Zinc-induced deterioration in Wilson's disease aborted by treatment with penicillamine, dimercaprol, and a novel zero copper diet

Nuklearmedizinische Diagnostik beim Morbus Wilson

Wilson's disease is an autosomal recessive disorder of copper metabolism and is caused by a genetic defect on chromosome 13. Nuclear medicine methods can prove the metabolic defect and contribute to the assessment of central neurological deficits.With high specificity and sensitivity, the intravenous radiocopper test enables the diagnosis to be confirmed as the basis for initiating treatment. The oral radiocopper test is used to monitor zinc treatment.[¹²³I]β-CIT-SPECT and [¹²³I]IBZM-SPECT provide functional information of the nigrostriatal system.[¹²³I]β-CIT-SPECT also allows the determination of SERT availability in the hypothalamus/brain stem as a surrogate parameter of depression.Metabolic parameters of the cortex, basal ganglia and cerebellum can be assessed by [¹⁸F]FDG-PET studies.SPECT and [¹⁸F]FDG-PET studies show significant differences between neurological and non-neurological Wilson patients. Overall, only noninvasive in vivo nuclear medicine enables a deeper insight into the pathophysiology of neurological processes in Wilson's disease.

Investigation and management of Wilson's disease: a practical guide from the British Association for the Study of the Liver

Wilson's disease is an autosomal-recessive disorder of copper metabolism with hepatic, neurological, psychiatric, ophthalmological, haematological, renal, and rheumatological manifestations. Making a diagnosis can be challenging given that no single test can confirm or exclude the disease, and diagnostic delays are common. Treatment protocols vary and adverse effects, including paradoxical neurological worsening, can occur. In this Review, we provide a practical guide to the diagnosis of Wilson's disease. We include recommendations on indications for testing, how to interpret results, and when additional investigations are required. We also cover treatment initiation, ideally under the guidance of a specialist centre for Wilson's disease, and the principles behind long-term management. This guidance was developed by a multidisciplinary group of Wilson's disease experts formed through the British Association for the Study of the Liver. The guidance has been endorsed by the British Society of Gastroenterology and approved by the Association of British Neurologists.

Adverse Events with D-penicillamine Therapy in Hepatic Wilson's Disease: A Single-Center Retrospective Audit

BACKGROUND AND OBJECTIVE: There are limited data on the adverse events of D-penicillamine in Wilson's disease (WD) that can result in dose modification or treatment discontinuation. The objective of this study was to observe the adverse events related to D-penicillamine in patients with hepatic WD.

METHODS

A retrospective audit of prospectively registered hepatic WD patients at a tertiary care center between December 2006 and January 2020 was carried out. Demographic variables, laboratory parameters, and details of treatment were noted. Adverse events (AEs) related to D-penicillamine treatment, the timing and management of these AEs were analysed.

RESULTS

The study included 112 patients with hepatic WD on D-penicillamine. D-penicillamine intolerance was seen in 28/112 (25%) over 179 person-years. Of the 28 AEs, severe AEs leading to permanent D-penicillamine discontinuation occurred in 16 (57%) [never reintroduced 12 (43%), discontinued after intolerant to rechallenge, 4 (14%)], temporary cessation followed by reintroduction to initial dose 13 (46%) and continuation with reduced dose in 3 (11%) patients. Overall, most common AEs were hematological [16, 57% (pancytopenia n = 8, bicytopenia n = 5 and hemolytic anemia n = 3)] while renal adverse events (n = 7, 25%) constituted the most common indication for permanent discontinuation. Cytopenias developed beyond 12 months of D-penicillamine initiation whereas hemolytic anemia developed within first 3 months. Following D-penicillamine discontinuation in 25 patients, it was reintroduced to initial dose in 13/25 (52%), switched to trientine due to neurological worsening in 2/25 (8%) and switched to zinc in 10/25 (40%). In patients with reintroduction, gradual dose escalation was tolerated in 9/13 (69%) with a recurrence of AEs leading to permanent discontinuation in 4/13 (31%).

CONCLUSION

D-penicillamine treatment is associated with significant AEs mainly related to blood, kidney, and skin. Temporary cessation of drug with reintroduction at a lower dose is an effective and safe option.

Zinc monotherapy for young patients with oligosymptomatic Wilson disease: A single center, retrospective study

BACKGROUND AND AIMS

Few studies have focused on the treatment failure of zinc monotherapy for oligosymptomatic Wilson disease (WD) patients. Therefore, we aimed to evaluate the long-term efficacy of zinc monotherapy in oligosymptomatic patients and to analyze the possible factors that may influence the outcome of this treatment.

METHODS

We retrospectively reviewed the medical records of oligosymptomatic WD patients who received zinc monotherapy from the time of diagnosis. Then, the characteristics of patients who were treated with zinc monotherapy successfully and those who experienced treatment failure were investigated.

