Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0024523 (malabsorption)
7,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 22-year-old man presented with progressive gait instability, tremor, and dysarthria since childhood. Electrophysiologic studies revealed a sensorimotor polyneuropathy. Laboratory studies documented vitamin E deficiency; however, no gastrointestinal, hepatic, or lipoprotein disorder could be identified. Vitamin E therapy normalized the serum level, but there was no neurologic improvement. Isolated vitamin E deficiency, in the absence of lipid malabsorption, should be considered in the evaluation of children and adults with ataxia and peripheral neuropathy.
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PMID:Isolated vitamin E deficiency. 876 Dec 74

We describe a patient with a progressive neurological disorder consisting of ataxia, loss of proprioception and pyramidal tract dysfunction in his sixth decade. He had severe vitamin E deficiency due to fat malabsorption secondary to chronic inflammatory bowel disease. Sural nerve biopsy revealed a reduced number of myelinated fibres. MRI of the cervical spine showed high-signal lesions on T2-weighted images in the posterior columns, correlating well with the clinical findings.
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PMID:Spinal MRI in progressive myeloneuropathy associated with vitamin E deficiency. 881 95

How much vitamin E is enough? An established use of supplemental vitamin E in humans is in the prevention and therapy of deficiency symptoms. The cause of vitamin E deficiency, characterized by peripheral neuropathy and ataxia, is usually malabsorption-a result of fat malabsorption or genetic abnormalities in lipoprotein metabolism. Genetic abnormalities in the hepatic alpha-tocopherol transfer protein also cause vitamin E deficiency-defects in this protein cause an impairment in plasma vitamin E transport. Impaired delivery of vitamin E to tissues, thereby, results in deficiency symptoms. Also discussed is the use of supplemental vitamin E in chronic diseases such as ischemic heart disease, atherosclerosis, diabetes, cataracts, Parkinson's disease, Alzheimer's disease, and impared immune function, as well as in subjects receiving total parenterol nutrition. In healthy individuals, a daily intake of about 15-30 mg of alpha-tocopherol is recommended to obtain "optimal plasma alpha-tocopherol concentrations" (30 microM or greater).
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PMID:Vitamin E in humans: demand and delivery. 883 30

We describe 4 siblings of a consanguineous Bedouin family with Friedreich ataxia phenotype in whom low serum vitamin E levels without other indicators of fat malabsorption were detected. Although age of onset and some of the clinical features were alike in all 4 patients, the electrophysiological parameters were markedly abnormal in 2, but normal in the other 2. Erythrocytes revealed both membranous and intracellular evidence of oxidative damage. The mutations described in other families with ataxia with isolated vitamin E deficiency were not detectable, nor was an abnormal single-stranded conformation polymorphism pattern apparent in the three exons at the 3' region of the gene. Vitamin E administration in pharmacological doses improved the neurological condition in 2 patients and also corrected some of the patients' erythrocyte cell abnormalities. The finding of vitamin E deficiency in other cases of Friedreich ataxia phenotype may allow treatment at an early stage of the disease, when large dose Vitamin E therapy may reverse the neurological lesions.
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PMID:Ataxia with isolated vitamin E deficiency in four siblings. 897 36

Vitamin E is one of the most important lipid-soluble antioxidant nutrients. Severe vitamin E deficiency can have a profound effect on the central nervous system. Cystic fibrosis, chronic cholestatic liver disease, abetalipoproteinemia, short bowel syndrome, isolated vitamin E deficiency syndrome and other malabsorption syndromes all may cause varying degrees of neurologic deficits due to related vitamin deficiencies. The classic abnormalities in vitamin E deficiency progress from hyporeflexia, ataxia, limitations in upward gaze and strabismus to long-tract defects, profound muscle weakness and visual field constriction. Patients with severe, prolonged deficiency may develop complete blindness, dementia and cardiac arrhythmias. Treatment must be tailored to the underlying cause of vitamin E deficiency and may include oral or parenteral vitamin supplementation. The more advanced the deficits, the more limited the response to therapy. Therefore, a good neurologic examination and periodic serum vitamin E levels are essential in patients at risk of vitamin E deficiency.
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PMID:Neurologic findings in vitamin E deficiency. 901 78

Chronic vitamin E deficiency causes various neurological symptoms such as cerebellar ataxia, hypoesthesia, areflexia, pigmentary retinopathy, nystagmus and muscle weakness. This is commonly caused by malabsorption of vitamin E, which is either a result of malabsorption of fat or occurs as an isolated vitamin E deficiency. The oral vitamin E tolerance test is suitable for the assessment of vitamin E reabsorption and elimination. However, standardised normal parameters have not yet been defined. We investigated 61 healthy individuals aged 18-70 years (mean age, 45.0 years). Each person involved in the trial received 100 IU of all-rac-alpha-tocopherol in 200 millilitres of whole milk. The vitamin E in the serum was then analysed 0, 3, 6, 9, 12, 24, 36, 48, 60, 72 hours after vitamin E was given, using high pressure liquid chromatography. The ratio of vitamin E to the sum of cholesterol and triglycerides was calculated. The 90% CI for the ratio of serum vitamin E to the sum of cholesterol plus triglycerides at the indicated time points was: t = 0 h: 2.0-6.3 micrograms/mg, t = 6 h: 4.2-15.3 micrograms/mg, t = 12 h: 3.0-13.0 micrograms/mg, t = 24 h: 3.8-14.4 micrograms/mg, t = 36 h: 2.9-10.5 micrograms/mg, t = 72 h: 2.1-8.7 micrograms/mg. The serum concentration of vitamin E correlated predominantly with the sum of cholesterol and triglycerides (r = 0.73). The ratio of these parameters is therefore most suitable for diagnosing vitamin E deficiency without relying on false normal serum vitamin E concentrations as a result of abnormally high serum lipid concentrations.
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PMID:[The oral vitamin E tolerance test--an attempt at standardization]. 1044 5

