Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042875 (vitamin E deficiency)
916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effect of long-term correction of vitamin E deficiency on neurologic function in 14 children with chronic cholestasis. Vitamin E repletion was achieved in all, either by large oral doses (up to 120 IU per kilogram of body weight per day) or by intramuscular administration of dl-alpha-tocopherol (0.8 to 2.0 IU per kilogram per day). With early institution of therapy, neurologic function remained normal in two asymptomatic children below the age of three years after 15 and 18 months of therapy. Neurologic function became normal in three symptomatic children below age three after 18 to 32 months of therapy. Restitution of neurologic function was more limited in nine symptomatic children 5 to 17 1/2 years old after 18 to 48 months of therapy. We conclude that vitamin E repletion therapy should be initiated at an early age in children with chronic cholestasis complicated by vitamin E deficiency, to prevent irreversible neurologic injury.
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PMID:Improved neurologic function after long-term correction of vitamin E deficiency in children with chronic cholestasis. 406 70

Relatively high proportions of long-chain, polyunsaturated fatty acids seem to be required in rod photoreceptor membranes in order to provide the precise microenvironment for the proper function of the visual pigment rhodopsin. At the same time, such high levels of lipid unsaturation put the photoreceptor membranes at a high risk for autoxidation. The antioxidant vitamin E which can minimize autoxidation of polyunsaturated fatty acids is found in rather high concentrations in the outer segment membranes. Dietary deficiency in vitamin E induces disintegration of rod outer segment membranes, probably by increasing autoxidation. Also, it greatly accelerates the accumulation of aging pigments in the retinal pigment epithelium, probably because these lipofuscin granules do indeed represent the end products of lipid peroxidation. Vitamin E supplements, up to threefold normal levels, appear to provide no significant protection of the retina from light damage produced either by short but acute or by long-term, low level exposures to light. This is not consistent with current theories which implicate lipid peroxidation in the destruction of rod outer segments in light damaged retinas; more work is needed before any relation between retinal light damage and vitamin E levels can be assessed. Surprisingly, the amount of lipofuscin granule accumulation in the retinal pigment epithelium is influenced dramatically by dietary levels of vitamin A. Even retinas lacking a source of polyunsaturated fatty acids from rod outer segments still may accumulate massive lipofuscin if dietary vitamin A is provided. Perhaps vitamin A, which has such a dynamic relationship with the retinal pigment epithelium, becomes oxidized, and then contributes to the formation of a lipofuscin-like pigment. Centrophenoxine, a drug claimed to be effective in reversing the accumulation of age-related lipofuscin in the central nervous system, has no obvious effect in the eye or uterus in removing the lipofuscin granules induced by vitamin E deficiency. Microperoxisomes are abundant in the retinal pigment epithelium, and may be associated with rapid lipid turnover and/or utilization of lipid soluble vitamins. Their potential roles, however, need further documentation and clarification. Recently developed techniques and new discoveries in lipid research open the way for many fruitful studies on the interactions and precise roles of lipids and lipid-soluble vitamins in vision.
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PMID:The roles of vitamin E and unsaturated fatty acids in the visual process. 610 Nov 34

Rats fed on a vitamin E-deficient diet (E-depleted group) and a vitamin E-supplemented diet (E-supplemented group) were exposed to 0.3 ppm ozone for three hours daily, five days a week for seven months. Then animals from each group were sacrificed, and electron microscopic studies on the lung and biochemical examinations on the lung and liver were performed. 1) Vitamin E concentration in serum decreased following ozone exposure in the E-supplemented group, whereas it remained unaffected the E-depleted group. 2) Both TAB value and % release of lysosomal enzyme (acid phosphatase) of the liver were increased in vitamin E-depleted air-exposed rats, and showed even higher values following ozone exposure. Levels of both components were highest in the vitamin E-depleted ozone-exposed rats, thus demonstrating that there are a marked increase in lipid peroxide and the increased labilization of lysosomes in this instance. 3) Arachidonic acid (20:4) of total lipid, phospholipid and lecithin in the lung tissue showed a tendency to decrease in vitamin E-depleted air-exposed rats. Those in the ozone-exposed animals showed in both groups a tendency to increase in total lipid and lecithin, and to decrease in phospholipid. However, a change in the fatty acid composition following ozone exposure was generally mild. 4) The fatty acid composition of phospholipid in lung washings did not show a remarkable change following ozone exposure in either group, thus suggesting that it has the resistivity to oxidation. 5) Morphological observations on the lung with the scanning and transmission electron microscopes did not reveal any clear differences between the two groups. The defensive effect of vitamin E on ozone toxicity induced by long-term exposure to ozone was not made clear by the morphological or biochemical examination of the lung. However, biochemical findings in liver of rats exposed to ozone suggested the possibility that vitamin E deficiency permits the damaging effects of lipid peroxidation on biological membranes.
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PMID:Effects of long-term ozone exposure and dietary vitamin E in rats. 624 82

