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==Complications==
==Complications==
The most serious symptoms of altitude sickness are due to [[edema]] (fluid accumulation in the tissues of the body). At very high altitude, humans can get either [[high altitude pulmonary edema]] (HAPE), or [[high altitude cerebral edema]] (HACE). DIARYfatal. The physiological cause of altitude-induced edema is not conclusively established. It is currently believed, however, that HACE is caused by local vasodilation of cerebral blood vessels in response to hypoxia, resulting in greater blood flow and, consequently, greater capillary pressures. On the other hand, HAPE may be due to general [[vasoconstriction]] in the [[pulmonary circulation]] (normally a response to regional ventilation-perfusion mismatches) which, with constant or increased cardiac output, also leads to increases in capillary pressures. For those suffering HACE, [[dexamethasone]] may provide temporary relief from symptoms in order to keep descending under their own power.
The most serious symptoms of altitude sickness are due to [[edema]] (fluid accumulation in the tissues of the body). At very high altitude, humans can get either [[high altitude pulmonary edema]] (HAPE), or [[high altitude cerebral edema]] (HACE). The physiological cause of altitude-induced edema is not conclusively established. It is currently believed, however, that HACE is caused by local [[vasodilation]] of cerebral blood vessels in response to [[hypoxia]], resulting in greater blood flow and, consequently, greater capillary pressures. On the other hand, HAPE may be due to general [[vasoconstriction]] in the [[pulmonary circulation]] (normally a response to regional ventilation-perfusion mismatches) which, with constant or increased cardiac output, also leads to increases in capillary pressures. For those suffering HACE, [[dexamethasone]] may provide temporary relief from symptoms in order to keep descending under their own power.


HAPE occurs in ~2% of those who are adjusting to altitudes of ~3000 m (10,000 feet) or more. It can progress rapidly and is often fatal.  Symptoms include:
HAPE occurs in ~2% of those who are adjusting to altitudes of ~3000 m (10,000 feet) or more. It can progress rapidly and is often fatal.  Symptoms include:
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Descent to lower altitudes alleviates the symptoms of HAPE.
Descent to lower altitudes alleviates the symptoms of HAPE.


HACE is a life threatening condition that can lead to coma or death. It generally occurs after a week or more at [[high altitude]], but symptoms of mild HACE can sometimes show up even after few hours at higher altitudes. It occurs in about 1% of people adjusting to altitudes above ~2700 m (9,000 feet). Symptoms include:
HACE is a life threatening condition that can lead to coma or death. It generally occurs after a week or more at [[high altitude]], but symptoms of mild HACE can sometimes show up even after a few hours at higher altitudes. It occurs in about 1% of people adjusting to altitudes above ~2700 m (9,000 feet). Symptoms include:
* [[Bladder]] dysfunction
* [[Bowel]] dysfunction
* [[Coma]]
* [[Confusion]]
* [[Fatigue]]
* [[Hallucination]]s
* [[Headache]]
* [[Headache]]
* [[Fatigue]]
* Irrational behavior
* [[Visual impairment]]
* Bladder dysfunction
* Bowel dysfunction
* [[Loss of coordination]]
* [[Loss of coordination]]
* Loss of memory
* [[paralysis|paralysis on one side of the body]]
* [[paralysis|paralysis on one side of the body]]
* [[Confusion]]
* [[Visual impairment]]
* Loss of memory
* Hallucinations
* Irrational behavior
* Coma.
Descent to lower altitudes may save those afflicted with HACE.
Descent to lower altitudes may save those afflicted with HACE.


Revision as of 17:15, 15 February 2013

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Complications

The most serious symptoms of altitude sickness are due to edema (fluid accumulation in the tissues of the body). At very high altitude, humans can get either high altitude pulmonary edema (HAPE), or high altitude cerebral edema (HACE). The physiological cause of altitude-induced edema is not conclusively established. It is currently believed, however, that HACE is caused by local vasodilation of cerebral blood vessels in response to hypoxia, resulting in greater blood flow and, consequently, greater capillary pressures. On the other hand, HAPE may be due to general vasoconstriction in the pulmonary circulation (normally a response to regional ventilation-perfusion mismatches) which, with constant or increased cardiac output, also leads to increases in capillary pressures. For those suffering HACE, dexamethasone may provide temporary relief from symptoms in order to keep descending under their own power.

HAPE occurs in ~2% of those who are adjusting to altitudes of ~3000 m (10,000 feet) or more. It can progress rapidly and is often fatal. Symptoms include:

Descent to lower altitudes alleviates the symptoms of HAPE.

HACE is a life threatening condition that can lead to coma or death. It generally occurs after a week or more at high altitude, but symptoms of mild HACE can sometimes show up even after a few hours at higher altitudes. It occurs in about 1% of people adjusting to altitudes above ~2700 m (9,000 feet). Symptoms include:

Descent to lower altitudes may save those afflicted with HACE.

Prognosis

Most cases are mild, and symptoms improve promptly with a return to lower altitude. Severe cases may result in death due to respiratory distress or brain swelling (cerebral edema). In remote locations, emergency evacuation may not be possible, or treatment may be delayed. These conditions could adversely affect the outcome.

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