Oral Surgery 5 Lec. 2: Fractures of the Mandible - PDF

Summary

This document discusses mandibular fractures in oral surgery, covering their definition, classification into simple/closed, compound/opened, comminuted, and greenstick types, and classification by anatomical site (dentoalveolar, condylar, coronoid, ramus, angle, body, symphysis/parasymphysis). It also provides details on classifications that consider muscle pull tendencies and whether fractures are favorable or unfavorable. Direct and indirect fractures are described, along with their common combinations and clinical features (pain, swelling, tooth loosening, bleeding, bone tenderness, mobility). Imaging techniques, treatment, closed treatment (intermaxillary fixation), and open treatment approaches are presented. This lecture is part of a fifth-stage oral surgery course.

Full Transcript

Fifth Stage

Oral Surgery
Fractures of the Mandible
By Dr Zeena alwitry

Dr. Cube Dentistry | 2025 Edition
Fractures of the Mandible
Fracture is defined as a break in the continuity of
the bone which happens either as a result of
violence or because the bone is unhealthy and
unable to withstand normal stresses.

The mandible is the second most commonly
fractured part of the maxillofacial skeleton
because of its position and prominence and
blows to the mandible are transmitted directly to
the base of the skull through the
temporomandibular articulation

201
Fractures of the Mandible
This means that relatively minor mandibular
fractures may be associated with a surprising
degree of closed head injury.
The impact forces that are required to produce
mandibular fracture are higher than those of the
maxilla.
When the force is applied to the bone, the buccal
cortex at the site of application of the force
undergoes compression and the other cortex
(lingual cortex) of the bone undergoes tension.
If the force is greater than the compressive and
the tensile strength of the bone a fracture occurs.

302
Fractures of the Mandible

The teeth are important in determining where
fractures occur. The long canine tooth and the
partially erupted or un-erupted wisdom tooth
both represent lines of relative weakness.
Restoration of mandibular function, in particular,
as part of the stomatognathic system
must include the ability to masticate properly, to
speak normally, and to allow for articular
movements as ample as before the trauma.

403
Fractures of the Mandible
In order to achieve these goals, restoration of the
normal occlusion of the patient becomes
paramount for the treating surgeon.
The alveolar resorption that follows tooth loss
also weakens the mandible and fractures of the
edentulous body often result from much smaller
impact forces.

504
Classification of mandibular fractures
According to the type of fracture, mandibular
fractures can be classified into:

 Simple/closed: A type of single fracture that
does not have communication with the external
environment.
 Compound/opened: A type of fracture that
extends into external environment through
skin, mucosa, or periodontal membrane.

605
Classification of mandibular fractures
According to the type of fracture, mandibular
fractures can be classified into:

 Comminuted: When the bone is fragmented
into multiple pieces. This usually requires
considerably more energy than does a simple
fracture.
 Greenstick: When only one cortex of the bone is
“broken” with the other cortex being “bent”, it is
found “exclusively” in children.

705
 Classification of mandibular fractures
According to the type of fracture, mandibular
fractures can be classified into:

 Pathologic: Caused by pre-existing pathological
Ex. condition of bone (such as osteomyelitis,
neoplasms or generalized skeletal disease) that
leads to fracture from minimal trauma
 Complicated/complex: Fractures associated with
the damage to the important vital structures
Ex. complicating the treatment, as well as
prognosis, including the severely atrophied
mandible.

807
 Classification of mandibular fractures
Fractures of the mandible can also be classified
According to the Anatomic site into:

 Dentoalveolar
 Condylar
 Coronoid
 Ramus
 Angle
 Body (molar/premolar area)
 Symphysis/Para symphysis

908
Classification of mandibular fractures
Mandibular fractures classified according to their
tendency to displace as a result of the pull of the
attached muscles into:
 Favorable when the muscles tend to pull the
fragments together (minimizing displacement).
 Unfavorable when they are significantly
displaced by the muscles.

1009
Classification of mandibular fractures
Mandibular fractures classified according to their
tendency to displace as a result of the pull of the
attached muscles into:
 These are further considered as vertically or
horizontally favorable or unfavorable,
depending on the direction of displacement.
 Although this principle can be applied to any
fracture of the mandible where there are
muscles attached, it is most commonly used
with angle fractures.