RESULTS

Forty oligosymptomatic WD patients were identified that have received zinc monotherapy as initial treatment, with a median age of 3.83 years at the time of diagnosis. 36 (90%) patients had abnormal alanine transaminase/aspartate transaminase levels at baseline. None of the patients became symptomatic during zinc monotherapy. 28 (70%, Group 1) patients were treated with zinc monotherapy successfully for a median period of 2.4 years. In Group 1, serum aminotransferase levels significantly decreased 6 and 12 months after zinc therapy compared to the baseline levels (P <  0.05). 12 (30%, Group 2) patients experienced treatment failure with zinc monotherapy due to uncontrolled serum liver enzyme levels, and d-penicillamine was combined. The baseline 24-hour urine copper levels before treatment were significantly higher in Group 2 compared to that in Group 1 (182.5 vs 90.92 μg /day, P = 0.018). Comparing the age at onset; ceruloplasmin, serum copper, ALT, and AST levels; and proportions of abdominal ultrasonography abnormality at baseline between Group 1 and 2 revealed no statistically significant differences.

CONCLUSIONS

We found that high initial 24 -h urinary copper levels may lead to treatment failure of zinc monotherapy in oligosymptomatic WD patients. It might be reasonable to follow up liver function tests more closely during zinc monotherapy and to begin combination treatment with chelators early in patients with high level of 24 -h urinary copper.

Zinc as a Drug for Wilson's Disease, Non-Alcoholic Liver Disease and COVID-19-Related Liver Injury

Zinc is the second most abundant trace element in the human body, and it plays a fundamental role in human physiology, being an integral component of hundreds of enzymes and transcription factors. The discovery that zinc atoms may compete with copper for their absorption in the gastrointestinal tract let to introduce zinc in the therapy of Wilson's disease, a congenital disorder of copper metabolism characterized by a systemic copper storage. Nowadays, zinc salts are considered one of the best therapeutic approach in patients affected by Wilson's disease. On the basis of the similarities, at histological level, between Wilson's disease and non-alcoholic liver disease, zinc has been successfully introduced in the therapy of non-alcoholic liver disease, with positive effects both on insulin resistance and oxidative stress. Recently, zinc deficiency has been indicated as a possible factor responsible for the susceptibility of elderly patients to undergo infection by SARS-CoV-2, the coronavirus responsible for the COVID-19 pandemic. Here, we present the data correlating zinc deficiency with the insurgence and progression of Covid-19 with low zinc levels associated with severe disease states. Finally, the relevance of zinc supplementation in aged people at risk for SARS-CoV-2 is underlined, with the aim that the zinc-based drug, classically used in the treatment of copper overload, might be recorded as one of the tools reducing the mortality of COVID-19, particularly in elderly people.

Wilson's disease: update on pathogenesis, biomarkers and treatments

Wilson's disease is an autosomal-recessive disorder of copper metabolism caused by mutations in ATP7B and associated with neurological, psychiatric, ophthalmological and hepatic manifestations. Decoppering treatments are used to prevent disease progression and reduce symptoms, but neurological outcomes remain mixed. In this article, we review the current understanding of pathogenesis, biomarkers and treatments for Wilson's disease from the neurological perspective, with a focus on recent advances. The genetic and molecular mechanisms associated with ATP7B dysfunction have been well characterised, but despite extensive efforts to identify genotype-phenotype correlations, the reason why only some patients develop neurological or psychiatric features remains unclear. We discuss pathological processes through which copper accumulation leads to neurodegeneration, such as mitochondrial dysfunction, the role of brain iron metabolism and the broader concept of selective neuronal vulnerability in Wilson's disease. Delayed diagnoses continue to be a major problem for patients with neurological presentations. We highlight limitations in our current approach to making a diagnosis and novel diagnostic biomarkers, including the potential for newborn screening programmes. We describe recent progress in developing imaging and wet (fluid) biomarkers for neurological involvement, including findings from quantitative MRI and other neuroimaging studies, and the development of a semiquantitative scoring system for assessing radiological severity. Finally, we cover the use of established and novel chelating agents, paradoxical neurological worsening, and progress developing targeted molecular and gene therapy for Wilson's disease, before discussing future directions for translational research.

The Role of Fe, Zn, and Cu in Pregnancy

Iron (Fe), copper (Cu), and zinc (Zn) are microelements essential for the proper functioning of living organisms. These elements participatein many processes, including cellular metabolism and antioxidant and anti-inflammatory defenses, and also influence enzyme activity, regulate gene expression, and take part in protein synthesis. Fe, Cu, and Zn have a significant impact on the health of pregnant women and in the development of the fetus, as well as on the health of the newborn. A proper concentration of these elements in the body of women during pregnancy reduces the risk of complications such as anemia, induced hypertension, low birth weight, preeclampsia, and postnatal complications. The interactions between Fe, Cu, and Zn influence their availability due to their similar physicochemical properties. This most often occurs during intestinal absorption, where metal ions compete for binding sites with transport compounds. Additionally, the relationships between these ions have a great influence on the course of reactions in the tissues, as well as on their excretion, which can be stimulated or delayed. This review aims to summarize reports on the influence of Fe, Cu, and Zn on the course of single and multiple pregnancies, and to discuss the interdependencies and mechanisms occurring between Fe, Cu, and Zn.

