Orbit

Question 1

What are the dimensions of the orbit?

Answer 1

45-55mm ant-post
35mm sup -inf
40mm med to lat
Volume 30ml

Question 2

Describe the features of the orbital rim

Answer 2

Acrus marginalis
Attachment of orbital septum
Anterior "boundary" of orbit
Incomplete circle
Discontinuous at fossa for lacrimal sac

Question 3

How many bones make up the orbit?

Answer 3

7 bones

Question 4

Which bones make up the boney orbit?

Answer 4

Roof: frontal and lesser wing of sphenoid
Medial wall: maxillary, lacrimal, ethmoid and sphenoid
Floor: maxillary, zygomatic, palatine
Lateral wall: greater wing of sphenoid, frontal

Question 5

Which sinuses surround the orbit?

Answer 5

Frontal sinus
Ethmoidal sinus
Maxillary sinus
Sinus infections can tract into orbit

Question 6

How does the orbit relate to the intracranial space?

Answer 6

Via the orbital apex
Orbital canal
Superior orbital fissure into cavernous sinus

Question 7

What are the lymphatics of the orbit?

Answer 7

None

Question 8

What lies within the orbit?

Answer 8

Globe
Optic nerve
Extraocular muscles
Vessels
Nerves 
Lacrimal gland
Orbital fat
Periosteum

Question 9

What is the first branch of the internal carotid artery within the cavernous sinus?

Answer 9

Ophthalmic artery

Question 10

Within which bones do the optic canal, superior orbital fissure and inferior orbital fissure sit?

Answer 10

Optic canal: sphenoid
Superior orbital fissure: bound by lesser +greater wound of the sphenoid
Inferior orbital fissure: bound by greater wing of sphenoid, zygomatic, maxilla and palatine bone

Question 11

Which muscles originate at the orbital apex?

Answer 11

All extraocular muscles except the inferior oblique

Question 12

What travels through the optic canal?

Answer 12

Optic nerve
Ophthalmic artery
Sympathetic fibres

Question 13

What travels through the superior orbital fissure?

Answer 13

CN III superior and inferior divisions
CN IV
CN VI
CN V branches (lacrimal V1, frontal V1, nasociliary V1)
Superior ophthalmic vein
Anastomosis of orbital branch of MMA and recurrent branch of lacrimal artery

Question 14

What travels through the inferior orbital fissure?

Answer 14

CN V branches (infraorbital V2, zygomatic V2)
Parasympathetics to lacrimal gland
Inferior ophthalmic vein

Question 15

Where is the ciliary ganglion found in the orbit?

Answer 15

Lateral to ophthalmic nerve

Hanging off oculomotor nerve

Question 16

How do sympathetic and parasympathetic nerves enter the orbit?

Answer 16

Sympathetic: synapse in superior cervical ganglion
Ascends along ICA and enter orbit on ophthalmic artery. Pass through ciliary ganglion without synapse
Parasympathetic: Originate in Edinger westphal. Travel through CN III. Synapse in ciliary ganglion

Question 17

What are the actions of the autonomic nervous system on the orbit?

Answer 17

Sympathetic: Dilate pupil and lift eyelid via Muller’s muscle
Parasympathetic: constrict pupil and causes accommodation

Question 18

What are the vessels of the orbit?

Answer 18

Internal carotid artery
Ophthalmic artery
Central retinal artery
Short posterior ciliary artery
Long posterior ciliary artery
Anterior ciliary artery
Great circle of iris

Question 19

What is the venous supply of the orbit?

Answer 19

Superior and inferior ophthalmic vein, drains into cavernous sinus and pterygoid plexus
No valves
Blood flows back from eye into the meninges

Question 20

What lies in the suprorbital foramen?

Answer 20

Supraorbital nerve and artery

Question 21

What lies in the infraorbital canal

Answer 21

Infraorbital nerve and artery

Question 22

What travels through the anterior ethmoid foramen?

