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:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An 18-month-old alpaca developed nervous signs, including swaying of the head and neck, a wide-based stance and hind-limb ataxia. No certain diagnosis was made but the animal recovered after successive treatment with amoxycillin, vitamin B1, ivermectin and copper oxide, followed by vitamin E and selenium. The differential diagnosis rationale of treatment is described.
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PMID:Ataxia and head tremor in an alpaca (Lama pacos) 832 51

A clinical, viral, hematologic , and genetic study was conducted over a 4-year period on a family of Appaloosas with high incidence of clinical ataxia and pathologic features of equine degenerative myeloencephalopathy. Marginal to deficient serum vitamin E (alpha-tocopherol) and blood selenium values were the only other consistent antemortem abnormalities in the affected horses. Members of this family were all descendants of a clinically normal mare and were raised in 3 separate environments with variable quality of feed. All horses had access to pasture grasses. Normal chromosomal karyotypes were found in 11 affected and/or related horses examined. Equine herpesvirus type 2 was isolated from 4 of the horses, but evidence for a role of this virus in the pathogenesis of the disease was not found. The role of antioxidant deficiency in the pathogenesis of neurologic dysfunction in this equine family and in others reported to be affected with equine degenerative myeloencephalopathy remains speculative.
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PMID:Clinical, viral, and genetic evaluation of equine degenerative myeloencephalopathy in a family of Appaloosas. 203 2

As a possible preventive measure for brain dysfunction in Menkes disease, prenatal treatment by maternal administration of zinc, vitamin E and copper was examined in brindled mutant mice. During pregnancy and lactation, female heterozygous mice received 20 ppm zinc or 0.004% alpha-tocopherol acetate (vitamin E) throughout and 6 ppm copper from gestational day 13 in the drinking fluid, ad libitum. The maternal administration of zinc and vitamin E, as antioxidants, or copper resulted in decreased fetal and neonatal death of offspring, especially those of hemizygous males, as compared with the administration of water only. When offspring did not grow, maternal abnormal movements, which comprised rotatory movements of high speed with tremor and ataxia, were frequently observed. In the heterozygotes with abnormal movements, the level of lipid peroxidation in cerebrum and the concentration of copper in kidney were much higher than those in the heterozygotes with normal movement. Morphologically, in cerebellum of the heterozygotes with abnormal movements, the loss of Purkinje cells, abundance of lipofuscin granules and abnormal mitochondria or degenerative bodies of high electron density were frequently observed, as compared with heterozygotes with normal movement. These findings suggest that the development of hemizygous male mice may be influenced by both copper and oxygen radical metabolism.
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PMID:Abnormal movements in brindled mutant mouse heterozygotes: as related to the development of their offspring--biochemical and morphological studies. 216 11

Sibling cases of familial vitamin E deficiency accompanied by ataxia, polyneuropathy and mental retardation were reported. Case 1 was a 37-year-old male who developed progressive gait disturbance, deformity of the feet and head tremor from childhood, after normal delivery and development of early childhood. On physical examination, he had cataract, high arched palate and pes cavus. Neurological examination revealed mental retardation (WAIS 68), scanning speech, muscular atrophy of the face and extremities with predominance in the lower limbs, absent Achilles tendon reflex, disturbance of superficial and deep sensation predominant in distal limbs, and marked gait ataxia. Ataxia was both cerebellar and sensory in nature. Laboratory data of the blood showed no significant abnormalities including blood glucose and vitamin B12 except a markedly low level of serum vitamin E. The brain CT scan revealed severe cerebellar atrophy and marked dilatation of the cisterna magna and the subarachnoid space around the cerebellum. Motor nerve conduction velocity in the leg was decreased. Biopsy specimen from the quadriceps muscle showed neurogenic atrophy. Sural nerve biopsy revealed decrease in large myelinated fibers with axonal degeneration and regeneration. Oral administration of alpha-tocopherol acetate, 600 mg per day, diminished ataxia significantly. Based on lysosomal enzyme activity in leukocytes, clinical and laboratory examination, lipidosis or spinocerebellar degeneration was excluded. Chronic lipid malabsorption or beta lipoprotein deficiency which can cause decrease in vitamin E absorption, was not recognized. On oral loading with 2 g of alpha-tocopherol acetate, the decrease rate of serum vitamin E was normal. Consequently the low vitamin E was considered to have resulted from selective impairment of vitamin E absorption.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Familial idiopathic vitamin E deficiency associated with cerebellar atrophy]. 226 7

