Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0024141 (systemic lupus erythematosus)
 44,322 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Among the connective tissue changes induced by the chronic use of anticonvulsants, gingival hyperplasia associated with the use of phenytoin is the most reliably proven. In addition it is probable that phenytoin can also lead to a coarsening of the facies. Phenobarbital can probably trigger the development of Dupuytren's contracture, polyfibromatosis and/or Sudeck's syndrome. In connection with, or independently of this, phenobarbital can also lead to painful joints. A number of anticonvulsants are suspected of being able to trigger lupus erythematodes.
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PMID:[Connective tissue changes during longterm anticonvulsive therapy]. 269 74

Phenobarbital and phenytoin have good antiepileptic effect, but clinically significant untoward effects occur during their long-term use. Phenobarbital may cause hyperactivity, behavioral problems, sedation, and even dementia; these effects are dose related to some extent. Side effects of phenytoin include sedation, a cerebellar syndrome, phenytoin encephalopathy, psychosis, locomotor dysfunction, hyperkinesia, megaloblastic anemia, decreased serum folate level, decreased bone mineral content, liver disease, IgA deficiency, gingival hyperplasia, and a lupus-like hypersensitivity syndrome. Especially susceptible to the neurotoxic effects of phenytoin are epileptic children with severe brain damage who are on multiple drugs. In those children, balance disturbance may develop and be followed by gradual loss of locomotion. Among 131 mentally retarded epileptic patients, phenytoin intoxication occurred in 73 (56%), of whom 18 experienced persistent loss of locomotion. There is experimental evidence that the toxic action of phenytoin lies at the cellular level, predominantly in the cerebellum. Many experts avoid the long-term use of phenytoin because of its insidious and potentially dangerous side effects.
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PMID:Side effects of phenobarbital and phenytoin during long-term treatment of epilepsy. 642 97

Phenobarbital (phenobarbitone) and phenytoin are the most useful anticonvulsants in neonates because adverse effects are most readily reversed when these drugs are used. Most anticonvulsants are very rarely associated with haematological adverse effects. Platelet function is particularly vulnerable to valproic acid (sodium valproate) therapy. Barbiturates and phenytoin can precipitate metabolic bone disease. Although very infrequent, lymphadenopathy is most common with phenytoin, and lupus-like illnesses with ethosuximide. Valproic acid may precipitate underlying metabolic disorders. Nephrolithiasis can occur with topiramate. Liver disease is most likely with felbamate or valproic acid, but can occur with other anticonvulsants. Valproic acid and ethosuximide are the main precipitants of gastrointestinal symptomatology; while valproic acid and vigabatrin are frequently associated with excessive bodyweight gain. Rash is most likely to occur with barbiturates, but there is a high risk of this adverse effect if large doses of lamotrigine are given with valproic acid. Adverse cosmetic effects are most likely with phenytoin, but valproic acid may cause alopecia. All anticonvulsants may cause unwanted neurological effects: when they occur, diplopia is usually precipitated by carbamazepine; tremor by valproic acid; and other motor disturbances are probably most common with phenytoin. Most anticonvulsants can cause drowsiness. Phenobarbital leads anticonvulsants as a cause of behavioural difficulties. Effects of anticonvulsants on cognitive function are difficult to assess, but subtle changes have been reported for all anticonvulsants in use up to the 1980s. Compared with other anticonvulsant drugs, phenytoin and felbamate are more often discontinued as a result of unwanted effects.
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PMID:A comparative review of the adverse effects of anticonvulsants in children with epilepsy. 896 93