UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Drugs that induce an increased urine flow are used both legitimately (treatment of hypertension and oedema) and otherwise (rapid weight loss) in sports and exercise. There are 5 major categories of diuretic drugs based on their mechanisms and loci of action. Common to all classes is hypohydration, which has been shown to have an array of adverse effects on performance, including impaired strength, power and endurance. Postural hypotension can be particularly troublesome in the elderly. Also common to all diuretics, except those interfering with the aldosterone mechanism in the distal nephron, is hypokalaemia. Severe symptomatic hypokalaemia (serum K+ concentration less than 3.0 mmol/L) is rare except in clinical situations in which additional hypokalaemic factors are present. Moderate levels of hypokalaemia (serum K+ concentration 3.0 to 3.5 mmol/L) can increase the risk of adverse reactions as has been shown in a variety of prospective clinical studies. Hypokalaemia has effects on cardiac rhythm, muscle function and integrity, local blood flow, carbohydrate metabolism, and the blood lipid profile. Performance studies generally show diminished exercise tolerance in direct proportion to the degree of hypohydration induced. This is not the case, however, in a clinical setting of compromised cardiopulmonary function, in which diuresis has direct and indirect inotropic effects which augment exercise tolerance and decrease symptoms. The ability of the carbonic anhydrase inhibitor, acetazolamide, to induce a hyperventilatory response to the obligatory metabolic acidosis is taken advantage of in mountaineering to prevent or ameliorate the symptoms of acute mountain sickness, thereby improving exercise performance at high altitude. It is suggested that in clinical situations in which the use of a diuretic is considered appropriate, every effort be made to maintain or restore the serum concentration and the total body store of potassium to normal. To some degree this can be accomplished through diet, although potassium chloride supplements or potassium-sparing diuretics or diuretic combinations may be necessary.
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PMID:Diuretic therapy and exercise performance. 330 68

The histopathology of hyperplasia of the carotid bodies was studied in 6 cases of hypoxaemia and right ventricular hypertrophy secondary to pan-acinar emphysema, and in five cases of systemic hypertension with left ventricular hypertrophy. The features of the hyperplasia were the same in the two groups. There was proliferation of sustentacular (type II) cells and compression of central cores of chief (type I) cells. It is speculated that the hyperplasia of sustentacular cells is associated in some way with the prevention of retention of sodium ions and water which characterises hypoxic cor pulmonale in "blue bloaters", systemic hypertension, and ascent to high altitude with the complications of acute mountain sickness, and pulmonary and cerebral oedema.
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PMID:Hyperplasia of the carotid body. 621 75

Hypoxia accompanying acute exposure to high altitude engenders augmented sympathetic nervous activity, thus increasing heart rate and blood pressure and the risk of effort angina and dysrhythmia in coronary patients. This risk is highest during the first 1 to 3 days and diminishes in 5 to 7 days as sympathetic activity subsides. Protective effects may result from 1. Gradual ascent. 2. Attention to blood pressure control. 3. Limitation of activity to less than the symptom-limiting degree at sea level, especially during the first 1 to 3 days. 4. Preexisting exercise tolerance of modest-to-moderate degree. 5. Ability of patient to appraise heart rate and blood pressure. Ascent by high-risk patients can be recommended to no more than moderate altitude, where adequate facilities for cardiovascular care are proximate. The risk of acute mountain sickness is not increased in older coronary patients. Strong contraindications to air travel by coronary patients would appear to be 1. New-onset angina. 2. Unstable angina. 3. Frequent or high-grade ventricular ectopy. 4. Severe or poorly controlled hypertension. Myocardial infarction within several weeks or months constitutes a relative contraindication, with persistent angina, ventricular ectopy, and poor ventricular function as the factors of greatest concern.
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PMID:Coronary problems associated with altitude and air travel. 761 18

We studied the physiologic and clinical responses to moderate altitude in 97 older men and women (aged 59 to 83 years) over 5 days in Vail, Colorado, at an elevation of 2,500 m (8,200 ft). The incidence of acute mountain sickness was 16%, which is slightly lower than that reported for younger persons. The occurrence of symptoms of acute mountain sickness did not parallel arterial oxygen saturation or spirometric or blood pressure measurements. Chronic diseases were present in percentages typical for ambulatory elderly persons: 19 (20%) had coronary artery disease, 33 (34%) had hypertension, and 9 (9%) had lung disease. Despite this, no adverse signs or symptoms occurred in our subjects during their stay at this altitude. Our findings suggest that persons with preexisting, generally asymptomatic, cardiovascular or pulmonary disease can safely visit moderate altitudes.
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PMID:How well do older persons tolerate moderate altitude? 786 54

Headache, nausea, vomiting, insomnia and peripheral edema are the most important symptoms of acute mountain sickness (AMS), which occur within 6 to 12 h. after exposure to altitudes of more than 2500 m a. s. l. Usually, these symptoms resolve spontaneously; however, they may progress to life-threatening cerebral edema in some cases. High-altitude pulmonary edema (HAPE) is a noncardiogenic edema, which is often preceded by acute mountain sickness. Frequency and severity of these illnesses depend on the altitude, the rate of ascent and the degree of individual susceptibility. A low hypoxic ventilatory drive, sodium and water retention as well as increased capillary permeability are the most important pathophysiological factors which contribute to hypoxemia and edema formation in AMS. They are also important in the pathophysiology of HAPE. In addition, excessive hypoxic pulmonary artery hypertension is most likely crucial in the pathogenesis of HAPE. Constitutional factors which regulate ventilation and pulmonary artery pressure under hypoxia are considered the most important determinants of susceptibility to AMS and HAPE.
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PMID:[Clinical aspects and pathophysiology of altitude sickness]. 837 71