Answer 22

Anterior ethmoidal nerve and artery

Question 23

What travels through the posterior ethmoidal foramen?

Answer 23

Posterior ethmoidal nerve and artery

Question 24

What travels through the trochlear fossa?

Answer 24

Trochlea of superior oblique

Question 25

Why is it relevant that the visual axis and orbital axis are not aligned?

Answer 25

The extraocular muscles are at work even to keep the eye facing straight ahead
Orbital axis is 23 degrees nasal to visual axis

Question 26

What are the three nerves for the motor supply of the orbit?

Answer 26

Oculomotor
Trochlear
Abducens

Question 27

What is the sensory nerve supply of the orbit?

Answer 27

Trigeminal nerve V1 and V2

Optic nerve

Question 28

What is the autonomic supply of the orbit?

Answer 28

Sympathetic
-superior cervical ganglion
Parasympathetic
-ciliary ganglion
-pterygopalatine ganglion

Question 29

Describe the course of the occulomotor nerve

Answer 29

Arises in anterior midbrain
Pierces dura on lateral side of posterior clinoid process
Travels anteriorly along lateral wall of cavernous sinus
Divides into smaller superior oculomotor division and larger inferior oculomotor division at cavernous sinus
Enters through superior orbital fissure within tendinous ring
Travels near posterior communicating artery

Question 30

What does the superior division of the oculomotor nerve supply?

Answer 30

Superior rectus

Levator palpebrae superioris

Question 31

What does the inferior division of the oculomotor nerve supply?

Answer 31

Medial rectus
Inferior rectus
Inferior oblique
Branch to inferior oblique also supplies parasympathetic fibres to ciliary ganglion

Question 32

Describe the course of the trochlear nerve?

Answer 32

Arises in midbrain and exits posterior surface below inferior colliculus
Decussates to contralateral side
Pierces dura below free border of tentoroum cerebelli, close to posterior clinoid process
Travels anteriorly in lateral wall of cavernous sinus
Enters through superior orbital fissure and enters superior oblique

Question 33

Describe the course of the abducens

Answer 33

Emerges below pons and medulla

Pierces arachnoid and dura lateral to dorsum sella of sphenoid bone
Travels anteriorly within cavernous sinus inferolateral to internal cartoid artery
Enters through superior orbital fissure within tendinous ring
Enters lateral rectus

Question 34

Describe the course of the trigeminal nerve in the orbit

Answer 34

Brainstem in posterior cranial fossa
Large sensory root and a small motor root
Sensory root bodies lie in trigeminal ganglion
3 branches emerge from anterolateral surface of the ganglion

Question 35

Describe the course of the ophthalmic nerve V1

Answer 35

Superior and smallest branch of trigeminal
Arises from anteromedial surface of trigeminal ganglion
Passes anteriorly to enter lateral wall of cavernous sinus
Splits into 3 branches in the cavernous sinus; lacrimal, facial, nasociliary

Question 36

Describe the course of the lacrimal nerve

Answer 36

Enters orbit through lateral superior orbital fissure superolateral to frontal and trochlear nerves
Enters outside the tendinous ring
Courses anteriorly along upper border of lateral rectus
Innervates the lacrimal gland, conjunctiva and lateral skin of the upper eyelid
Receives a branch from zygomaticotemporal nerve with parasympathetic fibres

Question 37

Describe the course of the frontal nerve in the orbit

Answer 37

Largest branch of V1
Enters superior orbital fissure
Passes beneath orbital roof along upper surface of levator palpebrae superioris
Midway along orbit divides into supraorbital and supratrochlear nerve

Question 38

What does the supraorbital nerve innervate?

Answer 38

Leaves orbit via supraorbital notch
Innervates skin and conjunctiva of lateral upper eyelid, skin of forehead posteriorly to scalp vertex and frontal sinus mucosa

Question 39

What does the supratrochlear nerve innervate?

