4. • Orbital trauma can damage the facial bones and
adjacent soft tissues. Fractures may be associated
with injuries to orbital contents, intracranial
structures, and paranasal sinuses.
13. Evaluation of trauma patient
Evaluate general status
Eye problem
Rule out acute problem
ocular injury severe // orbital hemorrhage
// optic nerve trauma
Periocular evaluation
14. External eye examination
• Exophthalmos
-Without pulsation
– Orbital hemorrhage
– Emphysema
-With pulsation
– High flow carotid cavernous fistula
– Orbital roof fracture with secondary herniation
of anterior cranial fossa content
16. • Rhinorrhea
– Orbital roof / base of skull fracture
• Subcutaneous emphysema
<crepitation>
– Orbital fracture
• Bony stepping
– Orbital fracture
• Numbness
– Nerve entrapment and orbital fracture
External eye examination
18. • Bony orbital trauma
- Simple fracture
• Orbital fracture
- Complex fracture
• Associated with
facial fracture or
skull fracture
• Soft tissue injury
- Eyelid and lacrimal
apparatus injury
- Orbital hemorrhage
- Intraorbital foreign
body
20. Le Fort Mid-facial Fracture
• 19th century French surgeon
and gynecologist Leon
Clement Le Fort, after he
observed the patterns of
injuries created by
experimentally battering the
heads of corpses
21. Midfacial (Le Fort) Fractures
• Involve maxillar and are often complex and
asymmetric
• Extend posteriorly through the pterygoid
plates
• Divided into 3 types
25. Orbital apex fractures
• Associate with other fractures of the face,
orbit or skull
• +/- optic canal, superior orbital fissure, and
structures that pass through them
• Possible complications include damage to the
optic nerve, decreased vision, CSF leak,
Carotid-cavernous sinus fistula
27. • Indirect traumatic optic neuropathy results
from
– stretching
– Tearing
– Twisting
– Bruising of the fixed canallicular portion of the
nerve
Orbital apex fractures
29. Orbital roof fractures
• Blunt trauma or missile injuries
• Moderate to high energy injuries
• Old people>Young people
• Old people: absorbed by frontal sinus
• Young people: cant be absorbed by frontal sinus
due to not yet pneumatized and not fully grown
30. Symptoms and signs
• Epistaxis, CSF rhinorrhea and
anosmia
– Roof fractures extend to the very thin
bones of the ethmoid and cribriform
plates
– If dura is torn in these areas, CSF can
drain from the anterior cranial fossa
through the frontonasal recesses as clear
fluid rhinorrhea
– Fracture at cribriform plate can also
damage the olfactory nervesanosmia
which might never be fully recovered
31. Symptoms and signs
• Restricted up-gaze and ptosis
– Secondary to the inward displacement
of the levator/supeior rectus muscle
complex by the bony fracture plate and
associated subperiosteal hematoma
32. • Depression of the supraorbital rim
• Hypesthesia of CN V1
– Crack through the supraorbital notch
or foramen creating numbness across
the forehead and scalp
Symptoms and signs
33. • Hypo-ophthalmos and pulsatile exophthalmos
– Orbital floors tend to blow out and roofs tend to
blow in because the orbit is more compressible
than the brainbony fracture plate dislocates
into the orbit, displacing the orbital contents
anteriorly (exophthalmos) and inferiorly (hypo-
ophthalmos)
– Open connection to the pulsatile ICP causes the
globe to pulse, best seen during supine position
Symptoms and signs
35. Indication for surgery
• Depressed skull fracture (if the anterior cranial
fossa is compromised, a craniotomy is often
required)
• Significant diplopia
• Significant exophthalmos
• Frontal sinus fracture with compromise of the
nasofrontal duct
37. Medial orbital fractures
• Naso-Orbital-Ethmoidal (NOE)
fractures usually result from the
face striking solid surfaces
• Involve frontal process of the
maxilla, the lacrimal bone, and
the ethmoid bones along the
medial wall of the orbit
• Depressed bridge of the nose and
traumatic telecanthus
38. • NOE fractures are the result of high-energy trauma that
impacts on the central midface
• “Crumple zone” absorbing energy as it collapses
internally but mostly not involves ocular
39. Type I
Central fragment of bone
attached to canthal tendon
Type II
Comminuted fracture of the
central fragment
Type III
Comminuted tendon
attachment or avulsed tendon
40. Symptoms and Signs
• Horizontal diplopia