Knowledge about the safety of travel to high or moderate altitude during pregnancy or with small children is limited. Previous recommendations restricting travel during pregnancy to an altitude of 2133 m a.s.l. may be too cautious; however, not enough research has been done to allow any recommendation based on scientific evidence. Infants and children generally do well at moderate altitude (< 3000 m a.s.l.), if ascent is gradual and if the child is watched closely for any developing signs or symptoms of acute mountain sickness or high-altitude pulmonary edema. Infants of residents of low altitude may develop right-heart failure due to excessive pulmonary artery hypertension when exposed to altitudes more than 3500 m a.s.l. over several months (subacute mountain sickness).
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PMID:[High altitude sojourn in pregnancy and childhood]. 837 76

We examined the effect of isovolemic hemodilution in a rat model of chronic mountain sickness (CMS). After 30 days at simulated high altitude (5,500 m), Hilltop rats had developed evidence of CMS: severe hypoxemia, polycythemia, and pulmonary arterial hypertension. Isovolemic hemodilution to a mean hematocrit of 46 +/- 5% was well tolerated by both the hypoxia-sensitive Hilltop rats and the companion Madison rat strain that does not develop CMS. After hemodilution, we found no evidence of sustained improvements in ventilation or gas exchange in either strain. Despite the fall in blood viscosity, cardiac output increased only marginally, and pulmonary arterial hypertension persisted in the Hilltop rats. Vascular hindrance increased after hemodilution, preventing a significant decline in pulmonary and systemic vascular resistances in the Hilltop rats. Blood O2 content and the coefficient of O2 delivery fell after hemodilution, but O2 consumption was sustained at a normal level after hemodilution by increasing the extraction fraction in the Hilltop strain. There was systemic hypotension through the first day of hemodilution, but this was the only apparent adverse effect of hemodilution. We conclude that isovolemic hemodilution was well tolerated despite the reduction in tissue O2 delivery. However, hemodilution failed to improve any of the respiratory and cardiovascular manifestations of CMS in Hilltop rats.
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PMID:Pathophysiological effects of hemodilution in chronic mountain sickness in rats. 892 1

Diuretics have changed the approach to many disease and have turned once fatal conditions into tolerable ones. Treatment of salt and water overload and edema can be quite satisfying for the clinician as long as the patient is closely watched for side effects. Thiazide diuretics have their greatest use in hypertension, loop diuretics in edema and congestive heart failure, CA inhibitors in glaucoma and altitude sickness, potassium-sparing diuretics in hypokalemia induced by other diuretics and ascites, and osmotic diuretics in acute renal failure and dialysis. They are among the most widely prescribed medications in the world today and rightly have a prominent place in the armamentarium against disease.
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PMID:Edema and principles of diuretic use. 916 52

We examined erythropoietin (EPO) gene expression and EPO production during hypoxia in two Sprague-Dawley rat strains with divergent polycythemic responses to hypoxia. Hilltop (H) rats develop severe polycythemia, severe hypoxemia, and pulmonary artery hypertension. The H rats often die from a syndrome indistinguishable from chronic mountain sickness (CMS) in humans. Madison (M) rats develop polycythemia and pulmonary artery hypertension that is modest and suffer no excess mortality. We tested the hypothesis that these rat strains have different stimulus-response characteristics governing EPO production. Rats of each strain were exposed to hypoxia (0.5 atm, 73 Torr inspired PO2), and renal tissue EPO mRNA and EPO levels, plasma EPO, ventilation, arterial and renal venous blood gases, and indexes of renal function were measured at fixed times during a 30-day hypoxic exposure. During extended hypoxic exposure, H rats had significantly elevated renal EPO mRNA, renal EPO, and plasma EPO levels compared with M rats. Ventilatory responses and indexes of renal function were similar in the strains during the hypoxic exposure. H rats had greater arterial hypoxemia from the onset of hypoxia and more severe renal tissue hypoxemia and greater polycythemia after 14 days of hypoxic exposure. When EPO responses were expressed as functions of renal venous PO2, the two strains appeared to lie on the same dose-response curves, but the responses of H rats were shifted along the curve toward more hypoxic values. We conclude that H rats have significantly greater polycythemia secondary to poorer renal tissue oxygenation, but the stimulus-response characteristics governing EPO gene expression and EPO production do not seem to differ between M and H rats. Finally, the regulation of EPO levels during hypoxia occurs primarily at the transcriptional level.
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PMID:Polycythemic responses to hypoxia: molecular and genetic mechanisms of chronic mountain sickness. 951 90

Rhodiola rosea is a popular plant in traditional medical systems in Eastern Europe and Asian with a reputation for stimulating the nervous system, decreasing depression, enhancing work performance, eliminating fatigue, and preventing high altitude sickness. Rhodiola rosea has been categorized as an adaptogen by Russian researchers due to its observed ability to increase resistance to a variety of chemical, biological, and physical stressors. Its claimed benefits include antidepressant, anticancer, cardioprotective, and central nervous system enhancement. Research also indicates great utility in asthenic conditions (decline in work performance, sleep difficulties, poor appetite, irritability, hypertension, headaches, and fatigue) developing subsequent to intense physical or intellectual strain. The adaptogenic, cardiopulmonary protective, and central nervous system activities of Rhodiola rosea have been attributed primarily to its ability to influence levels and activity of monoamines and opioid peptides such as beta-endorphins.
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PMID:Rhodiola rosea: a possible plant adaptogen. 1141 73

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