Overview and Embryology

Question 1

What is the anterior segment of the eye?

Answer 1

From the lens and anterior

Question 2

Where is the posterior capsule of the eye?

Answer 2

Everything behind the posterior capsule of the lens

Question 3

Where is the anterior chamber?

Answer 3

The space between cornea and the iris

Question 4

Where is the posterior chamber?

Answer 4

Space between iris and lens

Question 5

What are the dimensions of the eye?

Answer 5

23x 23.5 x 24mm long

Slightly flattened horizontally, inferotemporal bulge

Question 6

Where does the globe of the eye sit within the orbit?

Answer 6

Anterior in a fat cushion

Question 7

What are the layers of the globe?

Answer 7

Corneoscleral coat (transparent cornea and white sclera. Continuous at the limbus. External attachment to EOM. Largely avascular)

Uvea: iris, ciliary body and choroid. Internally lines sclera. Vascular and pigmented

Retina: retinal pigment epithelium and neuroretina. Covers inner surface of the globe. Runs from optic nerve to ora serrata. High energy demand

Question 8

Describe the topography of the orbits?

Answer 8

Two pear shaped boney caves
Parallel medial walls and perpendicular lateral walls
Deep part is apex

Question 9

What are the key connections between the apex of the orbit and the intra/extra cranial space?

Answer 9

Optic canal
Superior orbital fissue
Inferior orbital fissure

Question 10

Which orbital walls sit between the orbit and the maxillary, ethmoid, frontal sinus and temporalis muscle?

Answer 10

Orbital floor: maxillary sinus
Medial wall: ethmoid sinus
Orbital roof: frontal sinus and anterior cranial fossa
Lateral wall: temporalis muscle and middle cranial fossa

Question 11

What is the normal degree of temporal rotation of the orbit?

Answer 11

22-23 degrees

Question 12

What is the origin, course and insertion of the rectus muscles?

Answer 12

Origin: Tendinous ring that surrounds optic nerve at orbital apex

Course:Follows orbital walls, separates orbit into intra and extra conal

Inserts: anterior to equator, obliques posterior
Tendons fuses with sclera

Question 13

What is the origin, course of the superior oblique?

Answer 13

Origin: near tendinous ring,

Course: pass underneath superior and inferior recti. Runs to trochlea then back to superior aspect of the globe

Question 14

What is the origin, course of the inferior oblique?

Answer 14

Origin: near inferonasal aspect of orbital rim
Course: passes underneath superior and inferior recti
Inserts on inferior globe

Question 15

What is the origin, course and insertion of the levator palpebrae superioris?

Answer 15

Origin: Just above tendinous ring

Runs above superior rectus
Inserts into tarsal plate and upper eyelid skin

Question 16

What are the innervation of the extraocular muscles?

Answer 16

CN3: all extraocular muscles including levator palpebrae superioris
Except SO4 and LR6
CN7: supplies facial muscles including orbicularis oculi that closes the lid
Sensation is V1

Question 17

Where is the lacrimal gland?

Answer 17

Located superotemporally behind orbital rim
Drains into conjunctival fornix
Innervated by parasympathetics

Question 18

What is the drainage pathway of tears?

Answer 18

Flow from lateral to medial
Lacrimal puncta to lacrimal canaliculi, then lacrimal sac, then nasolacrimal duct
This opens into the nasal cavity

Question 19

During which movements does your eyelid move?

Answer 19

Vertical

Question 20

What are the layers of the eyelid?

Answer 20

Skin
Muscle (orbicularis oculi)
Orbital septum/tarsal plate (continuous with each other)
Palpebral conjunctiva (continuous with conjunctiva in the fornix)
CN3 sends fibres through the orbital septum to skin to elevate the lid

Question 21

Describe the afferent visual pathway

Answer 21

Retina-> optic nerve-> optic chiasm-> optic tract-> thalamus -> Optic radiations-> primary visual cortex -> association visual cortex

Question 22

How much decussation occurs in the fibres at the optic chiasm?

Answer 22

About 50% of fibres from left retina will decussate to right optic tract

Question 23

Where is the upper hemifield (upper world of vision) represented in the brain?

Answer 23

Beyond the lateral geniclate nucleus of the thalamus, it is represented in the lower brain

Question 24

Where is the left hemifield (left world of vision) represented in the brain?

Answer 24

Beyond the optic chiasm, images on the left are represented in the right of the brain

Question 25

How much of the superior corneal limbus is usually covered by eyelid?