1110
Direct and indirect fractures
Tensile
When the force is applied to the mandible, the indirect
point of application of the force is compressed
causing direct fracture and the resultant vector
travels along the bone and applies tensile force on
the point intersected by this vector causing Compressed
indirect fracture. direct

Whenever a direct fracture is seen at the site of
primary impact, one must examine the
corresponding indirect fracture site and rule out
the indirect fracture.

1211
Direct and indirect fractures
Common combinations of direct and
indirect fractures are:
 Symphyseal (direct) fracture combined
with bilateral subcondylar (indirect)
fractures also called parade ground
fracture or ‫ اا‬fracture.
 Body (direct) fracture combined with
contralateral angle or subcondylar
(indirect) fracture.
 Parasymphyseal (direct) fracture combined
with contralateral subcondylar or angle
(indirect) fracture.

1312
Direct and indirect fractures
The main clinical features of mandibular fractures
include:
 Pain especially on talking and swallowing leading to
drooling of saliva.
 Swelling due to edema and hematoma causing facial
asymmetry.
 The teeth near the fracture site may become
loosened, displaced or avulsed with laceration of the
gingiva.
 Bleeding from the fracture site.
 Bone tenderness over fracture site.
 Mobility of fractured segment.
1412
Clinical features
 Step deformity palpable at the site due to the
displacement of the fracture segments.
 Numbness of the lower lip due to injury to the
inferior alveolar nerve.
 Malocclusion.
 Sublingual hematoma which is regarded as a
pathognomonic sign of fracture.
 Trismus and difficulty in moving the jaw.
 In some cases of bilateral subcondylar fractures with
condylar displacement and shortening of the ramus
leads to premature contact of the posterior teeth
and anterior open bite.

1514
Clinical features
 Bilateral parasymphyseal fracture may be readily
displaced posteriorly under the influence of the
genioglossus and geniohyoid muscles allowing the
tongue to fall back and obstruct the oropharynx
which constitutes a threat to the airway especially in
patients with depressed level of consciousness.
 In some cases of condylar fractures bleeding from the
ear may result from laceration of the anterior wall of
the external auditory meatus. It is important to
distinguish bleeding originating in the external
auditory canal from the more serious middle ear
hemorrhage which signifies a fracture of the petrous
temporal bone and may be accompanied by
cerebrospinal otorrhea.

1615
TEST YOURSELF
Bilateral parasymphyseal fracture under the stabilising influence of
mylohyoid and geniglossus. True or false….

17
Imaging
The clinical diagnosis of the fracture is essential but
radiographs confirm the diagnosis of the fracture and are
mandatory.
The principle is to obtain at least two views, each taken at
right angles to the other, in order to assess the degree of
displacement and angulation of the fragments.
 A panoramic radiograph (OPG) represents the best single
overall view of the mandible including the condyles.
 The combination of a posteroanterior (PA) view of the
mandible and OPG usually provide a complete view of the
mandible and obviate the need for further radiographs in
most patients and significantly reduces the overall
radiation dose to the patient.

1816
Imaging
 Occlusal views are valuable for demonstrating midline
fractures of the mandible with minimal displacement.
 CT scan is not normally undertaken for isolated
mandibular fractures unless there are complicating
factors such as significant comminution, it is also
useful in the assessment of displaced and comminuted
fractures of the condylar region where it will
demonstrate considerable detail that would otherwise
not be clear on standard radiographs.

1918
Treatment
The aim of treatment is primarily to restore function, *Esthetics is secondary
namely to restore both the occlusion and pain-free
normal movements of both TMJs.
Factors affecting treatment of mandibular fractures:
1. The fracture pattern.
2. The skill of the operator.
3. The resources available.
4. The general medical condition of the patient.
5. The presence of other injuries.
6. The degree of local contamination and infection.
7. Associated soft-tissue injury or loss.

