S8) Functional Anatomy of the Eye

Question 1

Describe the structure of the orbital cavity

Answer 1

The orbital cavity is pyramidal shaped with its apex pointing posteriorly and base anteriorly

Question 2

Three openings at its apex transmitting nerves and blood vessels into and out of orbit.

Identify them

Answer 2

Question 3

Identify 3 important anatomical relations of the orbital cavity

Answer 3

• Paranasal air sinuses (maxillary and ethmoid)
• Nasal cavity
• Anterior cranial fossa

Question 4

Identify two important implications of the anatomical relations of the orbital cavity

Answer 4

• Orbital trauma
• Spread of infection

Question 5

Identify the different boundaries of the orbit

Answer 5

• Roof (superior wall)
• Floor (inferior wall)
• Medial wall
• Lateral wall
• Apex
• Base

Question 6

Describe the structures forming the roof of the orbital cavity

Answer 6

• The roof is formed by the frontal bone and the lesser wing of the sphenoid
• The frontal bone separates the orbit from the anterior cranial fossa

Question 7

Describe the structures forming the floor of the orbital cavity

Answer 7

• The floor is formed by the maxilla, palatine and zygomatic bones
• The maxilla separates the orbit from the underlying maxillary sinus

Question 8

Describe the structures forming the medial wall of the orbital cavity

Answer 8

• The medial wall is formed by the ethmoid, maxilla, lacrimal and sphenoid bones
• The ethmoid bone separates the orbit from the ethmoid sinus

Question 9

Describe the structures forming the lateral wall of the orbital cavity

Answer 9

The lateral wall is formed by the zygomatic bone and greater wing of the sphenoid

Question 10

Describe the structures forming the apex and base of the orbital cavity

Answer 10

• The apex is located at the opening to the optic canal (optic foramen)
• The base (aka orbital rim) opens out into the face, and is bounded by the eyelids

Question 11

Identify the weakest parts of the orbital cavity and explain why they are most easily fractured

Answer 11

Medial wall and floor as they are thinner and contain air cavities

Question 12

What is an orbital blowout fracture?

Answer 12

An orbital blowout fracture is a fracture leading to the partial herniation of the orbital contents through the the orbital wall due to blunt force trauma to the eye

Question 13

How does an orbital blow out fracture present?

Answer 13

• Periorbital swelling (painful)
• Double vision (especially on vertical gaze)
• Impaired vision
• Anaesthesia over affected cheek (infraorbital nerve damage)

Question 14

How do orbital blow out fractures occur?

Answer 14

Sudden increase in intra-orbital pressure from retropulsion of eye ball e.g. by fist/ball fractures floor of orbit

Question 15

What is the result of an orbital blow out fracture?

Answer 15

• Orbital contents and blood can prolapse into maxillary and ethmoid sinuses respectively
• The fracture site can ‘trap’ structures e.g. soft tissue such as the extra orbital muscle located near floor or orbit

Question 16

Describe the structure and function of the eyelids (palpabrae)

Answer 16

• Structure: consists of tarsal plates and muscles and have glands at their edges
• Function: protect the eye when palpebral fissure is closed

Question 17

Identify 5 contents of the orbital cavity

Answer 17

• Lacrimal apparatus
• Neurovascular structure
• Orbital fat
• Globe of the eye (eyeball) and its internal structures
• Extra-ocular muscles

Question 18

What do the tarsal plates do?

Answer 18

Tarsal plates provide a connective tissue skeleton to the eyelid for firmness and shape

Question 19

What is the orbital septum?

Answer 19

Orbital septum is a thin sheet of fibrous tissue originating from orbital rim and blends with the tendon of LPS and tarsal plates

Question 20

What does the orbital septum do?

Answer 20

The orbital septum separates intra-orbital contents from eyelid fat and orbicularis oculi

Question 21

What is the clinical signficance of the orbital septum?

Answer 21

The orbital septum acts as a barrier against infection spreading from the pre-septal space to post-septal (orbital cavity proper)

Question 22

What is periorbital cellulitis?