– Unlike floor fractures with vertical diplopia
• Orbital emphysema
– Fracture into the adjacent sinus allows sinus air and bacteria
into the orbit
– Precautions regarding nose blowing and prophylactic ATB
• Orbital hemorrhage
– More dramatic than fracture floor due to lack of the natural
drainage afforded by a floor fracture
• Enophthalmos
– Sufficiently large medial wall fracture allows prolapse of enough
orbital tissue to create significant loss of globe projection
41. Complications
– Facial flattening
– Cerebral and ocular damage
– Severe epistaxis due to avulsion of ant.ethmoidal
artery
– Orbital hematoma
– Cerebrospinal fluid rhinorrhea
– Damage to the lacrimal drainage system
– Lateral displacement of the medial canthus
43. • Restrictive diplopia in a
functional field of gaze
• CT evidence of
entrapped muscle or
orbital tissue
• Enopthalmos greater
than 2 mm
• Presence of NOE
fracture is the only
indication necessary for
surgery
Indication for surgery
44. • Treatment
– Repair of the nasal fracture and plate stabilization
– Transnasal wiring of the medial canthus is seldomly used
– Miniplate fixation allows precise bony reduction
47. History of object struck at orbital entrance
Forceful enough to cause ecchymosis (low-moderate
energy)
48. Orbital floor fractures
• Diagnosis by patient’s history, physical
examination, and radiographs
• Isolated floor fracture(blow out) is the most
common fracture that presents to
ophthalmologist
• Most common location is posteromedial floor
because the bone in this area is thinnest of the
floor and lacks the medial wall’s corrugated re-
enforement of the ethmoid air cells
50. • Eyelid sign
– Ecchymosis and edema but other
signs of injury can be absent
(white-eyed blowout)
51. Vertical Diplopia with limitation of upgaze, downgaze, or both
-Limited vertical movement of the globe, vertical diplopia ad pain in the inferior
orbit on attempted vertical movement=entrapment of the IR muscle, the larger
and more comminuted the fracture, the less likely entrapment and diplopia are to
occur
-Orbital edema and hemorrhage or damage to EOM or innervation can result in
limit movement but improve in 1-2 weeks
52. -Limitation of horizontal and
vertical = nerve damage or
generalized soft tissue injury
-Forced duction test shows
restriction
-Increased IOP in upgaze >
primary position
53. Force duction test
– Anesthetic ED
– Cotton pledget of
topical anesthetic in
inferior cul-de-sac for
several minutes
– Toothed forceps
engages the insertion of
IR muscle through the
conjunctiva
– Attempts to rotate the
globe up and down
gently
57. • Emphysema
– Communication with the underlying maxillary sinus
allows air and bacteria from the sinus to enter the
orbit with history of sneezing
– Emphysema may be significant enough to cause
optic nerve compression and loss of visionacute
pneumo-orbitaurgent orbital paracentesis can be
sight-saving
– Prophylactic ATB is controversial, if prescribed, use
broad-spectrum ATB such as amoxicillin/clavulanic
acid to prevent orbital cellulitis
58. • Enophthalmos and ptosis of the globe
– Large fractures
– Soft tissue prolapse into maxillary sinus
– Medial wall+orbital floor fracture = significant
enopthalmos
– More apparent when edema subsides
– 2mm of enophthalmos is generally regarded as normal
variation and not cosmetically noticeable in most people
– Late correction lead to fibrosis and Volkmann’s
contractures within the orbital tissues
• Pupillary abnormalities
– Damage to the pupillary nerve fibers traveling with the
inferior oblique muscle
• Hypoesthesia of infraorbital cranial nerve V2
– Infraorbital nerve distribution which nerves travel along
orbital floor before exits from the infraorbital foramen
59. • Compartment syndrome
– Orbital hemorrhage in patient with loss of
vision+proptosis+increased IOP
• Oculocardiac reflex and the white-eyed-blow-out
– Attempting to move an eye that is entrapped by a blowout
fracture may cause increased vagal toneoculocardiac
reflexN/V, severe bradycardia or heart bock,
syncopeurgent surgical intervention is warranted
– More common in young patients(<18 y) with greenstick
fractures and trapdoor fractures of the floor
– White-eyed blowout, bony plate don’t fracture completely
but opens long enough to allow orbital tissues to herniate.