2018
Treatment
The aim of treatment is primarily to restore function, *Esthetics is secondary
namely to restore both the occlusion and pain-free
normal movements of both TMJs.
The principles of treatment of fractures are:
 Debridement
 Reduction; it is the restoration of functional alignment
of the fractured bone fragments.
 Fixation
 Immobilization
 Rehabilitation

Treatment of mandibular fractures can be closed or open

2119
TEST YOURSELF
The Principles sequence of treatment of mandibular
fractures:-
Reduction, , Immobilization, fixation, then Rehabilitation.
TRUE OR FALSE……

22
TEST YOURSELF
The Principles sequence of treatment of mandibular
fractures:-

Reduction, Fixation, Immobilization, then Rehabilitation

23
Closed treatment
It consists of closed reduction with indirect fixation and
immobilization with intermaxillary fixation (IMF) [also
called mandibulomaxillary fixation (MMF)].
It is the traditional conservative treatment of
mandibular fractures.
Closed reduction is achieved without surgical exposure
of the fracture site by manipulation or elastic traction
and indirect fixation utilizes the standing teeth to place
the teeth in normal occlusion and immobilize them in
that position thus indirectly reduce the bone fragments.

2420
 Closed treatment
This method can be used as a definitive treatment of
mandibular fractures or as temporary fragment
stabilization in emergency cases before definitive
open treatment.
The main indications of closed treatment are:
 Non-displaced favorable fractures.
Open treatment
 Limited resources and facilities for open treatment.
 Medically compromised patients where
conservative line of treatment is required.
 Grossly infected fractures.
 Pediatric fractures with mixed dentition phase.
 Edentulous fractures.

Closed treatment

2521
Closed treatment
Advantages of closed treatment
 Non-invasive, simple, easy to master.
 Can be performed under local anesthesia.
 Less expensive.

Disadvantages of closed treatment:
 The closed treatment does not ensure “anatomical”
reduction of the fracture.
 In certain cases, closed treatment may be difficult
especially in cases of malocclusion, missing, diseased,
or damaged teeth.
 The immobilization may not be adequate which
delays the healing.

2622
Closed treatment
Disadvantages of closed treatment:
 The treatment induces morbidity to the patient due to
the IMF affecting feeding and speech.
 Closed treatment is contraindicated in some
conditions, e.g., epilepsy, chronic respiratory diseases,
incompliant patient, or chronic alcohol or drug abuse.

2723
Closed treatment
Methods of immobilization
After proper reduction and achievement of good
occlusal relationship, the upper and the lower jaws are
immobilized by fixing them together in occlusal
relationship by IMF, this can be achieved by:
Bonded orthodontic brackets:
By bonding a number of modified orthodontic brackets
onto the teeth and applying light wires or intermaxillary
elastic bands.

2824
Closed treatment
Methods of immobilization
Interdental wiring:
This method is only applicable when the patient has a
complete, or almost complete, number of suitably
shaped teeth, 0.5 mm soft stainless wire is usually used.
Many different techniques for wire fixation exist such as
direct interdental wiring and eyelet or Ivy loops.
After applying the fixation wires, tie wires are applied to
immobilize the mandible.

2925
Closed treatment
Methods of immobilization
Arch bars:
They are tooth-borne devices used in IMF of dentate
patients. They are the most versatile form of IMF.
Arch bars are indicated where the patient has an
insufficient number of suitably shaped teeth or when a
direct linkage across the fracture is required.
They can be custom made or commercially manufactured
available in aluminum, stainless steel, and nowadays also
titanium, as well as various alloys.

3026
 Closed treatment
Methods of immobilization
Arch bars:
Many patterns or designs of arch bars are present such as Erich and
Jelenko patterns.
Recently hybrid arch bar systems that use bone support have been
developed.

Cap splints:
They are fabricated by making an impression of the fractured jaw and
preparation of the cast on which a cap splint made of acrylic or metal
can be fabricated and used for fixation of the fracture.

3128
Closed treatment
Methods of immobilization
IMF screws:
These screws are self-drilling and self-tapping.
The screw head is elongated and contains holes for wire
placement.
They are inserted through small incisions in the labial
vestibule avoiding injury to the apices of the nearby
teeth, it is regarded as a rapid method to achieve IMF.

3227
Closed treatment
Methods of immobilization
Dentures or Gunning-type splints
In edentulous jaw fractures, complete denture can be
used as a splint and if the patient is not denture wearer
Gunning-type splints can be fabricated.
They are fixed to the jaws by circum-mandibular and
maxillary peralveolar wires or screws, and IMF is
achieved by connecting the two splints with wire loops or
elastic bands.

