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TITLE:   Frontal Sinus Fractures
SOURCE:  Dept. of Otolaryngology, UTMB, Grand Rounds
DATE:    February 22, 1995
RESIDENT PHYSICIAN:     Kelly D. Sweeney, M.D.
FACULTY:                Brian P. Driscoll, M.D.
DATABASE ADMINISTRATOR: Melinda McCracken, M.S.
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"This material was prepared by resident physicians in partial fulfillment 
of educational requirements established for the Postgraduate Training 
Program of the UTMB Department of Otolaryngology/Head and Neck Surgery 
and was not intended for clinical use in its present form.  It was 
prepared for the purpose of stimulating group discussion in a conference 
setting.  No warranties, either express or implied, are made with respect 
to its accuracy, completeness, or timeliness.  The material does not 
necessarily reflect the current or past opinions of members of the UTMB 
faculty and should not be used for purposes of diagnosis or treatment 
without consulting appropriate literature sources and informed professional 
opinion." 


FRONTAL SINUS FRACTURES

                  
-INTRODUCTION-
     Fractures involving the frontal region represent some of the
least common injuries that affect the facial skeleton.  The
incidence is 5 - 15% of all facial fractures.  However, because
the frontal area makes up part of the brain case, the fatal
potential of these injuries is much greater than with other
facial fractures.  The majority of these fractures are caused by
automobile accidents and assaults.

-ANATOMY- 
     The frontal sinus is a pyramidal, air-filled cavity which
lies between the lamina of the frontal bone.  The size and shape
of this sinus varies among individuals and between the two sides. 
The anterior wall is generally considered the strongest of the
two tables. The posterior wall is much thinner and weaker and
separates the sinus from the dura of the frontal lobe in the
anterior cranial fossa.  The eyebrows and the buttress of the
supraorbital rim demarcate the lower anterior border of the
frontal sinus.  The sinus floor consists of membranous bone which
is the thinnest of the sinus boundaries and the most vulnerable
to injury.  The floor also forms 2/3 of the medial orbital roof. 
There is usually a thin septum arising from the midline of the
sinus floor which partially or totally separates the two sides of
the sinus.
     
     The arterial blood supply of the frontal sinus is primarily
diploic branches of the supraorbital artery which arise from the
ophthalmic artery and from branches of the anterior ethmoid
artery.  Superficial venous drainage is by the angular and facial
veins.  The deep venous drainage is through the ophthalmic vein
to the cavernous sinus.  In addition, there are veins present in
the mucosa of the frontal sinus which communicate with the dura
and the diploe of the cranium.  The perforations in the bone
containing these veins are known as Breschet's canals, and blood
may flow in a retrograde fashion into the anterior cranial fossa
because of the lack of valves in these veins.  Spread of
infection through these veins can then lead to development of a
subdural or brain abscess.  Sensory innervation is provided by
the ophthalmic division of the trigeminal nerve.
     
     The frontal sinus begins as an evagination of the anterior-
superior portion of the middle meatus known as the frontal
recess.  This is first recognizable during the end of the third
month of fetal life.  A furrow develops in the frontal recess
around the fifth month which progresses to form a larger pit or
several smaller ones from which the sinuses develop.  The sinuses
may develop as a large direct extension of this area (no true
duct) or may push upward maintaining communication with the nasal
cavity by a formed nasofrontal duct.  
     
     Between the ages of 1 and 2 years, this developing sinus
begins to grow between the anterior and posterior tables of the
frontal bone.  By age 3, it extends several millimeters above the
frontonasal suture line.  The frontal sinus becomes recognizable
radiographically by age 7, but is not clinically significant
until age 10.  It usually reaches adult size by age 18, and may
continue to grow slowly throughout adulthood.
     
     The drainage pattern of the frontal sinus is variable.  In
15% of the population, a true nasofrontal duct exists.  These
ducts are located in the posterior-medial portion of the floor of
the sinus.  They vary in length from a few millimeters to 2-3
centimeters and are lined with respiratory mucosa.  Longer ducts
are more susceptible to traumatic disruption.  These ducts travel
in an anterior-inferior direction to empty into the anterior end
of the middle meatus.  More commonly (85%), the frontal sinus
drains directly into the middle meatus via an ostium without a
true nasofrontal duct.

      The primary purpose of the frontal sinus is to serve as a
mechanical barrier to protect the brain from trauma.  The frontal
sinuses are positioned more anteriorly than the other paranasal
sinuses and are situated to absorb anterior cranial facial
trauma. 

