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Snap, Crackle, and Pop: Imaging and Management of Blunt Laryngeal Trauma

The Case

A 26 year-old male presents after a motorcycle accident. He was the helmeted, single-occupant of a motorcycle that crashed into the back of a stopped car. There are no external signs of injury, but he believes his neck may have hit the handlebars as he was thrown from the bike.  He denies loss of consciousness. His only complaint is that his voice sounds hoarse and he is having difficulty swallowing. He denies any intoxicants.

The patient has a normal primary traumatic survey. His secondary survey is notable for crepitus of the anterior neck. No chest wall crepitus is noted. No stridor or bruit is appreciated on anterior neck auscultation.  There is no cervical hematoma or ecchymosis. There is no midline C-spine tenderness. There is no blood in the oropharynx. His voice is raspy, but he is able to phonate and adequately handle his secretions. He has no other traumatic complaints or physical exam abnormalities on secondary survey.

A chest x-ray is without any evidence of pneumothorax.

You wonder what imaging should be performed next. Does he need a CT brain based on his history? Does crepitus count as a distracting injury? Should he have a CTA in the absence of any hard vascular signs? After discussion with the trauma team, CT imaging including a CTA neck is performed (Figure 1).

Figure 1: Non-contrast portion of the CTA neck.

CT imaging reveals a left hyoid bone fracture, as well as a comminuted fracture of the right thyroid cartilage. His CTA is normal. He has no intracranial injuries, face or C-spine fractures. There is considerable soft tissue emphysema.

Background on blunt laryngeal trauma

Blunt laryngeal trauma is rare.  The reported incidence of laryngeal fractures is 1:30,000 patients presenting to the ER. The low incidence is secondary to the relative protection by adjacent bony structures (the mandible, manubrium, and vertebral bodies). Furthermore, humans are equipped with a protective reflex to flex their heads downward when startled, further shielding this vulnerable region from trauma.  

Laryngotracheal injury occurs when patients lose their ability to protect this area, and are most commonly associated with motor vehicle accidents, when a hyperextended neck strikes a fixed object (steering wheel, dash board).  Recreational vehicles are also increasingly implicated (motorcycles, four-wheelers striking branches). Other mechanisms of injury include strangulation, assault, or hanging.

The patterns of injury vary depending upon the age and gender of the patient. Women are at increased risk for subglottic and cervical tracheal injuries owing to their tendency towards longer necks.  The thyroid and cricoid cartilage also ossify as part of the normal aging process (typically beginning around age 18-20), and for this reason, elderly patients are at increased risk for comminuted fractures of these structures. Conversely, children have flexible cartilage and are much less likely to sustain laryngeal fractures.

Brief review of anatomy

The larynx consists of a cartilaginous skeleton, the intrinsic and extrinsic muscles, and a mucosal lining. The cartilaginous skeleton houses the vocal cords. It consists of the thyroid cartilage, the cricoid cartilage, and the paired arytenoid cartilages. The thyroid cartilage is connected superiorly to the hyoid bone. The extrinsic muscles connect the cartilage of the larynx to other structures of the head and neck (i.e. sternothyroid muscle, etc.). The intrinsic muscles alter the shape, tension and position of the vocal cords (Figure 2).

Figure 2: Anatomy of the laryngotracheal complex.

Injuries range from mucosal hematomas and lacerations to fractured cartilage. The most severe laryngeal injury is complete laryngotracheal separation (Figure 3). Classification of these injuries will be covered in the Classification and Definitive Management section.

Figure 3: Types of laryngotracheal injuries.
http://www.utmb.edu/otoref/grnds/laryng-trauma-070328/laryng trauma-070328.pdf

Signs and Symptoms

The mechanism of injury is important. The provider should take careful consideration of any history which lends itself to the possibility of “clothesline” type injury, namely forced hyperextension and forward propulsion or direct trauma to the anterior neck (strangulation, hanging).

Patients will report dysphonia, odynophagia, dysphagia, neck pain, dyspnea or hemoptysis. Studies suggest that hoarseness is the most common presenting symptom of laryngeal trauma.  Juutilainen et al reviewed 33 cases of external laryngeal trauma, and 28 (85%) of those cases presented with hoarseness. Physical exam may reveal stridor, dyspnea, ecchymosis, subcutaneous emphysema, hemoptysis, loss of the thyroid prominence or drooling. However, it is important to note that no single symptom correlates with injury severity and the absence of these findings does not exclude the possibility of laryngeal injury.

Initial Management

Airway management is crucial. If a patient with a suspected laryngeal injury has no evidence of respiratory distress or airway compromise, proceed with a standard traumatic work-up.

If the airway is not patent (respiratory distress, airway obstruction, stridor, not handling secretions, hypoxic), establishing an airway becomes a priority.  In these cases, tracheotomy is preferred to endotracheal intubation, as intubation can exacerbate laryngeal trauma and precipitate complete obstruction. It can also be extremely challenging to intubate because of distorted anatomy and poor visualization, with a risk for passing the ET tube through a false lumen created by the trauma. Furthermore, adequate positioning can be challenging if there is associated maxillofacial injuries and/or the need for C-spine precautions. That being said, there is no absolute contraindication for endotracheal intubation and if the patient is crashing, the most experienced airway provider should attempt it. Again, most of the otolaryngology literature favors tracheotomy, but if palpation of the larynx reveals continuity of the thyroid cartilage and cricoid cartilage, cricothyroidotomy can be performed if it is the only available, expedient airway. 

