Maxillofacial Trauma

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Maxillofacial Trauma

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Pathognomonic clinical signs of traumatic tissue maxillofacial area in children. Modern diagnostic methods. The principles of therapeutic tactics in injuries of the ... – PowerPoint PPT presentation

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Title: Maxillofacial Trauma

1
Pathognomonic clinical signs of traumatic tissue
maxillofacial area in children. Modern diagnostic
methods. The principles of therapeutic tactics in
injuries of the soft tissues of the face, teeth,
bones. Diagnosis, differential diagnosis and
treatment of TMJ ankilosis. Modern principles of
treatment and rehabilitation of children with
congenital maxillo facial area.
2
Maxillofacial trauma

Management of traumatized patient

3
Causes

? Road traffic accident (RTA)
35-60
Rowe and Killey 1968
Vincent-Towned and Shepherd 1994
? Fight and assault (interpersonal violence)
Most in economically prosperous countries
Beek and Merkx 1999
? Sport and athletic injuries
? Industrial accidents
? Domestic injuries and falls

4
Incidence

Literatures reported different incidence in
different parts of the WORLD and at different
TIMES
v 11 in RTA (Oikarinen and Lindqvist 1975)
Mandible (61)
Maxilla (46)
Zygoma (27)
Nasal (19.5)

5
Factors affecting the high/low incidence of
maxillofacial trauma

Geography
Fight, gunshot and RTA in developed and
developing countries respectively (Papavassiliou
1990, Champion et al 1997)
Social factors
Violence in urban states (Telfer et al 1991
Hussain et al 1994 Simpson McLean 1995)
Alcohol and drugs
Yong men involved in RTA wile they are under
alcohol or drug effects (Shepherd 1994)
Road traffic legislation
Seat belts have resulted in dramatic decrease
in injury (Thomas 1990, as reflected in reduction
in facial injury (Sabey et al 1977)
Season
Seasonal variation in temperature zones
(summer and snow and ice in midwinter) of RTA,
violence and sporting injuries (Hill et al 1998)

6
Assessment of traumatized patient

This should not concentrate on the most obvious
injury but involve a rapid survey of the vital
function to allow management priorities

5 of all deaths world wide are caused by
trauma This might be much higher in this country
7
Peaks of mortality

First peak
Occurs within seconds of injury as a result of
irreversible brain or major vascular damage
Second peak
Occurs between a few minutes after injury and
about one hour later (golden hour)
Third peak
Occurs some days or weeks after injury as a
result of multi-organ failure

8
Organization of trauma services
triage decisions are crucial in determining
individual patients survival

Pre-hospital care (field triage)
Care delivered by fully trained paramedic in
maintaining airway, controlling cervical spine,
securing intravenous and initiating fluid
resuscitation
Hospital care (inter-hospital triage)
Senior medical staff organized team to ensure
that medical resources are deployed to maximum
overall benefit
Mass casualty triage

9
Primary survey

? Airway maintenance with cervical spine
control
? Breathing and ventilation
? Circulation with hemorrhage control
? Disability assessment of neurological status
? Exposure and complete examination of the patient

10
Airway

Satisfactory airway signifies the implication of
breathing and ventilation and cerebral function
Management of maxillofacial trauma is an integral
part in securing an unobstructed airway
Immobilization in a natural position by a
semi-rigid collar until damaged spine is excluded

11
Sequel of facial injury
Obstruction of airway
asphyxia
Cerebral hypoxia
Brain damage/ death
Is the patient fully conscious? And able to
maintain adequate airway?
Semiconscious or unconscious patient rapidly
suffocate because of inability to cough and adopt
a posture that held tongue forward
12
Immediate treatment of airway obstruction in
facial injured patient

?Clearing of blood clot and mucous of the mouth
and nares and head position that lead to escape
of secretions (sit-up or side position)
? Removal of foreign bodies as a broken denture
or avulsed teeth which can be inhaled and
ensuring the patency of the mouth and oropharynex
? Controlling the tongue position in case of
symphesial bilateral fracture of mandible and
when voluntary control of intrinsic musculature
is lost
? Maintaining airway using artificial airway in
unconscious patient with maxillary fracture or by
nasophryngeal tube with periodic aspiration
? Lubrication of patients lips and continuous
supervision

