One of the most commonly occurring complications in the postanesthesia care setting is airway obstruction. Airway obstruction can be upper or lower in origin, from the simple problem of the tongue falling back and obstructing the upper airway to complete laryngospasm with no air movement.

Laryngospasm is an involuntary partial or complete closure of the vocal cords caused by secretions, stimulation, or irritation of the laryngeal reflexes during emergence. Wheezing, reduced compliance, stridor (partial), paradoxical chest or abdominal movements, and absence of ventilation (complete) are signs and symptoms of laryngospasm. Ventilation is decreased or absent, and oxygenation of the patient is difficult as carbon dioxide builds (Paco₂ increases). Treatment may include airway maneuvers (chin lift/jaw thrust), elevation of the head of bed to maximize respiratory excursion, and application of a bag-valve-mask for continuous positive pressure with oxygen. Secretions need to be carefully removed with suction. The patient may need reintubation to secure the airway if mask ventilation is difficult. Medications may include succinylcholine and can include other neuromuscular blocking agents and lidocaine. When the patient has received a neuromuscular blocking agent, the patient may need sedation to reduce anxiety related to apnea, muscle relaxation, and awareness.

The primary complication of postextubation laryngeal edema is subglottic edema. For the pediatric patient, this obstruction is typically observed in children 1 to 4 years of age. Traumatic intubation, tight fit of the endotracheal tube, coughing with the tube in place, position change with the tube inserted, surgery of the head or neck, and procedures that last more than 1 hour can result in subglottic edema. Crowing respirations, stridor, and rocking chest wall respiratory attempts may signal subglottic edema. Postoperative supplemental humidified oxygen can diminish airway swelling. Initial treatment includes humidified oxygen and nebulized mist treatment with racemic epinephrine. Further treatment may include inhalation of a helium-oxygen mixture, administration of dexamethasone, and calming with analgesics and parental or caregiver presence. Ambulatory surgery patients with subglottic edema treated with racemic epinephrine may be considered for overnight admission because of the risk of rebound edema. Extended observation for up to 8 hours may be sufficient if the parents are comfortable and emergency resources are readily available.

Sudden constriction of the smooth muscles in the walls of the bronchioles results in bronchospasm. Bronchospasm may be the result of preexisting asthma, allergy or anaphylaxis, chronic diseases of the lung (chronic bronchitis, emphysema), histamine release, mucus plugging, aspiration, pulmonary edema, wheezing with acute heart failure but without any other acute pulmonary pathology (cardiogenic asthma), or foreign body aspiration. Signs and symptoms include cough, expiratory wheezing, dyspnea, use of accessory muscles, and tachypnea. Treatment of the patient includes removal of the identified cause, oxygen administration, inhaled bronchodilators, and epinephrine. Depending on cause, an antihistamine or dexamethasone may be appropriate. Secretions should be suctioned. If the condition results from foreign body aspiration, such as a tooth, emergent bronchoscopy is needed. Ventilatory support may be necessary, and the patient may need reintubation for maintenance of oxygenation and ventilation.

Identified as a high-risk, low-frequency occurrence, aspiration may be observed in the postanesthesia setting. The patient with a nasal or oropharyngeal airway in place and returning gag reflexes may become nauseated and vomit. In a nonresponsive state and supine position, the patient is at greater risk for aspiration. Types of aspirates include large particle, clear acidic or nonacidic fluid, foodstuff or small particle, and contaminated material. In addition, foreign bodies such as teeth or blood may be aspirated. Symptoms include unexplained tachypnea and tachycardia, cough, bronchospasm, hypoxemia, atelectasis, interstitial edema, hemorrhage, and acute respiratory distress syndrome. The aspiration can trigger laryngospasm, infection, and pulmonary edema.

Pneumothorax, an accumulation of air or gas in the pleural space, can occur during the perianesthesia period. It may be the result of percutaneous internal jugular and subclavian vein cannulation, hemodynamic monitoring line placement, certain upper extremity blocks (supraclavicular and infraclavicular approaches to the brachial plexus), or operative procedures of the chest. The patient may have sharp ipsilateral chest pain and dyspnea. Assessment findings include decreased breath sounds and hyper-resonance on the affected side of the chest. Treatment includes supplemental oxygen administration and obtaining a chest radiograph. If a less than 20% pneumothorax is diagnosed based on the chest radiograph, the treating physician may opt to observe the patient for an extended time period until the pneumothorax either resolves or increases. If the pneumothorax is greater than 20% or the patient has cardiovascular compromise, a chest tube may be needed.

Fluid overload, congestive heart failure, or acute pulmonary injury can result in pulmonary edema. Signs and symptoms include hypoxemia, crackles (rales), and decreased pulmonary compliance. Pulmonary infiltrates are seen on chest radiograph results.

Identification and treatment of the cause of the pulmonary edema is the first step in treatment. In addition, diuretics and fluid restriction to decrease afterload and supplemental oxygen administration may be ordered. Patients with an inability to maintain oxygenation or adequate ventilation may undergo intubation and mechanical ventilation and PEEP.

Dysrhythmias can occur as the result of hypoxia, hypercarbia, electrolyte abnormalities, acid-base alterations, myocardial ischemia, medication effects, pain, hypovolemia, bladder distention, and hypothermia. Occasional ectopic beats may be seen in healthy patients. Significant dysrhythmias necessitate immediate identification and treatment; these include premature ventricular contractions (more than five per minute, coupled [more than two together], or multifocal), ventricular tachycardia, ventricular fibrillation, asystole, heart block, pulseless electric activity, and new-onset atrial fibrillation. Treatment includes identification and treatment of the cause, supplemental oxygen administration, ventilatory and hemodynamic support, and pharmacologic therapy. Advanced cardiac life support (ACLS) or pediatric advanced life support (PALS) protocols are initiated when appropriate.

Sinus bradycardia can occur as the result of vagal responses, hypoxia, medication effects, increased intracranial pressure (ICP), or distended bladder. Treatment is dependent on the cause and can include anticholinergic agents (e.g., atropine), supplemental oxygen administration, and stimulation. If the condition is the result of elevated ICP, hyperventilation and pharmacologic therapy may be indicated.

Sinus tachycardia occurs commonly in the postanesthesia setting. Causes include hypoxia, hypercarbia, hypovolemia, sepsis, hyperthermia, heart failure, pain, medications, and psychological stress. Treatment includes administration of supplemental oxygen, ventilation support, and evaluation of fluid and cardiac status. If the condition results from pain, medication with analgesics is the treatment. Sedatives may be needed if the condition is from anxiety or stress. If the patient is hyperthermic, the patient’s core temperature is lowered with recommended cooling devices. Tachycardia in patients with coronary artery disease can increase the risk of myocardial ischemia.