High-Altitude Pulmonary Edema |
Classification and external resources |
ICD-10 |
T70.2 |
ICD-9 |
993.2 |
High-altitude pulmonary edema (HAPE) (HAPO spelled oedema in British English) is a life-threatening form of non-cardiogenic pulmonary edema (fluid accumulation in the lungs) that occurs in otherwise healthy mountaineers at altitudes typically above 2,500 meters (8,200 ft).[1] Some cases, however, have been reported also at lower altitudes (between 1,500–2,500 metres or 4,900–8,200 feet in highly vulnerable subjects), although what makes some people susceptible to HAPE is not currently known. HAPE remains the major cause of death related to high-altitude exposure, with a high mortality rate in the absence of adequate emergency treatment.
Contents
- 1 Symptoms
- 2 Incidence
- 3 Predisposing factors
- 4 Research
- 5 See also
- 6 References
- 7 External links
Symptoms
Physiological and symptomatic changes often vary according to the altitude involved.[2]
The Lake Louise Consensus Definition for High-Altitude Pulmonary Edema has set widely used criteria for defining HAPE symptoms:[3]
Symptoms: at least two of:
-
- Difficulty in breathing (dyspnea) at rest
- Cough
- Weakness or decreased exercise performance
- Chest tightness or congestion
Signs: at least two of:
-
- Crackles or wheezing (while breathing) in at least one lung field
- Central cyanosis (blue skin color)
- Tachypnea (rapid shallow breathing)
- Tachycardia (rapid heart rate)
The initial cause of HAPE is a shortage of oxygen which is caused by the lower air pressure at high altitudes.[1][4] The mechanisms by which this shortage of oxygen causes HAPE are poorly understood, but two processes are believed to be important:
- Increased pulmonary arterial and capillary pressures (pulmonary hypertension) secondary to hypoxic pulmonary vasoconstriction.[5]
- An idiopathic non-inflammatory increase in the permeability of the vascular endothelium.[6]
Although higher pulmonary arterial pressures are associated with the development of HAPE, the presence of pulmonary hypertension may not in itself be sufficient to explain the development of edema: severe pulmonary hypertension can exist in the absence of clinical HAPE in subjects at high altitude.[7]
Incidence
The incidence of clinical HAPE in unacclimatized travelers exposed to high altitude (~4,000 m or 13,000 ft) appears to be less than 1%.[citation needed] The U.S. Army Pike's Peak Research Laboratory has exposed sea-level-resident volunteers rapidly and directly to high altitude; during 30 years of research involving about 300 volunteers (and over 100 staff members), only three have been evacuated with suspected HAPE.[citation needed]
Predisposing factors
Individual susceptibility to HAPE is difficult to predict. The most reliable risk factor is previous susceptibility to HAPE, and there is likely to be a genetic basis to this condition, perhaps involving the gene for angiotensin converting enzyme (ACE).[citation needed] Recently, scientists have found the similarities between low amounts of 2,3-BPG (also known as 2,3-DPG) with the occurrence of HAPE at high altitudes.[citation needed] Persons with sleep apnea are susceptible due to irregular breathing patterns while sleeping at high altitudes.
Research
In order to help understand the factors that make some individuals susceptible to HAPE, the International HAPE Database was set up in 2004.[8] Individuals who have previously suffered from HAPE can register with this confidential database in order to help researchers study the condition. The standard and most important treatment is to descend to lower altitude as quickly as possible, preferably by at least 1000 metres.[1][9] Oxygen should also be given if possible. Symptoms tend to quickly improve with descent, but more severe symptoms may continue for several days. The standard drug treatments for which there is strong clinical evidence are dexamethasone[10] and nifedipine.[11] Phosphodiesterase inhibitors such as sildenafil and tadalafil are also effective[10] but may worsen the headache of mountain sickness.[12]
See also
- Acetazolamide, a drug which speeds up acclimatization to high altitudes.
- Pulmonary Edema
- Altitude sickness
- High-altitude cerebral edema (HACE)
- High-altitude flatus expulsion (HAFE)
- Pulse oximeter, the instrument to measure oxygen level in blood.
- Wilderness medicine
- Wilderness Medical Society
References
- ^ a b c Roach, James M.; Schoene, Robert B. (2002). "High-Altitude Pulmonary Edema". In Pandolf, Kent B.; Burr, Robert E. Medical Aspects of Harsh Environments 2. Washington, DC: Borden Institute. pp. 789–814. OCLC 64437370.
- ^ "Why do low oxygen levels cause altitude sickness?". Altitude.org.
- ^ "The Lake Louise Consensus on the Definition of Altitude Illness". High Altitude Medicine Guide. Thomas E. Dietz. Retrieved 2012-11-10.