13
Additional methods in preservation of the airway
in patient with severe facial injuries

Endotracheal intubation
Needed with multiple injuries, extensive soft
tissue destruction and for serious injury that
require artificial ventilation
Tracheostomy
Surgical establishment of an opening into the
trachea
Indications 1. when prolonged artificial
ventilation is necessary
2. to facilitate
anesthesia for surgical repair in certain cases
3. to ensure a
safe postoperative recovery after extensive
surgery
4. following
obstruction of the airway from laryngeal edema
5. in case of
serious hemorrhage in the airway
Circothyroidectomy
An old technique associated with the risk of
subglottic stenosis development particularly in
children. The use of percutaneous dilational
treachestomy (PDT) in MFS is advocated by Ward
Booth et al (1989) but it can be replaced with
PDT.
Control of hemorrhage and Soft tissue laceration
Repair, ligation, reduction of fracture and
Postnasal pack

14
Cervical spine injury

Can be deadly if it involved the odontoid
process of the axis bone of the axis vertebra
If the injury above the clavicle bone, clavicle
collar should minimize the risk of any
deterioration

15
Breathing and ventilation

Chest injuries
Pneumothorax, haemopneumothorax, flail
segments, reputure daiphram, cardiac tamponade
signs

Clinical Deviated trachea Absence of breath
sounds Dullness to percussion Paradoxical
movements Hyper-response with a large
pneumothorax Muffled heart sounds
Radiographical Loss of lung marking Deviation of
trachea Raised hemi-diaphragm Fluid
levels Fracture of ribs
16
Emergency treatment in case of chest injury

Occluding of open chest wounds
Endotreacheal intubation for unstable flail chest
Intermittent positive pressure ventilation
Needle decompression of the pericardium
Decompression of gastric dilation and aspiration
of stomach content

17
Circulation

Circulatory collapse leads to low blood
pressure, increasing pulse rate and diminished
capillary filling at the periphery

Patient resuscitation Restoration of
cardio-respiratory function Shock
management Replacement of lost fluid
18

Fluid for resuscitation
?Adequate venous access at two points
? Hypotension assumed to be due to hypovolaemia
? Resuscitation fluid can be crystalloid, colloid
or blood ringer lactate
? Surgical shock requires blood transfusion,
preferably with cross matching or group O
? Urine output must be monitored as an indicator
of cardiac out put

Reduction and fixation will often arrest bleeding
of long duration
Pulse and blood pressure should be monitored and
appropriate replacement therapy is to be started

20
Neurological deficient

Rapid assessment of neurological disability is
made by noting the patient response on four
points scale
A Response appropriately, is Aware
V Response to verbal stimuli
P Response to painful stimuli
U Does not responds, Unconscious

21
Glasgow coma scale (GCS)(Teasdale and Jennett,
1974)
Eye opening Eye opening Motor response Motor response Verbal response Verbal response
Spontaneous 4 Move to command 6 Converse 5
To speech 3 Localizes to pain 5 Confused 4
To pain 2 Withdraw from pain 4 Gibberish 3
none 1 flexes 3 grunts 2
none 1 Extends 2 grunts 2
none 1 Extends 2 none 1
none 1 none 1 none 1
Score 8 or less indicates poor prognosis,
moderate head injury between 9-12 and mild
refereed to 13-15
22
Exposure

All trauma patient must be fully exposed in a
warm environment to disclose any other hidden
injuries
When the airway is adequately secured the
second survey of the whole body is to be carried
out for
Accurate diagnosis
Maintenance of a stable state
Determination of priorities in treatment
Appropriate specialist referral

23
Secondary surveyAlthough maxillofacial injuries
is part of the secondary survey, OMFS might be
involved at early stage if the airway is
compromised by direct facial trauma