Patients with cystic fibrosis (CF) and pancreatic malabsorption frequently have vitamin E deficiency. Affected patients may develop spinocerebellar degeneration with dysarthria, ataxia, proximal weakness, proprioceptive loss and areflexia. Of a highly selected group of 10 patients with vitamin E levels below 5 micrograms/ml (normal 5-20 micrograms/ml), 7 had abnormal neurological examinations, predominantly affecting vibration and joint position perception with some severely affected patients manifesting diminished visual acuity, tremor, ataxia and diffuse weakness. Evoked potential studies showed marked abnormalities in 3 patients, demonstrating deficits in the optic pathways and in the cervical cord dorsal column pathways. Evoked potential studies may supplement careful neurological examination in patients with CF before and after supplementation with vitamin E to evaluate their progression and response to treatment.
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PMID:Visual and somatosensory evoked potentials in vitamin E deficiency with cystic fibrosis. 245 91

Since the detection of vitamin E in 1922, nearly 50 years passed until the recognition that there is a pathogenic vitamin E deficiency in humans. Such a deficiency can be found mostly in a disturbed resorption or transport of the vitamin (mucoviscidosis, chronic cholestasis, abetalipoproteinaemia) and leads typically to a progredient spinocerebellar ataxia in combination with a polyneuropathy. Substitution of the vitamin may hinder a further progression or even lead to an amelioration of the symptoms. Prophylactic treatment in abetalipoproteinaemia prevents the otherwise unavoidable neurological deficits. Isolated vitamin E deficiency is a rare syndrome and the causes are still obscure. We observed a 26 year old male patient with such a isolated vitamin E deficiency who was hitherto thought to suffer from Friedreich's ataxia. The clinical feature showed in addition to the "classical" symptoms of vitamin E deficiency cranial nerve involvement, perioral dystonia and pyramidal signs. Histologically (M. gastrocnemius) we saw the described typical but not specific changes (neurogenic atrophy, phosphatase-positive vacuoles with myelin bodies, cores). An oral vitamin E resorption test yielded a very shortened serum half life. These results support the hypothesis that in the pathophysiology of isolated vitamin E deficiency malelimination plays an important role in addition the known malresorptions models.
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PMID:[Isolated vitamin E deficiency]. 259

Acanthocytes have a distinct morphology and are not normally found in peripheral blood. They occur in association with at least three neurological syndromes. In abetalipoproteinaemia, a progressive spinocerebellar ataxia and retinopathy occurs secondary to malabsorption of vitamin E. Cases with chorea are often familial, with orofacial dyskinesia and an axonal neuropathy causing areflexia and muscle wasting. Areflexia and a subclinical myopathy also occur in the McLeod syndrome, in which there is abnormal expression of Kell blood group antigens. The exact mechanism of acanthocytosis in each disorder remains uncertain: passive changes in membrane lipids, surface receptor/ligand interactions, and a primary membrane defect are among the possibilities.
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PMID:Acanthocytosis and neurological impairment--a review. 268 30