[Diagnosis and treatment of Wilson disease in Japan]

Wilson disease is an autosomal recessive disorder based on inborn error of copper metabolism. The copper accumulates in the liver, brain, cornea, kidney, and other organs. This disease should be considered any individual with liver abnormality except infant, any patient older than teenage with neurological (especially for extra pyramidal signs) or neuropsychiatric disorder with or without liver disease and sibling of Wilson disease patient. Typically, a combination of low serum ceruloplasmine levels and high levels of urinary copper contents is sufficient to establish a diagnosis. As other diagnostic tests, measurement of hepatic copper content and ATP7B gene analysis are available. The key strategy of treatment is to reduce the amount of copper in the liver and other tissues by administering both copper-chelating agents, such as D-penicillamine or Trientine, and/or zinc acetate. The author recommend zinc acetate monotherapy for mild to moderate hepatic disorder, Trientine mono therapy for mild to moderate neurologic disorder and combination therapy of Trientine and zinc acetate for sever hepatic or neurologic disorder.

Anemia following zinc treatment for Wilson's disease: a case report and literature review

Background

Zinc therapy is considered an effective and safe treatment for Wilson’s disease. Hypocupremia-related anemia is rarely reported after long-term zinc administration or combination therapy with copper-chelating agent.

Case presentation

We herein report a 12-year-old girl with pre-symptomatic Wilson’s disease diagnosed 5 years ago who presented with severe anemia after high-dose oral zinc for 4 years and 4 months. Her hemoglobin was gradually restored to the normal range after the adjustment of zinc dose and diet therapy for 4 months. A review of the literature revealed eight patients with hypocupremia-associated anemia following zinc therapy for Wilson’s disease, including 7 adults and 1 child. The only child patient was a 16-year-old boy, in whom the zinc therapy was succession to penicillamine administration.

Conclusions

This is the first report worldwide that a child developed severe anemia following high-dose single zinc administration for Wilson’s disease. It highlights the importance of regular follow-up during zinc treatment and the involvement of specialists in the long-term management of Wilson’s disease. We hope that this will alert pediatricians the issue of zinc over-treatment.

Clinical management of Wilson disease

The availability of effective therapies distinguishes Wilson disease (WD) from other inherited neurometabolic diseases. The cause of hepatic, neurologic or psychiatric symptoms is copper overload and subsequent copper toxicity. Diagnosed WD patients require life-long pharmacologic therapy that is focused on reversal of copper overload with maintenance of a long-term negative copper balance. This is associated with the rapid control of free or non-ceruloplasmin bound copper that is mostly responsible for acute cytotoxic effects. Currently available therapies can be divided into chelators and zinc salts. They have different mechanisms of action and the onset of efficacy that influences their selection in acute and chronic stages of therapy. We review the use of D-penicillamine and trientine for chelation therapies, including the required monitoring of therapy for its efficacy and possible overtreatment with iatrogenic copper deficiency. Additionally, the use of zinc salts is also discussed, including a possibility of its use for the initial therapy in an acute stage of the disease. Supportive and symptomatic therapies for liver failure and neuropsychiatric symptoms are also reviewed.

Current anti-copper therapies in management of Wilson disease

In Wilson disease (WD) severity of disease can vary widely, depending on time of diagnosis. Early treatment can prevent the development of symptoms in patients. In all patients, lifelong medical treatment is indicated. Currently available medical regimens include the copper chelators for example D-penicillamine (DPA) or trientine (TETA), acting to increase copper excretion and zinc salts (ZS), which reduce copper uptake. In this chapter, we discuss considerations regarding choice of drug and safety limitations.

Advances in Treatment of Wilson Disease

Background

Wilson disease (WD) is an inherited neurometabolic disorder that results in excessive copper deposition in the liver and the brain, affecting children and young adults. Without treatment the disease is invariably fatal. Though treatments for WD have been available since the 1950s, the disease continues to be associated with considerable morbidity and mortality because of missed diagnosis, and delayed or inadequate treatment. In this paper we survey WD-related literature in order to review recent advances in WD treatment.

Methods

We performed a literature search using the PubMed database for articles relating to WD and its medical treatment. We reviewed the articles, and cross-references of relevant articles, to summarize the current practices for treatment of WD.

Results

The survey shows that if WD is properly treated, in most patients the liver can be stabilized, even severe neurological disability reversed, and patients can resume normal lives.

Discussion

Medical treatment for WD includes use of copper chelators (penicillamine, trientine, dimercaprol, dimercaptopropane sulfonate, and ammonium tetrathiomolybdate) and drugs that decrease gastrointestinal copper absorption. Our knowledge of the treatment approaches has benefited from the large systematic clinical studies that have been conducted over the last decade. For each drug used to treat WD, we surveyed its development, indication for use, dosing, efficacy, and adverse effects.

