Other Names

• High Altitude Pulmonary Edema (HAPE)
• High Altitude Pulmonary Oedema (HAPO)
• “re-entry” HAPE

Pathophysiology

• General
  • HAPE is a pulmonary presentation of acute high altitude illness
  • Onset is usually 2–4 days after ascent; rare after 1 week at a constant altitude
  • Most commonly seen above 2500 to 3000 m, less commonly between 1400 and 2400 m
• Types
  • Most commonly, it occurs in rapid ascension in unacclimatized lowlanders
  • “re-entry” HAPE: rarely, it can occur in inhabitants returning from a trip at a “low altitude”

Mechanism

• Non-cardiogenic Pulmonary edema
  • Alveolar hypoxia causes pulmonary circulation vasoconstriction, subsequent pulmonary hypertension
  • HAPE susceptible individuals have exaggerated pulmonary artery vasoconstriction and pressures with hypoxia or normoxic exercise at sea level
• Hypoxic pulmonary vasoconstriction
  • Thought to be non-uniform, causing regional overperfusion
  • Endothelial dysfunction may be provoked
  • Impaired nitrous oxide synthesis may confer genetic susceptibility, the underlying mechanism
• Alveolar capillary leak
  • Stress failure secondary to pulmonary artery hypertension
  • This leads to leakage of large molecules into the alveolar space, subsequent high-permeability pulmonary edema
  • Worse/ exacerbated by exercise
• Impaired clearance of alveolar fluid
  • HAPE susceptible individuals have a defective transepithelial sodium transport in their alveoli
  • Impairment is likely exacerbated at altitude
  • Salmeterol, and dexamethasone may improve transepithelial sodium transport

• Acute Mountain Sickness
  • 50% of patients with HAPE also have AMS
• High Altitude Cerebral Edema
  • 14% of patients with HAPE also have HACE
  • 50% of autopsies in patients with HAPE had cerebral edema

• Pneumonia
• Bronchitis
• Pulmonary Embolism
• Myocardial Infarction
• Heart Failure

Symptoms

Diagnosis

• History
  • Early symptoms include exertional dyspnea, dry cough, and reduced exercise performance
  • It May appear over hours or days, and can appear suddenly after a night’s sleep at an altitude
  • Note that early symptoms are often minimized by individuals but may reflect early HAPE
  • Classic symptoms
    • Dyspnea at rest
    • Cough
    • Decreased exercise tolerance
    • Chest tightness or congestion
  • Other potential symptoms: fatigue, headache, elevated body temperature, generally not exceeding 38.5°C
    • Note that AMS often will overlap
  • Symptoms can worse over time as pulmonary edema progresses
    • Aggravated cough, breathlessness even at rest
• Physical Exam
  • Classic signs
    • Wheeze on auscultation
    • Central cyanosis
    • Tachypnoea
    • Tachycardia
  • Severe findings include pink frothy sputum, gurgling sounds

• Diagnosis is clinical
  • Diagnosis is made by the presence of two clinical symptoms and two clinical signs^[12]

Radiographs

• Chest Radiograph
  • Not required to make a diagnosis
• Findings
  • Peripheral patchy pulmonary edema in the lower zones, more often right-sided
  • Normal cardiac size with prominent pulmonary arteries

Electrocardiogram

• Not required to make a diagnosis
• Findings^[13]
  • Sinus tachycardia
  • Right axis deviation
  • Right bundle branch block or right strain

Laboratory

• Labs are not required to make the diagnosis
  • Can be useful to confirm, and exclude other pathology
• Blood gas
  • Hypoxemia
  • Respiratory alkalosis

• Currently, no classification system exists for HAPE

Treatment

• Summary of treatment
  • Increase oxygenation using rapid descent
  • Adjunct: o2 supplementation or portable hyperbaric chamber
  • Adjunct: Nifedipine if oxygen is not available
• Descent
  • Most effective treatment (as with all forms of AHAI)
  • First-line treatment, especially in remote or austere settings
  • Initial descent should be at least 1000 m or until symptoms resolve
  • Ideally, with minimal exertion by the patient
• Hospital
  • Supplementary oxygen
  • Considering positive airway pressure, there are case reports supporting use^[15]
  • Consider inhaled nitric oxide
• Nifedipine
  • Can be used when descent or oxygen is not possible
  • Dose: 60 mg modified release divided into 2 or 3 doses (same as prophylaxis)
  • Recommended as a first-line adjunct with WMS guidelines
  • However, no benefit if oxygen and descent are available
• Phosphodiesterase inhibitors
  • Not currently recommended due to an increase in AMS severity