3329
Closed treatment
Methods of immobilization
External pin fixation
This method is seldom used nowadays, it is indicated in
special conditions, such as infected fractures, fractures
caused by gunshot injuries or pathological fractures.
Ideally, at least two self-tapping screw pins are placed
either side of the fracture or defect. The fracture is then
reduced and the pins linked by an external bar
framework.

3430
Closed treatment
Period of immobilization
With early uncomplicated treatment in a healthy young
adult union can on average be achieved after 3 weeks,
at which time the fixation can be released.
As an empirical guide a further 1–2 weeks should be
added for each and any of the following circumstances:
1. Where a tooth is retained in the fracture line.
2. Patients aged 40 years and over.
3. Patients who are smokers.
4. Mobile or comminuted fractures.
5. Fractures in alcoholics, particularly those with
nutritional problems

3531
Closed treatment
Period of immobilization
Rules such as these are designed for guidance only, and it
must be emphasized that the IMF should be released and
the fracture tested clinically before the fixation is finally
removed.

3632
Open treatment
It consists of open reduction and internal fixation (ORIF)
or direct skeletal fixation.
In open reduction the fracture site is surgically exposed
and the fracture is reduced under direct vision and the
fractured fragments are immobilized by different internal
direct fixation methods.
ORIF is now considered the main method of treatment
of mandibular fractures.

3733
Open treatment
The main indications for open treatment:
1. Displaced unfavorable fractures.
2. Multiple fractures of the facial bones
3. Fractures of an edentulous mandible with severe
displacement.
4. Delay of treatment and interposition of soft tissue
between non-contacting displaced fracture fragments.
5. Special systemic conditions contraindicating IMF.

3834
Open treatment
Depending on the planned method of internal fixation
and the site of the fracture, three different surgical
approaches to the mandibular body, with slight
modifications, are possible: intraoral, extraoral, or
combined access.

3935
Open treatment
Methods of internal fixation (osteosynthesis)
Interosseous or Transosseous wiring
It is the direct skeletal fixation of two or more bone
fragments with the aid of wire ligatures pulled through
previously drilled holes, it is considered a non-rigid
fixation method.

4036
Miniplates (miniaturized plates)
These are the most common form of internal fixation
used in the management of mandibular fractures. They
provide semi-rigid or load sharing fixation. The miniplate
principle involves placing the miniplates in anatomically
correct position, the plate can be anchored using only the
outer cortical bone with so-called “monocortical” screws
which are 2 mm in diameter.
As a result, plates and monocortical screws can be placed
safely in anatomically correct position where they are
biomechanically desirable.

4137
Open treatment
Methods of internal fixation (osteosynthesis)
Three-dimensional titanium miniplates
They are based on the principle of the quadrangle as a
geometrically stable configuration for support. The plates
are adapted to the bone and are secured with
monocortical self-cutting screws.

4238
Non compression rigid plates (Reconstruction plates)
These plates provide rigid or load bearing fixation, they
are mainly used in the management of infected, severely
comminuted fractures, in fractures where there are
continuity defects, and in fractures in which delayed
union or non-union has occurred.
They require bicortical screws and are fixed in place at or
near the lower border of the mandible in order to avoid
damage to the inferior alveolar nerve and the dental
roots.

4339
Open treatment
Methods of internal fixation (osteosynthesis)
Compression plates
These plates provide rigid fixation, the principle of
compression plating is by transforming the downward
force of screw insertion into a compressive force.
This type of plates does not offer much advantage to the
patient in the treatment.

4440
Open treatment
Methods of internal fixation (osteosynthesis)
Lag screws
In oblique fractures, compression lag screws can be
applied without plates, they are placed perpendicularly
across the fracture line in order to avoid displacing the
fragments. This technique appears to be ideal for
parasymphyseal and symphyseal fractures, but it
becomes technically more difficult in body or angle
fractures because the risk of damage to the inferior
alveolar nerve increases.