Insights into the management of Wilson's disease

Wilson's disease is a rare, inherited autosomal recessive disease of copper metabolism, in which the causative gene, ATP7B, results in absent or reduced function of the ATP7B transporter important for biliary excretion of copper and incorporation of copper into caeruloplasmin. Affected patients accumulate excessive copper within the liver, brain and other tissues. A disease mainly of children, adolescents and young adults; clinical features vary from the asymptomatic state to chronic liver disease, acute liver failure, and neuropsychiatric manifestations. Diagnosis requires a high index of suspicion and is based on a combination of clinical signs, biochemical tests, hepatic copper content assay and mutation analysis of the ATP7B gene; to date, there are more than 500 mutations of ATP7B in patients with Wilson's disease. Early recognition and treatment can result in an excellent prognosis whereas untreated disease is almost always fatal. Drug therapies include chelating agents, such as penicillamine or trientine, and zinc salts. Liver transplantation is curative correcting the underlying pathophysiology and is traditionally indicated in acute liver failure or end-stage liver disease refractory to medical therapy. This review provides an overview of various aspects of Wilson's disease including molecular basis of the disease, clinical features, diagnostic and management strategies with their current limitations.

Wilson disease - currently used anticopper therapy

Wilson disease (WD) is a genetic disorder of copper metabolism that can be treated successfully with pharmacologic treatment. Two groups of drugs are currently used: chelators (e.g., d-penicillamine and trientine), which increase urinary copper excretion, and zinc salts, which inhibit copper absorption in the digestive tract. The mechanisms of action lead to a negative copper balance, stopping pathologic accumulation of copper in the tissues and clearing affected organs of copper overload. Due to a lack of prospective clinical trials, the use of drugs depends mainly on center experience and the accessibility in different countries or regions. This chapter presents the different reports and recommendations regarding WD treatment. In addition to the different expert opinions on pharmacologic agents, there are a few axioms regarding WD treatment: treatment should start immediately after diagnosis, even in clinically presymptomatic cases; the patient should be treated for life, making compliance a key factor in treatment success; and the treatment should be monitored regularly via liver and hematologic tests, neurologic examination, and copper metabolism, modifying the treatment accordingly. Other drugs proposed for WD treatment (e.g., tetrathiomolybdate) are in clinical trials and lack current recommendations. Thus, only the currently available options for WD pharmacologic treatment are discussed.

Zinc Therapy for Wilson Disease in Children in French Pediatric Centers

BACKGROUND AND AIMS

Zinc therapy is considered a good option in Wilson disease (WD), as a first-line treatment in presymptomatic children and a maintenance therapy after the initial chelator therapy. The aim of the study was to determine the practical use of zinc treatment in French pediatric centers.

METHODS

A national survey was conducted in the 6 French centers using zinc acetate to treat WD. Clinical and biological parameters, dosage, and outcome were recorded.

RESULTS

A total of 26 children were reported to be treated with zinc acetate, alone or in association with chelators. Of the 9 children (35%) who received zinc alone as a first-line therapy, 2 were switched to D-penicillamine because of inefficacy and 7 remained on zinc alone, but serum transaminase levels normalized in only 4 of them. Five children (19%) were initially treated with zinc in association with D-penicillamine (n = 4) or Trientine (n = 1) with good efficacy. Among the 12 children (46%) who received zinc as a maintenance therapy after D-penicillamine, no relapse of hepatic cytolysis occurred during a median follow-up of 5.2 years, but 2 of them were switched to Trientine because of zinc-related adverse effects. Epigastric pain was observed in 4 children, and a gastric perforation occurred in 1 child.

CONCLUSIONS

The present study demonstrates poor efficacy of zinc as first-line therapy to control liver disease in half presymptomatic children and a high incidence of related gastrointestinal adverse effects in children with WD.

Update on Wilson disease

Wilson disease (WD) is an inherited disorder of chronic copper toxicosis characterized by excessive copper deposition in the body, primarily in the liver and the brain. It is a progressive disease and fatal if untreated. Excessive copper accumulation results from the inability of liver to excrete copper in bile. Copper is an essential trace metal and has a crucial role in many metabolic processes. Almost all of the body copper is protein bound. In WD, the slow but relentless copper accumulation overwhelms the copper chaperones (copper-binding proteins), resulting in high levels of free copper and copper-induced tissue injury. Liver is the central organ for copper metabolism, and copper is initially accumulated in the liver but over time spills to other tissues. WD has protean clinical manifestations mainly attributable to liver, brain, and osseomuscular impairment. Diagnosis of WD is challenging and based on combination of clinical features and laboratory tests. Identification of various high-frequency mutations identified in different population studies across the world has revived interest in developing DNA chips for rapid genetic diagnosis of WD. All symptomatic and all presymptomatic patients require lifelong decoppering with careful clinical tracking. Decoppering ensures that presymptomatic individuals remain symptom free. With judicious decoppering, given time, even patients with severe neurological disability improve and can return to normal life and resume school or work at par with their peers. Treatment regimens and tracking patients using the WD-specific Global Assessment Scale for WD (GAS for WD) are discussed.

