Irene Volenberg scite author profile

Acute liver failure (ALF) due to Wilson disease (WD) is invariably fatal without emergency liver transplantation. Therefore, rapid diagnosis of WD should aid prompt transplant listing. To identify the best method for diagnosis of ALF due to WD (ALF-WD), data and serum were collected from 140 ALF patients (16 with WD), 29 with other chronic liver diseases and 17 with treated chronic WD. Ceruloplasmin (Cp) was measured by both oxidase activity and nephelometry and serum copper levels by atomic absorption spectroscopy. In patients with ALF, a serum Cp <20 mg/dL by the oxidase method provided a diagnostic sensitivity of 21% and specificity of 84% while, by nephelometry, a sensitivity of 56% and specificity of 63%. Serum copper levels exceeded 200 g/dL in all ALF-WD patients measured (13/16), but were also elevated in non-WD ALF. An alkaline phosphatase (AP) to total bilirubin (TB) ratio <4 yielded a sensitivity of 94%, specificity of 96%, and a likelihood ratio of 23 for diagnosing fulminant WD. In addition, an AST:ALT ratio > 2.2 yielded a sensitivity of 94%, a specificity of 86%, and a likelihood ratio of 7 for diagnosing fulminant WD. Combining the tests provided a diagnostic sensitivity and specificity of 100%. In conclusion, conventional WD testing utilizing serum ceruloplasmin and/or serum copper levels are less sensitive and specific in identifying patients with ALF-WD than other available tests. More readily available laboratory tests including alkaline phosphatase, bilirubin and serum aminotransferases by contrast provides the most rapid and accurate method for diagnosis of ALF due to WD.

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Correction of Liver Disease Following Transplantation of Normal Rat Hepatocytes into Long–Evans Cinnamon Rats Modeling Wilson's Disease

Irani

Malhi

Slehria

et al. 2001

Molecular Therapy

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To establish the efficacy of cell therapy in Wilson's disease, we used the Long-Evans Cinnamon (LEC) rat model with atp7b gene mutation and copper toxicosis. Several groups of LEC rats were established, including animals pretreated with retrorsine to exacerbate copper toxicosis and inhibit proliferation in native hepatocytes followed by partial hepatectomy to promote liver repopulation. Hepatocytes from normal, syngeneic LEA rats were transplanted intrasplenically. Animal survival, biliary copper excretion, and hepatic copper were determined. The magnitude of liver repopulation was demonstrated by measuring serum ceruloplasmin and hepatic atp7b mRNA. Long-term survival in LEC rats treated with retrorsine, partial hepatectomy, and cell transplantation was up to 90%, whereas fewer than 10% of animals pretreated with retrorsine, without cell therapy, survived, P < 0.001. Liver repopulation occurred gradually after cell transplantation, ranging from <25% at 6 weeks, 26 to 40% at 4 months, and 74 to 100% at 6 months or beyond. Liver repopulation restored biliary copper excretion capacity and lowered liver copper levels. Remarkably, liver histology was completely normal in LEC rats with extensive liver repopulation, compared with widespread megalocytosis, apoptosis, oval cell proliferation, and cholangiofibrosis in untreated animals. These data indicate that liver repopulation with functionally intact cells can reverse pathophysiological perturbations and cure Wilson's disease.

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Early cell transplantation in LEC rats modeling Wilson's disease eliminates hepatic copper with reversal of liver disease

et al. 2002

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An array of mitochondrial alterations in the hepatocytes of long-evans cinnamon rats

Sternlieb

Quintana

Volenberg

et al. 1995

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In an attempt to identify the cellular targets of copper toxicity, we studied the ultrastructure of hepatocytes in the livers of 23 Long-Evans Cinnamon (LEC) rats ranging in age from 10 to 89 weeks. The hepatic copper concentration ranged from 325 to 2,126 (mean, 930) micrograms/g dry weight. Thirteen rats displayed varying degrees of jaundice at the time of killing. Numerous nuclei were indented by cytoplasmic invaginations. Conspicuous abnormalities were displayed by mitochondria. These included marked pleomorphism; increased or diminished matrical density; rearrangement, elongation, dilatation, stacking, or disappearance of cristae; absence of matrical granules; presence of matrical inclusions of flocculent electron-dense deposits; and degenerative changes. The severity of the ultrastructural changes did not correlate with the hepatic copper concentration but did correlate with the degree of the icterus displayed by the rats. Certain mitochondrial changes resembled those encountered in the hepatocytes of patients with Wilson's disease, confirming that these organelles are important targets of copper toxicity.

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Irene Volenberg

Screening for Wilson disease in acute liver failure

Correction of Liver Disease Following Transplantation of Normal Rat Hepatocytes into Long–Evans Cinnamon Rats Modeling Wilson's Disease

Early cell transplantation in LEC rats modeling Wilson's disease eliminates hepatic copper with reversal of liver disease

An array of mitochondrial alterations in the hepatocytes of long-evans cinnamon rats

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