Head injury
Abdominal injury
Injury to extremities

24
Head injuryMany of facial injury patients
sustain head injury in particular the mid face
injuries

Open
Closed
it is ranged from Mild concussion to brain death

25
Signs and symptoms of head injury

Loss of conscious
OR
History of loss of conscious
History of vomiting
Change in pulse rate, blood pressure and pupil
reaction to light in association with increased
intracranial pressure
Assessment of head injury (behavioral responses
motor and verbal responses and eye opening)
Skull fracture
Skull base fracture (battles sign)
Temporal/ frontal bone fracture
Naso-orbital ethmoidal fracture

slow reaction and fixation of dilated pupil
denotes a rise in intra-cranial pressure
Rise in intercranial pressure as a result of
acute subdural or extradural hemorrhage
deteriorate the patients neurological status
Apparently stable patient with suspicion of head
injury must be monitored at intervals up to one
hour for 24 hour after the trauma

27
Hemorrhage

Acute bleeding may lead to hemorrhagic shock
and circulatory collapse
Abdominal and pelvis injury liver and internal
organs injury (peritonism)
Fracture of the extremities (femur)

28
Abdomen and pelvis

In addition to direct injuries, loss of
circulating blood into peritoneal cavity or
retroperitonial space is life threatening,
indicated by physical signs and palpation,
percussion and auscultation
Management
Diagnostic peritoneal lavage (DPL) to detect
blood, bowel content, urine
Emergency laprotomy

29
Extremity trauma

Fracture of extremities in particular the
femur can be a significant cause of occult blood
loss. Straightening and reduction of gross
deformity is part of circulation control
Cardinal features of extremities injury
Impaired distal perfusion (risk of ischemia)
Compartment syndrome (limb loss)
Traumatic amputation

30
Patient hospitalization and determination of
prioritiesFacial bone fracture is hardly ever
an urgent procedure,simple and minor injury of
ambulant patient may occasionally mask a serious
injury that eventually ended the patients life

? emergency cases require instant admission
? conditions that may progress to emergency
? cases with no urgency

31
Preliminary treatment in complex facial injury

Soft tissue laceration (8 hours of injury with no
delay beyond 24 hours)
Support of the bone fragments
Injury to the eye
As a result of trauma, 1.6 million are blind,
2.3 million are suffering serious bilateral
visual impairment and 19 million with unilateral
loss of sight (Macewen 1999)
Ocular damage
Reduction in visual acuity
Eyelid injury

32
Prevention of infectionFractures of jaw
involving teeth bearing areas are compound in
nature and midface fracture may go high, leading
to CSF leaks (rhinorrhoea, otorrhoea) and risk of
meningitis,and in case of perforation of
cartilaginous auditory canal

Diagnosis
Laboratory investigation, CT and MRI scan
Management
Dressing of external wounds
Closure of open wounds
Reposition and immobilization of the fractures
Repair of the dura matter
Antibacterial prophylaxis (as part of the general
management (Eljamal, 1993)

33
Control of pain Displaced fracture may cause
severe pain but strong analgesic ( Morphine and
its derivatives) must be avoided as they depress
cough reflex, constrict pupils as they may mask
the signs of increasing intracranial pressure

Management
? Non-steroidal anti-inflammatory drugs can be
prescribed (Diclofenac acid)
? Reduction of fracture
? sedation

34
In patient care

Necessary medications
Diet (fluid, semi-fluid and solid food) intake
and output (fluid balance chart)
Hygiene and physiotherapy
Proper timing for surgical intervention

35
Pathophysiology

Maxillofacial fractures result from either blunt
or penetrating trauma.
Penetrating injuries are more common in city
hospitals.
Midfacial and zygomatic injuries.
Blunt injuries are more frequently seen in
community hospitals.
Nose and mandibular injuries.

36
Pathophysiology

High Impact
Supraorbital rim 200 G
Symphysis of the Mandible 100 G
Frontal 100 G
Angle of the mandible 70 G
Low Impact
Zygoma 50 G
Nasal bone 30 G

37
Etiology

_at_60 of patients with severe facial trauma have
multisystem trauma and the potential for airway
compromise.
20-50 concurrent brain injury.
1-4 cervical spine injuries.
Blindness occurs in 0.5-3

38
Etiology

25 of women with facial trauma are victims of
domestic violence.
Increases to 30 if an orbital wall fx is
present.
25 of patients with severe facial trauma will
develop Post Traumatic Stress Disorder

39
Anatomy
40
Anatomy
41
Emergency ManagementAirway Control

Control airway
Chin lift.
Jaw thrust.
Oropharyngeal suctioning.
Manually move the tongue forward.
Maintain cervical immobilization

42
Emergency ManagementIntubation Considerations

Avoid nasotracheal intubation
Nasocranial intubation
Nasal hemorrhage
Avoid Rapid Sequence Intubation
Failure to intubate or ventilate.
Consider an awake intubation.
Sedate with benzodiazepines.

