Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Serum levels of selenium and vitamin E were prospectively studied in children with Duchenne de Boulogne muscular dystrophy of variable age and muscular status. In contrast with previous studies, we found no differences with controls. However, we believe that selenium and vitamin E, two natural antioxydants, may contribute to the pathophysiology of pseudohypertrophic muscular dystrophy. A study of the effects of supplementation is on-going.
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PMID:[Selenium and vitamin E in patients with progressive muscular dystrophy]. 240 Jan 91

We studied selenium metabolism in patients with Duchenne muscular dystrophy and in contrast to previous reports found no significant abnormalities in these patients. Supplementation of muscular dystrophy patients and control subjects with sodium selenite (1 mg selenium/day) induced a variable rise in the activity of the selenium-dependent enzyme glutathione peroxidase in plasma and red cells, but no significant change in muscle glutathione peroxidase activities. There was no effect of selenium supplementation on disease activity in the patients with muscular dystrophy. Thiobarbituric acid-reacting substances (an index of free radical-mediated lipid peroxidation) were elevated in the muscle of patients with Duchenne muscular dystrophy in contrast to patients with other forms of muscular dystrophy and control subjects. This elevation was unaffected by selenium supplementation.
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PMID:Selenium metabolism and supplementation in patients with muscular dystrophy. 254 Apr 51

For the purpose of clarifying the cause of white muscle disease (WMD) in calves, tocopherol and selenium levels and blood glutathione peroxidase (GSH-Px) activity were measured on 10 calves with WMD and nine of their dams. The main clinical symptoms of the 10 calves with WMD were motor disturbances including recumbency and stiffness. Serum enzyme activities (GOT, GPT, CPK, LDH) in calves with WMD increased markedly, and this increase was also observed in some of their dams. Serum tocopherol levels of calves with WMD were low, 70% of which showing deficient levels of less than 70 micrograms/100 ml. Serum selenium levels of all the calves were lower than 35 ppb, indicating a deficiency, and were accompanied by low blood GSH-Px activity. alpha-Tocopherol and selenium concentrations in organs were very low. Dams of calves with WMD showed low serum tocopherol levels, 22% of which indicating deficient levels below 150 micrograms/100 ml. Serum selenium levels in dams showed a marked decrease to under 20 ppb, and also low blood GSH-Px activity. Feedstuffs supplied in the farms to affected calves indicated very low alpha-tocopherol contents (below 3 mg/100g DM) and low selenium concentrations below 50 ppb in DM. It was concluded that WMD in calves was attributable to nutritional muscular dystrophy caused by deficiencies in tocopherol and selenium in feedstuffs supplied to their dams.
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PMID:Studies on serum tocopherol, selenium levels and blood glutathione peroxidase activities in calves with white muscle disease. 258 29

In order to clarify the cause of white muscle disease (W.M.D.) in foals, tocopherol and selenium concentrations in serum and glutathione peroxidase activities in blood were measured. Examination was made on the samples from horses affected with W.M.D., the foal kept with them in the same stable, the foals kept in the stables without affected foals, and respective mares. The heavy-breed horses in Fukuoka prefecture and Tokachi district were also examined for comparison. Serum tocopherol levels of these foals were normal because after intake of colostrum. Mares of affected foals showed lower tocopherol levels than other examined mares (p less than 0.01). Serum selenium levels of all foals were below 65 ppb, showing deficient levels. The mares of affected foals had lower selenium levels than other mares (p less than 0.01). There was a good correlation between serum selenium concentration and blood glutathione peroxidase activity (r = 0.81). Selenium levels in the liver of affected foals were lower than the foals which succumbed with other diseases. Diet supplied in the stables with affected foals showed low alpha-tocopherol and selenium contents. These findings suggest that W.M.D. in foals is attributed to nutritional muscular dystrophy caused by tocopherol and selenium deficiency of their mares in late gestation period.
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PMID:Studies on serum selenium and tocopherol in white muscle disease of foal. 292 38

Clinical and biochemical responses were studied after taking the measures to prevent nutrition muscular dystrophy in young cattle in the given ecological conditions. Analyzing the biological material (blood, hair, feed, soil), we found the sufficiently high saturation of heifer organisms with the microelement selenium and on the contrary, vitamin E deficiency. Sensitive indicators of the break-down of muscular tissue were the enzymes aspartate aminotransferase (AST), alanine aminotransferase (ALT), and mainly creatinine kinase (CPK): the activities of these enzymes increased significantly after the heifers had been driven to pasture. The stay of animals in the run to get them used to the physical load before going to the pasture was not found to be a sufficient measure to prevent muscular nutrition myodystrophy if the animals had not been administered vitamin E and selenium supplements. Of the one hundred heifers we examined, seven animals began to show the signs of nutrition muscular dystrophy; none of these animals had been administered vitamin E and selenium supplements.
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PMID:[Clinical and biochemical response in the prevention of nutritional myodystrophy in heifers]. 310 11