-EVALUATION-
     For purposes of initial evaluation, frontal sinus fractures
should be regarded as head injuries.  The majority of these
patients are victims of automobile accidents with multiple
injuries requiring a multispecialty team approach and complete 
evaluation.  The standard trauma protocol must be followed with
emphasis on ensuring an adequate airway, breathing, circulation,
CNS status, and C-spine.  Any other life-threatening injuries
take precedence over the sinus fracture.  Injuries to the thorax,
abdomen, and extremities are not uncommonly associated with
injury to the head and face and must not be overlooked. 
Appropriate consultations must be obtained and treatment must be
prioritized appropriately.

     In any patient sustaining significant maxillofacial injury,
the cervical spine should be suspect and should be evaluated both
radiographically as well as clinically prior to other studies or
examinations requiring hyperflexion or other manipulation in the
head and neck.  The c-spine should be stabilized in a cervical
collar until a cross-table lateral radiograph is obtained and
demonstrates that all seven cervical vertebrae are normal.  

     A thorough neurologic examination is extremely important.  
Significant intracranial injury occurs more commonly with injury
to the frontal sinus (12-17% of the time) that with injury to the
mandible or midface due to the proximity of the frontal sinus to
the brain and the great forces required to cause a frontal sinus
fracture.  Neurosurgical consultation should be obtained promptly
if abnormal neurologic studies or brain CT changes are observed.
Changes in mental status as well as nausea or vomiting are
suggestive of intracranial injury.  It is important to search for
cerebrospinal fluid leakage from the nose or directly from
lacerations and exposed bone which could signify dural
displacement coupled with a posterior table fracture.  A
traumatic CSF fistula of the frontal sinus is a life threatening
process deserving urgent attention. 
   
     Early ophthalmologic consultation should be obtained in the
emergency department for any fractures of the frontal sinus when
they concomitantly involve the orbit and should be considered in
every case of frontal sinus fractures.  It is important to
document visual acuity, pupillary function, and ocular mobility
and to inspect the anterior chamber for blood (hyphema) and the
fundus for gross disruption.  In one study by Holt, of 787
patients with facial fractures who were evaluated by an
ophthalmologist in the emergency department, 89% of those with
frontal sinus fractures had associated eye injuries!
     
     A general head and neck examination should be performed
promptly, carefully palpating and exploring locally all wounds
and lacerations.  Note any crepitance, bony step-offs, point
tenderness, soft tissue swelling, rhinorrhea, epistaxis, or
abrasions and contusions around the neck.  The extent of soft
tissue injury overlying the sinus can be misleading and may not
reflect the degree of injury to the sinus.  Soft tissue swelling
is often seen over the frontal region and may not allow for the
diagnosis of a depressed fracture on palpation.

-RADIOGRAPHY-
     Computed tomography has become the imaging study of choice
for evaluating fractures of the frontal sinus.  It provides
superior detail of simple and complex comminuted fractures of the
anterior and posterior tables of the frontal sinuses, as well as
other facial and cranial bones.  Subtle and obvious bony
displacements and fragments, as well as foreign bodies are
readily detected.  CT scans also provide simultaneous information
regarding facial, orbital, and intracranial soft tissue injury. 
Both axial and coronal views with 1.5 mm cuts should be obtained. 
 
     CT scans may not clearly define fractures or injuries to the
nasofrontal ostia or ductal drainage system.  It will, however,
provide enough detail to make fairly accurate predictions of
nasofrontal duct involvement.  Isolated fractures of the anterior
table of the frontal sinus and transverse linear fractures
through the anterior and posterior table above the floor of the
sinus are not usually associated with damage to the nasofrontal
duct.  However, CT evidence for fractures involving the floor of
the sinus, the nasoethmoid complex, inferiorly located fractures
of the posterior wall, or depressed fractures of the posterior
table almost always signify injury to the frontal sinus drainage
system and must be evaluated further.  
     
     CT scanning can also be helpful in anticipating possible
dural disruptions.  Findings on CT that usually signify torn dura
include:  a wide gap in the posterior wall or any marked
displacement of fragments; a fracture passing across both
sinuses; a large projecting fragment posteriorly; a fracture that
widens as it progresses inferiorly; or tilting of the crista
galli.       
          
