Your search keyword '"Hypermanganesemia"' showing total 14 results

1. A novel SLC30A10 missense variant associated with parkinsonism and dystonia without hypermanganesemia.

Author

Lambrianides S, Nicolaou P, Michaelidou M, Kakouris P, Votsi C, Petrou PP, Drousiotou A, Minaidou A, Demetriou P, Voulgaris C, Christodoulou K, Tanteles GA, and Pantzaris M

Subjects

Humans, Mutation, Missense genetics, Dystonia genetics, Dystonic Disorders genetics, Parkinsonian Disorders diagnostic imaging, Parkinsonian Disorders genetics

Published

2020

2. Autosomal-recessive iron deficiency anemia, dystonia and hypermanganesemia caused by new variant mutation of the manganese transporter gene SLC39A14.

Author

Zeglam A, Abugrara A, and Kabuka M

Subjects

Anemia, Iron-Deficiency diagnosis, Child, Preschool, Consanguinity, Dystonia diagnosis, Female, Humans, Metabolism, Inborn Errors diagnosis, Mutation, Missense, Anemia, Iron-Deficiency genetics, Cation Transport Proteins genetics, Dystonia genetics, Manganese blood, Metabolism, Inborn Errors genetics

Abstract

This inborn error of manganese metabolism has only recently been identified. A total of 28 affected individuals from ten families are known worldwide. Mutations in SLC39A14, encoding a Mn uptake transporter, have recently been recognized to cause excessive Mn concentrations in the blood which is believed to be neurotoxic and lead to a parkinsonian-like movement disorder caused by accumulation of Mn in the basal ganglia. We are reporting a new variant of SLC39A14 gene mutation (OMIM 608736 8p21.3) that has never been described in the literature so far. The index case is a 3-year-old female who was born at 30 weeks' gestation by emergency lower segment caesarean section, the second of twins, weighing 1.4 kg. Parents have a consanguineous marriage (first cousins) and have four healthy male children. She presented at 30 months of age with history of unsteady gait of 4 months duration and is progressively worsening. She became stiff and has lost all of her locomotor skills. Apart from low serum iron and iron deficiency anemia, her initial work up was unremarkable. T1-weighted MRI brain showed bilateral hyperintense signal in basal ganglia, mid-brain and pontine tegmentum giving rise to the characteristic eye-of-the-tiger sign. Genetic DNA evaluation (Whole Exome Sequencing WES) identified the homozygous missense variant c.1136.T in exon 7 of SLC39A14 gene which is associated with hypermanganesemia. Whole blood Mn was markedly raised at 150 nmol/L (8 mg/L) (normal 10 nmol/L, 0.7 mg/Bioscientia). This young girl has just started treatment with intravenous disodium calcium edetate and oral iron.

Published

2019

3. A novel homozygous SLC39A14 variant in an infant with hypermanganesemia and a review of the literature

Author

Meijiao Zhang, Liping Zhu, Huiping Wang, Ying Hao, Qingping Zhang, Chunyan Zhao, and Xinhua Bao

