Airway Trauma



Airway Trauma


Richard P. Dutton

LaRita Yvette Fouchè-Weber





A. Medical Disease and Differential Diagnosis



  • What variables mitigate injury from motorcycle collisions?


  • What other significant trauma may be present?


  • How is the initial assessment of a trauma patient organized?


  • How would you evaluate airway and breathing?


  • How would you evaluate the circulation?


  • How would you evaluate mental status and neurologic condition?


  • What diagnostic tests are indicated for this patient based on the mechanism of injury?


  • What are the zones of the neck, and what is their clinical significance?


  • What immediate treatment is necessary before diagnostic studies?


  • When and where should the impaling object be removed?


B. Preoperative Evaluation and Preparation



  • What laboratory tests would you want?


  • What x-ray studies are most important to the anesthesiologist?


  • Is an electrocardiogram (ECG) necessary?


  • Should this patient be intubated before going for computed tomographic (CT) scanning?


  • When and where should this patient’s airway be managed?


  • Are any prophylactic medications indicated?



C. Intraoperative Management



  • What monitors would you use? Is invasive monitoring necessary before definitive airway control?


  • What is the surgical approach to a zone I neck injury?


  • Is the patient likely to require tube thoracostomy? Should this be placed before managing the airway?


  • What are the options for managing this patient’s airway?


  • What are the risks of rapid sequence induction in this patient?


  • What anesthetic agents would you use for a rapid sequence induction?


  • How can you minimize the risk of exacerbating cervical spine trauma?


  • How can you minimize the risks of aspiration?


  • How would you anesthetize the airway for an awake intubation?


  • What are the risks of awake fiberoptic intubation?


  • If the patient cannot be ventilated, what options are available?


  • Would a laryngeal mask airway (LMA) or other pharyngeal airway be of assistance?


  • What surgical airway options are available in this case?


  • What maintenance anesthetics are indicated or contraindicated in this patient?


  • What complications will the surgical plan introduce?


D. Postoperative Management



  • What are the criteria for extubation?


  • What techniques may be used during extubation?


  • How does alcohol abuse affect postoperative management?


  • What pain medication should be used?


A. Medical Disease and Differential Diagnosis


A.1. What variables mitigate injury from motorcycle collisions?

Trauma involving motorcycles accounts for 2% to 5% of all motor vehicle trauma, but there is a higher proportion of death and serious injury because of the relative exposure of the motorcycle rider to the environment. Factors such as youth, high speed, and intoxication contribute to motorcycle collisions just as they do for automobiles. Motorcycle riders also are much more susceptible to factors beyond their own control, such as lack of vigilance on the part of automobile and truck drivers, road conditions (oil or debris), and the weather.

Factors that can reduce the seriousness of motorcycle collisions when they do occur include helmets and protective clothing. Reenactment of a mandatory helmet law in the state of Washington in 1990 resulted in a decline in serious brain injury in motorcycle trauma victims from 20% to 9% and a reduction in mortality from 10% to 6%. Full leather or synthetic “armor” reduces the risk of massive skin and soft-tissue injuries in the event of a high-speed collision.



Liu BC, Ivers R, Norton R, et al. Helmets for preventing injury in motorcycle riders. Cochrane Database Syst Rev. 2008;(1):CD004333.

Meredith L, Brown J, Ivers R, et al. Distribution and type of crash damage to motorcyclists’ clothing: validation of the zone approach in the European Standard for motorcycle protective clothing, EN13595. Traffic Inj Prev. 2014;15(5):501-507.


A.2. What other significant trauma may be present?

Motorcycle collisions are high-energy trauma that can result in injury to any organ system or region of the body. This patient will need a complete head-to-toe assessment and a number of diagnostic studies to establish the full extent of injury. Common injuries in motorcyclists include brain trauma from direct impact with the road and with other vehicles, pelvic fractures
from impact with the frame of the motorcycle, abdominal trauma from impact with the handlebars, and lower extremity orthopedic and soft-tissue trauma from impact with the road.


A.3. How is the initial assessment of a trauma patient organized?

The initial management of trauma patients is best described by the tenets of the Advanced Trauma Life Support course, written by the American College of Surgeons Committee on Trauma. This course provides a unified philosophy and common language to organize practitioners from different specialties in the care of complex patients with the potential for multiple injuries. Assessment of the seriously injured patient begins with the ABCs: Airway, Breathing, and Circulation; followed by a brief neurologic examination and a catalogue of visible injuries. This “primary survey” is followed by diagnostic testing and a more detailed secondary survey to discover all of the patient’s injuries. One important principle of Advanced Trauma Life Support is interruption of the diagnostic sequence as necessary to provide life-saving resuscitative care, up to and including surgery for airway management or hemorrhage control prior to completion of diagnostic studies.



American College of Surgeons Committee on Trauma. Advanced Trauma Life Support for Doctors. 8th ed. Chicago: American College of Surgeons; 2008.


A.4. How would you evaluate airway and breathing?

On first contact with the patient, the provider should attempt verbal communication: “How are you?” A patient who answers coherently in a normal voice has no immediate airway issue, adequate circulatory function, and minimal traumatic brain injury. In an unconscious patient, initial assessment is by looking, listening, and feeling for airflow. If airflow is absent, the airway should be opened by jaw thrust (not head tilt, as this may exacerbate a cervical spinal column injury), cleared of any visible foreign bodies or secretions, and should have the placement of an oral or nasopharyngeal airway.

Breathing is assessed by observation of the chest wall and diaphragm once the airway is open and by immediate placement of a pulse oximeter probe. Patients who are not breathing adequately should be assisted with bag-valve-mask ventilation while preparations are made for securing a definitive airway and instituting mechanical ventilation.