43
Emergency ManagementIntubation Considerations

Consider fiberoptic intubation if available.
Alternatives include percutaneous transtracheal
ventilation and retrograde intubation.
Be prepared for cricothyroidotomy.

44
Emergency ManagementHemorrhage Control

Maxillofacial bleeding
Direct pressure.
Avoid blind clamping in wounds.
Nasal bleeding
Direct pressure.
Anterior and posterior packing.
Pharyngeal bleeding
Packing of the pharynx around ET tube.

45
History

Obtain a history from the patient, witnesses and
or EMS.
AMPLE history
Specific Questions
Was there LOC? If so, how long?
How is your vision?
Hearing problems?

46
History

Specific Questions
Is there pain with eye movement?
Are there areas of numbness or tingling on your
face?
Is the patient able to bite down without any
pain?
Is there pain with moving the jaw?

47
Physical Examination

Inspection of the face for asymmetry.
Inspect open wounds for foreign bodies.
Palpate the entire face.
Supraorbital and Infraorbital rim
Zygomatic-frontal suture
Zygomatic arches

48
Physical Examination

Inspect the nose for asymmetry, telecanthus,
widening of the nasal bridge.
Inspect nasal septum for septal hematoma, CSF or
blood.
Palpate nose for crepitus, deformity and
subcutaneous air.
Palpate the zygoma along its arch and its
articulations with the maxilla, frontal and
temporal bone.

49
Physical Examination

Check facial stability.
Inspect the teeth for malocclusions, bleeding and
step-off.
Intraoral examination
Manipulation of each tooth.
Check for lacerations.
Stress the mandible.
Tongue blade test.
Palpate the mandible for tenderness, swelling and
step-off.

50
Physical Examination

Check visual acuity.
Check pupils for roundness and reactivity.
Examine the eyelids for lacerations.
Test extra ocular muscles.
Palpate around the entire orbits..

51
Physical Examination

Examine the cornea for abrasions and lacerations.
Examine the anterior chamber for blood or
hyphema.
Perform fundoscopic exam and examine the
posterior chamber and the retina.

52
Physical Examination

Examine and palpate the exterior ears.
Examine the ear canals.
Check nuero distributions of the supraorbital,
infraorbital, inferior alveolar and mental
nerves.

53
Frontal Sinus/ Bone FracturesPathophysiology

Results from a direct blow to the frontal bone
with blunt object.
Associated with
Intracranial injuries
Injuries to the orbital roof
Dural tears

54
Frontal Sinus/ Bone FracturesClinical Findings

Disruption or crepitance orbital rim
Subcutaneous emphysema
Associated with a laceration

55
Frontal Sinus/ Bone FracturesDiagnosis

Radiographs
Facial views should include Waters, Caldwell and
lateral projections.
Caldwell view best evaluates the anterior wall
fractures.

56
Frontal Sinus/ Bone FracturesDiagnosis

CT Head with bone windows
Frontal sinus fractures.
Orbital rim and nasoethmoidal fractures.
R/O brain injuries or intracranial bleeds.

57
Frontal Sinus/ Bone FracturesTreatment

Patients with depressed skull fractures or with
posterior wall involvement.
ENT or nuerosurgery consultation.
Admission.
IV antibiotics.
Tetanus.
Patients with isolated anterior wall fractures,
nondisplaced fractures can be treated outpatient
after consultation with neurosurgery.

58
Frontal Sinus/ Bone FracturesComplications

Associated with intracranial injuries
Orbital roof fractures.
Dural tears.
Mucopyocoele.
Epidural empyema.
CSF leaks.
Meningitis.

59
Naso-Ethmoidal-Orbital Fracture

Fractures that extend into the nose through the
ethmoid bones.
Associated with lacrimal disruption and dural
tears.
Suspect if there is trauma to the nose or medial
orbit.
Patients complain of pain on eye movement.