4541
Open treatment
Methods of internal fixation (osteosynthesis)
Bioabsorbable plates and screws
These are made from materials that undergo
degradation, so they do not have to be removed after
fracture healing. They are mainly indicated in pediatric
fractures.
Non-rigid Semi-rigid Rigid
load-sharing Load-bearing

 Transosseous  Miniplates  Non compression rigid plates
wiring (Reconstruction plates)
 compression plates

4642
Teeth in the line of fracture
Teeth in the fracture line may cause infection of the
fracture site either from the oral cavity via the disrupted
periodontium or directly from an infected pulp or chronic
apical infection. Infection of the fracture site will result
in protracted healing or even non-union.

4743
Teeth in the line of fracture
Absolute indications for removal of a tooth from the
fracture line:
1. Longitudinal fracture involving the root.
2. Dislocation or subluxation of the tooth from its socket.
3. Presence of periapical infection.
4. Advanced periodontal disease.
5. Already infected fracture line. Infection
6. Acute pericoronitis.
7. Where a displaced tooth prevents reduction of the
fracture.

4844
Teeth in the line of fracture
Relative indications for removal of a tooth from the
fracture line:
1. Functionless tooth that would probably eventually be
removed.
2. Advanced caries.
3. Doubtful teeth that could be added to existing
dentures.
Otherwise, teeth that are structurally undamaged and
potentially functional should be retained and antibiotics
administered. Teeth in line of fracture should be
followed up for 1 year and should be endodontically
treated if there is demonstrable loss of vitality. If fracture
becomes infected, immediate extraction should be
performed.
4945
TEST YOURSELF
Teeth in fracture line, all-the following are true; except:
all the immobilization methods applied on teeth
The teeth themselves are a potential source of infection
the teeth play a major role in determination where the fracture occur
advance periodontal disease is an indication for removal

50
 Complications of mandibular fractures
Intraoperative and early postoperative complications
Misplaced fixation
Damage caused by misplaced fixation devices like
transosseous wires or plates, the risk of damage to
structures within the body of the mandible like the
inferior alveolar canal and root apices is less when
using monocortical screws.
Circumandibular wires should be carefully located in
order to prevent a wire close to a fracture line from
being inadvertently drawn up into the fracture
giving rise to displacement of the bone fragments
and damage to the inferior alveolar bundle.

5146
Complications of mandibular fractures
Intraoperative and early postoperative complications
Infection of the fracture site
The main contributing factors are:
 “Compound” fractures with gross contamination. Skin , open fracture
 Inadequate stabilization of the fracture.
 Loose fixation devices.
 Immunocompromised patients, e.g., diabetics and
alcoholism.

5247
Complications of mandibular fractures
Intraoperative and early postoperative complications
Infection of the fracture site
Most infections are usually mild, with intraoral
swelling and discomfort. However, these can
progress to cellulitis, abscess formation, fistula,
osteomyelitis, and, rarely, necrotizing fasciitis.
The infection should be prevented by good
antibiotic prophylaxis, maintenance of wound
hygiene, adequate immobilization, effective
management of the teeth involved in the fracture
line and ensuring that the fixation devices are not
loose. The infection will invariably interfere with the
healing of the fracture.

5348
Complications of mandibular fractures
Intraoperative and early postoperative complications
The principles of management are :-
 Control the infection (incision and drainage, and
antibiotics)
 Remove any focus of infection (teeth, sequestra,
or plates and screws)
 Optimize the healing environment (patient’s
health, oral health)
 Immobilize the fracture.

5449
Complications of mandibular fractures
Intraoperative and early postoperative complications
Nerve damage
Anesthesia or paresthesia of the lower lip as a result
of injury to the inferior dental nerve is the most
common complication of fracture of the body of the
mandible.
Damage to the inferior alveolar nerve can also result
from treatment which is most commonly associated
with open treatment.

5550
Complications of mandibular fractures
Intraoperative and early postoperative complications
Nerve damage
Facial nerve damage may complicate some fractures
of the ramus and condyle, either as a result of a
penetrating injury severing branches of the nerve, or
blunt trauma.

5651
Complications of mandibular fractures
Late complications
Malunion
The healing of the fracture is an abnormal or non-
anatomical position. It can occur as a result of inadequate
reduction, inadequate immobilization or if no treatment is
done. It may result in occlusal discrepancies and poor
esthetics.
However, some cases do not result in any clinical
difficulties and these minor discrepancies are usually
accepted by both patients and clinicians.
If malalignment is noticed early in the postoperative
phase, it may be corrected by returning the patient to the
operating room for repeated reduction.