Answer 39

Pierces orbital septum and turns upwards deep to orbicularis

Supplies skin and conjunctiva of medial upper eyelid and medial forehead skin

Question 40

Describe the course of the nasociliary nerve

Answer 40

Enters orbit via medial superior orbital fissure
Within tendinous ring
Crosses optic nerve with ophthalmic artery to reach medial orbital wall
Passes forward on upper border of medial rectus muscle
Divides into anterior ethmoidal nerve and infratrochlear nerve

Question 41

What does the anterior ethmoidal nerve supply?

Answer 41

Passes through anterior ethmoidal foramen
Supplies anterior ethmoidal air cells
Enters nasal cavity via crista galli and enters nasal cavity
Supplies nasal mucosa via internal nasal nerves and skin of nasal tip via external nasal nerve

Question 42

What does the infratrochlear nerve supply?

Answer 42

Travels along border of medial rectus
Joined by branch of supratrochlear nerve
Passes beneath trochlea and pierces orbital septum
Supplies lacrimal sac, conjunctiva, medial skin of upper and lower lids

Question 43

Where do the long ciliary nerves come from?

Answer 43

Nasociliary nerve

Question 44

Which branch of the nasociliary nerve is sometimes missing?

Answer 44

Posterior ethmoidal nerve

Question 45

Describe the course of the maxillary nerve

Answer 45

Enters lower part of lateral wall of cavernous sinus
Enters pterygopalatine fossa via foramen rotundum. Gives off zygomatic nerve.
Enters orbita via inferior orbital fissure
Continues as infraorbital nerve
Exits via infraorbital foramen
2 branches connect to pterygopalatine ganglion within pteryopalatine fossa

Question 46

What does the maxillary nerve V2 innervate?

Answer 46

Conjunctiva and skin of lower eyelid, cheek, upper lip and nasal ala

Question 47

Describe the course of the zygomatic nerve (branch of maxillary V2)

Answer 47

Enters orbit via inferior orbital fissure
Passes anteriorly along lateral orbital wall
Divides into zygomaticotemporal and zygomaticofacial nerves
Zygomaticotemporal: lateral skin of forehead
Zygomaticofacial: cheek skin

Question 48

How does the sympathetic nerve supply reach the orbit?

Answer 48

Originates in superior cervical ganglion
Travels via internal carotid plexus
Pass uninterrupted through the ciliary ganglion
Enter eye via long and short ciliary nerves-> dilate iris
Innervates Muller’s muscle and lacrimal gland (via greater petrosal nerve)

Question 49

How does parasympathetic supply reach the orbit?

Answer 49

Arises from Edinger-Westphaal nucleus of oculomotor nerve
Fibres reach ciliary ganglion via branch to inferior oblique from the oculomotor nerve
Enters eyeball via short ciliary nerves - accomodation and pupil constriction
Also arises in lacrimatory nucleus of facial nerve
Travels to pterygoid ganglion via nervus intermedius and greater petrosal nerve
Fibres hitchhike along zygomaticotemporal nerve (V2) to increase lacrimation via lacrimal nerve

Question 50

What is the contents of the tendinous ring?

Answer 50

One canal, several orbital nerves in one annulus
Optic canal
Superior div. occulomotor nerve
Nasociliary nerve
Inferior division occulomotor nerve
Abducens nerve

Question 51

Which nerves pass through superior orbital fissure?

Answer 51

Lacrimal
Frontal
Trochlear
Superior division of oculomotor
Abducens
Nasociliary
Inferior division of oculomotor

Question 52

What is the common origin of rectus muscles?

Answer 52

Annulus of Zinn
Superior orbital fissure
Forms muscle cone

Question 53

Where do the nerves pierce the rectus muscles?