The fracture plate then closes, entrapping the
tissueslong term tissue ischemia may occurfail in
surgery
61. – CT scan coronal,sagittal view
– Diagnosis mainly by clinical
– Mostly not require surgical intervention
– Observed for 5-10 days for swelling to subsides
– Oral steroids (1mkday for 7 days) decrease
edema
– Pediatric patients with IR muscle trapping
beneath trapdoor fractureeye movement
aggravate oculocardiac reflex(pain,nausea and
bradycardia)
Management
62. Indication for surgery
• Diplopia with limit upgaze/downgaze
within 30 degrees of the primary
position, positive forced duction test
after resolution of the edema and
imaging confirm floor fracture
– After 2 weeks, everything should
improve
– If not may persist in vertical diplopia
– Tight entrapment of IR muscle+possible
muscle ischemia= reason to immediate
repair
63. • Oculocardiac reflex is presented
• Enophthalmos exceed 2 mm and is
cosmetically unacceptable to the patient
– Edema may disguise the symptom
– Exophthalmometry measurement is used in first
visit and follow up
– If enophthalmos is present in the first 2 weeks,
greater degree may be anticipated in the future
Indication for surgery
64. • Large fractures involving at least half of
the orbital floor +/- large medial wall
fractures
– Fracture this large may result in significant
enophthalmos
Indication for surgery
66. Zygomaticomaxillary complex
• ZMC fractures were tripod or trimalar fractures,
Zygomaticomaxillary (ZM) suture at the inferior rim,
zygomaticofrontal (ZF) suture at lateral rim, and the
zygomaticotemporal (ZT) suture along the zygomatic
arch (ZA)
• The zygoma is now believed to be a quadripod. Its
articulations include the old 3 types plus a fourth-the
ZMC buttress which is the single most important
component of the midfacial buttresses
70. • Moderate-to-high-energy injury
• Isolated orbital floor fractures, ZMC fractures
are second-most-common fracture presenting
initially to ophthalmologist due to lid
ecchymosis, transient blurry vision, diplopia or
just a history of “I got hit in the eye”
72. Symptoms and signs
• Highly variable,depending on the amount of
energy causing the injury and the degree of bony
displacement.
• Point tenderness and ecchymosis
– Palpation of the entire circumference of the bony rim
usually discloses localized pain and tenderness at the
ZF and ZM sutures.
– If pain is elicited, then the ZA and ZMC buttress should
also be palpated
– If the zygoma is dislocated, a tender rim step-off or
separation can be felt, either inferiorly or laterally
73. • Malar flattening and increased facial width.
– Dislocation results in significant distortion of the
cheek
• The ZMC buttress is best evaluated via
intraoral examination.
– Ecchymosis at the gingival sulcus and upper
vestibule are strong indicators of bony disruption
74. • Lateral canthal dystopia
• Dysesthesia of cranial nerve V2
– Ipsilateral teeth and gums
• Trismus and malocclusion
– Bony dislocation leading to direct impingement of
coronoid process
• Inferior or lateral rim step-off
– Dislocation of the ZM or ZF sutures creates point
tenderness and palpable separation
77. Indication for surgery
• Significant malar flattening
• Lateral canthal dystopia or lower-lid mal-
position
• Trismus or malocclusion
• Significant orbital enlargement with or
without orbital floor symptoms
• Significant displacement or comminution
86. • May enter the orbit either by
– Traversing between the globe and the orbital
wall
– Double perforation of the globe
• If removed, culture should be obtained.
87. • Foreign body should be removed
- Vegetable matter, wood
- Easy to access < in anterior orbit >
- Copper, iron, zinc
• Foreign body can be observed
- Inert
- Smooth edge
- Located in the posterior orbit
89. Indication for surgery
orbital roof Fx
• Depressed skull fracture (if the anterior cranial
fossa is compromised, a craniotomy is often
required)
• Significant diplopia
• Significant exophthalmos
• Frontal sinus fracture with compromise of the
nasofrontal duct
90. • Restrictive diplopia in a functional field of gaze
• CT evidence of entrapped muscle or orbital
tissue
• Enopthalmos greater than 2 mm
• Presence of NOE fracture is the only indication
necessary for surgery
Indication for surgery
medial orbital Fx
91. Indication for surgery ZMC Fx
• Significant malar flattening
• Lateral canthal dystopia or lower-lid mal-
position
• Trismus or malocclusion
• Significant orbital enlargement with or
without orbital floor symptoms
• Significant displacement or comminution
92. Indication for surgery
orbital floor Fx
• Diplopia with limit upgaze/downgaze within
30 degrees of the primary position, positive
forced duction test after resolution of the
edema and imaging confirm floor fracture
• Oculocardiac reflex is presented
• Enophthalmos exceed 2 mm and is
cosmetically unacceptable to the patient
• Large fractures involving at least half of the
orbital floor +/- large medial wall fractures