Zinc mono-therapy in pre-symptomatic Chinese children with Wilson disease: a single center, retrospective study

Background

There is no official consensus regarding zinc therapy in pre-symptomatic children with Wilson Disease (WD); more data is needed.

Objective

To investigate the safety and efficacy of zinc gluconate therapy for Chinese children with pre-symptomatic WD.

Methods

We retrospectively analyzed pre-symptomatic children receiving zinc gluconate in a single Chinese center specialized in pediatric hepatology. Short-term follow-up data on safety and efficacy were presented, and effects of different zinc dosages were compared.

Results

30 children (21 males) aged 2.7 to 16.8 years were followed for up to 4.4 years; 26 (87%) children had abnormal ALT at baseline. Most patients (73%) received higher than the currently recommended dose of elemental zinc. Zinc gluconate significantly reduced mean ALT (p<0.0001), AST (p<0.0001), GGT (p<0.0001) levels after 1 month, and urinary copper excretion after 6 months (p<0.0054). Mean direct bilirubin levels dropped significantly at 1 month (p = 0.0175), 3 months (p = 0.0010), and 6 months (p = 0.0036). Serum zinc levels gradually increased and reached a significantly higher level after 6 months (p<0.0026), reflecting good compliance with the therapy. Complete blood count parameters did not change throughout the analysis period. 8 children experienced mild and transient gastrointestinal side effects. The higher zinc dose did not affect treatment response and was not associated with different or increased side effects when compared to conventional zinc dose.

Conclusion

In our cohort, zinc gluconate therapy for Chinese children with pre-symptomatic WD was effective, and higher initial dose of elemental zinc had the same level of efficacy as the conventional dose.

[Common problems in the diagnosis and treatment of Wilson's disease]

The present article aims to provide answers to questions frequently asked by physicians attending patients with Wilson's disease (WD) or those with a suspected diagnosis of WD. The article is divided into 2 parts: a first part with answers to questions relating to the diagnosis of this entity and a second with answers to questions concerning treatment. A brief appendix is included with responses to questions not falling into either of these 2 categories.

EASL Clinical Practice Guidelines: Wilson's disease

This Clinical Practice Guideline (CPG) has been developed to assist physicians and other healthcare providers in the diagnosis and management of patients with Wilson's disease. The goal is to describe a number of generally accepted approaches for diagnosis, prevention, and treatment of Wilson's disease. Recommendations are based on a systematic literature review in the Medline (PubMed version), Embase (Dialog version), and the Cochrane Library databases using entries from 1966 to 2011. The Grades of Recommendation, Assessment, Development, and Evaluation (GRADE) system used in other EASL CPGs was used and set against the somewhat different grading system used in the AASLD guidelines (Table 1A and B). Unfortunately, there is not a single randomized controlled trial conducted in Wilson's disease which has an optimal design. Thus, it is impossible to assign a high or even a moderate quality of evidence to any of the questions dealt with in these guidelines. The evaluation is mostly based on large case series which have been reported within the last decades.

Evolving perspectives in Wilson disease: diagnosis, treatment and monitoring

Wilson disease (WD), the autosomal recessively inherited copper overload disorder, remains a diagnostic and therapeutic challenge. In the last decade, direct sequencing of the affected gene ATP7B became commercially available, but interpretation of the results still requires careful attention. Thus, a combination of tests reflecting the disturbed copper metabolism is needed to make the final diagnosis. Because of the low disease frequency, the existing treatment concepts are not based on controlled trails. Here, recent outcome reports of larger cohort studies challenge the recommended therapies and call for individualized treatment strategies. The notion, that certain medical regimens may either be insufficient to upkeep copper homeostasis or may lead to a clinically relevant overtreatment, demand a continuous monitoring of patients even after decades of therapy. In this article, we review current diagnostic and therapeutic approaches in WD.

Wilson's disease

In the almost 100 years since Wilson's description of the illness that now bears his name, tremendous advances have been made in our understanding of this disorder. The genetic basis for Wilson's disease - mutation within the ATP7B gene - has been identified. The pathophysiologic basis for the damage resulting from the inability to excrete copper via the biliary system with its consequent gradual accumulation, first in the liver and ultimately in the brain and other organs and tissues, is now known. This has led to the development of effective diagnostic and treatment modalities that, although they may not eliminate the disorder, do provide the means for efficient diagnosis and effective amelioration if carried out in a dedicated and persistent fashion. Nevertheless, Wilson's disease remains both a diagnostic and treatment challenge for physician and patient. Its protean clinical manifestations make diagnosis difficult. Appropriate diagnostic evaluations to confirm the diagnosis and institute treatment can be confusing. In this chapter, the clinical manifestations, diagnostic evaluation, and treatment approaches for Wilson's disease are discussed.