-MANAGEMENT-
     Treatment of frontal sinus fractures has been controversial
for years.  The goals, however, remain the same: cosmetic
restoration and prevention of early and late complications
including acute and chronic sinusitis, mucocele formation, brain
abscess, and osteomyelitis.  The first step in the treatment of
frontal sinus fractures is to evaluate and manage more serious
life-threatening injuries.  Once this has been accomplished, the
following data is obtained in order to formulate a treatment
plan: the specific bony tables involved, the type of fracture(s),
presence or absence of nasofrontal duct involvement, and CSF
leakage. 

      Although a treatment plan may be formed on the basis of
pre-op evaluation and CT scan findings, the surgeon must be ready
to modify this plan based on the findings at the time of the
exploration.  A risk to benefit evaluation must be made to
determine the least operative intervention that will achieve the
optimal result.  This is particularly important to remember in
dealing with frontal sinus fractures in children in order to
avoid interfering with the growth centers and causing
iatrogenically induced deformities.  

     Definitive management of facial fractures should be delayed
until the patient is stable and optimum conditions exist for a
good surgical result and recovery.  Frontal sinus fractures do
not require immediate surgical attention unless they are
associated with a neurosurgical or ophthalmologic emergency. 
Patients not requiring operative treatment for associated
injuries should be observed for head trauma for 48 hours prior to
frontal sinus exploration.  
  
-SURGICAL APPROACHES-
     Frontal sinus trephination is most commonly used to treat
acute frontal sinusitis, but it can be used for selected frontal
sinus fractures.  Access is gained through an incision under the
medial aspect of the eyebrow and carried down to the periosteum. 
A chisel or drill is then used to enter the anterior floor of the
frontal sinus.  A depressed anterior wall fracture may be reduced
using an elevator inserted through the trephination.  It is
possible to inspect the ipsilateral posterior table but exposure
is limited.  Patency of the nasofrontal duct may be assured by
demonstrating drainage of methylene blue dye into the nose via
the trephination.

     In selected cases, a frontoethmoidectomy via a Lynch
incision may be used for limited access to the frontal sinus.  An
incision is extended from below the medial border of the eyebrow
inferiorly midway between the medial canthus and nasal dorsum. 
This is carried down to the periosteum and the sinus is entered
using a chisel or drill.  This allows combined access to the
ipsilateral ethmoid and frontal sinus.

     The osteoplastic flap allows a direct approach through the
anterior wall of the frontal sinus but preserves the anterior
wall by hinging it inferiorly on the blood supply coming through
the periosteum and soft tissue.  The forehead contour is
preserved by replacement of the bone-periosteal flap over the
sinus at the completion of the procedure.  This approach provides
wide exposure to the frontal sinus and can be used to explore
both sides, repair anterior table fractures, obliterate the sinus
with fat, or remove the posterior wall with cranialization and
ablation of the sinus.  This may be done via an overlying
laceration, a brow incision, or a coronal incision.  The coronal
incision is preferred because it provides the best exposure, it
allows the neurosurgeon access to perform an anterior craniotomy
if findings warrant, and it hides the scar in hair-bearing skin. 
An exception to the use of a coronal incision would be a male
patient with a predilection to male pattern baldness.  In these
patients, a brow incision (gull-wing) might heal with a more
acceptable scar (controversial).

      The frontal sinus ablation procedure (Reidel procedure)
allows the overlying soft tissue to obliterate the sinus by
collapsing inward to meet the posterior table after removal of
the anterior table and the mucosa.  This can be accomplished via
a brow incision or a coronal incision.  Reconstruction of the
forehead defect can be performed 6-12 months later using metal
plates, calvarial bone graft, or synthetic materials.

     The cranialization procedure preserves forehead contour. 
This is done via an osteoplastic sinusotomy.  The entire
posterior table is removed and the brain is allowed to expand
forward.  For this procedure to be successful, the dura must be
intact or repaired carefully and patched with fascia if
indicated, all mucosa must be removed, and the nasofrontal duct
must be well plugged with fat and fascia.  These patients require
perioperative IV antibiotics.  In cases of severe head trauma,
this allows the brain to decompress into the frontal sinus
defect. 


-TREATMENT OPTIONS-
     There are several philosophies regarding the approach to
frontal sinus fractures.  Some authors feel that surgical
intervention is necessary in almost all frontal sinus fractures
to adequately evaluate the extent of injury to the nasofrontal
duct and posterior walls regardless of radiographic findings. 
This approach has become much less popular as the diagnostic
capabilities of CT scans have improved.  Others feel that unless
the posterior wall is severely displaced or comminuted,
cerebrospinal fluid leakage is present, or the nasofrontal
drainage system is likely to have been injured, close follow-up
without surgical intervention is appropriated.  Also, many feel
that surgical intervention is appropriate for cosmetically
unacceptable anterior table fractures. 