The administration of selenium and vitamin E was tried in a group of 20 boys with muscular dystrophy. Muscular strength was measured at intervals of 6 months. The boys were treated for 1 year (selenium 6 micrograms/kg for 6 months and 20 micrograms/kg for 6 months), followed by 1 year of no treatment. The whole series was completed in 16 boys, nine of whom had classical Duchenne muscular dystrophy and the rest who had more benign variants. No boy showed any side effects. The decrease of muscle strength was slightly more rapid during the second year (no treatment) than during the first year (with treatment) of the trial. The difference was, however, slight and could conceivably be explained by the increase of age. No boy showed any practically usable increase of muscle strength during the year of treatment. The minimal muscle strength required for walking is presented.
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PMID:A trial of selenium and vitamin E in boys with muscular dystrophy. 329 99

Eosinophilic enteritis and eosinophilia, in addition to muscular dystrophy and occasionally liver necrosis, were experimentally induced in male Sprague-Dawley rats with a vitamin E- and selenium-deficient diet (basal diet) for 9 weeks. Cecum and ileum were affected more frequently and severely than other segments of the gastrointestinal tract. Eosinophils were multifocally or diffusely distributed in the intestinal wall but were most severe in the muscular layer and in the submucosa. Eosinophils were also present in stomach, liver with massive hepatocellular necrosis, and skeletal muscle with marked myonecrosis. Eosinophilic enteritis and eosinophilia were not observed in rats fed the basal diet supplemented with either vitamin E (100 or 200 ppm) or selenium (0.1 or 1.0 ppm). Eosinophilic enteritis, eosinophilia, and muscular dystrophy regressed when vitamin E- and selenium-deficient rats were subsequently fed either the vitamin E- or selenium-supplemented diet for 4-5 weeks. These findings suggest that vitamin E and selenium deficiency may play a role in the development of a diffuse type of eosinophilic enteritis and eosinophilia.
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PMID:Induction of eosinophilic enteritis and eosinophilia in rats by vitamin E and selenium deficiency. 335 Jan 41

Intraruminal selenium soluble-glass boluses were administered by balling gun to 65 of 125 crossbred beef cows (Shorthorn X Charolais) during the last trimester of pregnancy. Elevated (P less than .01) whole blood glutathione peroxidase (GSH-Px) concentrations were observed monthly for the next 10 mo following initiation of treatment, reaching the maximum magnitude (263 vs 41) at the fourth month. Monthly milk samples showed elevated selenium concentrations (P less than .01, April through August; P less than .05 through September). Intraruminal, selenium soluble-glass bolus administration to gestating cows was highly effective in raising the selenium status of their progeny. Although the control calves were in low-selenium status, no acute cases of nutritional muscular dystrophy were observed during this experiment.
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PMID:Effect of intraruminally administered, selenium soluble-glass boluses on selenium status in cows and their calves. 366 43

Administration of an intraruminal selenium pellet to a herd of pregnant crossbred cows was evaluated for controlling nutritional muscular dystrophy in an area of northern Ontario with numerous losses of calves. Cows were winter-fed grass silage. Each spring cows and calves went to pasture. A single dose of intraruminal selenium pellet was given to 80 cows during last 3 mo of pregnancy the 1st yr only while the remaining 80 were controls. During 3 consecutive years, efficacy of intraruminal selenium pellet was evaluated by selenium status of recipient cows and their offspring as well by the incidence of nutritional muscular dystrophy. Selenium in plasma, as well as glutathione peroxidase in whole blood, in the cows administered intraruminal selenium pellet, were higher than in the deficient controls. Ten months after intraruminal selenium pellet treatment, selenium in tissues was higher in treated than in untreated cows but within normal ranges. Before cows were turned out to pasture the 1st yr, milk selenium of intraruminal selenium pellet cows were higher than controls. This technique of selenium dosing was effective in raising the selenium status of the progeny. There was no evidence of nutritional muscular dystrophy in calves from selenium-dosed cows, while 15 calves born of the untreated cows showed clinical symptoms of nutritional muscular dystrophy.
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PMID:Intraruminal selenium pellet for control of nutritional muscular dystrophy in cattle. 398 Aug 11

The selenium concentrations in serum and erythrocytes and the erythrocyte glutathione peroxidase activity were determined in 15 boys with the Duchenne type and in 5 boys with the Becker type of X-linked muscular dystrophy before and during long-term selenium and alpha-tocopherol supplementation and compared with values in unsupplemented controls. The purpose of the treatment was to improve the muscular strength. Twelve of the 20 patients had pretreatment levels of selenium in serum that were within the 95% confidence limit of the unsupplemented control children. The values in 2 patients, both with the Duchenne type of muscular dystrophy, fell below this level. Selenium supplementation in a daily dose of 6 micrograms/kg/day for 6 months caused a substantial rise in both serum and erythrocyte selenium, suggesting suboptimal pretreatment body contents of selenium. The greatest increases in both serum and erythrocyte selenium were observed in subjects with initially low selenium levels. Only in 4 of the 20 patients did the selenium supplementation result in a significant rise in erythrocyte glutathione peroxidase activity. As no sure improvement was noted in muscular strength during this treatment period, the Se dose was increased to 20 micrograms/kg/day. This resulted in a further rise in both serum and erythrocyte selenium, but not in erythrocyte glutathione peroxidase activity.
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PMID:Selenium supplementation in X-linked muscular dystrophy. Effects on erythrocyte and serum selenium and on erythrocyte glutathione peroxidase activity. 409 Sep 64


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