Zinc monotherapy is not as effective as chelating agents in treatment of Wilson disease

BACKGROUND & AIMS

Wilson disease is a genetic disorder that affects copper storage, leading to liver failure and neurologic deterioration. Patients are treated with copper chelators and zinc salts, but it is not clear what approach is optimal because there have been few studies of large cohorts. We assessed long-term outcomes of different treatments.

METHODS

Patients in tertiary care centers were retrospectively analyzed (n = 288; median follow-up time, 17.1 years) for adherence to therapy, survival, treatment failure, and adverse events from different treatment regimens (chelators, zinc, or a combination). Hepatic treatment failure was defined as an increase in activity of liver enzymes (aspartate aminotransferase, alanine aminotransferase, and γ-glutamyltransferase) >2-fold the upper limit of normal or >100% of baseline with an increase in urinary copper excretion.

RESULTS

The median age at onset of Wilson disease was 17.5 years. Hepatic and neuropsychiatric symptoms occurred in 196 (68.1%) and 99 (34.4%) patients, respectively. Hepatic treatment failure occurred more often from zinc therapy (14/88 treatments) than from chelator therapy (4/313 treatments; P < .001). Actuarial survival, without transplantation, showed an advantage for chelating agents (P < .001 vs zinc). Changes in treatment resulted mostly from adverse events, but the frequency did not differ between groups. Patients who did not respond to zinc therapy showed hepatic improvement after reintroduction of a chelating agent.

CONCLUSIONS

Treatments with chelating agents or zinc salt are effective in most patients with Wilson disease; chelating agents are better at preventing hepatic deterioration. It is important to identify patients who do not respond to zinc therapy and have increased activities of liver enzymes, indicating that a chelating agent should be added to the therapeutic regimen.

Doença de Wilson em crianças e adolescentes: diagnóstico e tratamento

OBJETIVO: Descrever as formas de apresentação, as alterações laboratoriais ao diagnóstico e o tratamento de crianças e adolescentes com doença de Wilson. MÉTODOS: Estudo descritivo e retrospectivo de 17 crianças e adolescentes com doença de Wilson atendidos no Ambulatório de Hepatologia Pediátrica do Hospital das Clínicas da Universidade Federal de Minas Gerais no período de 1985 a 2008. Os dados foram coletados dos prontuários e durante as consultas ambulatoriais. RESULTADOS: A idade ao diagnóstico variou de 2,8 a 15,1 anos, com média de 8,8±0,9 anos. A forma de apresentação predominante foi hepática (53%), seguida por assintomáticos provenientes de triagem familiar. O anel de Kayser-Fleischer foi encontrado em 41% dos pacientes. A ceruloplasmina encontrava-se alterada em 15/17 pacientes e o cobre urinário variou de 24 a 1000mcg/24h (mediana: 184mcg/24h). O tratamento instituído foi a D-penicilamina. Observaram-se efeitos colaterais em cinco crianças, sem necessidade de interrupção ou troca da medicação. As respostas clínica e laboratorial, com níveis normais de aminotransferases, foram evidenciadas em 14 pacientes após mediana de 10,7 meses de tratamento. Três crianças morreram (uma por hepatite fulminante e duas com complicações da insuficiência hepática grave), apesar do tratamento. CONCLUSÕES: A doença de Wilson é rara na faixa etária pediátrica. A forma de apresentação predominante é a hepática. Seu diagnóstico se baseia principalmente em dosagem de ceruloplasmina baixa, cobre livre e cobre em urina de 24 horas elevados, mas exige alto grau de suspeição. Apresenta boa resposta e tolerância ao tratamento medicamentoso.

Clinical features and therapeutic response in Taiwanese children with Wilson's disease: 12 years of experience in a single center

BACKGROUND

Wilson's disease (WD) is an autosomal recessive defect of cellular copper export. Early diagnosis in children is difficult due to its obscure clinical presentations. The efficacy of zinc salts is well documented, although there are limited data concerning zinc use in pediatric patients with WD.

METHODS

We performed a retrospective analysis of clinical features, laboratory results and treatment responses in children with WD diagnosed at Taichung Veterans General Hospital between 1996 and 2008. Diagnosis was established by low serum ceruloplasmin, high 24-hour urinary copper excretion, presence of Kayser-Fleischer rings, and mutation analysis.

RESULTS

Eleven children were included in this study. The main initial presentations were impaired liver function tests (6/11) and hemolytic anemia (2/11). Gene studies in seven children showed six different mutations (G934D, R778Q, C490X, 304insC, IVS4-1 G > C, P992I) and one possible novel mutation (L1181P). All patients had improved liver function tests and hemoglobin levels after treatment with D-penicillamine, trientine and zinc supplement therapy. During a mean period of 3.4 +/- 2.1 years with zinc therapy, six patients had serum zinc levels above the normal limit, and seven patients had serum copper levels below the normal range.

