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

Exposure of rats to cadmium causes a marked depletion of iron in liver and kidney. Selenium neither counteracts or intensifies the influence of cadmium on tissue iron levels. Selenium injections protect against cadmium-induced testicular damage but cause this element to accumulate in the testes at higher concentration than in animals exposed to cadmium without selenium. Selenium injection diverts the binding of cadmium from low molecular weight proteins to high molecular weight ones. Dosing rats with selenium and cadmium or inclusion of Se or Cd in the diet did not result in altered cadmium binding in tissues, raising some questions concerning the environmental significance of these injection experiments. Addition of selenium to a diet containing cadmium decreased the accumulation of cadmium in liver and kidney, but increased its deposition in testes. The metabolism of cadmium bound to metallothionein was markedly different as compared to the inorganic salt of this element. Dietary ascorbate, but not citrate or cysteine, decreased the deposition of cadmium in rat tissues. In some low-level exposure experiments with cadmium (1 to 1000 ppb), no differences were found in the percentage of dose absorbed or rate of cadmium accumulation when provided in food versus water. Female rats tended to absorb more cadmium than males. The binding of cadmium to cytosolic proteins was found to be different between rats fed low levels of cadmium (up to 1 ppm) as compared to those fed high levels of this element (100 ppm). Cadmium was not found to contribute to hypertension in rats, and a summary of results by various investigators is presented. Blood and hair cadmium levels in Oregon residents were found to be highest in employees of a mine, and hair cadmium was found to be respectively higher in smokers than nonsmokers and in metal workers than office workers. No relationships were observed in humans between blood or hair cadmium levels and blood pressure.
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PMID:Cadmium effects in rats on tissue iron, selenium, and blood pressure; blood and hair cadmium in some oregon residents. 48 28

In our laboratory, chronically feeding cadmium to groups of rats has been reproducibly associated with average increases of 15 to 20 mm Hg in systolic pressure. A total of 497 female Long-Evans rats were continuously provided with drinking water fortified with five essential elements and containing from 0.01 to 50 ppm cadmium, as the acetate, from weaning for as long as 30 months. These rats, plus 311 matched control animals which received fortified water without added cadmium, were fed a special low-cadmium diet. All 808 rats were weighed at least monthly as a screen for cadmium toxicity, and their systolic pressures were measured every 3 or 6 months. The two lowest concentrations of cadmium tested (0.01 and 0.03 ppm) were not pressor; the three highest concentrations (10, 25, and 50 ppm) ultimately proved to be toxic. All indirect systolic pressures (each measured in triplicate) of all rats which received 0.1 to 5 ppm cadmium (i.e., nontoxic pressor doses) averaged 15.0 mm Hg more than simultaneously measured pressures of control rats. This average increase over the control pressure is extremely significant statistically, even though it seems relatively small in absolute terms. Occasionally, however, some rats had much larger than average increases in pressure; thus, 10 of 60 rats receiving from 0.1 to 0.5 ppm cadmium for 18 months had systolic pressures that were more than 50 mm Hg above the average pressure of the control rats. Cadmium-induced hypertension is not limited to females or to a particular strain. Although we have usually used one strain of female Long-Evans rat from a single source, males of the same strain and female Sprague-Dawley rats have also developed comparable hypertension. All subgroup II elements can apparently induce similar increases in systolic pressure averaging 15 to 20 mm Hg, but cadmium is pressor in much smaller amounts than mercury or zinc. Thus, to induce a demonstrable increase in pressure requires more than ten times as much divalent mercuric ion as cadmium and more than 1000 times as much zinc as cadmium. Exposure to another metal along with cadmium can markedly alter the ability of cadmium to induce hypertension. Selenium protects against the hypertension induced by twice as much cadmium. Large excesses of both zinc and copper have also inhibited the induction of hypertension by cadmium. In contrast, lead, which like cadmium, can also induce hypertension, augments rather than inhibits cadmium-induced hypertension; thus, lead and cadmium together can induce an average increase in systolic pressure in excess of 40 mm Hg, at least twice as large as is usually induced by either metal alone.
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PMID:Increase in the systolic pressure of rats chronically fed cadmium. 48 39