Although muscle and nerve are reasonably well protected against active oxygen and related free radicals, environmental or inherited malfunctions can overpower their defences. Active oxygen is involved in many neuropathies and myopathies. In every case the damage is caused by agents which exert effects disproportionately greater than the quantities encountered, through a variety of amplification mechanisms. We can categorize these amplification mechanisms as follows: (a) non-replacement of targets (e.g. loss of genetic information, ataxia telangectasia being an hereditary ataxia in which an oxygen mediated chromosomal instability is apparent), (b) non-removal of unwanted materials (e.g. lipofuscin accumulation in brain and heart), (c) redox cycling, usually involving catalysis by trace-metal ions (e.g. some forms of Parkinsonism), (d) non-redox catalysis (e.g. toxicity in cardiac muscle or brain due to vanadium or aluminium respectively), (e) modification of ion transport (e.g. calcium ionophore or acrylamide induce histopathological changes in muscle, similar in some respects to those seen in Duchenne muscular dystrophy), (f) compromised defences (e.g. muscle and nerve become particularly susceptible to free radical damage after loss of the protective actions of vitamin E), and (g) amplification by inflammatory and immune responses (e.g. multiple sclerosis, reperfusion injury to brain and heart, and traumatic injury to nervous tissue). Unfortunately, a variety of therapeutic agents which might be expected to protect against almost every conceivable form of oxygen mediated damage have proved clinically ineffective in most of these disorders. The reasons for this will be explored with an emphasis on common features, differences, mechanisms, and potential therapeutic approaches.
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PMID:Active oxygen in neuromuscular disorders. 306 22

Effects of a single IM injection of selenium-vitamin E (Se-E; 5 mg of Se + 68 IU of alpha-tocopherol/60 kg of body weight) as a pretreatment 14 days before an oral dose of aflatoxin B1 (1.0 mg/kg) were studied in 24 dairy calves. Treatment groups were designated as follows: group 1 = no Se-E or aflatoxin B1 (control); group 2 = Se-E supplementation only; group 3 = aflatoxin B1 dose only; and group 4 = Se-E supplementation before aflatoxin B1 dose. Clinical signs of toxicosis in aflatoxin B1-treated calves included anorexia, ataxia, rough haircoats, increased respiration rates, dyspnea, dehydration, and nasal discharge. Packed-cell volume, RBC, WBC, and hemoglobin were increased in aflatoxin-treated calves. Significant increases in serum aspartate aminotransferase (P less than 0.05) and gamma-glutamyl-transferase (P less than 0.001) activities and prothrombin times (P less than 0.001) were observed in aflatoxin-treated calves, indicating that there was hepatic involvement. Although aflatoxin exposure caused a significant decrease in body weight (P less than 0.01) and feed intake (P less than 0.001) in treatment groups 3 and 4, Se was demonstrated to interact significantly (P less than 0.001) with aflatoxin B1 for feed intake, causing an improved feed intake in treatment group 4 calves.
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PMID:Aflatoxin B1 toxicosis in dairy calves pretreated with selenium-vitamin E. 308 Sep 29

Progressive spinocerebellar degeneration was identified in six children with chronic cholestatic liver disease and attributed to severe vitamin E deficiency. In addition to areflexia, ataxia, dysmetria, and diminished vibratory and position sense, three patients had pigmentary retinopathy. Abnormalities were present on electromyography, nerve conduction studies, and electroretinography. Because the vitamin E deficiency was not corrected by oral administration of massive doses of vitamin E, vitamin E was administered by the intramuscular route. With doses of 50 to 100 mg of vitamin E every three to seven days, over a 32-month interval (range, 15 to 44 months), vitamin E deficiency and abnormal red blood cell peroxide hemolysis were corrected. Other than discomfort and occasional edema at the site of injection, there were no side effects of parenteral vitamin E therapy. In several other studies intramuscular vitamin E therapy has produced significant neurologic improvement in patients with similar characteristics. In this study clinical progression of spinocerebellar degeneration was arrested but improvement could not be demonstrated despite adequate vitamin E replacement.
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PMID:Intramuscular vitamin E repletion in children with chronic cholestasis. 346 1


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