CONCLUSION

Serum ceruloplasmin and 24-hour urinary copper examinations could be used to rule out WD in children with chronic hepatitis and hemolytic anemia. Gene analysis is helpful for prompt diagnosis of asymptomatic siblings and patients with atypical features. Zinc treatment is generally safe in pediatric patients with WD. However, its adverse effects should be monitored.

La maladie de Wilson

Wilson disease is an autosomal recessive disorder of copper overload. A principal characteristic of this disease is its wide phenotypic and genotypic variability. Its results from mutations of the ATP 7B gene located on chromosome 13, that encodes a hepatic copper transport protein. More than 300 mutations of this gene have been identified. This protein ensures the transport of copper in the hepatocyte, its incorporation with the apoceruloplasmin and its biliary excretion. The clinical manifestations are heterogeneous as well in their presentation, dominated by the neuropsychiatric and hepatic symptoms, as in the age of the first symptoms. Early recognition and initiation of therapy with chelators or zinc are essential for prognosis. Liver transplantation is indicated in cases with fulminant hepatitis, end-stage liver cirrhosis and should be considered in the therapy resistant neurological forms. A regular follow-up with monitoring of adverse effects of treatment and compliance is essential. Any discontinuation of treatments will involve, within a very variable time, but in constant manner, a reappearance or a reaggravation of the signs. Such relapses are often brutal and can be extremely serious, especially since response to subsequent treatment is often poor.

Excretion of copper complexed with thiomolybdate into the bile and blood in LEC rats

Copper (Cu) accumulating in a form bound to metallothionein (MT) in the liver of Long-Evans rats with a cinnamon-like coat color (LEC rats), an animal model of Wilson disease, was removed with ammonium tetrathiomolybdate (TTM), and the fate of the Cu complexed with TTM and mobilized from the liver was determined. TTM was injected intravenously as a single dose of 2, 10 or 50 mg TTM/kg body weight into LEC and Wistar (normal Cu metabolism) rats, and then the concentrations of Cu and molybdenum (Mo) in the bile and plasma were monitored with time after the injection. In Wistar rats, most of the Mo was excreted into the urine, only a small quantity being excreted into the bile, while Cu excreted into the urine decreased. However, in LEC rats, Cu and Mo were excreted into the bile and blood, and the bile is recognized for the first time as the major route of excretion. The Cu excreted into both the bile and plasma was accompanied by an equimolar amount of Mo. The relative ratio of the amounts of Cu excreted into the bile and plasma was 40/60 for the low and high dose groups, and 70/30 for the medium dose group. The systemic dispositions of the Cu mobilized from the liver and the Mo complexed with the Cu were also determined for the kidneys, spleen and brain together with their urinal excretion. Although Mo in the three organs and Cu in the kidneys and spleen were increased or showed a tendency to increase, Cu in the brain was not increased at all doses of TTM.

Comparative mechanism and toxicity of tetra- and dithiomolybdates in the removal of copper

Tetrathiomolybdate (TTM) can be used as a specific chelator to remove copper (Cu) accumulating in the form bound to metallothionein (MT) in the livers of Wilson disease patients and Long-Evans rats with a cinnamon-like coat color (LEC rats). However, an adverse effect, hepatotoxicity, was observed occasionally on its clinical application. The mechanism underlying the adverse effect of TTM has been studied in comparison with dithiomolybdate (DTM), and a safer and more effective therapy by TTM was proposed based on the mechanism. The activity of glutamic-pyruvic transaminase (GPT) in serum was shown to increase significantly on the treatment of Wistar rats with sulfide produced through hydrolytic degradation of TTM and DTM, the latter being more easily degraded. The hydrolytic degradation of TTM was enhanced under acidic conditions. Cu in Cu-containing enzymes such as Cu,Zn-superoxide dismutase (SOD) in liver and ceruloplasmin (Cp) in plasma was decreased by excessive thiomolybdates, the Cu being found in the plasma in the form of a Cu/thiomolybdate/albumin complex. The decreased amounts of Cu in SOD and Cp were explained by the sequestration of Cu from their chaperones by thiomolybdates rather than the direct removal of Cu from the enzymes. Although both TTM and DTM remove Cu from MT, DTM is not appropriate as a therapeutic agent for Wilson disease due to its easy hydrolysis and production of sulfide.

