 2/3 refractive power of eye

Question 9

Number of layers in outer layer of eye

Answer 9

5

Question 10

5 layers of outer layer of eye

Answer 10

Epithelium
Bowman’s layer
Stroma
Descemet’s layer
Endothelium

Question 11

What makes up the middle layer of the eye

Answer 11

Iris
Ciliary body
Choroid

Question 12

Iris

Answer 12

Coloured part at front of eye
Contains dilator and sphincter pupillae muscles (pupillary reflexes)

Question 13

Ciliary body

Answer 13

Glandular epithelium produces aqueous humour
Ciliary (smooth) muscle controls accommodation

Question 14

Choroid

Answer 14

Blood supply to outer third of retina
Heat sink
Darkly pigmented so that it can absorb stray photons

Question 15

Retina

Answer 15

Specialised organ of phototransduction

Question 16

What makes up the retina

Answer 16

Macula lutea
Fovea centralis
Cones
Rods

Question 17

How are collagen fibres laid out in sclera

Answer 17

Cross-linked creating opacity

Question 18

How are collagen fibres in cornea laid out

Answer 18

Parallel - transparent

Question 19

What percentage of outer layer if cornea

Answer 19

1/6 (continuation of sclera)

Question 20

Limbus

Answer 20

forms the border between the transparent cornea and opaque sclera, contains the pathways of aqueous humour outflow, and is the site of surgical incisions for cataract and glaucoma

Question 21

Where are stem cells for the cornea found

Answer 21

Limbus

Question 22

What causes the choroid to be coloured

Answer 22

Contains melanocytes-

Question 23

Ora serrata

Answer 23

serrated junction between the retina and the ciliary body. This junction marks the transition from the simple non-photosensitive area of the retina to the complex, multi-layered photosensitive region.

Question 24

Intraocular lens

Answer 24

Suspended from cornea
1/3 refractive power

Question 25

Which part of the eye never stops growing

Answer 25

Lens

Question 26

Presbyopia

Answer 26

gradual loss of your eyes’ ability to focus on nearby objects.
It’s a natural, often annoying part of aging.
Presbyopia usually becomes noticeable in your early to mid-40s and continues to worsen until around age 65

Question 27

What percentage of the corneal depth is the stroma

Answer 27

90%

Question 28

Which layers of the outer layer of the eye can regenerate

Answer 28

Epithelium (not endothelium)

Question 29

Role of endothelium in cornea

Answer 29

Keeps it dehydrated - fluid removed to keep it clear
Water actively pumped out of stroma so transparent

Question 30

Thickness of cornea

Answer 30

550 micrometers

Question 31

Role of ciliary muscles

Answer 31

Holds lens in place by suspensory ligaments
Contract/relax to control accommodation of lens

Question 32

Function of iris

Answer 32

Changes aperture of pupil

Question 33

What fluid fills the anterior chamber of the eye (between cornea and iris)

Answer 33

Aqueous humour

Question 34

What produces the aqueous humour

Answer 34

Ciliary bodies

Question 35

Function of aqueous humour

Answer 35

Maintain pressure in eye

Question 36

Anterior chamber of eye

Answer 36

Between cornea and iris

Question 37

Posterior chamber of eye

Answer 37

Between iris and ciliary processes

Question 38

Pigmented outer layer of retina

Answer 38

formed by a single layer of cells. It is attached to the choroid and supports the choroid in absorbing light (preventing scattering of light within the eyeball). It continues around the whole inner surface of the eye.

Question 39

Neural inner layer of retina

Answer 39

consists of photoreceptors, the light detecting cells of the retina. It is located posteriorly and laterally in the eye.