Answer 25

1-2mm

Question 26

What are the lengths of the insertions of the rectus muscles?

Answer 26

Medial rectus: 5.5mm
Inferior rectus: 6.5mm
Lateral rectus: 6.9mm
Superior rectus: 7.7mm

Question 27

How thick is the sclera?

Answer 27

1mm

Question 28

What is normal corneal thickness?

Answer 28

10.5mm (h) x 11.5mm (w)

Corneal curve using keratometry: 7.2-8.6mm
Central corneal thickness: 550nm

Question 29

What are the two parts of the ciliary body?

Answer 29

Pars plicata and pars plana

Question 30

What is the length of the ciliary body?

Answer 30

6mm

Pars plana 4mm (avascular and does not contain photoreceptors, therefore good place to access posterior segment)

Question 31

Where is the ciliary body located

Answer 31

Temporally 1.5mm posterior to corneal limbus (7.5-8mm long)

Nasally 1.5mm posterior to corneal limbus (6.5mm long)

Question 32

Where is the injection site into the posterior segment?

Answer 32

3.5cm posterior to limbus

Question 33

How big should pupils be?

Answer 33

Light: 2-4mm diameter
Dark: 4-8mm diameter
Physiological anisocoria present in 20% of population

Question 34

What is the normal cup to disc ratio?

Answer 34

0.3

Question 35

What are the two main components of the blastocyst? Which will give rise to the embryo?

Answer 35

Inner cell mass-> becomes embryo

Trophoblast

Question 36

What forms the embryonic ectoderm, endoderm and mesoderm?

Answer 36

Embryonic epiblast splits into embryonic ectoderm and primitive streak
Primitive streak splits into embryonic endoderm and embryonic mesoderm

Question 37

What is gastrulation?

Answer 37

The formation of the 3 germ layers
Ectoderm (skin and nervous system)
Mesoderm (bone, kidnye, RBC, muscle)
Endoderm (pancreatic cell, thyroid cell)

Question 38

What is neurulation of ectoderm?

Answer 38

It forms epidermal ectoderm and neuroectoderm

Question 39

What does epidermal ectoderm give rise to?

Answer 39

Lens, cornea, skin, inner ear, hair, nails, mammary glands

Question 40

What does neuroectoderm give rise to?

Answer 40

Retina, brain, nervous system

Question 41

How does neurulation form neural crest cells?

Answer 41

Neural fold and the rim of the neuroectoderm dissociates from the neural tube as it invaginates and from each other
Neural crest cells give rise to components of the cornea

Question 42

How does the neural tube form the retina?

Answer 42

Neural tube develops out pockets of neuroectoderm called optic vesicles and these become the retina

Question 43

Describe how the optic vesicles become primitive retina and lens

Answer 43

Optic vesicles become very closely associated with ectoderm which forms lens placode and then invaginate to form the lens pit, then round out to form the lens vesicle
Lens vesicle separates from overlying ectoderm (that ectoderm will form cornea)
Optic vesicles will become optic cups then retina

Question 44

What are the two layers of the optic cup?

Answer 44

Inner: thicker, becomes neuroretina
Outer: thinner, becomes retinal pigment epithelium

Question 45

At what stage does vascular development of the eye begin?

Answer 45

Lens vesicle cells begin to elongate and the space between the lens vesicle and the optic cup increases
Small blood vessels begin to fill this space and become the hyaloid vasculature

Question 46

What do the posterior/anterior cells of the lens vesicle form?

Answer 46

Posterior: Primary lens fibres
Anterior: forms lens epithelium

Question 47

When does vitreous humour appear in the space between the lens vesicle and the optic cup?

Answer 47

Once the lens has differentiated into primary fibres and lens epithelium
The space between lens and optic cup is full of hyaloid vessels and vitreous humour.

Question 48

What do the cells at the rim of the optic cup become?

Answer 48

Ciliary body and iris

Question 49

How does the lens reach its adult ovoid shape?

Answer 49

Cells are added equatoriarly

Question 50

What is the tunica vasculosis lentis?

Answer 50

Hyaloid blood vessels associated with the lens

Question 51

How is the anterior chamber formed?

Answer 51

Len vesicle separates from overlying corneal ectoderm and space fills with aqueous humor

Question 52

Where do the mesodermal cells of neurocrest origin invade?

Answer 52

The space between the lens and the ectoderm

Question 53

What do the mesodermal cells do in the anterior chamber?