5752
Complications of mandibular fractures
Late complications
Delayed union
It occurs when the union of the fractured segments
is delayed beyond the expected time for that
particular fracture. taking the site and the patient's
age into consideration.
It results from disturbance of the healing process by
local factors such as infection, or general factors
such as osteoporosis or nutritional deficiency. The
delay in union is managed by prolonging the period
of immobilization.

5853
Complications of mandibular fractures
Late complications
Non-union
It is failure of the fracture to unite on its own. Non-
union can be caused by local or general factors:
1. Infection of the fracture site.
2. Inadequate immobilization and excessive mobility
of fractured fragments.
3. Unsatisfactory apposition of bone ends with
interposition of soft tissue.
4. The ultra-thin edentulous mandible in an elderly
debilitated patient.

5954
Complications of mandibular fractures
Late complications
Non-union
It is failure of the fracture to unite on its own. Non-
union can be caused by local or general factors:
5. Loss of bone and soft tissue as a result of severe
trauma, e.g. missile injury.
6. Inadequate blood supply to fracture site, e.g. after
radiotherapy.
7. The presence of bone pathology, e.g. a malignant
neoplasm.
8. General disease, e.g. osteoporosis, severe
nutritional deficiency, disorders of calcium
metabolism.

6055
Complications of mandibular fractures
Late complications
Non-union
In nonunion, the fragments are united by fibrous
tissue rather than the bone and pseudarthrosis (false
joint) results. The bone ends become rounded off
and sclerosed (eburnation).

6156
Complications of mandibular fractures
Late complications
Treatment is surgical exploration of the fracture site
and any obvious impediment to healing such as a
sequestrum or devitalized tooth removed. The bone
ends are then freshened and the jaw is immobilized
using rigid fixation. Bone graft may be needed.
If there is any doubt concerning the health or
apposition of the bone ends autogenous cancellous
bone chips should be obtained from the iliac crest
and packed around the fracture site.

6257
Complications of condylar fractures
1. Malocclusion.
2. Limitation of range of movement.
3. Displacement of the disc (reducible or irreducible).
4. Chronic pain associated with dysfunctional movement
or with osteoarthritis.
5. Fibrous or bony ankylosis.
6. Disturbance of further growth in children.

6358
Complications of internal fixation
 These may include exposure of the plates especially
when placed near the oral mucosa.
 Plates may also become infected after healing of the
fracture, in such case removal of the plate resolves
the problem.
 The upper border may cause symptoms, particularly if
covered by a denture,' also lower border wires
sometimes give rise to pain and Discomfort if the
overlying skin is thin. In these circumstances they
should be removed.

6459
Complications of mandibular fractures
Late complications
Sequestration of bone (Dead bone)
Comminuted fractures of the mandible may be
complicated by the formation of bone sequestra.
A sequestrum may be a cause of delayed union or
act as a potential source of infection.
In some cases, a sequestrum may extrude
spontaneously into the mouth with quite minimal
symptoms, but otherwise a localized abscess forms
and surgical removal of the dead bone becomes
necessary.

6560
Special considerations for mandibular fractures
Pediatric fractures
Fractures of the mandible are uncommon in children and
some modifications to the principles of treatment are
necessary when the fracture occurs in a child.
The main characteristics of mandibular fractures in
children are:
 Bone in young children is resilient and greenstick
fracture is more likely to occur and there is a greater
risk of damage to developing teeth.

6661
Special considerations for mandibular fractures
Pediatric fractures
The main characteristics of mandibular fractures in
children are:
 Mandibular fractures in young children heal very rapidly
and some fractures are stable within a week, and firmly
united within 3 weeks.
 Treatment is generally of a conservative nature.
 Mandibular fractures may disturb the growth of the
mandible if unerupted permanent teeth or teeth germs
are lost.
 Fractures of the condyle require special consideration.

6762
Special considerations for mandibular fractures
Pediatric fractures
 When fixation is needed in very young with unerupted
or very few deciduous teeth a splint for the lower jaw
alone may be used. This is constructed as a simple
acrylic and retained by two light circumandibular wires.
 When sufficient firm erupted deciduous and
permanent teeth are present, eyelet wires or arch bars
can be used.