Selenium is a vestigial element indispensable for man and animal, having adverse effects when in bigger quantities. Among the diseases resulting from selenium deficiency in animals the most important are nutritional muscular dystrophy, exudative disthesis (most common in poultry), and nutritional hepatic dystrophy. In the man chronic intoxication occurs most of all, which is observed in selenium bearing regions. Taking into consideration geographic distribution on some of the diseases beneficial influence of selenium is observed in cardiac and vascular diseases, and hypertension. The correlation between selenium deficiency and mortality caused by neoplasm is also notable. It is unquestionable that selenium inhibits the activity of enzymes, especially those containing sulfohydryl groups. The stabilization of lysosomal membranes leads to the presumption that selenium prevents peroxidation processes in tissues and cell membranes. The influence of selenium on reproduction is also worth noticing. Its supply turns out to be effective in cases of infertility of sheep, and partly in rats, pigs, and poultry. The embryo dies in pigs fed on fodder poor in selenium and vitamin E. The degeneration of the ovaries and placenta accretion occur in cows in cases of selenium deficiency. The excess of selenium can affect negatively the reproductive system. The element is thought to be a teratogenic agent. Since it permeates through the placenta and lactic gland easily, the symptoms of selenosis appear in new-born animals; many of them have developmental anomalies occurring at the same time. In birds the decrease in laying eggs and their incubation occur in case of selenium deficiency.
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PMID:The influence of selenium on the reproduction of rats. 136 82

The present work was carried out to assess the effect of endothelin on the relative synthesis of protein, RNA, and DNA in confluent rat aortic smooth muscle cells (SMC) derived from Wistar-Kyoto (WKY) rats maintained under serum-free medium in the presence or absence of insulin, transferrin, and selenium. Insulin stimulated protein synthesis by 42%. Endothelin (1 x 10(-7) M) rapidly induced protein synthesis by 22% (-insulin) and 30% (+insulin). Prior treatment of SMC for 4 h with endothelin resulted in 50% (-insulin) and 38% (+insulin) increase in protein synthesis. The stimulatory effect of endothelin on protein synthesis could be partially blocked by 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine, a protein kinase C inhibitor. Atrial natriuretic factor had no effect on either the basal protein synthesis or protein synthesis stimulated by endothelin. Furthermore, endothelin stimulated RNA synthesis by twofold but had no effect on DNA synthesis in SMC derived from WKY rats. In contrast, SMC derived from spontaneously hypertensive rats showed increased DNA synthesis and cell growth after endothelin stimulation. These studies show that this hormone may play a pivotal role in the development of vascular hypertrophy in hypertension.
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PMID:Endothelin stimulates protein synthesis in smooth muscle cells. 137 62

With reports of either no change or reduction of blood pressure, the relationship between selenium and blood pressure has not been clear. Normal Se values are not available for the Sprague Dawley (SD) rat or in the young and adult rat with various models of experimental hypertension. This study measured serum Se levels in the young and adult normotensive (NT), Grollman renal hypertensive (RH), and Okamoto-Aoki spontaneous hypertensive rats (SHR). The young animals have statistically significant (P less than 0.001) lower Se values as measured by the fluorometric method than those found at adulthood. Selenium levels were found to be altered in the adult SHR animals when compared with the RH and NT animals. The serum Se value for the normotensive SD rat was found to be 65.0 +/- 3.5 micrograms/dL, and for the two experimental models, 63.7 +/- 4.6 micrograms/dL for the RH, whereas the SHR level was elevated to 75.04 +/- 4.8 micrograms/dL (P less than 0.001). Elevated serum Se values in the adult SHR animals suggests an altered metabolism in SHR animals.
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PMID:Selenium and blood pressure studies in young and adult normotensive, renal, and spontaneously hypertensive animals. 137 50

Whether an association, causative or not, exists between the level of serum selenium and the risk of ischaemic heart disease (IHD) remains unsettled. We investigated the issue in a cohort of 3387 males aged 53-74 years (mean 63). Based on information about health status, life-style and socioeconomic factors given in a prefilled comprehensive questionnaire, the men were interviewed and the information validated. Following the interview, they underwent a clinical examination and had a venous blood sample drawn for the determination of a number of biochemical characteristics. Three hundred and forty-six men were excluded due to prevalent cardiovascular disease, including stroke. During the next three years (1986-1989) 107 men (approximately 3%) suffered an IHD event; 25 events were fatal. Compared to others, men with serum selenium levels less than or equal to 1 mumol/l, approximately the lowest tertile, had a 70% increased risk of IHD, relative risk (RR) with 95% confidence limits was 1.70 (1.14-2.53). After multivariate adjustment for cholesterol, social class, smoking and age, RR was 1.55 (1.00-2.39). Serum selenium level was significantly (P less than 0.05), but not strongly, correlated with a number of IHD risk factors: serum cotinine, tobacco smoking, social class, alcohol consumption, total cholesterol, hypertension, age and physical inactivity. Body mass index, HDL-cholesterol and triglycerides were not significantly associated with serum selenium. We conclude that middle-aged and elderly Danish men with serum selenium less than or equal to 1 mumol/l had a significantly increased risk of ischaemic heart disease. This association was not explained by the interrelationship of serum selenium and major cardiovascular risk factors.
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PMID:Serum selenium concentration and risk of ischaemic heart disease in a prospective cohort study of 3000 males. 141

