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Query: UMLS:C0034063 (
pulmonary edema
)
10,665
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Increased travel to high altitude areas by mountaineers and nonclimbing tourists has emphasized the clinical problems associated with rapid ascent. Acute mountain sickness affects most sojourners at elevations above 10,000 feet. Symptoms are usually worse on the second or third day after arrival. Gradual ascent, spending one to three days at an intermediate altitude, and the use of acetazolamide (
Diamox
) will prevent or ameliorate symptoms in most instances. Serious and potentially fatal problems, such as high altitude
pulmonary edema
or cerebral edema, occur in approximately 0.5 percent to 1.0 percent of visitors to elevations above 10,000 feet-especially with heavy physical exertion on arrival, such as climbing or skiing. Early recognition, high flow oxygen therapy and prompt descent are crucially important in management. Our knowledge of the causes of these and other high altitude problems, such as retinal hemorrhage, systemic edema and pulmonary hypertension, is still incomplete. Even less is known of the effect of high altitudes on medical conditions common at sea level or on the action of commonly used drugs.
...
PMID:High altitude medical problems. 48 5
People who ascend rapidly to altitudes greater than 3,000 meters (10,000 ft) may become ill; rarely, some may die from an inability to adapt to hypoxia. Age, pre-existing cardiopulmonary or hematologic disease, and the rate and degree of ascent are known to limit man's adaptation to high altitudes. Other factors, such as blunted hypoxic respiratory drive and sublinical disease of the pulmonary vascular bed are probably also important. Pre-exposure with acetozolamide (
Diamox
) helps, but once symptoms of high altitude
pulmonary edema
(HAPE) occur, supplemental oxygen and rapid descent to lower altitudes are the only known remedies. In view of the steady increase in the number of people who work and play at high altitudes, physicians must understand the pathophysiologic mechanisms involved in order to treat properly and to counsel patients.
...
PMID:Medical consequences of acute exposure to high altitude. 206 Oct 35
The role of CO2 in hyperbaric oxygen toxicity was investigated by administering acetazolamide (
Diamox
), Tris buffer [tris(hydroxymethyl)aminomethane], and sodium bicarbonate by i.p. injection, and by exposure of other groups of animals to an atmosphere of 5% CO2 and 95% O2. All animals were placed in a pressure chamber and maintained at 50 psig in 100% O2 until death. The Tris buffer and the sodium bicarbonate buffer significantly extended time to onset of convulsions and to time of death. Acetazolamide and also 5% CO2 shortened time to onset of convulsions and significantly shortened survival time. These results suggest that increased tissue levels of CO2 play an important role in hyperbaric oxygen toxicity. The cause of death in our animals exposed to hyperbaric oxygen was
pulmonary edema
secondary to a systemic hypertension.
...
PMID:Acetazolamide and CO2 in hyperbaric oxygen toxicity. 680 59
A woman aged 66 was prescribed acetazolamide (
Diamox
) in the outpatient clinic because of glaucoma. She went into irreversible anaphylactic shock with massive
pulmonary oedema
, probably due to a cross reaction in sulphonamide allergy. Before prescribing acetazolamide, the physician should inquire about sulphonamide allergy because of the related chemical structure of the substances. Such an allergy should be regarded as a contraindication.
...
PMID:[Fatal anaphylactic reaction after oral acetazolamide (diamox) for glaucoma]. 1108 98
As increasing numbers of people choose to sojourn or retire to the mountains, high-altitude illness is becoming a pathological phenomenon about which healthcare providers should have greater awareness. Hypoxia is the primary cause of high-altitude illness, but other stressors on the sympathetic nervous system, such as cold and exertion, also contribute to disease development and progression. Although variable across persons, symptoms of high-altitude disorders usually occur at altitudes over 7000 feet, and typically in 1 of 3 forms: acute mountain sickness (AMS), high-altitude cerebral edema (HACE), or high-altitude
pulmonary edema
(HAPE). Major symptoms include nausea, poor sleep, headache, lassitude, cough, dyspnea on exertion and at rest, ataxia, and mental status changes. As a rule, illness occurring at high altitude should be attributed to the altitude until proven otherwise. Treatment is best accomplished by descent and by oxygen or pharmacologic intervention if necessary. Under no circumstances should a person with worsening symptoms of high-altitude illness delay descent. As will be discussed in part II of this article, gradual ascent and subsequent acclimatization to altitude is the most effective prevention, though acetazolamide (
Diamox
) may be a useful prophylactic measure in some.
...
PMID:High-altitude-related disorders--Part I: Pathophysiology, differential diagnosis, and treatment. 1513 83