- ^ Kenneth Baillie and Alistair Simpson. "Barometric pressure calculator". Apex (Altitude Physiology EXpeditions). Retrieved 2006-08-10.
- ^ Bärtsch, P; Maggiorini, M; Ritter, M; Noti, C et al. (October 1991). "Prevention of high-altitude pulmonary edema by nifedipine". The New England Journal of Medicine 325 (18): 1284–9. doi:10.1056/NEJM199110313251805. PMID 1922223.
- ^ Swenson, ER; Maggiorini, M; Mongovin, S; et al. (May 2002). "Pathogenesis of high-altitude pulmonary edema: inflammation is not an etiologic factor". JAMA 287 (17): 2228–35. doi:10.1001/jama.287.17.2228. PMID 11980523.
- ^ Maggiorini, M; Mélot, C; Pierre, S; et al. (April 2001). "High-altitude pulmonary edema is initially caused by an increase in capillary pressure". Circulation 103 (16): 2078–83. doi:10.1161/01.cir.103.16.2078. PMID 11319198.
- ^ "International HAPE database". Apex (Altitude Physiology EXpeditions). Retrieved 2006-08-10.
- ^ Luks, AM (2008). "Do we have a 'best practice' for treating high altitude pulmonary edema?". High Altitude Medicine & Biology 9 (2): 111–4. doi:10.1089/ham.2008.1017. PMID 18578641.
- ^ a b Maggiorini, M; Brunner-La Rocca, HP; Peth S; et al. (October 2006). "Both tadalafil and dexamethasone may reduce the incidence of high-altitude pulmonary edema: a randomized trial". Annals of Internal Medicine 145 (7): 497–506. doi:10.7326/0003-4819-145-7-200610030-00007. PMID 17015867.
- ^ Bärtsch, P; Swenson, Erik R.; Maggiorini, ER; Maggiorini, M (2001). "Update: High altitude pulmonary edema". Advances in Experimental Medicine and Biology. Advances in Experimental Medicine and Biology 502: 89–106. doi:10.1007/978-1-4757-3401-0_8. ISBN 978-1-4419-3374-4. PMID 11950158.
- ^ Bates, MG; Thompson, AA; Baillie, JK (March 2007). "Phosphodiesterase type 5 inhibitors in the treatment and prevention of high altitude pulmonary edema". Current Opinion in Investigational Drugs 8 (3): 226–31. PMID 17408118.
External links
- The International HAPE Database
- Altitude.org explanation of HAPE and altitude sickness
- Expedition Medicine Training
- GP Notebook HAPE
Consequences of external causes (T66–T78, 990–995)
|
|
Temperature/radiation |
- elevated temperature
- Hyperthermia
- Heat syncope
- reduced temperature
- Hypothermia
- Immersion foot syndromes
- Trench foot
- Tropical immersion foot
- Warm water immersion foot
- Chilblains
- Frostbite
- Aerosol burn
- Cold intolerance
- Acrocyanosis
- Erythrocyanosis crurum
- radiation
- Radiation poisoning
- Radiation burn
- Chronic radiation keratosis
- Eosinophilic, polymorphic, and pruritic eruption associated with radiotherapy
- Radiation acne
- Radiation cancer
- Radiation recall reaction
- Radiation-induced erythema multiforme
- Radiation-induced hypertrophic scar
- Radiation-induced keloid
- Radiation-induced morphea
|
|
Air |
- Hypoxia/Asphyxia
- Barotrauma
- Aerosinusitis
- Decompression sickness
- High altitude
- Altitude sickness
- Chronic mountain sickness
- HAPE
- HACE
|
|
Food |
|
|
Maltreatment |
- Physical abuse
- Sexual abuse
- Psychological abuse
|
|
Travel |
- Motion sickness
- Seasickness
- Airsickness
- Space adaptation syndrome
|
|
Adverse effect |
- Hypersensitivity
- Anaphylaxis
- Angioedema
- Allergy
- Arthus reaction
|
|
Other |
- Electric shock
- Drowning
- Lightning injury
|
|
Ungrouped
skin conditions
resulting from
physical factors |
- Dermatosis neglecta
- Pinch mark
- Pseudoverrucous papules and nodules
- Sclerosing lymphangiitis
- Tropical anhidrotic asthenia
- UV-sensitive syndrome
- environmental skin conditions
- Electrical burn
- frictional/traumatic/sports
-
- Black heel and palm
- Equestrian perniosis
- Jogger's nipple
- Pulling boat hands
- Runner's rump
- Surfer's knots
- Tennis toe
- Vibration white finger
- Weathering nodule of ear
- Wrestler's ear
- Coral cut
- Painful fat herniation
- Uranium dermatosis
- iv use
-
- Skin pop scar
- Skin track
- Slap mark
- Pseudoacanthosis nigricans
- Narcotic dermopathy
|
|