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eMedicine - Frontal Sinus Fractures : Article by

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AUTHOR AND EDITOR INFORMATION

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Author: E Bradley Strong, MD, Assistant Professor, Department of Otolaryngology-Head and Neck Surgery, University of California at Davis

E Bradley Strong is a member of the following medical societies: Alpha Omega Alpha and American Rhinologic Society

Editors: Hassan H Ramadan, MD, MSc, Professor and Vice-Chair, Department of Otolaryngology-Head and Neck Surgery, Professor, Department of Pediatrics, West Virginia University; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Stephen G Batuello, MD, Consulting Staff, Colorado ENT Specialists; Christopher L Slack, MD, Otolaryngology-Facial Plastic Surgery, Private Practice, Associated Coastal ENT; Medical Director, Treasure Coast Sleep Disorders; Arlen D Meyers, MD, MBA, Professor, Department of Otolaryngology-Head and Neck Surgery, University of Colorado School of Medicine

Author and Editor Disclosure

Synonyms and related keywords: frontal sinus fractures, FS, FS fractures, nasoorbitoethmoid fractures, NOE fractures, frontal sinus trauma, FS trauma, facial bone fracture, broken bone, face, fractured face, sinus, facial trauma, facial fractures

INTRODUCTION

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The frontal sinus (FS) is extremely resilient to injury. However, high-velocity impacts, such as motor vehicle accidents and assaults, can result in FS fractures. The potential for intracranial injuries, aesthetic deformities, and late mucocele formation is high. The treatment goals of FS fractures are an accurate diagnosis, avoidance of short- and long-term complications, return of normal sinus function, and reestablishment of the premorbid facial contour. The treating physician must have a concise algorithm for diagnosis and treatment of these injuries.

Frequency

FS fractures account for 5-12% of all facial fractures.

Etiology

Motor vehicle accidents account for 71% of FS fractures, assaults 10%, industrial accidents 5%, recreational accidents 4%, and other causes (eg, gunshot) 6%.

Pathophysiology

Isolated anterior table fractures account for 33% of FS fractures. Combined fractures of the anterior table, posterior table, and/or nasofrontal recess (NFR) appear in 67% of cases. Isolated posterior table injuries are rare.

As many as 33% of patients have an associated CSF leak.

Clinical

Patients with FS fractures often have associated facial injuries or panfacial fractures. A thorough head and neck examination is imperative.

  • Symptoms of FS fractures include the following:

    • Forehead swelling

    • Forehead and nasal pain

    • Forehead paraesthesias

  • Signs of nasoorbitoethmoid (NOE) fractures include the following:

    • Forehead lacerations

    • Forehead tenderness

    • Concave frontal bone contour

    • Cerebrospinal fluid (CSF) rhinorrhea (see Lab Studies)

  • Perform an initial evaluation, as follows:

    • Assess airway, breathing, and circulation (ABCs).

    • Diagnose any associated injuries.

    • After the patient is stabilized, perform a thorough head and neck examination to evaluate injuries to the brain, spine, and orbits.

      • Serious injuries are associated with FS fractures in 75% of patients. Associated facial fractures are present in 66% of patients, initial loss of consciousness occurs in 76% of patients, and prolonged periods of unconsciousness occur in 23% of patients.

      • A team approach involving the otolaryngologist or plastic surgeon, neurosurgeon, and ophthalmologist is recommended. Consultation with an ophthalmologist is mandatory.

  • Conduct directed examination of the FS, as follows:

    • Displaced fractures of the anterior table without overlying lacerations may not be apparent on physical examination because of soft tissue swelling or hematoma.

    • All forehead lacerations should be examined under sterile conditions to assess the integrity of the anterior table, posterior table, and dura.

    • Clean and examine the nasal cavity for the presence of a CSF leak. Query all conscious patients about the presence of watery rhinorrhea or salty postnasal drainage.

    • Palpate the nasal bones for crepitus and comminution.

    • Evaluate the integrity of the medial canthal tendon (MCT) by placing the thumb and index finger over the nasal root and carefully applying lateral tension to each lower lid. Normally, a defined end point to the maneuver is evident without palpable motion at the medial orbital rim. A lax MCT or medial orbital wall motion is consistent with an NOE complex fracture.


RELEVANT ANATOMY

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Development

The FS is absent at birth. The anterior ethmoid cells invade the frontal bone at 2 years of age, and the FS attains adult size at approximately 15 years of age (see Image 1)

The FS measures 30 mm tall, 25 mm wide, and 19 mm deep in the average adult (see Image 2). Average FS volume is 10 cm3.

The FS is most commonly bilateral, asymmetric, and pyramidal in shape.

  • The pyramidal base is located inferiorly, and the apex is located superiorly. The floor of the sinus forms the medial portion of the orbital roof (see Image 2).

  • The FS usually is divided by one or more intersinus separations. A unilateral, rudimentary, or absent FS is present in 20% of individuals.

Anterior table

The anterior table forms part of the forehead, brow, and glabella. It averages 4 mm in thickness but can be as thick as 12 mm. The anterior table is more resistant to fracture than any other facial bone.

Posterior table

The posterior table abuts the anterior cranial fossa. Thickness of the posterior table ranges from 0.1-4.8 mm, and it is much less resistant to injury than the anterior table.

Frontal sinus ostia

The FS has 2 ostia located on the posterior inferior aspect of the sinus floor. They are positioned anterior to the anterior ethmoid air cells, medial to the orbit, lateral to the intersinus septum, and posterior to the frontal bone.

Each ostium is approximately 3-4 mm in diameter and represents the sole drainage site for the FS.

The true ostium is the narrowest point of an hourglass configuration. The FS infundibulum is located cephalad to the ostia (the upper part of the hourglass) and narrows down to the true ostia. The NFR widens out below the ostia (the lower part of the hourglass) and enters into the ethmoid infundibulum.

The NFR is extremely short in 85% of individuals and, thus, is more accurately described as a recess rather than a true duct.

Neurovascular supply

The supraorbital and supratrochlear vessels provide arterial supply to the FS. Venous drainage occurs through 3 pathways: the facial vein, the ophthalmic vein/cavernous sinus, and the foramina of Breschet/subarachnoid space.

Sensory innervation of the FS comes from the ophthalmic branch of the trigeminal nerve.


WORKUP

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Lab Studies

  • The beta-2 transferrin test is the definitive evaluation for CSF rhinorrhea.
    • One milliliter of the suspected fluid should be collected in a red top tube. The beta-2 transferrin test is a "send-out" laboratory test at most institutions.

    • Watery rhinorrhea positive for beta-2 transferrin is diagnostic of a CSF leak. Besides CSF, only the vitreous humor of the eye and the perilymph of the ear have been found to contain beta-2 transferrin.

  • Halo sign test
    • Bloody rhinorrhea suspicious for CSF can be placed on filter paper and observed for a halo sign.

    • If CSF is present, it diffuses faster than blood and results in a clear halo around the central stain.

  • Routine chemistry analysis of the rhinorrhea may reveal an elevated glucose content consistent with CSF.

Imaging Studies

  • Plain sinus radiographs may reveal FS opacification or gross bony step-offs.

  • Thin-cut axial and coronal CTs (1.5 mm) are the criterion standards for the evaluation of FS fractures. However, the compact anatomy of the NFR can make accurate fracture diagnosis in this area difficult.
    • Axial images reveal the location, severity, and degree of comminution of anterior and posterior table fractures.

    • Coronal images reveal fractures of the FS floor and orbital roof.


TREATMENT

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Medical therapy

The most appropriate treatment of FS fractures can be complex and, at times, controversial. The treating physician should have a clear algorithm in mind for management of different fracture patterns.

The author proposes a conservative algorithm for the treatment of most FS injuries (see Image 3). Treatment options include observation, open reduction and internal fixation (ORIF), sinus obliteration, sinus exenteration (ie, removal of anterior table, Reidel procedure), and sinus cranialization. The algorithm is based on 5 anatomic parameters that need to be evaluated before deciding on the most appropriate treatment option. These parameters include NFR fractures, anterior table fractures, posterior table fractures, dural tears (CSF leak), and degree of fracture comminution.

Nondisplaced or minimally displaced ( <1-2 mm) isolated anterior table fractures can be managed conservatively with local wound care and analgesics. Patients should be closely observed for signs of frontal sinusitis, which may indicate fracture involvement in the nasofrontal duct.

Surgical therapy

General goals of surgical therapy include protection of intracranial contents, prevention of early and late complications (eg, meningitis, mucocele), restoration of aesthetic forehead contour, and return of normal FS function. Although accomplishing all these goals may not be possible, the intracranial contents must be protected, and a "safe" sinus must be reconstructed. Repair of aesthetic and functional deformities can be addressed secondarily.

NFR fractures

Nondisplaced fractures involving the floor of the FS or anterior ethmoid region should raise suspicion for NFR injury (see Image 3).

In the absence of associated FS injuries, close observation and repeat CT at 4-6 weeks may reveal sinus opacification, indicating outflow obstruction.

If NFR injury is highly suspected, but it cannot be confirmed on the CT scan, a frontal sinusotomy and endoscopic evaluation is indicated (see Intraoperative Details).

Displaced fractures usually require FS obliteration. Some authors have advocated more conservative approaches, such as NFR reconstruction with mucoperiosteal flaps (eg, Sewell-Boyden flaps) or intersinus septectomy, which theoretically allows the injured sinus cavity to drain into the uninjured NFR. These techniques have not gained significant popularity.

Anterior table fractures

Nondisplaced fractures can generally be managed nonoperatively. Nondisplaced anterior table fractures rarely result in mucocele formation, functional deficit, or aesthetic deformity (see Image 3). Advise patients of a small risk of external deformity, which can often be repaired endoscopically.

Displaced fractures greater than 1-2 mm have an increased risk of aesthetic deformity and mucocele formation. ORIF of the fracture is indicated within 7-10 days.

  • Consider endoscopic NFR evaluation through the fracture site or via trephination.

  • Anterior table fractures with only mild comminution can be repaired with preservation of FS function; however, injuries with severe comminution and marked mucosal injury may require bone grafting and FS obliteration.

Posterior table fractures

Treatment of posterior table fractures remains controversial (see Image 3). A review of the literature reveals that some authors advocate exploration of all posterior table fractures, no matter how slight. Others recommend observation even when the posterior table is significantly displaced. No prospective randomized studies are reported to corroborate the different approaches.

Nondisplaced fractures have a reduced risk of complications (eg, dural tears, CSF leak, meningitis, mucocele formation) when compared to displaced posterior table fractures. The need for exploration often depends on the presence or absence of a CSF leak.

  • CSF leak absent: When possible, patients should undergo frontal sinusotomy and endoscopic evaluation of the posterior table integrity. Sinus endoscopy is helpful to rule out mucosal injury, dural tear, CSF leak, or NFR injury. If the examination results are negative, the patient can be observed.

  • CSF leak present: Patients with active CSF leaks may be observed for 5-7 days while undergoing treatment with IV antibiotics. Approximately half of these patients have spontaneous resolution of the CSF leak. FS obliteration is indicated if the CSF leak is persistent.

Displaced fractures have an increased risk of complications and require a more aggressive approach.

  • CSF leak absent: Categorize cases by the severity of posterior table comminution. If no comminution is present, frontal sinusotomy and endoscopic evaluation for medial fractures is indicated. Obtain patient consent for an osteoplastic flap with possible obliteration or cranialization in case the injury is more severe than anticipated. Mild comminution requires osteoplastic flap and sinus obliteration. Moderate-to-severe comminution (ie, >30% of the posterior table) requires cranialization. Use a pericranial flap for dural repair as necessary. Consult a neurosurgeon for assistance with brain debridement and dural closure.

  • CSF leak present: Patients should undergo open exploration with an osteoplastic flap. If minimal-to-mild comminution is present, sinus obliteration is indicated. Moderate-to-severe comminution requires sinus cranialization.

Preoperative details

All patients undergoing open FS procedures should be counseled regarding potential risks, including the following:

  • External scar, particularly in patients with male pattern baldness

  • Bleeding

  • Infection

  • Forehead paraesthesias

  • External deformity

  • Diplopia

  • CSF leak

  • Meningitis

  • Sinusitis

  • Mucocele formation

  • Death

Intraoperative details


Frontal sinusotomy and endoscopy

Make a 1- to 1.5-cm skin incision placed midway between the medial canthus and the glabella, approximately 1 cm inferior to the brow. The incision is well hidden when placed inferior and deep to the curve of the brow.

  • The incision can be placed laterally and above the brow to access lateral portions of the FS.

  • The surgeon should use a FS template (see FS obliteration).

  • The surgeon should also attempt to avoid the supratrochlear neurovascular pedicle.

A guarded needle-point monopolar electrocautery is used to incise the periosteum. Use a cutting burr to open a 4- to 5-mm frontal sinusotomy approximately 1 cm medial and inferior to the medial brow. Incise FS mucosa; instill oxymetazoline for decongestion, if necessary.

Direct visualization of the NFR is obtained with a nasal endoscope to document any mucosal laceration or CSF leak.

  • Methylene blue or fluorescein can also be instilled into the FS to confirm patency.

  • Intranasal endoscopy will reveal the presence of dye if the NFR is patent.

Avoid NFR instrumentation because it may result in NFR stenosis. The procedure can be repeated on the contralateral side if necessary. The FS trephine procedure is limited by FS anatomy. Lateral fractures and intersinus septations may limit visualization.

ORIF

Position patient 180° away from anesthesia. Explore all forehead lacerations. Although lacerations alone are usually inadequate for exposure, diagnosis, and repair of FS fractures, they should be used to assist with fracture repair.

For coronal flap dissection, part the hair in a widow's peak pattern 4-6 cm behind the anterior hairline. A 1- to 2-cm strip of hair can be shaved along the incision line, but this is not necessary. The scalp is incised and elevated in a subgaleal plane. Avoid brow incisions to prevent prominent scars and forehead anesthesia.

Lateral flap dissection is performed between the temporoparietal fascia (superficial temporal fascia) and the temporalis muscle fascia (deep temporal fascia) (see Image 4). The temporoparietal fascia and frontal branch of the facial nerve are elevated with the flap. The temporalis muscle fascia can also be incised and elevated with the flap to provide an extra layer of protection for the facial nerve.

Identify and protect the supraorbital and supratrochlear neurovascular pedicles.

The pericranium is incised 1-2 cm above the sinus and elevated below the fracture. If any concern about a posterior table injury or dural tear exists, elevate the entire pericranial flap from the coronal incision line. The vascularized pericranial flap may then be used for a dural repair.

Reduce the concave fracture segments. If the fracture segments overlap, a bone hook can be insinuated between the fragments and pulled forward.

  • If the bone fragments do not overlap, fracture reduction can be difficult. The traumatic force applied to the FS results in horizontal compression of the bone. As the frontal bone fractures, it releases into a concave shape (see Image 6).

  • In this case, fracture reduction can be accomplished by placing a 1.7-mm screw in the depressed segment, grasping the screw with a hemostat, and pulling the segment anteriorly (see Image 7).

  • Careful removal of a fragment may need to occur to reduce the tension along the fracture line. Attempt to keep most of the fragments in place because this allows for a more accurate final reduction.

  • After the fracture is reduced, remove any torn mucosa from fracture lines to avoid entrapment and evaluate the sinus and NFR endoscopically.

  • Reconstruct gaps larger than 5 mm with split calvarial bone grafts and bone pate harvested from the frontal bone with a cutting burr. Other techniques for anterior table reconstruction include combinations of titanium mesh, resorbable mesh, and hydroxyapatite cement.

  • After fracture reduction, plate the reduced fragments with 1- to 1.2-mm microplates.

  • Close the pericranium, galea aponeurosis, and skin in a layered fashion. Insert two Penrose drains and a pressure dressing. Take care to assure that the ears are not rolled forward under the pressure dressing.

FS obliteration

Preoperatively, obtain an anterior-posterior plain radiograph (ie, Caldwell projection) of the skull. Alternatively, a surgical navigation system can be used intraoperatively to localize the sinus.

Prepare the patient for a coronal flap and abdominal fat graft.

Confirm the orientation of the Caldwell radiograph by comparison with a CT scan. Cut out a FS template from the Caldwell radiograph. Lateral "wings" paralleling the orbital rims should be left in place (see Image 8). To assist with accurate intraoperative placement of the template, an "R" should be scratched into the right side of the template.

Perform a coronal incision and elevate a scalp flap (see ORIF). If the anterior table of the FS is not comminuted, the FS template is applied over the pericranium. Tattoo an outline of the FS on the bone with an 18-gauge needle and methylene blue. Incise the pericranium in the coronal plane. Make parallel lateral cuts along the temporal line and raise a large inferiorly based pericranial flap. Take care to maintain a wide pedicle and avoid perforation of the flap.

The midline elevation should continue to approximately 1 cm below the outline of the FS.

A drill can be used to perforate the outline of the flap. Angle the drill toward the sinus cavity to avoid intracranial penetration and injury. The perforations can then be joined with an oscillating saw. A high-speed Midas Rex drill with a B-1 bit is efficient and obviates the need for an oscillating saw.

A 4-mm osteotome is used to fracture the superior orbital rims and glabella at the periphery of the sinus. Avoid injuring the supraorbital/supratrochlear neurovascular pedicles.

A curved osteotome is then placed through the saw kerf, and the intersinus septum is fractured. Repeat this step around the periphery of the sinus with multiple osteotomes until the anterior table of the sinus is hinged open inferiorly. The use of several osteotomes allows the surgeon to repeatedly place a new osteotome without losing the purchase from the previous one.

Assess the posterior table comminution and make a decision regarding sinus obliteration or cranialization. If the sinus is to be obliterated, meticulously debride all mucosa from the sinus with cutting and diamond burrs. Loop magnification can assist with the debridement. Pay particular attention to the periphery of the sinus and the NFR. Treat free bone fragments in a similar fashion. The FS infundibulum mucosa is elevated inferiorly, and a temporalis muscle plug is placed to occlude each ostia. Small sinus cavities can be obliterated with the pericranial flap. A small amount of bone is first removed from the inferior portion of the bone flap. The vascularized pericranial flap is then passed through the bony defect into the sinus cavity.

If fat is to be used to obliterate the sinus, obtain a fat graft through a periumbilical incision using sterile instruments. After fat graft placement and closure of the osteoplastic flap, the fat should approximate but not extrude from the saw kerf. Other materials used for FS obliteration include cancellous bone and muscle. The use of hydroxyapatite cements is not recommended until further studies are complete.

Spontaneous osteoneogenesis and auto-obliteration have also been advocated.

  • Anterior table stabilization is achieved with 1- to 1.2-mm plates.

  • Harvest bone pate from the frontal bone to fill the osteotomy kerf and any bony defects in the anterior table. Cover the bone pate with Gelfoam.

  • Close the pericranium and scalp as described above.

FS cranialization

The surgical approach for cranialization is identical to that described for FS obliteration. Exposure of the sinus rarely requires osteotomies because of the severity of the anterior table injury.

Remove posterior table bone by using elevators and rongeurs. Large pieces of posterior table bone should be divested of mucosa and preserved for reconstruction of the anterior table during closure. Cleanse grossly contaminated bone fragments and soak the fragments in Betadine until needed for reconstruction. The posterior sinus margin is then drilled flush with the anterior cranial fossa. Each FS infundibulum is drilled out, the mucosa is inverted, and the ostium is occluded with a temporalis muscle plug.

Simple lacerations of the dura can be repaired with interrupted 5-0 nylon sutures. More complex injuries may require neurosurgical debridement and dural closure with a pericranial flap. A small bony defect must be fashioned in the anterior table to allow the pericranial flap to pass intracranially without cutting off the blood supply.

Cleanse the preserved bone fragments with saline and reconstruct the anterior table using 1- to 1.2-mm microplates. Outer table calvarial bone grafts should be used as necessary to supplement native bone. Close the scalp in layers. Place drains and a pressure dressing as described above.

Postoperative details

Penrose drains are removed after 24 hours. Pressure dressing is discontinued after 3 days. Skin sutures and staples are removed after 10-14 days.

Follow-up

The need for long-term follow-up of patients with FS fractures cannot be overemphasized. The risk of late mucocele formation is significant.

Perform repeat CT or MRI if the patient has symptoms of recurrent infection. Trephination may be necessary in rare cases because radiographic identification of an infected fat graft is difficult.


COMPLICATIONS

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Improper management of FS and NFR injuries can result in significant complications, including aesthetic deformity, forehead paresthesia or anesthesia, chronic sinusitis, mucopyocele, diplopia, visual loss, meningitis, brain abscess, and death.

Management of postoperative mucoceles usually involves a revision obliteration procedure or sinus exenteration (ie, Reidel procedure) with subsequent cranioplasty.


OUTCOME AND PROGNOSIS

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Patients with mildly displaced anterior table fractures do extremely well after surgical repair, and significant long-term sequelae are uncommon.

Displaced FS fractures generally result from more extreme forces. Consequently, most patients who undergo surgical treatment of these injuries have some long-term sequelae. The most common sequelae are mild and include frontal headache (20%), sinus infections (12%), sinus fullness (11%), sinus drainage (10%), and forehead depression (10%). Less common but more severe long-term sequelae include diplopia (4%), seizures (4%), mucocele formation (exact incidence uncertain [0-10%]), and brain abscess (1%).

For excellent patient education resources, see eMedicine's Headache Center and Breaks, Fractures, and Dislocations Center. Also, visit eMedicine's patient education articles, Sinus Infection and Facial Fracture.


FUTURE AND CONTROVERSIES

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The most common controversies associated with FS trauma are the aggressiveness of surgical repair for a given fracture type and the optimum material used for FS obliteration. Unfortunately, long-term follow-up in patients with FS fractures is extremely difficult. Definitive studies on the most efficacious management do not exist.

The author has proposed a conservative treatment algorithm (see Image 3) to guide the surgical repair of given fracture types. When obliteration is indicated, the author prefers autologous fat. Other materials that have been used include muscle, bone, fascia, osteoneogenesis (auto-obliteration), hydroxyapatite cement, and bioactive glass. Although autologous fat does have donor site morbidity, it is readily available, easy to handle, and cost-effective. Most importantly, it has long-term proven efficacy.


MULTIMEDIA

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Media file 1:  Diagram of frontal sinus development.
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Media type:  Image

Media file 2:  Anterior and lateral views of the frontal sinus. These figures demonstrate the relative thickness of the anterior and posterior tables, as well as the relationship of the frontal sinus to the orbits, ethmoid sinuses, and anterior cranial fossa.
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Media type:  Image

Media file 3:  The fascial planes of the forehead and temple. The temporal branch of the facial nerve runs within the superficial temporal fascia (ie, temporoparietal fascia).
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Media type:  Image

Media file 4:  The compressive force of frontal bone as the bone is deformed from a convex shape to a concave shape.
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Media type:  Image

Media file 5:  Intraoperative photograph of a single miniscrew (located between miniplates) placed in the anterior table bone to reduce/stabilize the fracture fragments while rigid fixation was applied.
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Media type:  Photo

Media file 6:  A frontal sinus template can be cut from blank radiographic film and sterilized for intraoperative localization of the front sinus. Note the lateral wings paralleling the orbital rims, which help to correctly orient the template over the sinus.
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Media type:  Image


REFERENCES

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  • Anon JB, Rontal M, Zinreich SJ. Anatomy of the Paranasal Sinuses. NY:. Thieme Medical Publishers;1996.
  • Donald PJ. Frontal sinus and nasofrontoethmoidal complex fractures. In: Otorhinolaryngology Self-Instructional package. St. Louis: AAO/HN Surgery Foundation;1980.
  • Donald PJ. Frontal sinus ablation by cranialization. Report of 21 cases. Arch Otolaryngol. Mar 1982;108(3):142-6. [Medline].
  • Donald PJ, Gluckman JL, Rice DH, eds. The Sinuses. New York: Raven Press;1995.
  • Heckler FR. Discussion of frontal sinus fractures. In: Guidelines to Management of Plastic Reconstructive Surgery. Vol 80. 1987:509.
  • Heller EM, Jacobs JB, Holliday RA. Evaluation of the frontonasal duct in frontal sinus fractures. Head Neck. Jan-Feb 1989;11(1):46-50. [Medline].
  • Luce EA. Frontal sinus fractures: guidelines to management. Plast Reconstr Surg. Oct 1987;80(4):500-10. [Medline].
  • May M, Ogura JH, Schramm V. Nasofrontal duct in frontal sinus fractures. Arch Otolaryngol. Dec 1970;92(6):534-8. [Medline].
  • McGraw-Wall B. Frontal sinus fractures. Facial Plast Surg. 1998;14(1):59-66. [Medline].
  • Metzinger SE, Guerra AB, Garcia RE. Frontal sinus fractures: management guidelines. Facial Plast Surg. Aug 2005;21(3):199-206. [Medline].
  • Mosher HP, Judd DK. An analysis of seven cases of osteomyelitis of frontal bone complicating frontal sinusitis. Laryngoscope. 1933;43:153.
  • Nahum AM. The biomechanics of maxillofacial trauma. Clin Plast Surg. Jan 1975;2(1):59-64. [Medline].
  • Ritter FN. The Paranasal Sinues: Anatomy and Surgical Technique. 2nd ed. St Louis: Mosby;1978.
  • Rohrich RJ, Hollier LH. Management of frontal sinus fractures. Changing concepts. Clin Plast Surg. Jan 1992;19(1):219-32. [Medline].
  • Sataloff RT, Sariego J, Myers DL, Richter H. Surgical management of the frontal sinus. Neurosurgery. Oct 1984;15(4):593-6. [Medline].
  • Stammberger HR, Kennedy DW. Paranasal sinuses:anatomic terminology and nomenclature. The Anatomic Terminology Group. Ann Otol Rhinol Laryngol Suppl. Oct 1995;167:7-16. [Medline].
  • Strong EB, Kellman RM. Endoscopic repair of anterior table--frontal sinus fractures. Facial Plast Surg Clin North Am. Feb 2006;14(1):25-9. [Medline].
  • Sykes JM, Donald PJ. Frontal sinus and nasofrontoethmoidal complex fractures. In: Papel ID, Nachlas N, eds. Facial Plastic and Reconstructive Surgery. St Louis: Mosby;1980:485-495.
  • Wallis A, Donald PJ. Frontal sinus fractures: a review of 72 cases. Laryngoscope. Jun 1988;98(6 Pt 1):593-8. [Medline].
  • Yavuzer R, Sari A, Kelly CP. Management of frontal sinus fractures. Plast Reconstr Surg. May 2005;115(6):79e-93e; discussion 94e-95e. [Medline].

Frontal Sinus Fractures excerpt

Article Last Updated: Apr 30, 2007