6863
69
Special considerations for mandibular fractures
Pediatric fractures
 When there is significant displacement of fragments,
ORIF may be necessary. In this situation any plate or
wire fixation must be strictly confined to the lower
border to avoid damage to developing teeth.
 Slight imperfection in reduction can be accepted when
a fracture is treated, because continuing growth and
eruption of teeth will compensate in most cases for the
imperfect alignment the fragments.
 Prolonged follow-up is required in order to be sure that
there are no long-term effects on both mandibular
growth and the normal development of the permanent
dentition.

7064
TEST YOURSELF
Pediatric mandibular fractures;
A) When sufficient firm erupted deciduous and permanent teeth are
present; gunning splint is the treatment of choice
B) The surgical management is preferable to avoid consequences after
growth completion
C) Continuation of growth and eruption of teeth will compensate in
most cases for the imperfect alignment of the fragments
D) Titanium plates are preferableni in cases of internal fixation

71
TEST YOURSELF
Pediatric mandibular fractures;
A) When sufficient firm erupted deciduous and permanent teeth are
present; gunning splint is the treatment of choice
B) The surgical management is preferable to avoid consequences after
growth completion
C) Continuation of growth and eruption of teeth will compensate in
most cases for the imperfect alignment of the fragments
D) Titanium plates are preferableni in cases of internal fixation

72
 Fractures of the condyle
Fractures involving the mandibular condyle are the only
facial bone fractures that involve a synovial joint.
Many classification systems have been proposed for fractures
of the condylar region.
Classification of condylar fracture
1) Fracture through the head of the condyle (diacapitular
fracture): the fracture line starts in the articular surface
and may extend outside the TMJ capsule.
2) Fracture of the condylar neck: The fracture line starts
somewhere above line A (the perpendicular line through
the sigmoid notch to the tangent of the ramus) in more
than half of its length, it runs above the line A in the
lateral view.

7365
 Fractures of the condyle
Fractures involving the mandibular condyle are the only
facial bone fractures that involve a synovial joint.
Many classification systems have been proposed for fractures
of the condylar region.
Classification of condylar fracture
3) Fracture of the condylar base: The fracture line runs
behind the mandibular foramen and, in more than half of
its length, below line A.
Minimal displacement: displacement of less than 10° or
overlap of the bone edges by less than 2 mm, or both.

7466
75
Fractures of the condyle
Fractures of the condylar region involve the TMJ either
directly or indirectly and may lead to disturbance of function
of the TMJ.
Fractures that involve the sub condylar area in children
can occasionally lead to significant disturbance of growth.
Fractures into the joint space can result in fibrous or bony
ankylosis.

7667
Fractures of the condyle

Treatment of condylar fractures:
 All intracapsular fractures and all fractures in growing
children should be treated conservatively.
 Immediate or early mobilization should be encouraged.
However, if the occlusion is disturbed IMF is applied and
maintained until stable union can be expected to be
present, the period of immobilization should not exceed
10-21 days.

7768
Fractures of the condyle

ORIF of condylar fractures
Absolute indications:
 Displacement of condyle into middle cranial fossa.
 Impossibility of restoring occlusion with closed treatment.
 Lateral extra-capsular displacement.
 Invasion by foreign body (e.g. missile).

7869
 Fractures of the condyle

ORIF of condylar fractures
Relative indications:
 Bilateral fracture with associated mid-face fracture
(particularly where one condylar fracture is dislocated or
angulated).
 Bilateral fracture with severe open bite deformity.
 Unilateral fracture with dislocation, overlap or significant
angulation of the condylar head.
 When IMF is contraindicated for medical reasons.

7970
Surgical approaches for ORIF
Submandibular approach to expose the fracture,
combined with a classical pre-auricular approach to the
TMJ if needed.
Retromandibular or trans-parotid approaches also gives
good access for plate fixation.
Other approaches include; modified Blair incision
approach, rhytidectomy approach and retroauricular
approach

8071
Fractures of the condyle

Surgical approaches for ORIF
 The intraoral approach has the advantage of avoiding
facial scarring and risk of injury to the facial nerve but the
major disadvantage is limited access. which makes
fragment control difficult and the procedure surgically
more challenging.
 Minimally invasive endoscopic repair of condylar fractures
offers less morbidity and operating time, as well as quick
patient recovery.
 The main advantages are reduced risks to the facial nerve
and minimal scarring, compared with standard
percutaneous approaches.