60
Naso-Ethmoidal-Orbital Fracture

Clinical findings
Flattened nasal bridge or a saddle-shaped
deformity of the nose.
Widening of the nasal bridge (telecanthus)
CSF rhinorrhea or epistaxis.
Tenderness, crepitus, and mobility of the nasal
complex.
Intranasal palpation reveals movement of the
medial canthus.

61
Naso-Ethmoidal-Orbital Fracture

Imaging studies
Plain radiographs are insensitive.
CT of the face with coronal cuts through the
medial orbits.
Treatment
Maxillofacial consultation.
? Antibiotic

62
Nasal Fractures

Most common of all facial fractures.
Injuries may occur to other surrounding bony
structures.
3 types
Depressed
Laterally displaced
Nondisplaced

63
Nasal Fractures

Ask the patient
Have you ever broken your nose before?
How does your nose look to you?
Are you having trouble breathing?

64
Nasal Fractures

Clinical findings
Nasal deformity
Edema and tenderness
Epistaxis
Crepitus and mobility

65
Nasal Fractures

Diagnosis
History and physical exam.
Lateral or Waters view to confirm your diagnosis.

66
Nasal Fractures

Treatment
Control epistaxis.
Drain septal hematomas.
Refer patients to ENT as outpatient.

67
Orbital Blowout Fractures

Blow out fractures are the most common.
Occur when the the globe sustains a direct blunt
force
2 mechanisms of injury
Blunt trauma to the globe
Direct blow to the infraorbital rim

68
Orbital Blowout FracturesClinical Findings

Periorbital tenderness, swelling, ecchymosis.
Enopthalmus or sunken eyes.
Impaired ocular motility.
Infraorbital anesthesia.
Step off deformity

69
Orbital Blowout FracturesImaging studies

Radiographs
Hanging tear drop sign
Open bomb bay door
Air fluid levels
Orbital emphysema

70
Orbital Blowout FracturesImaging studies

CT of orbits
Details the orbital fracture
Excludes retrobulbar hemorrhage.
CT Head
R/o intracranial injuries

71
Orbital Blowout FracturesTreatment

Blow out fractures without eye injury do not
require admission
Maxillofacial and ophthalmology consultation
Tetanus
Decongestants for 3 days
Prophylactic antibiotics
Avoid valsalva or nose blowing
Patients with serious eye injuries should be
admitted to ophthalmology service for further
care.

72
Zygoma Fractures

The zygoma has 2 major components
Zygomatic arch
Zygomatic body
Blunt trauma most common cause.
Two types of fractures can occur
Arch fracture (most common)
Tripod fracture (most serious)

73
Zygoma Arch Fractures

Can fracture 2 to 3 places along the arch
Lateral to each end of the arch
Fracture in the middle of the arch
Patients usually present with pain on opening
their mouth.

74
Zygoma Arch FracturesClinical Findings

Palpable bony defect over the arch
Depressed cheek with tenderness
Pain in cheek and jaw movement
Limited mandibular movement

75
Zygoma Arch FracturesImaging Studies
Treatment

Radiographic imaging
Submental view (bucket handle view)
Treatment
Consult maxillofacial surgeon
Ice and analgesia
Possible open elevation

76
Zygoma Tripod Fractures

Tripod fractures consist of fractures through
Zygomatic arch
Zygomaticofrontal suture
Inferior orbital rim and floor

77
Zygoma Tripod FracturesClinical Features

Clinical features
Periorbital edema and ecchymosis
Hypesthesia of the infraorbital nerve
Palpation may reveal step off
Concomitant globe injuries are common

78
Zygoma Tripod FracturesImaging Studies

Radiographic imaging
Waters, Submental and Caldwell views
Coronal CT of the facial bones
3-D reconstruction

79
Zygoma Tripod FracturesTreatment

Nondisplaced fractures without eye involvement
Ice and analgesics
Delayed operative consideration 5-7 days
Decongestants
Broad spectrum antibiotics
Tetanus
Displaced tripod fractures usually require
admission for open reduction and internal
fixation.

80
Maxillary Fractures