Disease prevention through dietary management is a cost-effective approach to promoting healthy aging. Fats, cholesterol, soluble fiber, and the trace elements copper and chromium affect the morbidity and mortality of CHD. Decreasing sodium and increasing potassium intake improves control of hypertension. Calcium and magnesium may also have a role in controlling hypertension. The antioxidant vitamins A and beta-carotene, vitamin C, vitamin E, and the trace mineral selenium may protect against types of cancer. A decrease in simple carbohydrates and an increase in soluble dietary fiber may normalize moderately elevated blood glucose levels. Deficiencies of zinc or iron diminish immune function. Adequate levels of calcium and vitamin D can help prevent senile osteoporosis in both older men and women.
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PMID:Preventive nutrition: disease-specific dietary interventions for older adults. 142 12

A total of 1,265 patients with age-related diseases such as diabetes, arthritis, vascular disease and hypertension as well as 1,100 persons in diminished health without apparent disease, were treated with the metal chelator EDTA and antioxidants such as vitamin C, E, beta-carotene, selenium, zinc and chromium. Good results were observed in the majority of patients. This is encouraging for the initiation of controlled clinical trials.
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PMID:Antioxidant therapy in the aging process. 145 Jun 4

The nutritional roles, requirements, and metabolism and the quantitative relationship between dietary intakes and health for a number of the minerals and trace elements have been more clearly defined in recent years, but there are still considerable deficiencies in our understanding of these issues, e.g., the significance of calcium in the etiology and treatment of osteoporosis and hypertension. Reliable information is now available on the content, and the principal factors affecting it, of most of the minerals and trace elements in human and cow's milks. However, for some of the trace elements, there is still a wide variation in reported values in the literature, which is due, at least in part, to analytical difficulties. The contribution of cow milk and milk products to the diet in Western countries is significant for sodium, potassium, chloride, calcium, phosphorus, zinc, and iodine. Iodine is the only trace element for which there has been any suggestion of excessive amounts in cow milk. However, there is evidence of a decline in milk iodine concentrations in the United States in recent years, although the situation in other countries less clear. Breast milk usually has adequate mineral and trace element contents for feeding full-term infants, with the exceptions of fluoride, for which supplementation of infants is recommended, and of selenium in some countries, such as Finland and New Zealand, where maternal intakes are low. However, breast milk selenium contents have increased in these countries in recent years due to increased maternal selenium intakes. The concentrations of minerals and trace elements in infant formulas for full-term infants are generally higher than in human milk, and all appear to be more than adequate, with the possible exception of selenium, which may need to be increased in some formulas. Considerable changes in the mineral and trace element contents of formulas have been instituted in recent years in the light of improved knowledge of infant requirements. While the chemical forms of the macrominerals and some of the trace elements (iron, zinc, copper, and manganese) in milks are fairly well defined, the forms of many of the trace elements are unknown. Sodium, potassium, chloride, and iodine are believed to be almost totally absorbed from milks and infant formulas.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Minerals and trace elements in milk. 149 49

For humans, ecological and epidemiological results are reported that show a relationship between the serum selenium concentration and cardiovascular disease in populations where low serum selenium concentrations are found, e.g., in Eastern Finland. From clinical studies done in Germany (FRG and GDR), Finland, and Sweden, subnormal serum selenium and partially whole blood selenium concentrations are reported in patients with acute myocardial infarction. For patients with coronary arteriosclerosis, subnormal serum selenium concentrations are reported from the USA and Germany and subnormal whole blood selenium concentrations from Germany. Subnormal serum and subnormal whole blood selenium concentrations of patients with cardiomyopathy are reported from non Keshan disease affected areas in Germany, France, and China. In selenium deficiency, an accumulation of lipid peroxides in the heart may occur, especially under ischemic conditions and if ischemic tissue is reperfused. Lipid peroxides in the heart may damage the cell membrane and may lead to an impaired calcium transport with an uncontrolled calcium accumulation in the cell. This may result in an activation of phospholipids, and, in consequence, to an enhanced formation of arachidonic acid. An increased concentration of lipid peroxides owing to selenium deficiency may shift the prostaglandin synthesis from prostacyclin to thromboxane, causing enhanced blood pressure and platelet aggregability. From animal experiments, it is known that selenium protects against cardiotoxic elements, cardiotoxic xenobiotics, and viral infections that affect the heart. Selenium deficiency may also be a secondary factor in the causation of hypertension and myocardial ischemia.
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PMID:Selenium and cardiovascular disease. 170 69


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