Question 40

Macula lutea

Answer 40

part of the retina that is responsible for sharp, detailed central vision (also called visual acuity)
Very high concentration of cones

Question 41

Sphincter muscles

Answer 41

Make pupil smaller
Parasympathetic

Question 42

Dilator muscles

Answer 42

Make pupil larger
Sympathetic

Question 43

Intraocular pressure

Answer 43

15 mmHg

Question 44

Pars plana

Answer 44

Located near iris-sclera junction

Question 45

Keratoconus

Answer 45

Abnormal shaped cornea
Results in a stigmatism and distorted light and visual focus

Question 46

Coloboma

Answer 46

Left without uvea
Results in field defect in the affected area

Question 47

Clinical links to retina

Answer 47

Central scotomas
Night blindness
Macular degeneration can lead to blindness
Humours - open angle glaucoma
Tunnel vision affects 2% of population

Question 48

Vitreous humour

Answer 48

Acts as a collagen scaffold and helps maintain Intraocular pressure

Question 49

What produces the vitreous humour

Answer 49

Retina

Question 50

Fovea centralis

Answer 50

When light passes through pupil it projects an image of what you’re focused on to the fovea centralis

Question 51

Retinal pigment epithelium

Answer 51

Contains photoreceptors (rods and cones)

Question 52

Rods

Answer 52

Dim lighting
Sensitive
Peripheral vision

Question 53

Cones

Answer 53

Colour vision

Question 54

Photoelectric transducer

Answer 54

Converts light into electric impulses

Question 55

Number of layers of tear film

Answer 55

3

Question 56

3 layers of tear film

Answer 56

Anterior lipid
Middle aqueous
Posterior mucous

Question 57

Anterior lipid layer

Answer 57

Secreted by meibomium glands
Provides hydrophobic barrier to prevent aqueous layer evaporating

Question 58

Which glands secrete anterior lipid layer

Answer 58

Meibomium gland

Question 59

Middle aqueous layer

Answer 59

Water, electrolytes and proteins
Secreted by lacrimal glands
Regulates transport through cornea and prevents infection

Question 60

Which glands secrete middle aqueous layer

Answer 60

Lacrimal glands

Question 61

Posterior mucous layer

Answer 61

Secreted by goblet cells
Provides hydrophilic layer
Allows for even distribution of tear film

Question 62

Which cells secrete posterior mucous layer

Answer 62

Goblet cells

Question 63

What does the vitreous humour contain

Answer 63

Hyaluronic acid and water

Question 64

Blood supply to eye

Answer 64

Internal carotid artery- ophthalmic artery, central retinal artery and ciliary arteries
External carotid artery - facial artery supplies medial lid and orbit

Question 65

Branches of internal carotid artery that supplies eye

Answer 65

Ophthalmic
Central retinal
Ciliary

Question 66

Photon pathway

Answer 66

Tear film (transmission)
Cornea
Aqueous humour
Lens
Vitreous humour
Ganglion cell
Amacrine cell
Bipolar cell
Horizontal cell
Cone
Rods
Pigmented epithelium (absorption of excess photons)

Question 67

Hypermetropia

Answer 67

Underpowered to focus near objects on retina
May be due to:- corneal curvature too shallow- lens not flexible enough- axial length of eyeball too short

Question 68

Myopia

Answer 68

Overpowered so can’t focus far objects on retina
May be due to:- corneal curvature too steep- axial length of eyeball too long

Question 69

Adenexae

Answer 69

Tear film
3 layers anterior lipidmiddle aqueousposterior mucous
Protective
Nutrition for cornea

Question 70

Which veins drain the choroid

Answer 70

Vortex veins

Question 71

Where do superior ophthalmic veins drain into

Answer 71

Cavernous sinus

Question 72

Where do inferior ophthalmic veins drain into

Answer 72

pterygoid venous plexus

Question 73

Lymphatics.