Treatment of Wilson's disease with zinc: XV long-term follow-up studies

Wilson's disease is an inherited disease of copper accumulation caused by a failure of biliary excretion of excess copper. Accumulated copper causes liver disease in these patients, and in perhaps two thirds of patients, it causes brain damage leading to clinical neurologic or psychiatric dysfunction. Maintenance treatment involves reversing the positive copper balance. The earliest approaches have used chelators, such as penicillamine or trientine, which increase the urinary excretion of copper. A more recent approach has used zinc, which blocks the absorption of copper and increases copper excretion in the stool. Because of the high level of endogenously secreted copper in alimentary secretions, the reabsorption of which is partially blocked by zinc therapy, zinc acts to remove accumulated copper from the body as well as prevent its reaccumulation. In the present article we present data on the long-term follow-up (up to 10 years) of maintenance zinc treatment of 141 patients with Wilson's disease. The data presented document that zinc is effective as a sole therapy in the long-term maintenance treatment of Wilson's disease and that it has a low toxicity. The results demonstrate the efficacy of zinc therapy in treating the presymptomatic patient from the beginning of therapy. We also present limited data on the use of zinc in the treatment of pregnant patients and children who have Wilson's disease; these data also indicate efficacy and low toxicity. The median follow-up period for the group as a whole is 4.8 years; for the presymptomatic patients it is 6.5 years; for the children it is 3.6 years.

Wilson disease

Wilson disease is a recessively inherited disorder of copper transport. Clinical features are highly variable, with any combination of neurological, hepatic or psychiatric illness. The age of onset varies from 3 to 50 years of age. Diagnosis is challenging because no specific combination of clinical or biochemical features is necessarily definitive. The genetic defect is due to a variety of abnormalities in a copper-transporting membrane ATPase. Most of the more than 80 mutations are present at a low frequency, and mutations differ between ethnic groups. At least two mutations are sufficiently common to aid in rapid diagnosis, in European and Asian populations respectively. Molecular analysis can provide a definitive diagnosis for asymptomatic sibs. Treatment, using chelating agents or zinc, is most effective when started before permanent tissue damage occurs.

Concurrent administration of D-penicillamine and zinc has no advantages over the use of either single agent on copper excretion in the rat

The present study was conducted to examine in rats whether the combined use of D-penicillamine (DPA) and a zinc salt, or the administration of a DPA/Zn complex could have some advantages over the use of either single agent on the excretion of copper. In a first experiment, three groups of adult male Sprague Dawley rats were given by gavage one of the following treatments for 5 days: 0.5 mmol/kg/day of DPA, 0.046 mmol/kg/day of zinc acetate dihydrate, and 0.5 mmol/kg/day of DPA plus 0.046 mmol/kg/day of zinc acetate dihydrate. A fourth group of rats (control group) received deionized water during the same period. An increase in the urinary excretion of copper was observed following DPA treatment, which continued for at least 5 days after the administration of this compound was stopped. The amount of copper present in the feces, including that in the diet, was approximately 60 times greater than that normally present in control urines. During the period of zinc acetate administration, the amount of copper in the feces was slightly, but significantly greater than that during control, D-penicillamine, or D-penicillamine plus zinc acetate administration. No differences between the treated groups and the control group were found in brain, liver, kidney and spleen concentrations of rats 5 days after the end of the treatment period. In a second experiment, a similar comparison between D-penicillamine and sodium bis(3-mercapto-D-valinato)zinc hexahydrate (Na2[Zn(DPA)2] x 6H2O), both given by gavage, also showed no significant differences in the urinary excretion of copper in rats.

Targeting of tetrathiomolybdate on the copper accumulating in the liver of LEC rats

The uptake of tetrathiomolybdate (TTM) by the liver and the removal of copper (Cu) accumulating in the liver in a form bound to metallothionein (MT) by TTM were studied in Long-Evans cinnamon (LEC) rats, an animal model of Wilson disease, in order to develop better treatments for the disease and Cu toxicity. Although molybdenum (Mo) was incorporated in a dose-dependent manner into the livers of both LEC and Long-Evans agouti (LEA) rats, the original strain of LEC rats used as a reference animal, the uptake into the liver of LEC rats was 13 times higher than that in LEA rats. The concentration of Mo in the soluble fraction plateaued and it was distributed more in the insoluble fraction with a higher dose in LEC rats. The concentration of Cu in the whole livers of LEC rats was decreased by TTM in a dose-dependent manner only at lower doses. However, the concentration of Cu in the soluble fraction continued to decrease with the dose of TTM. The results can be explained in terms of complex formation. Namely, TTM forms a complex with Cu, tentatively referred to a Cu/TTM complex, that can be effluxed into the bloodstream, and then binds selectively to albumin when the dose of TTM is low. On the other hand, TTM forms an insoluble complex, named as a Cu/TTM polymer that is precipitated in the liver when the dose is high. The results further indicate that TTM taken up by a cell is immobilized in the cell through the dose-dependent formation of a complex containing Cu, Mo and sulfur (S), which causes further uptake of TTM. TTM injected into rats or incubated in vitro with serum does not remove Cu from ceruloplasmin. TTM is, thus, suggested to target a cell accumulating excess Cu as Cu-MT, and to remove Cu selectively without interacting with Cu in Cu-enzymes. The results indicate that TTM is taken up by the liver depending on the amount of Cu accumulating in the form of MT, and then Cu is effluxed together with Mo in the form of Cu/TTM complex into the bloodstream.