Answer 53

Middle and posterior 1/3 of muscle

Except lateral rectus +inferior oblique where nerve enters halfway along

Question 54

Origin
Insertion
Size
Superior rectus

Answer 54

Origin: annulus of Zinn and dural sheath of optic nerve
Inserts: 7.7mm behind limbus onto sclera
Size: 42mm length 9mm width

Question 55

Relations of superior rectus

Answer 55

Superior: levator palpebrae superioris (2 muscles connected by a band of connective tissue), frontal nerve, roof or orbir
Inferior: optic nerve, ophthalmic artery, nasociliary nerve, tendon of SO crosses
Lateral: lacrimal artery and nerve

Question 56

Nerve supply superior rectus

Answer 56

Occulomotor CN3
Superior division (only rectus muscle to be supplied by superior division)
Nerve also ascends to supply levator palpebrae superioris

Question 57

Blood supply superior rectus

Answer 57

Lateral muscular branch of ophthalmic artery

Question 58

Actions of superior rectus

Answer 58

Elevates (strongest in abduction)
Adducts
Intorts

Question 59

Origin
Insertion
Size
Inferior rectus

Answer 59

Origin: annulus of zinn
Insertion: 6.5mm from limbus
Length: 40mm Width 9mm

Question 60

Which muscles are attached to the suspensory ligament?

Answer 60

Inferior rectus is attached to fascial sheath of inferior oblique, which is then attached to suspensory ligament
This sheath is attached to lower eyelid

Question 61

Relations of inferior rectus

Answer 61

Superior: oculomotor nerve, optic nerve, orbital fat and eyeball
Inferior: infraorbital nerve and vessel and maxillary sinus. Inferior oblique is inferior at point of piercing the eyeball

Question 62

Nerve supply inferior rectus

Answer 62

Oculmotor

Inferior division

Question 63

Blood supply inferior rectus

Answer 63

Medial muscular branch of ophthalmic artery

Question 64

Action inferior rectus

Answer 64

Depresses (strongest at abduction)
Adducts
Extorts

Question 65

Origin
Insertion
Size
Medial rectus

Answer 65

Origin: annulus of Zinn and dural sheath of optic nerve( so pain when optic nerve inflammed)
Inserts: 5.5mm from limbus
Largest and thickest but not longest muscle- length 40mm width 10mm

Question 66

relations of medial rectus

Answer 66

Superior: superior oblique, nasociliary nerve, ophthalmic artery
Inferior: floor of orbit
Lateral: central orbital fat and optic nerve

Question 67

Nerve supply medial rectus

Answer 67

Oculomotor nerve

Inferior division

Question 68

Blood supply medial rectus

Answer 68

Medial muscular branch of ophthalmic artery

Question 69

Action of medial rectus

Answer 69

Adduction

Question 70

Origin
insertion
Size
Lateral rectus

Answer 70

O: annulus of Zinn and greater wing of sphenoid
I: 6.9mm from limbus via tendon 8.8mm long
Length: 48mm

Question 71

Relations of lateral rectus

Answer 71

Sup: lacrimal nerve and artery
Inf: Inferior oblique tendon and floor of orbit
Medial: abducens nerve, ciliary ganglion, ophthalmic artery and nerve to IO
Lateral: lacrimal gland

Question 72

Nerve supply lateral rectus

Answer 72

Abducens

Inserts in the middle of the muscle

Question 73

Blood supply lateral rectus

Answer 73

Muscular branch of ophthalmic artery

Lacrimal artery

Question 74

Action of lateral rectus

Answer 74

Abduction

Question 75

Origin
Insertion
Size
Superior oblique

Answer 75

O: Lesser wing of sphenoid just medial to optic canal and tendinous ring
Gives rise to a rounded tendon
Tendon travels through a trochlea of fibrocartilage which is attached to the trochlea fossa/frontal bone
After passing through trochlea tendon passes down and backwards laterally (55 degrees)
Travels below superior rectus and inserts behind equator of the eyeball laterally

Insertion length 11mm.