-ANTERIOR TABLE FRACTURES-
     These represent the most common fractures and the least
complex of the frontal sinus fractures.  These are very rarely
associated with injury to the drainage system or CSF leak. 
Linear, nondisplaced anterior table fractures may be managed by 
observation and close follow-up evaluations to ensure that the
sinuses remain clear and air containing.  Minimally displaced
anterior table fractures with no gross external deformity may be
managed by observation.  However, if there is any question as to
the possibility of a noticeable deformity in the future, the
fracture should be explored.  Grossly displaced anterior table
fractures require reduction and fixation in the anatomic position
to restore the normal forehead contour.  Titanium microplates are
generally preferred over wires and other techniques.  Fixation
may not be necessary in minimally comminuted fractures if the
bone is stable after reduction.

-POSTERIOR TABLE FRACTURES-
     Fractures of the posterior table are frequently complicated
by dural tears, with associated CSF leaks and damage to the
nasofrontal ducts.  Controversy exists as to the treatment of
linear (nondisplaced) fractures of the posterior table.  Many
feel that all nondisplaced fractures of the posterior table
should be explored because of the difficulty in assessing the
degree of posterior wall displacement without direct inspection. 
However, as CT capabilities have improved, some feel that if
there is no CSF leak or NFD injury these patients can still be
safely observed.  Neurosurgical consultation is recommended for
all posterior table fractures.

     Hybels and Newman evaluated the natural history of posterior
fractures using a cat model.  They demonstrated that mucocele
formation occurred in the presence of nasofrontal duct
obstruction and when mucosa was inadequately removed in an
obliterated sinus.  They were able to demonstrate that with
adequate drainage of the sinus, mucosa did not grow into the
fracture lines.  They also showed that healing of the posterior
wall occurred with new bone formation if the fracture line was
depressed less than the width of the posterior table.  Fractures
with loss of bone or separation between the fragments greater
than the width of the posterior table healed by fibrous tissue
filling the defect.  Hybels concluded that nondisplaced or
minimally displaced fractures of the posterior table may be
treated conservatively if there is no CSF leak or NFD injury.  

     In contrast, Donald states that nondisplaced posterior wall
fractures may not heal by bony union.  Additionally, dural tears
often exist adjacent to these posterior wall defects which may
predispose the patient to meningitis if an episode of sinusitis
develops.  He supports fat obliteration of the frontal sinus in
all cases of posterior wall fractures.

     For displaced posterior wall fractures, surgical exploration
is generally agreed upon, but the optimal surgical treatment is
controversial.  In moderately displaced fractures of the
posterior table, mucosa may become trapped in the suture line. 
These require surgical attention because continued growth of the
mucosa may result in mucocele formation, or if sinusitis occurs,
meningitis, cerebritis, or a brain abscess may occur.  Also
damage to the NFD is frequently associated with displaced
fractures of the posterior table and should be evaluated at the
time of exploration.  Most authors recommend fat obliteration of
the frontal sinus as treatment for displaced frontal sinus
fractures.  The rationale for obliteration is to provide a secure
barrier between the unsterile nasal cavity and the intracranial
area.  Complete removal of mucosa is imperative to prevent
potential mucocele formation.  A bicoronal craniotomy is used,
providing optimum exposure for evaluation and repair of both
dural and bony injuries.  The dura is repaired either with a
simple suture closure or using a fascial graft.  Once the dura is
closed, the bony fragments are reduced.  In most instances,
simple reduction is sufficient.  If instability exists, a
reduction plate is applied from the intracranial side to provide
fixation.  If >50% of the posterior wall is fractured, then a
cranialization procedure should be performed.  This is because
the extensive bone debridement and dural grafts required to
repair a severely comminuted fracture may not have the vascular
bed to support a fat graft. 

-NASOFRONTAL DUCT INJURIES-
     A competent nasofrontal communication is necessary to the
normal function of the frontal sinus.  Partial obstruction of the
NFD may predispose to chronic sinusitis or recurrent episodes of
acute sinusitis.   Complete obstruction of the NFD can lead to
mucocele formation which may act as an expanding tumor, eroding
bone and exerting a mass effect on adjacent brain or orbit.  If
bacteria seed the mucocele, a mucopyocele will develop with the
potential danger of life-threatening intracranial infections.  
Therefore, the surgical treatment of fractures impairing drainage
of the frontal sinus requires either reconstruction of the sinus
drainage system or obliteration of the sinus. 

