High altitude illness

SIGNS / SYMPTOMS

Although the absence of common triggers such as house dust mites, pollution, and pollen may improve the symptoms of some sufferers, exercise, low humidity, and cold exposure may exacerbate the condition in others.[65]Cogo A, Fischer R, Schoene R. Respiratory disease and high altitude. High Alt Med Biol. 2004 Winter;5(4):435-44. http://www.ncbi.nlm.nih.gov/pubmed/15671633?tool=bestpractice.com

The presence of wheeze and diurnal variation of symptoms is rare in high-altitude pulmonary edema (HAPE).

SIGNS / SYMPTOMS

May be difficult to clinically differentiate.

The presence of green or yellow sputum, rigors, and a high fever that do not resolve on descent are suggestive of pneumonia.

SIGNS / SYMPTOMS

While significant numbers of individuals with cardiac risk factors head to altitude, the vast majority do not.[66]Faulhaber M, Flatz M, Gatterer, et al. Prevalence of cardiovascular diseases among alpine skiers and hikers in the Austrian Alps. High Alt Med Biol. 2007 Fall;8(3):245-52. http://www.ncbi.nlm.nih.gov/pubmed/17824825?tool=bestpractice.com It is therefore far more likely that those presenting with peripheral oedema, cyanosis, tachypnoea, cough, and blood-stained sputum are suffering from HAPE and should be treated accordingly. 

Pronounced right-sided heart failure (ascites, hepatomegaly, and an elevated jugular venous pressure) may help distinguish the condition from HAPE.

Presence of a gallop rhythm or a heart murmur (will be absent in HAPE).

SIGNS / SYMPTOMS

May be triggered by the demands of the high-altitude environment; therefore is often difficult to distinguish clinically from HAPE.

Those with HAPE predominantly suffer from the effects of hypoxia; those with hyperventilation will be affected by hypocapnia, dizziness, paraesthesia, and perceptual disturbances.

SIGNS / SYMPTOMS

Unlike the chest pain in HAPE, MI pain is often described as a crushing pain radiating into the neck, jaw, and arms. While this may be eased with oxygen and rest similar to HAPE, descent may have little effect upon such symptoms.

The presence of acute mountain sickness symptoms and evidence of cough and abnormalities on chest auscultation makes a diagnosis of HAPE more likely.

SIGNS / SYMPTOMS

In the absence of clinical signs of deep vein thrombosis (pain, swelling, and redness in an affected limb) distinguishing pulmonary embolism (PE) from HAPE is difficult in the field setting.

In the absence of any improvement on descent or HAPE treatment, the diagnosis of HAPE will be unlikely.

SIGNS / SYMPTOMS

Thought disorder, delusions, and sensory hallucinations are features consistent with a diagnosis of acute psychosis.

Although high-altitude cerebral edema (HACE) tends to present with motor symptoms, visual disturbance, and changes in the level of consciousness, in some cases the condition can be confused with psychotic behaviour (personality changes and episodes of bizarre behaviour).

Unlike HACE, symptoms may resolve spontaneously at altitude or persist for long periods without any evidence of physical deterioration typically seen in HACE.

In acute psychosis treatment with dexamethasone and supplemental oxygen will be ineffective.

SIGNS / SYMPTOMS

Difficult to differentiate clinically.

Carbon monoxide poisoning has been found to occur at altitude following prolonged exposure to gas stoves in confined areas such as snow holes or small tents.[67]Lipman GS. Carbon monoxide toxicity at high altitude. Wilderness Environ Med. 2006 Summer;17(2):144-5. http://www.ncbi.nlm.nih.gov/pubmed/16805152?tool=bestpractice.com

Typically, individuals present with flu-like symptoms before eventually developing ataxia, confusion, and loss of consciousness.

SIGNS / SYMPTOMS

Warm temperatures, prolonged periods of exertion, and limited access to clean water make dehydration a common problem at altitude. Like acute mountain sickness, headache, nausea, dizziness, and tiredness may all occur. However, these symptoms tend to respond quickly to 1 to 2 litres of isotonic fluid. In addition, thirst, orthostatic hypotension, reduced urine output, and the presence of dry skin and mucous membranes may all help distinguish dehydration from high-altitude illness.

SIGNS / SYMPTOMS

Known history of insulin-dependent diabetes. Recent infection or change in insulin therapy.