8172
Fractures of the condyle

Fixation methods in ORIF
Among the fixation methods that have been used are; transosseous wire,
Kirschner wire (K-wire), miniplates, lag screws, bioresorbable Plates and Pins
and more recently ultrasound activated resorbable plates and pins.

8273
Fractures of the condyle

Major Complications
 Ankylosis of the TMJ; fractures that involve the joint space,
particularly in young patients, seem most prone to result
in this complication.
 Ankylosis can be fibrous or bony.
Predisposing factors include:
1. Age: the major incidence is below the age of 10 years.
2. Type of injury: intracapsular trauma with crushing of
the condyle.
3. Damage to the disc: disruption of the disc is likely to
occur in two particular types of fracture: a severe
intracapsular compression injury or a fracture
dislocation.

8374
Fractures of the condyle

Major Complications
 Disturbance of growth in children; when the fracture
involves the condylar cartilage and the articular surface,
subsequent disturbance of growth may occur.
 In some cases, fibrous or bony ankylosis of the TMJ is an
additional complication which reduces the normal
functional movement of the jaw that further inhibits
growth.
 The effect of damage is failure of development of the
condylar process and a smaller mandible on the affected
side.

8475
Fractures of the edentulous mandible
The physical characteristics of the mandible are altered
considerably following the loss of the teeth:

The alveolar process undergoes resorption and the
mandible becomes atrophic and thin.

The resistance of the bone to trauma is further reduced
by changes in the structure of the bone associated with
the process of ageing.

The blood supply of the edentulous mandible is more
periosteal due to the diminished endosteal blood
supply of the mandible.

8576
Fractures of the edentulous mandible
The physical characteristics of the mandible are altered
considerably following the loss of the teeth:

The healing potential of the bone is reduced and the healing
of the fracture is a slow process and the complications such
as nonunion are more likely to occur.

Smaller cross-sectional area of bone at the fracture site and
the absence of the stabilizing influence of teeth.

Fractures are much less frequently compound into the
mouth than when teeth are present. As a result if treatment
is by closed reduction the risk of subsequent infection is
much reduced.

8677
Fractures of the edentulous mandible
The physical characteristics of the mandible are altered
considerably following the loss of the teeth:

The absence of teeth means that precise anatomical
reduction is not necessary as any inaccuracy is easily
compensated by adjustment of dentures.

8778
Fractures of the edentulous mandible

Treatment
 Undisplaced fractures require no active treatment.
 The edentulous mandibular fractures can be treated by
closed reduction using the Gunning type splints or if the
patient is a denture wearer, the dentures can be
modified to allow IMF, which can be used as a splint.
 When ORIF is required, reduction should be made with
minimum exposure of the fracture site to minimize
interference with the periosteal blood supply.
 Fixation methods include; transosseous wiring and bone
plates

8879
Fractures of the edentulous mandible

Treatment
 Autogenous bone grafting may be needed in very thin
mandible.
 It must be remembered that accurate anatomical
reduction is not required as any inaccuracy is easily
compensated by adjustment of dentures and that in
very thin mandible stable fibrous union may be an
acceptable result in the very old or infirm patient.

8980
Comminuted mandibular fractures
 Comminuted mandibular fractures result from high
energy injuries such as missile injuries, these injuries
are associated with soft tissue damage and many of
these fractures are open (compound) and
contaminated. The bone fragments are often difficult
to manipulate and secure, while maintaining their
soft tissue attachments and are therefore at risk of
becoming loose or devitalized later on.
 The traditional method of treatment of these
fractures used closed techniques, thereby avoiding
periosteal stripping and further devitalizing the
bone.

9081
Comminuted mandibular fractures
 Recently ORIF has been advocated to provide a load
bearing fixation and stability across the fracture.
 In severe injuries after airway and hemorrhage
control, temporary IMF or external fixation can be
used until definitive ORIF.

9182
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