In trauma centers, a trauma team is developed to provide a safe and efficient evaluation of the trauma patient. These members should be available within minutes of a trauma team activation. This interprofessional team should have the following members who have pre-assigned roles.[5][6][7]

• Team Leader (Physician)
• Anesthesiologist
• Trauma Surgeon
• Emergency Department Physician
• Two Nurses (at least)
• Radiographer
• Scribe

Other staff may not necessarily be involved in every trauma call but should be available readily if needed:

• Neurosurgeon
• Thoracic Surgeon
• Plastic Surgeon
• Radiologist

Before patient arrival, roles should be allocated, and universal precautions, including wearing protective clothing, should be enforced. All equipment required should be checked. The following areas of the hospital should be notified with as much information as possible about the patient:

• Radiology department for portable x-rays and CT scan
• Intensive care unit
• Operating room

The common acronym for performing the primary trauma survey is ABCDE, each letter representing an area of focus. If any abnormality is identified in one of the areas of focus, it should be resolved before a practitioner progresses further through the algorithm. These steps are followed in the same order in every trauma resuscitation procedure to ensure that no critical or life-threatening injuries are overlooked. If a patient is noncooperative or combative and it interferes with conducting a proper primary trauma survey then the patient should be sedated and intubated so that the exam may proceed. One caveat is that if a patient appears to be exsanguinating from a massive wound that can be addressed before starting the ABCDE algorithm; fortunately the widespread adoption of the use of tourniquets in the field has limited the need to staunch massive bleeding in the trauma bay.

Below is each sequential area of focus for evaluation and intervention.  

A: Airway with cervical spine precautions /or protection.

This assessment is of the patency of the patient’s airway. It is assessed by asking a question. If the patient can speak coherently, the patient is responsive, and the airway is open.

Perform either a chin lift or jaw thrust if airway obstruction is identified; although, jaw thrust is preferred if cervical spine injury is suspected.

Chin lift by placing the thumb underneath the chin and lifting forward.

Jaw thrust by placing the long fingers behind the angle of the mandible and pushing anteriorly and superiorly.

Foreign bodies, secretions, facial fractures, or airway lacerations are also sought out. If there is a foreign body, it should be removed. If there are other causes of obstruction, a definitive airway should be established whether through intubation or creation of a surgical airway such as cricothyroidotomy. During these evaluations and possible interventions, caution should be used to ensure that the cervical spine is immobilized and maintained in-line. The cervical spine should be stabilized by manually maintaining the neck in a neutral position, in alignment with the body. In this procedure, a two-person spinal stabilization technique is recommended. This means one provider maintains the in-line immobilization, and the other manages the airway. Once the patient is stabilized in this scenario there neck should be secured with a cervical collar.

Airway protection is required in many trauma patients. Patients with airway obstruction demand immediate intervention.

B: Breathing and Ventilation

This assessment is performed first by inspection. The practitioner should look for tracheal deviation, an open pneumothorax or significant chest wounds, flail chest, paradoxical chest movement, or asymmetric chest wall excursion. Then, auscultation of both lungs should be conducted to identify decreased or asymmetric lung sounds. Decreased lung sounds can be a sign of pneumothorax or hemothorax. This, combined with either tracheal deviation or hemodynamic compromise, can be a sign of a tension pneumothorax that should be treated with needle decompression followed by a thoracotomy tube placement. Open chest wounds should be covered immediately with a bandage taped on three sides to prevent the entry of atmospheric air into the chest. If the bandage is taped on all four sides it may create a tension pneumothorax. If a flail chest is present and results in respiratory compromise, positive pressure ventilation should be provided. A flail chest may indicate an underlying pulmonary contusion.

Note that in general, all trauma patients should receive supplemental oxygen.

C: Circulation with hemorrhage control

Adequate circulation is required for oxygenation to the brain and other vital organs. Blood loss is the most common cause of shock in trauma patients.

This is evaluated by assessing the level of responsiveness, obvious hemorrhage, skin color, and pulse (presence, quality, and rate). The level of responsiveness can be quickly assessed by the mnemonic AVPU, as follows:

• (A) Alert
• (V) Respond to Verbal stimuli
• (P) Respond to Painful stimuli
• (U)  Unresponsive to any stimuli.