The presence of polyuria, thirst, and acetone on the breath supports the diagnosis of DKA. May be precipitated by high altitude.[68]Ahmad H. Diabetic ketoacidosis in an undiagnosed diabetic precipitated by high altitude pulmonary edema. High Alt Med Biol. 2006 Spring;7(1):84-6. http://www.ncbi.nlm.nih.gov/pubmed/16544971?tool=bestpractice.com

SIGNS / SYMPTOMS

While exhaustion may follow a prolonged period of exertion at altitude, difficulties in sleeping, nausea, headache, and dizziness should be absent.

Importantly, in exhausted individuals abnormal neurological signs are absent and they should still be able to perform basic tasks such as eating, drinking, and going to the toilet.

SIGNS / SYMPTOMS

Headache, nausea, and malaise of a hangover can mirror the symptoms of acute mountain sickness.

A history of excess alcohol use, an absence of sleep disturbance, and improvement with fluids and simple analgesics supports hangover as a cause of symptoms.

SIGNS / SYMPTOMS

Neurological changes seen following prolonged periods of hypoglycaemia are easily confused with illness at high altitude.

In the absence of blood glucose measurement, a history of palpitations, shakiness, and cold extremities may be associated with the early manifestations of a hypoglycaemic attack.

Clinical improvement following the administration of sugary foods makes acute mountain sickness unlikely.

SIGNS / SYMPTOMS

Symptoms are similar to acute mountain sickness and HACE; however, cramps and a raised body temperature (>39°C, 102.2°F) may distinguish these from heat exhaustion and salt depletion.[69]Speedy DB, Noakes TD, Rogers IR, et al. Hyponatraemia in ultradistance triathletes. Med Sci Sports Exerc. 1999 Jun;31(6):809-15. http://www.ncbi.nlm.nih.gov/pubmed/10378907?tool=bestpractice.com [70]Schmidt W, Rojas J, Boning D, et al. Plasma electrolytes in natives to hypoxia after marathon races at different altitudes. Med Sci Sports Exerc. 1999 Oct;31(10):1406-13. http://www.ncbi.nlm.nih.gov/pubmed/10527312?tool=bestpractice.com

Those with heat exhaustion respond to salt replacement and appropriate fluid resuscitation.

In cases of hyponatraemia caused by the intake of excessive amounts of water, fluid restriction is necessary.

SIGNS / SYMPTOMS

Difficult to differentiate clinically.

Core temperature low.

Warming measures (hot water bottles, additional layers of dry clothing, and the consumption of warm drinks and food) will correct symptoms.

Hypothermia can often occur in those with HAPE or HACE.

SIGNS / SYMPTOMS

A wide range of hallucinogenic agents are now available in popular high-altitude destinations.

While psychiatric symptoms predominate, changes in neurology can make it difficult to distinguish their use from HACE.

Supplemental oxygen and other HACE treatments will have no effect.

A thorough history from teammates and onlookers is essential.

SIGNS / SYMPTOMS

Ascent to high altitude is a recognised trigger for migraine.

The presence of a prodrome and aura may help distinguish migraine from acute mountain sickness (AMS). Similarly, migraine headaches tend to be unilateral and pulsating and unlike AMS can be accompanied by nasal stuffiness, scalp tenderness, and changes in bowel and bladder habits.

While migraines typically last for up to 72 hours, AMS symptoms may persist for longer and sometimes only resolve with descent.

Unlike some migraines, AMS is not associated with menstruation and does not cause visual disturbances or unilateral motor weakness.

SIGNS / SYMPTOMS

In HACE, seizures tend to occur in the final stages of the condition and will have been preceded by other symptoms.

At altitude, seizure activity in those with epilepsy varies between individuals. The combination of poor sleep, hypoxia, and hypocapnia has been postulated as a cause for increasing activity in some cases.[71]Baumgartner RW, Siegel AM, Hackett PH. Going high with preexisting neurological conditions. High Alt Med Biol. 2007 Summer;8(2):108-16. http://www.ncbi.nlm.nih.gov/pubmed/17584004?tool=bestpractice.com

A thorough history is useful in these cases and may identify changes in the patient's medicine compliance; or, in those presenting with unexpected seizures, there may be evidence of unexplained events several years before.[71]Baumgartner RW, Siegel AM, Hackett PH. Going high with preexisting neurological conditions. High Alt Med Biol. 2007 Summer;8(2):108-16. http://www.ncbi.nlm.nih.gov/pubmed/17584004?tool=bestpractice.com

SIGNS / SYMPTOMS

Most commonly present with amaurosis fugax, dysphasia, and unilateral disturbances in sensory and motor function; in some cases changes in consciousness can occur that may be clinically difficult to differentiate from HACE.

HACE is often preceded by symptoms of acute mountain sickness and improves with descent and appropriate treatment; symptoms of transient ischaemic attack or stroke often persist.