Question 76

Relations of superior oblique

Answer 76

Superior: roof of orbit and supratrochlear nerve. SR lies above after piercing eyeball fascial sheath
Inferior: OPhthalmic artery and branches, nasociliary nerve

Question 77

Nerve supply superior oblique

Answer 77

Trochlea nerve

Enters superior surface of muscle close to the origin

Question 78

Blood supply superior oblique

Answer 78

Superior muscular branch of ophthalmic artery

Question 79

Action superior oblique

Answer 79

Intorsion
Depression
Abduction

Question 80

Origin
Insertion
Inferior oblique

Answer 80

O: maxilla bone/floor of orbit lateral to nasolacrimal canal
Passes laterally, posteriorly and superiorly
I: posterior lateral aspect of eyeball behind equator (near macula)

Question 81

Relations

Inferior oblique

Answer 81

Sup: inferior rectus + eyeball
Inferior: floor of orbit and infraorbital nerve and vessel

Question 82

Nerve supply inferior oblique

Answer 82

Occulomotor

Enters muscle at midpoint

Question 83

Blood supply inferior oblique

Answer 83

Infraorbital artery and medial muscular branch of ophthalmic artery

Question 84

Action inferior oblique

Answer 84

Extorsion
Elevates
Abducts

Question 85

How does the center of rotation of the eyeball remain constant in relation to the orbital pyramid?

Answer 85

Pulleys act as mechanical origins of rectus muscles
Pulleys are rings of collagen 2mm around the EOM
Elastic fibres in and around pulleys provide extensibility
Eye movements become smooth

Question 86

Describe the embryology of the occular muscles

Answer 86

Prechordal and paraxial mesoderm
7 weeks: 4 recti differentiate
8 weeks: Levator palpebrae superioris differentiates from SR
3 months: levator palpebrae superioris grows laterally on higher plane
Posterior recession of the tendon from the limbus occurs. Tendons reach adult location between 18 months and 2 years

Question 87

Why are ocular muscles resistant to dystrophy?

Answer 87

Unique gene expression
Embryonic and cardiac muscle proteins +high enzyme levels lead to improved calcium homeostasis and reduced oxidative stress. These muscles are resistant to many forms of muscular dystrophy

Question 88

Describe the histology of EOM

Answer 88

2 compartments (global layer and orbital layer)

Global layer is located adjacent to globe in rectus muscles and in the centre core of oblique muscles. Contains one MIF and 3 SIFs. Controls oculorotatory tension

Orbital layer contains 80% SIF and 20% MIFs. Does not insert onto eyeball but onto connective tissue pulleys. Controls pulling direction

Question 89

What is the difference between multiple innervated fibres and single innervated fibres

Answer 89

SIF: fast, twitch generating, resembling skeletal muscle fibres
MIF: do not conduct action potentials

Question 90

What are the rules of eye muscles and movements?

Answer 90

Recti: adduct (except lateral rectus)
Obliques: abduct and vertically oppose
Superiors: Intort
Inferiors: extort

Question 91

What are the possible pathologies within the brain, cranial nerves, NMJ and muscles that affect ocular movements?

Answer 91

Brain: primary strabismus syndromes (esotropia, exotropia)-> most common
CN: palsies
NMJ: Myasthenia gravis
Muscles: thyroid eye disease

Question 92

What is the fascial sheath of the globe called and what ligament does it form?

Answer 92

Tenon’s capsule
Expansions of medial and lateral recti form check ligaments
Inferiorly, thickening of the IR and IO form the suspensory ligament of lockwood

Question 93

How can medial and lateral rectus be used surgically to elevate or depress the eye?

Answer 93

When displaced vertically can have some elevation or depression

Question 94

What are the two different fibres present in the superior oblique?

Answer 94

20% anterior intorting fibres
80% posterior depressing fibres
Important surgically

Question 95

Describe EOM fibres

Answer 95

Long, run length of the muscle
Nuceli are underneath plasma membrane
Contain myofibrils
Epimysium covers the muscle, endomysium covers individual nerve fibre

Question 96

What do the check ligaments do and why are they special?