Answer 22

Periorbital cellulitis is the cellulitis of orbital structures which occurs secondary to infection from bites, periorbital trauma, sinuses (fronto-ethmoidal sinuses)

Question 23

Identify 2 complications of periorbital cellulitis

Answer 23

• Abscess formation
• Intracranial spread of infection → cavernous sinus thrombosis

Question 24

Describe the arterial supply of the orbit cavity

Answer 24

Arterial supply via ophthalmic artery and its branches

Question 25

Describe the venous drainage of the orbital cavity

Answer 25

The **veins of orbit** drain to cavernous sinus, pterygoid venous plexus and facial veins

Question 26

Describe the general sensory, special sensory and motor innervation of the orbital cavity

Answer 26

- **General sensory**: opthalmic nerve (CN V_a) - **Special sensory**: optic nerve (CN II) - **Motor**: oculomotor (CN III), trochlear (CN IV), abducens (CN VI)

Question 27

Identify the glands of the eye

Answer 27

Question 28

What is the Meibomian gland and what does it do?

Answer 28

**Meibomian glands** secrete a lipid-rich substance to lubricate the edge of the eyelids and mix the tear film over the surface of the eye to prevent tears from evaporating to quickly

Question 29

What is a Meibomian cyst?

Answer 29

A **Meibomian cyst** (aka chalazion) is a lump in the eyelid caused by the blockage and resultant inflammation of the Meibomian gland

Question 30

What is a stye?

Answer 30

A **stye** is a small painful lump in the inside of the eyelid due to the blockage of eyelash follicles

Question 31

The lacrimal apparatus is also involved in secretion of tears into conjunctival sac. Identify the specific structures involved

Answer 31

- Lacrimal gland - Lacrimal caniculi - Lacrimal sac - Nasolacrimal duct

Question 32

What does the lacrimal gland do, where is it found and how is it controlled?

Answer 32

- The **lacrimal gland** secretes lacrimal fluid (tears) - It lies in the **lacrimal fossa** on the superolateral part of the orbit - It is under parasympathetic control via the **facial nerve**

Question 33

Describe the process of secretion from the lacrimal gland

Answer 33

- **Lacrimal fluid** enters the conjunctival sac through the **lacrimal canaliculi** and passes into the lacrimal lake at the medial angle of the eye - The fluid then drains into the **lacrimal sac** before passing into the nasal cavity via the **nasolacrimal duct**

Question 34

What are the small holes on the medial side of the eyelid and what purpose do they serve?

Answer 34

There are two **lacrimal puncta** in the medial portion of each eyelid which function to collect tears produced by the lacrimal glands

Question 35

What is the conjunctiva and what does it do?

Answer 35

**Conjunctiva** is a transparent, secretory mucous membrane which produces mucous and tears to lubricate the conjunctival and corneal surfaces

Question 36

Describe the location and structure of the conjuctiva

Answer 36

- **Location**: covers sclera and lines inside of eyelids, forming a conjunctival sac (does not cover over cornea) - **Structure**: highly vascular with small blood vessels within the membrane

Question 37

What is conjunctivitis?

Answer 37

**Conjunctivitis** (aka pink eye) is an eye condition that causes redness and inflammation of the conjuctiva due to infection or allergy

Question 38

What is a subconjunctival haemorrhage?

Answer 38

A **subconjunctival haemorrhage** (aka hyposphagma) is bleeding underneath the conjunctiva due to the rupture of one of the blood vessels in this mucosal layer

Question 39

What is the physiological effect of blinking?

Answer 39

**Blinking** washes tear film across front of eye, rinsing and lubricating the conjunctivae and cornea

Question 40

Which 3 structures maintain the position of the eyeball?

Answer 40

- Suspensory ligament (sits underneath like a sling) - Rectus muscles - Orbital fat

Question 41

The eyeball has three layers. Identify and describe them

Answer 41

- **Outer**: tough, fibrous sclera which continues anteriorly as transparent cornea - **Middle**: choroid which continues anteriorly as ciliary body and iris (vascular) - **Inner**: retina (inner photosensitive layer)

Question 42

What does the sclera do?

Answer 42

- Provides **attachment** for the extra-ocular muscles - Gives **shape** to the eyeball - Continous with the **dural sheath** covering the optic nerve

Question 43

Describe the structure and function of the ciliary body

Answer 43

- **Structure**: vascular, muscular, consists of a ciliary process and muscle - **Function**: connects the choroid with the iris, produces aqueous humour (ciliary processes)

Question 44

Describe the general structure of the retina

Answer 44

The **retina** consists of an inner neurosensory layer and an outer pigmented epithelial cell layer

Question 45

What does the retina do?

