A patient who sustained supra-clavicular trauma is considered to have a C-spine injury until proven otherwise. Complete C-spine clearance may take hours and sometimes days, and until then the patient's neck must be supported by a collar and all neck movements should be avoided. At the time of intubation the assistant performs "in-line stabilization", in order to support the head and neck in place and prevent neck flexion throughout the procedure 8. Recent data indicate, on one hand, that direct laryngoscopy and intubation are unlikely to cause clinically significant neck movements and, on the other hand, "in-line stabilization" may not always immobilize injured segments effectively. In addition, manual "in-line stabilization" degrades the laryngoscopic view which may, in turn, cause hypoxia and worsen the outcome in traumatic brain injury 910. Another approach suggested by Robitaille et al. is to use the GlideScope videolaryngoscopy for intubation rather than the commonly used Macintosh blade, thus minimizing neck movements 11.

The maxillofacial trauma patient, as every trauma patient, is considered to have a "full stomach", since there was no time for stomach emptying prior to intubation. In addition, this patient often bleeds from the upper aerodigestive tract: blood is swallowed and accumulates in the stomach, and the risk of regurgitation and aspiration is high. In order to diminish such risks, evacuating the contents of the stomach through the naso-gastric tube before proceeding with airway management is recommended. However, insertion of a naso-gastric tube in a confused, uncooperative, sometimes intoxicated patient who sustained a facial injury may, by itself, trigger vomiting. Another means of reducing the risk of aspiration is to use Sellick's manoeuvre 12. Sellick described a technique in which pressure is applied to the cricoid cartilage, thereby compressing the oesophagus against the underlying vertebral body. The pathway of regurgitated gastric contents into the mouth is occluded and aspiration is prevented. Over the years Sellick's manoeuvre, or cricoid pressure, has been incorporated into an overall approach referred to as 'rapid sequence induction', intended to minimize the risk of aspiration. Although cricoid pressure and rapid sequence induction are widely used, the effectiveness and safety of the technique have been questioned 13. Several studies have shown that cricoid pressure may significantly worsen the laryngeal view, making endotracheal intubation even more difficult 141516.

Managing the airway in an emergent situation poses additional difficulty, resulting from the fact that the time to accomplish the task is short and the patient's condition may deteriorate quickly. Both decision-taking and performance are impaired at such times. The performance of urgent or emergent intubation is associated with remarkably high complication rates, which may exceed 20% 17181920. This is the result of several factors, including repeated intubation attempts, performing direct laryngoscopy without muscle relaxation and lack of operator experience.

After facing the complexity of managing the maxillofacial injured patient and deciding on treatment priorities, execution of the treatment plan should commence. The advantage of skillful, experienced personnel has been established in several studies. Schmidt et al prospectively investigated emergent tracheal intubatuions 21 and found that supervision by an Attending Anesthesiologist was associated with a decreased incidence of complications. Hodzovic et al studied fibreoptic intubation in a manikin using three airway conduits, and found that Senior House Officers were significantly slower than both Specialist Registrars and Consultants in achieving the goal 22. However, in emergency situations, the caretakers are often the less experienced. This is the "inverse care law", meaning that the care for those who are most critically ill is provided by those who are not- yet the most expert 23. In the same way the responsibility for acute airway management often falls into the hands of non-anesthesiologists 24. This may be futile if not risky or disastrous for the maxillofacial trauma patient. Within time and place limitations, we believe that the most experienced personnel should perform the difficult task of airway management in traumatized patients.

Airway evaluation should be as thorough and as quick as possible, due to the fact that the patient's airway is compromised. Nevertheless, defining the exact difficulty involved could direct the physician to the best approach to managing that airway.

The questions that should be answered are:

• Is the patient conscious? If so, the use of sedation or analgesics should be done cautiously since the airway can be lost following injudicious use of such drugs 25.

• Is he/she breathing spontaneously? If so, there is time to arrive at the hospital, preferably to the operating room, and manage the airway under the best conditions and by the most experienced personnel. Failed attempts at endotracheal intubation by non-qualified caretakers could cause rapid deterioration. Indeed, according to the American Society of Anesthesiologists (ASA) Practice Guidelines for management of the difficult airway, spontaneous breathing should be preserved in patients with anticipated difficult endotracheal intubation 26.

• What is the extent, the composition and the anatomy of the injury? Figure 1 shows patient with very extensive injury to the face, where mask ventilation was not possible and tracheal intubation was very difficult (Figure 1).

• How extensive is the damage to the bony structures of the face? In cases of massive injuries, mask ventilation may be impossible, while injury limited to the soft tissues may enable mask ventilation. Figure 2 shows 3 dimensions CT of a patient with comminuted fracture of the right orbit, zygoma and right mandible.

• Is there a limitation in mouth opening? Is that limitation the result of pain and after sedation the mouth could be opened wider? The answer for this question depends, among other things, on the clinical and radiological evidence of a temporo-mandibular joint (TMJ) injury. If the limitation in mouth opening is caused by a TMJ injury, sedation will not improve mouth opening, will not help in managing the airway, and may worsen the scenario.

• Is there soft tissue oedema and pressure on the airway? Figure 3 shows lateral radiography of a patient who sustained low velocity missile injury to the left chick. The radiograph demonstrates the bullet location and the patent airway. Figure 4 is the lateral x-ray of a patient with comminuted fracture of the mandible with huge soft tissue swelling of the neck and narrowing of the airway.

As with every difficult airway situation, the staff and equipment for difficult intubation should be prepared and ready to use. The approach should be chosen according to the patient's injuries, airway status and the care provider's experience with such equipment and procedures.

As stated earlier, the challenge in performing endo-tracheal intubation arises mainly from the difficulty in visualizing the vocal cords. Numerous airway devices and equipment have been developed to overcome this obstacle 27. Some, such as the fiberoptic bronchoscope, enable indirect visualization of the vocal cords. Others, such as the laryngeal mask airway (LMA) or Combitube (esophageal-tracheal twin-lumen airway device), are inserted blindly and do not require visualization of the vocal cords by any means 28. The final option is creating a surgical airway via cricithyrotomy or tracheotomy, thus bypassing the larynx and establishing direct access to the trachea.

The scope of this review is limited and therefore we chose to focus on several principle airway devices and describe their suitability for the trauma patient.