Importantly, laryngeal trauma carries a high risk of concomitant injury. There is a 13-15% incidence of associated intracranial injuries; skull base and facial fractures are seen in approximately 21%; C-spine fractures are seen in 8%; and esophageal/pharyngeal injuries occur in approximately 3% of these cases. Thus, it is best to have a low threshold for additional imaging studies. CT is the imaging modality of choice, but should only be undertaken in those patients with a stable or secured airway. There is no definite literature on the utility of CTA in blunt laryngeal trauma, but if a patient has any hard signs of vascular injury (bruit/thrill, expanding hematoma, pulse deficit) or signs of an acute ischemic stroke, there should be significant concern for an associated vascular injury.

Classification and Definitive Management

The Schafer-Fuhrman Classification scheme has been created to characterize laryngeal injuries.

Grade I: Minor endolaryngeal hematomas or lacerations, no fracture

Grade II: Edema, hematoma, minor mucosal disruption without exposed cartilage, non-displaced fracture, varying degrees of airway compromise

Grade III: Massive edema, large mucosal lacerations, exposed cartilage, displaced fracture(s), vocal cord immobility

Grade IV: Group III with severe mucosal disruption, disruption of the anterior commissure, and unstable fracture, 2 or more fracture lines

Grade V: Complete laryngotracheal separation

This classification scheme relies on both CT imaging and direct visualization. As part of the work-up for laryngeal injury, flexible fiberoptic laryngoscopy should be performed, usually by otolaryngology. During laryngoscopy, care should be taken to observe for any deformities, edema, hematomas, lacerations, exposed cartilage and partial or complete vocal cord fixation (suggesting a recurrent laryngeal nerve injury).

There is no definite recommendation for the work-up of esophageal injury. In some instances, esophageal injury can be seen on CT imaging (paraesophageal stranding or gas, lumen communicating with gas/fluid).  If, however, the suspicion for esophageal injury is high, additional studies can be pursued, beginning with a gastrograffin swallow study, followed by a dilute barium swallow for more complete evaluation.

The definitive management of laryngeal injuries depends on the injury pattern. Group I and some Group II injuries can be conservatively managed. This generally consists of humidified air, voice rest, head of bed elevation, steroids, anti-reflux medications, and antibiotics. Patients will often be admitted to the ICU for the first 24-48 hours given the potential airway compromise. They may undergo serial laryngoscopy for daily injury surveillance.

Group III-Group V injuries require operative intervention. These are the injury patterns that usually undergo tracheotomy.  Group V patients always have tracheotomies and represent a significant surgical challenge. Notably, there are multiple operative approaches and interventions for laryngeal trauma that are beyond the scope of this post.

Case Outcome

The patient was seen and scoped by otolaryngology in the ED.  This showed a supraglottic hematoma, but no lacerations or exposed cartilage. His vocal folds were mobile.  He was admitted to the trauma ICU, where he underwent a negative barium swallow, and ultimately, did not require operative intervention.

Faculty Reviewer: Dr. Kristina McAteer


References 

  1. Becker M, Leuchter I, Platon A, Becker CD, Dulguerov P, Varoquaux A. Imaging of laryngeal trauma. Europeal Journal of Radiology. Jan 2014: 83(1):142-154.  

  2. Eller RL, Dion G, Spadaro E. Management of Acute Laryngeal Trauma. http://www.cs.amedd.army.mil/FileDownloadpublic.aspx?docid=a1ab55ed-56b2-4a65-ade1-666e80a582cf. Accessed on 12.05.07.  

  3. Font JP, Quinn FB, Rayan MW. Laryngeal Trauma. http://www.utmb.edu/otoref/grnds/laryng-trauma-070328/laryng trauma-070328.pdf Accessed on 12.05.17.  

  4. Jalisi S, Zoccoli M. Management of laryngeal fractures—A 10-year experience. Journal of Voice. Jul 2011;25(4):473-479.

  5. Jewett BS, Shockley WW, Rutledge R. External laryngeal trauma analysis of 392 patients. Archives of Otolaryngology–Head & Neck Surgery. Aug 1999;125(8):877-880.

  6. Juutilainen M, Vintturi J, Robinson S, Bäck L, Lehtonen H, Mäkitie AA. Laryngeal fractures: clinical findings and considerations on suboptimal outcome. Acta Otolaryngol. Feb 2008: 128(2):213–218.

  7. Murr AH and Amin MR. "Laryngeal Trauma"In CURRENT Diagnosis & Treatment in Otolaryngology - Head & Neck Surgery, 2nd Edition Ed. by Anil K. Lalwani.

  8. Mendelsohn AH, Sidell DR, Berke GS, John MS. Optimal timing of surgical intervention following adult laryngeal trauma. Laryngoscope. Oct 2011;121(10):2122-2127.

  9. Schaefer SD. The acute management of external laryngeal trauma. A 27-year experience. Arch Otolaryngol Head Neck Surg. Jun 1992 :118(6):598–604

  10. Schaefer N, Griffin A, Gerhardy B, Gohchee P. Early Recognition and management of Laryngeal Fractures: A Case Report. Ochsner J. 2014: 14)10):264-265.