      Attempts at treating unilateral obstruction to the NFD by
removing the intersinus septum and allowing drainage down the
contralateral side have proven unsuccessful due to the
unpredictability of the drainage system and fibrous tissue
ingrowth at the site of the removed septum.  Catheter placement
in the NFD has also been abandoned due to ductal stenosis.        
    
     Reconstruction of the NFD may be attempted for frontal sinus
fractures when the pre-op assessment has shown that the posterior
wall does not require surgical attention.  This can be done via a
frontoethmoidectomy approach with or without the use of temporary
stents.  Advocated of this argue that it is a lesser procedure
with fewer complications than the osteoplastic flap and allows
direct access to the ethmoid air cells.  This can be done
bilaterally if both NFD are injured.  

     For NFD injuries associated with posterior wall fractures,
the best treatment is an osteoplastic flap approach with complete
mucosal removal, fat obliteration of the sinus, and plugging of
the NFD.

-CONSERVATIVE TREATMENT AND FOLLOW-UP-
     For patients in whom operative exploration is not mandatory,
conservative treatment measures include broad spectrum
antibiotics (more controversy), +/- systemic decongestants,
dependent drainage to aid in clearing the blood filled sinus,
avoidance of nose blowing to prevent pneumocephalus, and close
observation.  If the patient's clinical course changes or if
mental status changes develop, immediate CT scanning and surgical
exploration are recommended.

     Follow-up is extremely important in any patient who sustains
a frontal sinus fracture.  Complications may not develop for many
years after the injury, and this fact must be emphasized to these
patients.  At any time in the patient's life when complaints of
frontal sinusitis, frontal sinus pressure, visual changes,
unexplained fevers, and persistent frontal headaches arise, he
should be evaluated for complications and should undergo a CT
scan.

-CONCLUSIONS-
     Frontal sinus fractures are uncommon injuries representing
only 5-15% of all facial fractures.  Patients suspected of
sustaining a frontal sinus fracture must undergo a complete 
evaluation in the emergency department following the trauma
protocol (airway, breathing, circulation, C-spine) and must have
potential life-threatening injuries addressed and treated prior
to treatment of the fracture.  Appropriate neurosurgical and
ophthalmologic consultations should be obtained in the ER.  CT
scanning is the method of choice for evaluation of the fracture. 
The treatment of frontal sinus fractures is controversial and
individual factors must be taken into account in each case. 
However, if any doubt exists as to the need for sinus
exploration, then the sinus should probably be explored.
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                         BIBLIOGRAPHY

Cummings, C.W.  Otolaryngology- Head and Neck Surgery, Second
  edition, Mosby Year Book, 1993, St. Louis, pages 374-402.

Donald, P.T., Bernstein, L., Compound Frontal Sinus Injury with 
  Intracranial Penetration.  Laryngoscope 88: 225-232, 1978.

Duvall, A.J., et al., Frontal Sinus Fractures: Analysis of 
  Treatment Results.  Arch Otolaryngol Head Neck Surg  113:
  933-935, 1987.

English, G.M.  Otolaryngology, Revised Edition, J.B. Lippincott
  Company, 1992, Philadelphia, Chapter 28, pages 1-11.

Fonseca, R.J., Walker, R.V.  Oral and Maxillofacial Trauma,
  W.B. Saunders Company, 1991, Philadelphia, pages 576-599.

Hybels, R.L., Newman, M.H., Posterior Table Fractures of the 
  Frontal Sinus. I. An Experimental Study.  Laryngoscope 87:
  171-179, 1972.

Hybels, R.L., Posterior Table Fractures of the Frontal Sinus.     
  II. Clinical Aspects.  Laryngoscope 87: 1740-1745, 1977.

Levine, S.B., et al., Evaluation and Treatment of Frontal Sinus
  Fractures.  Otolaryngol Head Neck Surg  95:19-22, 1986.

Mathog, R.H.  Maxillofacial Trauma, Williams and Wilkins, 1984, 
  Baltimore, pages 280-296.

Mathog, R.H.  Atlas of Craniofacial Trauma, W.B. Saunders Company
  1992, Philadelphia, pages 351-389.

Newman, M.H., Travis, L.W., Frontal Sinus Fractures.              
  Laryngoscope 83:1781-1792, 1973.

Stanley, R.B., Becker, T.S., Injury of the Nasofrontal Orifices 
  in Frontal Sinus Fractures. Laryngoscope 97:728-731, 1987.   
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