A.5. How would you evaluate the circulation?

Initial assessment for shock is by vital signs (HR, blood pressure, pulse oximetry) and physical examination (pallor, diaphoresis, peripheral circulation, visible or suspected hemorrhage). Mental status is also a useful sign; the patient in hemorrhagic shock will be first agitated and then lethargic. Young patients have significant compensatory reserves and will maintain a normal systolic blood pressure even in the face of hemorrhage as great as 40% of their blood volume. This state of compensated shock can be diagnosed by a narrowed pulse pressure (especially on automated sphygmomanometers), elevated HR, pallor, abnormal lactate, and a base deficit. Shock in this patient could be the result of hemorrhage from chest or abdominal trauma (including a great vessel injury associated with the impalement) or tension pneumothorax in either side of the chest.



American College of Surgeons Committee on Trauma. Advanced Trauma Life Support for Doctors. 8th ed. Chicago: American College of Surgeons; 2008.

Bouglé A, Harrois A, Duranteau J. Resuscitative strategies in traumatic hemorrhagic shock. Ann Intensive Care. 2013;3(1):1.

Dutton RP. Initial resuscitation of the hemorrhaging patient. In: Speiss B, Shander A, eds. Perioperative Transfusion Medicine. 2nd ed. Philadelphia, PA: Lippincott Williams & Wilkins; 2006:289-300.

Glorsky SL, Wonderlich DA, Goei AD. Evaluation and management of the trauma patient for the interventional radiologist. Semin Intervent Radiol. 2010;27(1):29-37.


A.6. How would you evaluate mental status and neurologic condition?

The quick neurologic examination consists of questions to determine alertness and orientation (assuming the patient is responsive) followed by gross assessment of voluntary motion in all extremities. In the less responsive patient, the Glasgow Coma Score (GCS) (Table 33.1) is
used to stratify the degree of impairment: GCS 3 to 8 is a severe injury, GCS 9 to 13 is moderate traumatic brain injury, and GCS 14 to 15 is mild injury. Cranial nerve, spinal cord, and peripheral nervous system function is assessed by specific motor and sensory testing of each extremity during the secondary survey.








TABLE 33.1 Glasgow Coma Scoresa

































EYE-OPENING RESPONSE


VERBAL RESPONSE


MOTOR RESPONSE


4 = Spontaneous


5 = Oriented to name


6 = Follows commands


3 = To speech


4 = Confused


5 = Localizes to painful stimuli


2 = To pain


3 = Inappropriate speech


4 = Withdraws from painful stimuli


1 = None


2 = Incomprehensible sounds


3 = Abnormal flexion (decorticate posturing)



1 = None


2 = Abnormal extension (decerebrate posturing)




1 = None


aThe GCS is the sum of the best scores in each of three categories.




Teasdale G, Jennett B. Assessment of coma and impaired consciousness. A practical scale. Lancet. 1974;2:81-84.


A.7. What diagnostic tests are indicated for this patient based on the mechanism of injury?

Because of the high energy mechanism of injury, this patient must be assessed from head to toe. Ultrasonography examination of the abdomen and chest is used to diagnosis free peritoneal fluid, pneumothorax (in the hands of a skilled operator), and pericardial tamponade. Chest and pelvis plain-film radiography will reveal fractures, pneumothoraces, and hemothorax. CT scanning should include the head, neck, chest, abdomen, and pelvis; newer technology will allow for three-dimensional (3D) reconstructions of organs and vasculature with sensitivity and specificity equivalent to more traditional angiographic imaging.

This patient’s obvious injury—to zone I of the neck—will necessitate a focused assessment of the trachea, great vessels, esophagus, and bilateral pleural cavities. Traditionally, this has been accomplished by a combination of plain-film radiography, angiography, bronchoscopy, and esophagoscopy. Increasing CT speed and resolution is leading to the increased use of this test at centers with experienced radiographers and traumatologists. The sequencing of diagnostic studies will depend on the patient’s stability. In this case, he is likely to require intubation and perhaps exploratory surgery first. A noninvasive study such as contrast-enhanced CT (with angiographic reconstructions) may help to guide the surgical approach to removal of the impaling object if the patient is calm and stable enough to tolerate the test.



Wilson CT, Clebone A. Initial assessment and management of the trauma patient. In: Scher CS, ed. Anesthesia for Trauma: New Evidence and New Challenges. New York: Springer; 2014:1-15.


A.8. What are the zones of the neck, and what is their clinical significance?

Zone I of the neck includes the area from the inferior aspect of the cricoid cartilage down to the thoracic outlet. Zone I injuries require the complex diagnostic workup described in the previous section, followed by a surgical approach that allows access to both the neck and chest. Partial or complete median sternotomy is often necessary to access an injured great vessel or to repair the trachea or esophagus.

Zone II of the neck includes the area from the angle of the mandible down to the cricoid cartilage. Injuries in zone II are addressed through a lateral or transverse cervical incision, with the surgeon able to achieve both proximal and distal control of the carotid or jugular vessels before exploring the wound itself.


Zone III of the neck includes the area from the angle of the mandible upward to the base of the skull. Zone III vascular injuries pose a significant operative risk because distal control of an injured vessel cannot be achieved. Injuries in zone III are therefore approached angiographically or as part of a more complex neurosurgical operation.

Mar 18, 2021 | Posted by in ANESTHESIA | Comments Off on Airway Trauma

Full access? Get Clinical Tree

Get Clinical Tree app for offline access