Answer 53

They become several flat layers, condense and secrete extracellular matrix

Question 54

What forms the corneal endothelium?

Answer 54

The layer of mesodermal cells which lie closest to the lens, forms a monolayer of endothelium

Question 55

Which layers give rise to the corneal stroma?

Answer 55

The mesodermal cells lying between the endoderm and corneal epithelial layer

Question 56

Which cells form the ciliary body and the iris?

Answer 56

Mesodermal cells invading the rim of the optic cup

Question 57

Which cells cause a build up of corneal stroma?

Answer 57

Keratinocytes secrete extracellular matric which increases the stroma

Question 58

In which week of gestation does the eye develop?

Answer 58

4th week

Question 59

What are the 3 primitive embryological tissues which give rise to the brain?

Answer 59

Prosencephalon (forebrain)
Mesencephalon (midbrain)
Diencephalon (hindbrain)

Question 60

What is the most important gene in determining that the region of the neural plate that will become the eyes?

Answer 60

Pax 6 - eyes will not develop without it

Question 61

What does the optic stalk become?

Answer 61

Optic nerve

Question 62

How does the surface ectoderm become the lens placode?

Answer 62

As surface neuroectoderm touches optic vesicles, it induces overlying ectoderm to form the lens placode

Question 63

How does the lens placode become the lens?

Answer 63

Lens placode invaginates into the optic cup, becoming the lens vesicle, then it separates from the overlying ectoderm to form the primitive lens

Question 64

What is the blood supply to the primitive eye?

Answer 64

Hyaloid artery which runs in choriod fissure of optic stalk

Question 65

What happens to the hyaloid vessels?

Answer 65

The choroid fissure of the optic stalk closes, capturing the hyaloid vessel within it and removing the intraretinal space
Covered by glial sheath which usually regresses
Hyaloid vessels then become the central artery and vein, running within the optic nerve
Regress from lens and vitreous during 7th month gestation

Question 66

What are some complication if the choroidal fissure fails to close?

Answer 66

coloboma of the iris (key hole pupil)
retinochoroidal coloboma (retina not full formed-> hyperplasia of RPE)
Coloboma of optic nerve head (large diameter)

Non rhegmatogenous retinal detachment

Not clear which genes are involved

Question 67

What does the retina look like at 5-6 weeks gestation?

Answer 67

Outer nuclear zone with mitotic cells
Inner marginal zone, no cells
RPE

Question 68

When does the inner half of the retina get some cells

Answer 68

7 weeks
Cells migrate from outer zone into inner zone forming inner neuroblastic layer
An acellular zone remains between inner and outer though (transient layer of Chievitiz)

Question 69

When does the macula start to form?`

Answer 69

10-12 weeks
Mitotic cells in this area stop dividing
Cells mature and differentiate

Question 70

Which cell types differentiate first?

Answer 70

Ganglion cells
Horizontal cells
Cone photoreceptors

Then amacrine, Muller, bipolar and rods

Question 71

When does the transient layer of Chievitz disappear?

Answer 71

10-12 weeks

Replaced by inner plexiform layer

Question 72

When do photoreceptor pigments which detect light first get expressed?

Answer 72

10-15 weeks gestation

Question 73

How does proliferation vary throughout the retina?

Answer 73

Starts in the centre at works outwards to periphery

As periphery is still dividing, the fovea stops dividing and starts differentiating

Question 74

What pattern does melanin form in RPE cells?

Answer 74

Centeroperipherally

Question 75

When do blood vessels appear at the optic nerve head?

Answer 75

14-15 weeks
As fovea stops proliferating
Led by astrocytes migrating into periphery responding to VEGF

Question 76

How do the ganglion cells form the foveal avascular area?

Answer 76

Ganglion cells migrate inwards creating a layer that is 9 cells thick dome
Peak number occur around 17 weeks
Then some cells undergo apoptosis
Astrocytes invading inwards encouraging blood vessel development do not get into the incipient foveal region where the ganglion cells are
Therefore the foveal area remains avascular

Question 77

What causes the fovea to form?

Answer 77

Possibly increased IOP

Question 78

How does the fovea form?

Answer 78

Central ganglion layer dome indents
Ganglion cells migrate horizontally away from fovea
30 weeks
astrocytes are migrating to periphery, away from fovea along with ganglion cells and inner nuclear layer

Cone photoreceptors migrate towards the fovea, becoming more elongated
Eventually fovea has ++cone photoreceptors, no rods, no INL and no blood vessels and thin