Answer 96

Support globe during eye movement
Dense collagenous bridge
Run between distal 3rd of medial/lateral recti and periosteum of orbital wall
Nil smooth muscle or innervation in check ligament

Question 97

What does the suspensory ligament of lockwood do?

Answer 97

Runs from sheaths of inferior rectus and inferior oblique to the orbital margin
Supports globe like a hammock
If intact when eye is fractured, eye will not sag

Question 98

How does the orbital fascial system vary from anterior to posterior?

Answer 98

Well developed anteriorly around the globe

Poorly developed posteriorly near apex

Question 99

Describe what happens to the connective tissue around the globe during a blowout fracture

Answer 99

Connective tissue is pushed through a boney wall defect entrapping intraocular muscles

Question 100

Which imaging is best for differentiating intraconal and extraconal structures?

Answer 100

T1 weighted MRI

Question 101

Describe the rectus muscle connective tissue sleeves in tenons capsule

Answer 101

Connective tissue surround recti, attached to orbital walls
Contains smooth muscle cells
Listing’s law (optic orientation)

Question 102

How do we know that the ocular connective tissue system has well defined planes?

Answer 102

Tumours grow within tissue planes

intraconal or extraconal

Question 103

Where do the fibrous septa of the eye run?

Answer 103

From the levator superioris and superior rectus to the periorbita of the roof
Medial and lateral check ligamanets connect horizontal rectus muscles to the periorbita

Arcuate expansion of ligament of Lockwood from inferior globe to orbital floor
Band from inferior oblique to medial check ligament

Question 104

What is the extraconal space bound by?

Answer 104

Periorbita of orbital wall externally
Fibrous sheaths envelope extraocular muscles with intermuscular membrane internally
Closed anteriorly by the orbital septum and tarsal plates of the eyelids
Levator aponeurosis lies in extraconal space
Small recess containing orbital fat under the levator

Question 105

What is the intraconal space bound by?

Answer 105

The cone of muscles and intermuscular septum
Fascia bulbi (tenons) which is attached at the limbus and is continuous in the space for the optic nerve and dura

Question 106

Where is the pre aponeurotic space?

Answer 106

The aponeurosis of LPS and trochlea inferiorly
Orbital septum in front
Periorbita above
Contains pre aponeurotic fat pad

Question 107

What is the clinical significance of the apertures of the orbital connective tissue system?

Answer 107

Blood pus or fat may pass from extra conal space to the deep strata of eyelids

Question 108

How does the orbital connective tissue system change with age?

Answer 108

Prolapses of fatty tissue subconjunctivaly and inferiorly as the tissue gets more lax

Question 109

Describe the ocular connective tissue in front of the equator of the globe

Answer 109

IOM within their sheaths
Intermuscular membrane
Fibrous septa present
Suspensory ligament of Lockwood
Medial and lateral check ligaments present

Question 110

Describe the ocular connective tissue at the equator of the globe

Answer 110

Ligament of Lockwood still present

Medial and lateral ligaments of horizontal muscles no longer present

Question 111

Describe the ocular connective tissue posterior 1/3 of the globe

Answer 111

No longer suspensory ligament or pulley suspensory system

No longer muscular sleeves

Question 112

Describe the ocular connective tissue at globe apex

Answer 112

Intraconal and extraconoal zones are confluent

No intermuscular membrane

Question 113

How does extraconal haemorrhage differ from intraconal haemorrhage?

Answer 113

Extraconal: blood spreads to lid and subconjunctival spaces. Lids become dark

Intraconal: proptosis, immobility and compression of optic nerve +/- blindness

Question 114

What happens to the volume of the orbit when the eye is removed?

Answer 114

It decreases around 6-7ml

Question 115

Why do we inject anaesthetic via subtenons just posterior to the globe?

Answer 115

Retrobulbar initially, but these could cause globe rupture and brain stem anaesthesia
Peribulbar put the anaesthesia in the extraconal space but required a greater volume and carried a risk of optic nerve perforation
Access to the orbit is now down inferolaterally