Answer 45

The **photosensitive layer of retina** generates action potentials in response to light

Question 46

The pigmented layer lies between the choroid and neurosensory layer of the retina and its cells contain melanin. What is the role of melanin?

Answer 46

**Melanin** absorbs scattered light that has passed into the eye, reducing reflection and allowing us to focus images appropriately on to the retina

Question 47

The neurosensory layer is the area of the retina that senses light and is where the photoreceptors (rods and cones) are found. What is the role of the rod cells?

Answer 47

The **rods** are cells found in the peripheral parts of the retina, responsible for vision in low intensity light (night vision) and do not discern colours

Question 48

The neurosensory layer is the area of the retina that senses light and is where the photoreceptors (rods and cones) are found. What is the role of the cone cells?

Answer 48

The **cones** are responsible for high visual acuity and colour vision and many are concentrated in an area of the retina called the macula

Question 49

What is the macula?

Answer 49

The **macula** is an area of the retina upon which acts as the centre of your vision and is visible on fundoscopy as a slightly darker area of the retina, lateral to the optic disc

Question 50

What is the fovea?

Answer 50

The **fovea** is the area at the very centre of the macula where the only photoreceptors are cones

Question 51

What is the palpebral fissure?

Answer 51

The **palpebral fissure** is the opening between the eye lids

Question 52

Label the structures 1-3 below in the eye:

Answer 52

Question 53

Label the structures 4-6 below in the eye:

Answer 53

Question 54

Label the structures 7-11 below in the eye:

Answer 54

Question 55

The eyeball has three chambers. Identify them

Answer 55

Question 56

Describe the contents of the different chambers of the eyeball

Answer 56

- Vitreous chamber is filled with a transparent, jelly-like **vitreous** **humour** - Anterior and posterior chambers are filled with transparent **aqueous humour**

Question 57

What is aqueous humour and what does it do?

Answer 57

**Aqueous humour** is a substance secreted by the ciliary processes within ciliary body and nourishes the lens and cornea

Question 58

Describe the flow and drainage of aqueous humour

Answer 58

- **Flows** from posterior chamber, through pupil into anterior chamber - **Drains** through iridocorneal angle (between iris and cornea) via trabecular meshwork into canal of Schlemm

Question 59

What is the canal of Schlemm?

Answer 59

The **canal of Schlemm** is a circumferential venous channel draining into venous circulation

Question 60

What is glaucoma?

Answer 60

- **Glaucoma** is an eye condition due to the obstruction of the drainage of aqueous humour, leading to a rise in intra-ocular pressure - If left untreated glaucoma leads to irreversible damage and death of the optic nerve, causing impairment of vision or even blindness

Question 61

Drainage of aqueous humour from anterior chamber can be blocked. Explain 2 possible ways this can occur

Answer 61

- Trabecular meshwork deteriorates → **open angle glaucoma** (chronic – most common) - Narrowing of irido corneal angle → **closed angle glaucoma** (acute – less common)

Question 62

What is the iris?

Answer 62

The **iris** is a thin contractile diaphragm, located anteriorly to the lens, with a central aperture (the pupil) for transmission of light

Question 63

The iris gives the colour to the eye. Apart from this, what else does it do?

Answer 63

Two muscles (**sphincter and dilator pupillae**) form the iris and control the size of the pupil, both of which are under the control of the ANS

Question 64

What is the lens?

Answer 64

The **lens** is a transparent biconvex structure enclosed in a capsule, lying posterior to the iris and attached to the ciliary body by the suspensory ligaments

Question 65

Describe the neurovascular supply to the lens

Answer 65

The lens is **without nerve innervation or blood supply**, receiving its nutrients entirely from the aqueous humour that surrounds and bathes it

Question 66

In four steps, describe the mechanism in which the retina responds to light

Answer 66

⇒ **Light** (photons) reaches the photosensitive retina ⇒ **Photoreceptors** (rods/cones) detect light ⇒ **Action potentials** are generated in response to light ⇒ Action potentials pass via **ganglion cells** whose axons collect in area of **optic disc**

Question 67

What is refraction?

