The authors thank Janice Clark, RN, for project coordination W

The authors thank Janice Clark, R.N., for project coordination. We also thank Dr Janus Ong for Data and Safety Monitoring of this trial. “
“The diagnosis of Wilson disease (WD) is challenging, especially in children. Early detection is desirable in order to avoid dramatic disease progression. The aim of our study was to re-evaluate in WD children with mild liver disease the conventional diagnostic criteria and the WD scoring system proposed

by an international consensus in 2001. Forty children with WD (26 boys and 14 girls, age range U0126 chemical structure = 1.1-20.9 years) and 58 age-matched and sex-matched patients with a liver disease other than WD were evaluated. Both groups were symptom-free and had elevated aminotransferases as predominant signs of liver disease. In all WD patients, the diagnosis was supported by molecular analysis, the liver copper content, or both. A receiver operating characteristic (ROC) analysis of ceruloplasmin at the cutoff value of 20 mg/dL showed a sensitivity of 95% [95% confidence interval (CI) = 83%-99.4%] and a specificity of 84.5% (95%

CI = 72.6%-92.6%). The optimal basal urinary copper diagnostic cutoff value was found to be 40 μg/24 hours (sensitivity = 78.9%, 95% CI = 62.7%-90.4%; specificity = 87.9%, 95% CI = 76.7%-95%). Urinary copper values after penicillamine challenge did not significantly differ between WD patients and control subjects, and the ROC analysis showed a sensitivity of only 12%. The WD scoring compound screening assay system was proved to have positive and negative predictive values of 93% and 91.6%, respectively. Conclusion: Urinary MCE copper excretion greater than 40 μg/24 hours is suggestive of WD in asymptomatic children, whereas the penicillamine

challenge test does not have a diagnostic role in this subset of patients. The WD scoring system provides good diagnostic accuracy. (HEPATOLOGY 2010.) Wilson disease (WD) is an autosomal recessive disorder of copper metabolism caused by mutations in a gene [ATPase, Cu++ transporting, beta polypeptide (ATP7B)] encoding a copper-transporting, P-type ATPase.1 This disease leads to progressive copper accumulation in the liver and subsequent deposition in other organs, such as the nervous system, corneas, kidneys, bones, and joints. The distribution of the metal in diverse organs over time accounts for the wide range of clinical manifestations.2 In the pediatric age bracket, most cases have a hepatic presentation. In the available series, the percentage of WD children presenting with isolated elevated serum aminotransferases ranges from 14% to 88%; this depends on the health policy and the type of health care provided.3-5 However, there is evidence that alterations in liver function tests may precede the onset of symptoms for a considerable time.

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