Evidence that vitamin E is important for normal neurological function in humans is presented. First, in abetalipoproteinaemia early therapy with vitamin E delays and may prevent the development of the neurological complications, and in patients with established lesions treatment can arrest or reverse the neuropathy. Second, in other chronic disorders of fat absorption with severe vitamin E deficiency, neurological manifestations which are very similar to those described in untreated abetalipoproteinaemia can be improved by vitamin E. Vitamin E supplementation is therefore advisable for all patients with chronic fat malabsorption who have low serum vitamin E concentration. Serum vitamin E concentrations should also be measured in patients with spinocerebellar disorders, whatever the aetiology.
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PMID:Vitamin E and neurological function: abetalipoproteinaemia and other disorders of fat absorption. 655 2

Symptoms of Vitamin E deficiency can be generally attributed to derangement of processes depending upon the integrity of cellular and subcellular membranes, following the formation of tissue-damaging products of lipid peroxidation. Antioxidants modulate also the formation of products derived from long-chain polyunsaturated fatty acids, such as arachidonic acid--which are structural components of biological membranes--through oxidative reactions involving the cyclooxygenase and lipoxygenase systems. Vitamin E inhibits the aggregatory responses of blood platelets to aggregating agents "in vitro", after a preincubation period required for the uptake of the compound by the cells. The antiaggregatory activity of alpha-tocopherol, however, does not appear to be strictly dependent upon inhibition of the formation of thromboxane, the proaggregatory compound derived from arachidonic acid through be cyclooxgenase system. The effects of Vitamin E on platelet function may be of relevance in the control of thromboembolic processes of clinical importance.
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PMID:Biological actions and possible uses of vitamin E. 675 99

Vitamin E (alpha-tocopherol) has been credited with a variety of beneficial effects in the premature newborn infant. It has been thought that deficiency of vitamin E is at least partly responsible for the anemia which often occurs 4 to 6 wk after premature birth, and routine dietary supplementation with vitamin E is frequently recommended. However, critical analysis reveals that published controlled studies of vitamin E supplementation do not agree on the magnitude or even the existence of this protective effect against anemia. Analysis of commonly used feeding practices suggests that the dietary ratio of alpha-tocopherol to polyunsaturated fatty acids is generally sufficient to prevent manifestations of vitamin E deficiency without supplementation. Large parenteral doses of vitamin E have been purported to protect premature infants exposed to oxygen-enriched environments and mechanical ventilation from the complications of retrolental fibroplasia and bronchopulmonary dysplasia. Subsequent studies, however, have not yet substantiated encouraging early reports of these protective effects. At present, there seems to be no clearly established need for supplementing the premature infant's usual dietary intake of vitamin E.
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PMID:The role of vitamin E in the nutrition of premature infants. 678 56

