当前位置: 首页 > 期刊 > 《交互式心脏血管和胸部手术》 > 2005年第5期 > 正文
编号:11353396
Wilson's Disease Presenting as Status Epilpticus
http://www.100md.com 《交互式心脏血管和胸部手术》
     Department of Neurological Sciences, Christian Medical College, Vellore, Tamilnadu 632 004, India.

    Wilson’s disease (WD) is an inherited disorder of copper metabolism affecting 1:40,000-100,000 live births(1), characterized by neuropsychiatric and hepatic involvement. Status epilepticus (SE) occur-ring in WD is rarely reported(2). We report an adolescent with SE as the initial manifestation of WD.

    A 16-year-old girl was brought with history of 20-25 episodes of generalized tonic-clonic seizures (GTCS) of one-day duration, without regaining consciousness in between. There was no associated fever, headache or vomiting. Decline in scholastic performance and disinhibited behavior were noted over the past eight months. A psychiatrist evaluated her and started on lithium 300 mg/day one week ago. There was no history of jaundice. Family history was unremarkable. On examination, vital signs were normal. She was stuporous, optic fundi were normal and there were no meningeal signs. All limbs were rigid, deep tendon reflexes were exaggerated and plantars were extensor. Kayser-Fleischer rings were present in cornea. Other systemic examination was normal. Investigations showed a normal hemogram. Serum electrolytes, blood sugar and creatinine were normal. Liver enzymes revealed AST 124 U/L and ALT 145 U/L. Serum ceruloplasmin was 6 mg% (normal >30 mg%). Twenty-four hour urinary copper excretion was 280 μg/day (normal <100 μg/day). Magnetic resonance imaging showed bilateral symmetrical T2W hyperintense lesions in lentiform nuclei, thalami, and bilateral frontal regions (left more than right). Electroencephalography showed diffuse slow waves. A diagnosis of WD was made and d-penicillamine 750 mg/day and pyridoxine 20 mg/day were started. Seizures were treated with phenytoin (800 mg loading and 200 mg/day) and midazolam infusion (5 μg/min). She became seizure-free within eight hours of admission. At a follow-up 14 months later, she was seizure-free, and rigidity and cognition had markedly improved.

    Epileptic seizures occur in about 6% of cases of WD(3). They can occur at any stage, but often begin shortly after the start of chelating therapy and respond well to therapy(3). SE in WD is extremely uncommon. It has earlier been reported only once in WD (after starting penicillamine therapy)(2). Our patient was not on chelating agents. To the best of our knowledge, this is the first reported case of SE occurring in WD before starting treatment.

    Several mechanisms may be responsible for increased seizure activity in WD. Firstly, copper deposition in various parts of brain including cerebral cortex can lead to seizures by inhibition of membrane ATPase(4). Chelating therapy contributes to copper mobilization. Secondly, pathological lesions in WD include neuronal loss, gliosis, laminar necrosis, spongy degeneration and cavitation of cerebral cortex, which may lead to focal seizure activity(5). Thirdly, penicillamine causes pyridoxine deficiency, which may precipitate seizures.

    References

    1. Haslam RHA. Movement disorders. In: Behrman RE, Kliegman RM, Arvin AM (eds). Textbook of Pediatrics. Philadelphia: W.B. Saunders Company 1996: p. 1709-1712.

    2. Turk-Boru U, Kocer A, Alp R, Gumus M, Gumus M. Status epilepticus in a case with Wilson’s disease during D-pencillamine treatment. Swiss Med Wkly 2003; 133: 446-447.

    3. Dening TR, Berrios GE, Walshe JM. Wilson’s disease and epilepsy. Brain 1988; 111:1139-1155.

    4. Peters RA, Shorthouse M, Walshe JM. The effect of Cu2+ on the membrane ATPase and its relation to initiation of convulsions. J Physiol 1965; 181: 27-28(Sudhir Kumar,)