Answer 67

**Refraction** is the change in direction of light on passing through boundary of two different mediums

Question 68

Light will be refracted as it passes through a number of structures and ‘fluids’ from outside eye towards retina. Identify these structures

Answer 68

- From air into **liquid tear film** → refract - Through **cornea** → refract - Through **lens** and **vitreous humour** before reaches retina

Question 69

Where does most refraction of light occur?

Answer 69

The most refraction of light occurs at the **air-cornea interface**

Question 70

Focusing near objects requires a greater refraction of light. Why is this?

Answer 70

Light rays from near-objects are **more divergent** and require greater refraction to bring them into focus on retina

Question 71

Outline the accommodation reflex

Answer 71

- Pupil constricts - Eyes converge & image is brought to focus on same point of retina - Lens becomes more biconcave (fatter)

Question 72

What are cataracts?

Answer 72

**Cataracts** are progressive opacities (clouding) occurring within lens leading to decreased vision

Question 73

What is presbyopia?

Answer 73

**Presbyopia** is the age-related inability to focus near-object as the lens becomes stiffer and less able to change shape

Question 74

What is papilloedema?

Answer 74

**Papilloedema** is a condition in which increased pressure in or around the brain causes the part of the optic nerve inside the eye to swell

Question 75

What is blepharitis?

Answer 75

**Blepharitis** is a common eye condition wherein the eyelids become red and inflamed often due to bacterial infection

Question 76

There are six extra-ocular muscles that attach to the globe of the eye, whose contraction causes movement and therefore control our direction of gaze. Identify them

Answer 76

- Lateral Rectus - Medial Rectus - Superior Rectus - Inferior Rectus - Inferior oblique - Superior oblique

Question 77

State the origin and attachment of the superior rectus muscle

Answer 77

- **Origin**: common tendinous ring - **Attachment**: superior and anterior aspect of the sclera

Question 78

State the function and innervation of the superior rectus muscle

Answer 78

- **Function**: elevation - **Innervation**: oculomotor nerve (CN III)

Question 79

State the origin and attachment of the inferior rectus muscle

Answer 79

- **Origin**: inferior part of the common tendinous ring - **Attachment**: inferior and anterior aspect of the sclera

Question 80

State the function and innervation of the inferior rectus muscle

Answer 80

- **Function**: depression - **Innervation**: oculomotor nerve (CN III)

Question 81

State the origin and attachment of the medial rectus muscle

Answer 81

- **Origin**: medial part of the common tendinous ring - **Attachment**: antero-medial aspect of the sclera

Question 82

State the function and innervation of the medial rectus muscle

Answer 82

- **Function**: adduction - **Innervation**: oculomotor nerve (CN III)

Question 83

State the origin and attachment of the lateral rectus muscle

Answer 83

- **Origin**: lateral part of the common tendinous ring - **Attachment**: anterio-lateral aspect of the sclera

Question 84

State the function and innervation of the lateral rectus muscle

Answer 84

- **Function**: abduction - **Innervation**: abducens nerve (CN VI)

Question 85

State the origin and attachment of the superior oblique muscle

Answer 85

- **Origin**: body of the sphenoid bone - **Attachment**: sclera of the eye, posterior to the superior rectus

Question 86

State the function and innervation of the superior oblique muscle

Answer 86

- **Function**: depression, abduction and medial rotation - **Innervation**: trochlear nerve (CN IV)

Question 87

State the origin and attachment of the inferior oblique muscle

Answer 87

- **Origin**: anterior aspect of the orbital floor - **Attachment**: sclera of the eye, posterior to the lateral rectus

Question 88

State the function and innervation of the inferior oblique muscle

Answer 88

- **Function**: elevation, abduction and lateral rotation - **Innervation**: oculomotor nerve (CN III)

Question 89

How does one test the function of the different extra-ocular muscles clinically?

Answer 89

Question 90

Label the following structures on this image of the retina: - Artery - Vein - Optic disc - Macula - Fovea

Answer 90

Question 91

What are the different steps involved in examining the eye?

Answer 91

- **I** = Inspection - **VA** = Visual acuity - **F** = Visual fields - **R** = Reflexes - **O** = Opthalmoscope - **M** = Movements