Subjects

hypermanganesemia, dystonia, spasticity, SLC39A14, HMNDYT2, Pediatrics, RJ1-570

Abstract

BackgroundManganese (Mn) is an essential trace metal necessary for good health; however, excessive amounts in the body are neurotoxic. To date, three genes (SLC30A10, SLC39A8, and SLC39A14) have been discovered to cause inborn errors in Mn metabolism in humans. As very rare diseases, the clinical features require further clarification.MethodsA male Chinese patient who mainly presented with hypermanganesemia and progressive parkinsonism–dystonia was recruited for this study. We collected and analyzed clinical information, performed whole-exome sequencing (WES), and reviewed the relevant literature.ResultsThe motor-developmental milestones of the patient were delayed at the age of 4 months, followed by rapidly progressive dystonia. The patient displayed elevated Mn concentrations in blood and urine, and brain magnetic resonance imaging (MRI) showed symmetrical hyperintensity on T1-weighted images and hypointensity on T2-weighted images in multiple regions. A novel homozygous variant of the SLC39A14 gene (c.1058T > G, p.L353R) was identified. The patient was treated with disodium calcium edetate chelation (Na2CaEDTA). Three months later, mild improvement in clinical manifestation, blood Mn levels, and brain MRI was observed. To date, 15 patients from 10 families have been reported with homozygous mutations of SLC39A14, with a mean age of onset of 14.9 months. The common initial symptom is motor regression or developmental milestone delay, with a disease course for nearly all patients involving development of progressive generalized dystonia and loss of ambulation before treatment. Additionally, hypermanganesemia manifests as Mn values ranging from 4- to 25-fold higher than normal baseline levels, along with brain MRI results similar to those observed in the recruited patient. Nine SLC39A14 variants have been identified. Seven patients have been treated with Na2CaEDTA, and only one patient achieved obvious clinical improvement.ConclusionWe identified a novel SLC39A14 mutation related to autosomal recessive hypermanganesemia with dystonia-2, which is a very rare disease. Patients present motor regression or delay of developmental milestones and develop progressive generalized dystonia. Chelation therapy with Na2CaEDTA appears to effectively chelate Mn and increase urinary Mn excretion in some cases; however, clinical response varies. The outcome of the disease was unsatisfactory. This study expands the genetic spectrum of this disease.

Published

2023

4. Hypermanganesemia with Dystonia Type 2: A Potentially Treatable Neurodegenerative Disorder: A Case Series in a Tertiary University Hospital.

Author

Alhasan, Khalid A., Alshuaibi, Walaa, Hamad, Muddathir H., Salim, Suha, Jamjoom, Dima Z., Alhashim, Aqeela H., AlGhamdi, Malak Ali, Kentab, Amal Y., and Bashiri, Fahad A.

Subjects

TREATMENT of dystonia, TREATMENT of neurodegeneration, CHELATION therapy, GENETIC mutation, ACADEMIC medical centers, DYSTONIA, GENETIC testing, RETROSPECTIVE studies, ACQUISITION of data, MANGANESE, CASE studies, MEDICAL records, NEURODEGENERATION

Abstract

Importance: Hypermanganesemia with dystonia type 2 is a rare autosomal recessive neurodegenerative disorder characterized by the loss of previously acquired milestones, dystonia, parkinsonian features, a high serum manganese level, and characteristic neuroimaging findings such as bilateral and symmetrically increased T1 and decreased T2/fluid-attenuated inversion recovery signal intensity in the basal ganglia. This condition is secondary to a mutation in the SLC39A14 gene. Objective: To present a series of three cases of hypermanganesemia with dystonia type 2, which was genetically confirmed secondary to a mutation in the SLC39A14 gene, and to describe the treatment and clinical course in these cases. Design: A retrospective case series. Setting: University, Tertiary hospital. Participants: Three unrelated pediatric patients with hypermanganesemia with dystonia type 2, genetically confirmed to be secondary to a mutation in the SLC39A14 gene. Exposures: Chelation therapy using calcium disodium edetate. Main outcome(s) and measure(s): The response to chelation therapy based on clinical improvements in motor and cognition developments. Results: All three patients were started on chelation therapy using calcium disodium edetate, and two of them showed an improvement in their clinical course. The chelation therapy could alter the course of the disease and prevent deterioration in the clinical setting. Conclusions and Relevance: Early diagnosis and intervention with chelating agents, such as calcium disodium edetate, will help change the outcome in patients with hypermanganesemia with dystonia type 2. This finding highlights the importance of early diagnosis and treatment in improving the outcomes of patients with treatable neurodegenerative disorders. [ABSTRACT FROM AUTHOR]

Published

2022

5. Hypermanganesemia with Dystonia Type 2: A Potentially Treatable Neurodegenerative Disorder: A Case Series in a Tertiary University Hospital

Author

Khalid A. Alhasan, Walaa Alshuaibi, Muddathir H. Hamad, