Frontal Sinus Fractures – Causes, Symptoms, Treatment

• Causes of Frontal Sinus Fractures
• Diagnosis of Frontal Sinus Fractures
• Treatment of Frontal Sinus Fractures
• Complications
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Frontal Sinus Fractures are located within the frontal bone, superior and medial to the orbits. The frontal sinuses begin developing around 5 to 6 years old and become fully developed between the ages of 12 to 20. They are innervated by both the supraorbital and supratrochlear nerves, which are supplied by the ophthalmic branch of the trigeminal nerve. Their blood supply comes from the supraorbital and supratrochlear arteries. The frontal sinuses consist of an anterior and posterior table (wall) and drain inferiorly and posteriorly via the frontal recess into either the middle meatus or ethmoid infundibulum depending on the attachment of the uncinate process. If the uncinate process attaches to the lamina papyracea, then the frontal sinus drains into the middle meatus via the semilunar hiatus. If the uncinate process attaches to the skull base or the middle turbinate, the sinus drains into the ethmoid infundibulum before emptying into the middle meatus. The anterior border of the frontal recess is the posterior wall of the agger nasi air cell, while the posterior wall is composed of the ethmoid bulla. The medial wall of the frontal recess is the middle turbinate, and the lateral wall is the orbit.

Frontal cranial bones have a greater thickness than the more lateral temporal bones (6.15 cm in males, 7.13 cm in females compared to 4.33 cm and 4.41 cm, respectively).[rx] As a result, these fractures require a more significant mechanism and force than other facial bone injuries, occur less frequently than other forms of skull trauma, and often present with concurrent injuries. These other concurrent injuries include frontal sinus fractures, orbital pathologies, intracranial hemorrhage, and cervical spine pathologies, to name a few.[rx] These characteristics make critical evaluation and treatment of these injuries imperative. Additionally, appropriate classification and indications for surgical repair of frontal sinus fractures remain controversial, resulting in a variety of management strategies.

Causes of Frontal Sinus Fractures

• The most common etiologies of frontal bone fractures in adults are motor vehicle collisions (MVCs), falls, assaults, falling objects, and penetrating trauma.[rx]
• One study of 164 patients reported MVCs as the most common etiology (31.7%) followed by sports accidents (28.0%), work accidents (20.1%), violence (3.7%), and domestic accidents (3.1%).[rx] Injury severity is variable and depends on the mechanism, fracture pattern, and involvement of surrounding anatomy.
• In the pediatric community, MCVs were the most common etiology (25.7%), followed by sports-related injuries (16.1%), assault (14.7%), and falls (10.1%). When grouped by age range, the most common mechanism from 0 to 6.99 years old was falls (28.6%), compared with MVCs from 7 to 12.9 years old (31.9), and assaults from 13 to 18 years old.[rx]

Diagnosis of Frontal Sinus Fractures

• Per the Advanced Trauma Life Support (ATLS) protocol, the evaluation of trauma patients begins with an assessment of the patient’s airway, respiratory capacity, and circulatory status. While assessing the extent of the patient’s disabilities, a thorough neurologic exam should be performed to calculate a Glasgow Coma Scale Score, assessing for cranial nerve function as well as other focal deficits and bony injury to the calvarium.
• The provider should inspect the entire head and neck for any lesions, abrasions, contusions, or active bleeding. It is important to assess for lacerations superficial to any sinus fractures, indicating the requirement of IV antibiotics. The anterior table of the frontal sinus should be palpated to determine if there is any bony step off, and any wounds or lacerations should be cleaned and explored.
• Examination of the ears can reveal battle sign, auricular hematomas, cerebrospinal fluid (CSF) otorrhea, or hemotympanum, suggesting the involvement of the skull base. A nasal examination should check for the mobility of the nasal bones, frank epistaxis, CSF rhinorrhea, septal hematomas, or active purulence. Examination of the orbit should include appropriate cranial nerve testing and inspection for raccoon eyes or retrobulbar hematoma.

Evaluation

• After obtaining a comprehensive history and physical exam, the most important test to determine structural involvement and subsequent management is a non-contrast computed tomography scan (CT) of the head and facial bones. Various windows are available through CT imaging (osseous, soft tissue, heme windows), which make the evaluation of these and related injuries rapid and reliable.
• If CT is available and performed, there is no evidence showing any additional benefit from radiographs. Angiography can be considered if the provider is concerned about possible vascular involvement. Ultrasound has the ability to detect fractures with the use of the linear probe in a superficial mode; however, this should be viewed as an adjunct to the previously mentioned modalities.[rx][rx][rx]
• Currently, there is no general consensus on the classification of frontal sinus fractures.[rx][rx][rx][rx] One-third of all frontal sinus fractures include both the anterior and posterior tables of the frontal sinus, whereas two-thirds involve the anterior table only, and less than 1% involve only the posterior table. Below are some widely accepted classification systems of these fractures:

In 1997, Gonty et al. classified frontal sinus fractures into the following categories. A retrospective review of 158 patients by Gerbino et al. was performed using Gonty’s classification system and reported the percentage of patients with each type of fracture.[rx][rx][rx]

• Anterior table involvement (61.4%)
• Anterior and posterior table involvement (33%)
• Posterior table involvement (0.6%)
• “Through and through,” which are defined as comminuted with the involvement of the orbit, ethmoids, and nasal base (2.5%)
• Fractures involving nasofrontal duct (2.5%)

Presented a classification and treatment schema that is based on maximal metric dislocation and involvement of surrounding structures (nasolacrimal system, orbit, CSF leak, or surrounding bone fracture). In their study of 164 patients, they classified fracture patterns into four types with Type A being most common (38.4%) followed by type B (22.6%), type C (14%), and type D (25%).[rx]

• Type A: No displacement
  •  Observation
• Type B: 0 to 2 mm displacement
  • No concomitant injury – observation
  • Concomitant injury – surgical repair
• Type C: 2 to 5 mm displacement
  • No concomitant injury – observation
  • Concomitant injury – surgical repair
• Type D: greater than 5 mm displacement
  • Surgical repair

Treatment of Frontal Sinus Fractures

Treatment plans for these patients can vary immensely bared on their related injuries. Nondisplaced anterior table fractures can be monitored with observation and close practitioner followup. In the case of frontal sinus fracture with an overlying laceration (deemed open fracture), it is imperative to administer appropriate antibiotics and tetanus prophylaxis/immunoglobulin as indicated. If there is involvement of the anterior table without intracranial communication, IV amoxicillin-sulbactam BID is sufficient. The addition of a third-generation cephalosporin is appropriate if there is a displaced posterior table fracture. Surgical options, which will be described below, can include frontal sinus ablation/obliteration, closed fracture reductions, cranialization, open reduction internal fixation (ORIF), and conservative management with observation. As previously mentioned, classification and treatment guidelines are not universal, which could account for variations in patient management. Despite this lack of consensus, a posterior table fracture with greater than 5mm of displacement is generally accepted as an absolute surgical indication. Most procedures should take place within 12 to 48 hours, from initial presentation barring any more life-threatening injuries.[rx][rx][rx][rx][rx][rx][rx][rx]

Do no HARM for 72 hours after injury

• Heat—hot baths, electric heat, saunas, heat packs, etc has the opposite effect on the blood flow. Heat may cause more fluid accumulation in the fracture joints by encouraging blood flow. Heat should be avoided when inflammation is developing in the acute stage. However, after about 72 hours, no further inflammation is likely to develop and heat can be soothing.
• Alcohol stimulates the central nervous system that can increase bleeding and swelling and decrease healing.
• Running, and walking may cause further damage, and causes healing delay.
• Massage also may increase bleeding and swelling. However, after 72 hours of your fracture, you can take a simple message, and applying heat may be soothing the pain.

Medication

The following medications may be considered by your doctor to relieve acute and immediate pain, long term treatment

• Antibiotic – Cefuroxime or Azithromycin, or  Flucloxacillin or any other cephalosporin/quinolone, meropenem antibiotic must be used to prevent infection or clotted blood removal to prevent further swelling, inflammation, and edema.
• NSAIDs – Prescription-strength drugs that reduce both pain and inflammation. Pain medicines and anti-inflammatory drugs help to relieve pain and stiffness, allowing for increased mobility and exercise. There are many common over-the-counter medicines called non-steroidal anti-inflammatory drugs (NSAIDs). They include first choice NSAIDs is Ketorolac, then Etoricoxib, then Aceclofenac, naproxen.
• Muscle Relaxants –  These medications provide relief from spinal muscle spasms, spasticity.  Muscle relaxants, such as baclofen, tolperisone, eperisone, methocarbamol, carisoprodol, and cyclobenzaprine, may be prescribed to control postoperative muscle spasms, spasticity, stiffness, contracture.
• Calcium & vitamin D3 – To improve bone health, blood clotting, helping muscles to contract, regulating heart rhythms, nerve functions, and healing fractures. As a general rule, too absorbed more minerals for men and women age 50 and older should consume 1,200 milligrams of calcium a day, and 600 international units of vitamin D a day to heal back pain, fractures, osteoarthritis.
• Neuropathic Agents – Drugs(pregabalin & gabapentin) that address neuropathic—or nerve-related—pain. This includes burning, numbness, tingling sensation, and paresthesia.
• Glucosamine & Diacerein, Chondroitin sulfate – can be used to tighten the loose tendon, cartilage, ligament, and cartilage, ligament regenerates cartilage or inhabits the further degeneration of cartilage, ligament. The dosage of glucosamine is 15oo mg per day in divided dosage and chondroitin sulfate approximately 500mg per day in different dosages, and diacerein minimum of 50 mg per day may be taken if the patient suffers from osteoarthritis, rheumatoid arthritis, and any degenerative joint disease.[rx]
• Topical Medications and essential oil – These prescription-strength creams, gels, ointments, patches, and sprays help relieve pain and inflammation in acute trauma, pain, swelling, tenderness through the skin. If the fracture is closed and not open fracture then you can use this item.
•  Antidepressants – A drug that blocks pain messages from your brain and boosts the effects of endorphins in your body’s natural painkillers. It also helps in neuropathic pain, anxiety, tension, and proper sleep.
• Corticosteroids – Also known as oral steroids, these medications reduce inflammation. To heal the nerve inflammation and clotted blood in the joints.
• Dietary supplement – To eradicate the healing process from fracture your body needs a huge amount of vitamin C, and vitamin E. From your dietary supplement, you can get it, and also need to remove general weaknesses &  improved health.
• Cough Syrup – If your doctor finds any chest congestion or fracture-related injury in your chest, dyspnoea, post-surgical breathing problem, then advice you to take bronchodilator cough syrup.

What To Eat and What  to avoid

Eat Nutritiously During Your Recovery

All bones and tissues in the body need certain micronutrients in order to heal properly and in a timely manner. Eating a nutritious and balanced diet that includes lots of minerals and vitamins is proven to help heal broken bones and all types of fractures. Therefore, focus on eating lots of fresh food produce (fruits and veggies), whole grains, cereal, beans, lean meats, seafood, and fish to give your body the building blocks needed to properly repair your fracture. In addition, drink plenty of purified mineral water, milk, and other dairy-based beverages to augment what you eat.

• Broken bones or fractures bones need ample minerals (calcium, phosphorus, magnesium, boron, selenium, omega-3) and protein to become strong and healthy again.
• Excellent sources of minerals/protein include dairy products, tofu, beans, broccoli, nuts and seeds, sardines, sea fish, and salmon.
• Important vitamins that are needed for bone healing include vitamin C (needed to make collagen that your body essential element), vitamin D (crucial for mineral absorption, or machine for mineral absorber from your food), and vitamin K (binds calcium to bones and triggers more quickly collagen formation).
• Conversely, don’t consume food or drink that is known to impair bone/tissue healing, such as alcoholic beverages, sodas, fried fast food, most fast food items, and foods made with lots of refined sugars and preservatives.

Observation with Close Follow-Up

• Minimally displaced anterior table fractures (<1-2 mm), without nasofrontal recess injury

Closed Fracture Reductions/Minimally Invasive

• Various minimally invasive techniques exist for the closed repair of anterior table fractures. This type of repair often results in favorably aesthetic outcomes.
• Both percutaneous screws and inflating a foley catheter within the sinus have been reported as means of fracture reduction.

Open Reduction Internal Fixation (ORIF)

• It is generally indicated for fractures of the anterior table (>2 mm) without the involvement of the nasofrontal recess or in patients with an obvious cosmetic forehead deformity.
• Surgeons attempting this approach must be able to obtain adequate visualization and access to the sinus to perform the proper repair while considering aesthetic outcomes for the patient. These can be approached either endoscopically or in an open fashion depending on the extent of the fracture and surgeon preference.
• This approach uses small metal plates (microplates) and screws to secure the bony fragments. In some cases, reduction screws can be used to support the bone without fixation.

Frontal Sinus Obliteration/Ablation

• This procedure can be indicated in patients who have comminuted anterior table fractures with a linear nondisplaced posterior table fracture or involvement with the frontonasal duct. Another indication is a significant mucosal disruption of the sinus or severely comminuted fracture of the anterior table.
• This entails the removal of all sinus mucosa, occlusion of the nasofrontal duct, and filling the sinus cavity with bone grafts or other materials.
  • Hydroxyapatite, pericranial flap obliteration, adipose tissue, calcium phosphate, and glass ionomer can also be used as grafting material.
• A potential complication of this procedure is a mucocele secondary to incomplete removal of the mucosa during obliteration. If left untreated, mucocele growth can cause further bony destruction.

Cranialization

• It is generally indicated for posterior table fractures with significant displacement or comminution, intracranial injury, or CSF leak.
• It involves removing the entire frontal sinus contents, including the mucosa, external debris, bone fragmentation, and the posterior table of the frontal sinus. Any anterior table defects must be reconstructed to further protect the brain and dura that have herniated into the frontal sinus.

Complications

Complications of frontal sinus fractures are typically divided into two categories based on chronicity: acute (less than 6 weeks) or chronic (greater than 6 weeks), but complications overlapping these timeframes can happen. These include but are not limited to:[rx][rx][rx][rx]

• Frontal sinusitis
• Meningitis
• Cerebrospinal fluid leak
• Mucocele
• Mucopyocele
• Osteomyelitis
• Pneumocephalus
• Poor aesthetic outcome
• Brain abscess
• Chronic frontal headaches
• Extrusion of graft material
• Intracranial hemorrhage
• Diplopia
• Ophthalmoplegia
• Blindness
• Paresthesia of the supraorbital, infraorbital, and/or supratrochlear nerves
• Hypoesthesia or paresthesia of the ophthalmic nerve (V1) or maxillary nerves (V2)
• Facial deformity

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