A new syndrome of ataxia and retinitis pigmentosa with vitamin E deficiency caused by the missense mutation of alpha-tocopherol transfer protein (alpha-TTP) gene was recently proposed. After studying the first postmortem case with this mutation pathologically and biochemically, whether the symptoms can be treated by supplementation of vitamin E or not is discussed. The major pathological findings were retinal atrophy; severe dying back-type degeneration of the posterior column; and massive accumulation of lipofuscin in neurons including dorsal root ganglion (DRG) cells, which were almost identical to those in vitamin E deficient animals and patients with fat malabsorption. Also, mild loss of Purkinje cells was noted. Because robust expression of alpha-TTP was detected in the cerebellum as well as in the liver and the tissue concentration of vitamin E in the cerebellum was still low even after oral supplementation, the mild Purkinje cell loss might be related to the mutant alpha-TTP in the cerebellum. By contrast, in the DRG, thought to be mainly responsible for ataxia, no expression of alpha-TTP was detected, and the tissue concentration of vitamin E increased to normal after supplementation. It is therefore considered that oral supplementation of vitamin E should effectively counteract the progression of ataxia.
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PMID:Postmortem study of ataxia with retinitis pigmentosa by mutation of the alpha-tocopherol transfer protein gene. 1072 94

A case of ataxia with isolated vitamin E deficiency, in conjunction with supportive genetic studies, is reported. This is a neurodegenerative condition that involves a mutation in the tocopherol (alpha) transfer protein gene (TTPA). Measurement of serum vitamin E concentration should be included as part of the investigations in children with progressive ataxia, even in the absence of fat malabsorption. Early treatment with vitamin E may protect such patients against further neurological damage.
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PMID:Ataxia with isolated vitamin E deficiency: a clinical, biochemical and genetic diagnosis. 1103 14

The pathomechanism of neuropathies associated with diabetes and chronic liver diseases are poorly understood. Both metabolic and vascular factors are involved in the pathogenesis of diabetic neuropathy. It seems likely, that microangiopathy on the one hand and changes of various metabolic pathways due to hyperglycaemia on the other hand are much more related to each other than it was suggested previously. Nitric oxide may be the link between the metabolic and vascular hypotheses of diabetic neuropathy. Both reduced endoneurinal blood flow and increased oxidative stress leads to reduced nitric oxide synthetase activity. There are widespread inter-relationships between the most relevant metabolic changes included polyol pathway hyperactivity, reduced myoinosit concentration, advanced glycation end products formation, increased oxidative stress and lipid peroxidation. Changes of hemorheological conditions and primary hemostasis leeds to hyperviscosity just as to increased activity of the coagulation system. Among patients with chronic alcoholic liver diseases the direct toxic effect of alcohol is of particular relevance, however, malabsorption, impairment of axoplasmatic transport, changes of intermedier metabolism as well as thiamine and pyridoxine deficiency are of importance as well. The role of decreased insulin sensitivity and various degrees of glucose intolerance related to chronic liver diseases are still underestimated. Impairment of proteoglycan metabolism as well as increased oxydative stress are thought to be important factors in the pathogenesis of both diabetic and hepatic neuropathies. Glucose autooxidation and enhanced lipid peroxidation contribute to increased oxidative stress in patients with diabetes and chronic liver diseases as well. Vitamin E deficiency, autoimmun processes, circulating immune complexes, cryoglobulinemia, just as changes of vascular responsiveness associated with nitric oxide activity plays a role in the development of neural damage of hepatic origin. Most likely, similarly to diabetes mellitus, vascular changes contribute to the development of neuropathy in patients with chronic liver diseases.
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PMID:[The pathogenesis of diabetic and hepatic neuropathies]. 1177 53

Vitamin E deficiency causes a neurological disorder characterised by sensory loss, ataxia and retinitis pigmentosa due to free radical mediated neuronal damage. Symptomatic vitamin E deficiency has been reported in genetic defects of the vitamin E transport protein and in malabsorption complicating cholestasis, abetalipoproteinaemia, celiac disease, cystic fibrosis and small bowel resection. There are no reports to date of vitamin E deficiency in patients with primary immunodeficiencies. We describe two CVID patients with the associated enteropathy who developed neurological disease because of vitamin E deficiency, suggesting a possible predisposition to developing this complication. We recommend that all CVID patients with evidence of an enteropathy be screened for vitamin E deficiency, as early detection and consequent treatment may prevent, halt or reverse the neurological sequelae.
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PMID:Vitamin E deficiency induced neurological disease in common variable immunodeficiency: two cases and a review of the literature of vitamin E deficiency. 1520 78


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