Any obvious hemorrhaging should be controlled by direct pressure if possible, and if needed, by applying tourniquets to the extremities. Pale or ashen extremities or facial skin is a warning sign of hypovolemia. Rapid, thready pulses in the carotids or femoral arteries are also of concern for hypovolemia.

It is important to remember that up to 30% loss of blood volume can occur before a reduction in blood pressure. But, the pressure may remain within normal limits after significant blood loss, especially in children.

In trauma, hypovolemia is addressed first with 1 L to 2 L isotonic solutions, such as normal saline or lactated Ringer, but it should then be followed by blood products. Capillary refill time can be used to assess the adequacy of tissue perfusion. A capillary refill time of more than 2 seconds may indicate poor perfusion unless an extremity is cold. Remember, any patient presenting with pale, cold extremities, is in shock until proven otherwise. With no obvious signs of hemorrhage, and when there is a hemodynamic compromise, a pericardial tamponade must be considered, and if suspected, corrected through the creation of a pericardial window.

D: Disability (assessing neurologic status)

A rapid assessment of the patient's neurologic status is necessary on arrival in the emergency department. This should include the patient's conscious state and neurological signs. This is assessed by the patient’s Glasgow coma scale (GCS), pupil size and reaction, and lateralizing signs. If the GCS is diminished below 8, this is a sign that the patient may have reduced airway reflexes making them unable to protect their airways; under these circumstances, a definitive airway is required. A maximum score of 15 is reassuring and indicates the optimal level of consciousness; whereas, a minimal score of 3 signifies a deep coma. If the patient is intubated then their verbal score becomes a 1 and their total score should be followed by a T.The components of the GCS are:MOTOR6 Follows commands5 Localizes to pain4 Withdraws from pain3 Flexes in response to stimuli (decorticate posturing)2 Extends in response to stimuli (decerebrate posturing)1 Does not move in response to stimuliVERBAL5 Coherent speech4 Confused speech3 Incoherent words2 Incomprehensible sounds1 No speech1T IntubatedEYES4 Opens spontaneously3 Opens to noise2 Opens to pain1 Does not open

E: Exposure and Environmental Control

The patient should be completely undressed and exposed, to ensure that no injuries are missed. They should then be re-covered with warm blankets to limit the risk of hypothermia.

Adjuncts to the Primary Survey:

After the ABCDEs of the primary survey, several adjuncts assist in the evaluation of other life-threatening processes:

• ECG is used to evaluate for dysrhythmias, ST-elevation myocardial infarction (STEMI) STEMIs, pulseless electrical activity (PEA), and cardiac tamponade
• Urinary Catheters can help in the evaluation of fluid status. However, care must be taken if a contraindication exists, such as blood at the meatus, perineal ecchymosis, or high-riding prostate
• Gastric catheters can decompress the stomach, reducing the risk of aspiration and limiting pressure on the thorax, that a distended stomach can create. Care must be taken to avoid nasal insertion in the presence of facial trauma or concern for a basilar skull fracture
• Chest x-ray is obtained to evaluate for pneumothorax, hemothorax or suspicion of an aortic injury
• Pelvic x-ray is obtained to evaluate for pelvic fractures. If an open book fracture is found, a pelvic binder is indicated, to limit pelvic bleeding
• FAST Examination is the "Focused Assessment with Sonography in Trauma" and performed, to identify free fluid in the abdomen which may be suggestive of intra-abdominal bleeding or pericardial tamponade.

After the primary survey, the secondary survey is completed to ensure a comprehensive evaluation and management of the patient’s injuries.

By the end of the primary survey, the trauma patient should have received a well-organized resuscitation, and any immediately life-threatening condition should have been identified and addressed. After the completion of the primary and secondary survey there should be a decision on the disposition of the patient: to obtain additional studies, proceed to the OR, take the patient to the ICU, or even to progress to discharge if appropriate.

Advanced trauma life-support care has been developed to standardize the evaluation and management of trauma patients since time is critical in trauma evaluation. The golden hour starts at the time of injury. This is the time period at which timely and appropriate interventions can save the life of a patient that would otherwise die. A practitioner uses a primary survey to quickly assess, identify, and treat any life-threatening injuries if they exist.

The management of a trauma patient is done with an interprofessional team that includes a surgeon, emergency department physician, nurse, anesthesiologist and an intensivist. The team must know how to resuscitate patients and the priorities of a primary survey. The key is to first identify all life threatening injuries and consult with the appropriate specialist.[8][9]