Answer 73

No lymphatic drainage of globe
Conjunctiva and lids drain into submandibular and pre-auricular nodes

Question 74

Extra cranial visual pathway

Answer 74

Optic nerve formed by convergence of axons from retinal ganglion cells
Receive impulses from rods and cones
Optic nerve leaves via the optic canal through sphenoid bone
Enters the cranial cavity and runs along the middle cranial fossa

Question 75

Intracranial visual pathway

Answer 75

In middle cranial fossa, optic nerves join = optic chiasm
At chiasm, fibres from the medial halves cross to the contralateral optic tract
Fibres from the lateral halves remain ipsilateral
Optic tracts then travel to lateral geniculate nucleus in the thalamus and fibres synapse

Question 76

Where do optic tracts synapse

Answer 76

Lateral geniculate nucleus in thalamus

Question 77

Optic radiation

Answer 77

Carry visual information to visual cortex from lateral geniculate nucleus

Question 78

Upper optic radiation

Answer 78

Carries fibres from superior retinal quadrants (Baumans loop)
Travels through parietal lobe to visual cortex

Question 79

Which optic radiation travels through the parietal lobe

Answer 79

Upper optic radiation

Question 80

Lower optic radiation

Answer 80

Carries fibres from the inferior retinal quadrants
Travels through temporal lobe (via Meyer’s loop) to visual cortex

Question 81

Which optic radiation travels through the temporal lobe

Answer 81

Lower optic radiation

Question 82

Superior retinal quadrants correspond to

Answer 82

Inferior visual field quadratns

Question 83

Inferior retinal quadrants correspond to

Answer 83

Superior visual field quadrants

Question 84

Intorsion

Answer 84

Internal rotation

Question 85

Extortion

Answer 85

External rotation

Question 86

6 ocular muscles

Answer 86

Medial rectus
Lateral rectus
Superior oblique
Inferior oblique
Superior rectus
Inferior rectus

Question 87

Damage to left optic nerve causes

Answer 87

No vision in left eye

Question 88

Damage to optic chiasm

Answer 88

Loss of vision of the temporal visual fields = hemianopia

Question 89

Damage to left optic tract

Answer 89

Loss of vision of temporal field of left eye and nasal field of right eye

Question 90

Damage to left Meyer’s loop

Answer 90

Loss of vision in superior nasal field of left eye and superior temporal field of right eye

Question 91

Damage to Baum’s loop

Answer 91

Loss of vision in inferior temporal field of right eye and inferior nasal field of left eye

Question 92

Meyer’s loop

Answer 92

Lower optic radiation through temporal lobe

Question 93

Baumans loop

Answer 93

Upper optic radiation through parietal lobe

Question 94

Outer segments of rods and cones

Answer 94

contains discs containing light sensitive photopigment

Question 95

Inner segments of rods and cones

Answer 95

made up of cell body, axon and synaptic terminals

Question 96

Photopigment in rods

Answer 96

Rhodopsin

Question 97

Photopigment in cones

Answer 97

Opsin

Question 98

Opsins

Answer 98

transmembrane proteins which contain the light sensitive molecule retinal
Different opsin structures mean retinal absorbs different wavelengths of light

Question 99

Effect of a photon on a rhodopsin molecule

Answer 99

Triggers conformation change to all-trans form
This change triggers changes in the opsin structure
This in turn triggers a cascade within the cell

Question 100

Signals in the retina

Answer 100

Photoreceptor → bipolar cell → retinal ganglion cell
Horizontal and apocrine cells modulate signal
Retinal ganglion cells not graded response – action potential

Question 101

Retinal blood supply outer 1/3

Answer 101

Choroid (posterior ciliary arteries)

Question 102

Retinal blood supply inner 2/3

Answer 102

Central retinal artery

Question 103

The visual pathway begins with the retina sending signals down the optic nerve towards the optic chiasm. After the optic chiasm, the optic tracts carry on the signal reaching the lateral geniculate nuclei. After this both the meyers loop and baums loop (optic radiations) carry the signal to the visual cortex. Lesions at any point in this pathway are known to cause various visual defects.
Which lobe does Baums loop pass through?

Answer 103

Parietal

Question 104

The visual pathway begins with the retina sending signals down the optic nerve towards the optic chiasm. After the optic chiasm, the optic tracts carry on the signal reaching the lateral geniculate nuclei. After this both the meyers loop and baums loop (optic radiations) carry the signal to the visual cortex. Lesions at any point in this pathway are known to cause various visual defects.
Which lobe does meyers loop pass through?

Answer 104

Temporal