Vitamin E and essential fatty acid status were examined in two groups of patients, one receiving fat-free total parenteral nutrition (TPN) with intravenous all-rac-alpha-tocopherol for vitamin E deficiency and the other receiving routine intravenous fat (Intralipid, 10%) emulsions with TPN to supply both fatty acid and vitamin E requirements. Initial evaluation of both groups revealed a 50% incidence of vitamin E deficiency, platelet hyperaggregation, or in vitro H2O2-induced hemolysis. Only platelet hyperaggregation correlated significantly with vitamin E deficiency. Supplementation with all-rac-alpha-tocopherol corrected platelet hyperaggregation and H2O2-induced hemolysis; daily dosage requirements of 25-50 mg (fat-free TPN) or more (with intravenous fat) suggest increased vitamin E requirements during TPN. Intravenous fat emulsion did not correct the platelet and red blood cell abnormalities, a result of either increased vitamin E requirements or low alpha-tocopherol-equivalent content of the emulsion. Essential fatty acid deficiency (EFAD) was observed in seven patients with an associated platelet hyperaggregation independent of vitamin E deficiency. Prolonged TPN for enterocutaneous fistulae in three patients was associated with persistent EFAD and platelet hyperaggregation despite up to 2.0 liters of intravenous fat emulsion weekly.
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PMID:Vitamin E and total parenteral nutrition. 681 20

Significant alterations in hemotologic function in cystic fibrosis are suggested by the observation that polycythemia is uncommon, even among cyanotic patients. To elucidate those factors that influence hematologic equilibrium, 39 stable patients with cystic fibrosis were evaluated with regard to hemoglobin, hematocrit, RBC indices, reticulocyte count, serum iron and total iron binding capacity, serum ferritin, vitamin E, and carboxyhemoglobin levels. Hemoglobin concentrations were below the 50th percentile for age in 90% of the patients, including the 23% who were cyanotic. Serum ferritin levels were below the mean for age in 85% and below 12 ng/mL in 33% of patients. Vitamin E levels were less than 5 micrograms/dL in 33%, indicating deficiency. Carboxyhemoglobin values were elevated in 64% of the patients. These data indicate that relative anemia is common in cystic fibrosis and suggest that iron and vitamin E deficiency may contribute to that anemia. Twenty-two patients with cystic fibrosis were then given 2 weeks of oral iron therapy followed by two to three additional weeks of iron and vitamin E. This therapeutic trial resulted in an increase in mean hemoglobin concentration from 13.87 to 14.50 g/dL (P less than 0.01) associated with a significant increase in levels of serum ferritin (P less than 0.001). The increase in hemoglobin occurred primarily during the second 2 weeks when patients were receiving both iron and vitamin E. However, we were unable to document evidence of increased hemolysis when patients were receiving iron therapy alone. This response to oral iron therapy is confirmation that iron deficiency contributes to the failure of some patients with cystic fibrosis to compensate hemotologically for hypoxia.
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PMID:Relative anemia and iron deficiency in cystic fibrosis. 683 67

In an attempt to confirm prior reports of vitamin E deficiency in Werdnig-Hoffmann disease, we assessed vitamin E nutritional status in 11 children and 6 adults with spinal muscular atrophy (SMA). Serum vitamin E levels (10.6 +/- 3.3 micrograms/ml for those less than 12 years old, 13.2 +/- 4.5 for those older than 12) and the ratio of serum vitamin E to total serum lipids were normal in all patients. Vitamin E nutritional status appears to be normal in SMA, and vitamin E therapy is not indicated.
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PMID:Normal vitamin E status in spinal muscular atrophy. 684 48

Vitamin E deficiency in rats increased the sensitivity of liver and muscle mitochondria to damage during incubation at various temperatures, irradiation with visible light, or steady-state respiration with substrates. In all cases, vitamin E-deficient mitochondria exhibited increased lipid peroxidation, reduced transmembrane potential, decreased respiratory coupling, and lower rates of electron transport compared to control mitochondria. Muscle mitochondria always showed greater negative inner membrane surface charge density, and were also more sensitive to damage than were liver mitochondria. Vitamin E-deficient mitochondria also showed slightly more negative inner membrane surface charge density compared to controls. The relationship observed between greater negative surface potential and increased sensitivity to damage provides for a new and sensitive method to probe further the role of surface charge in membrane structure and function. Implications of these new findings for the well-known human muscle myopathies and those experimentally induced by vitamin E deficiency in animals are discussed.
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PMID:Membrane effects of vitamin E deficiency: bioenergetic and surface charge density studies of skeletal muscle and liver mitochondria. 695 60


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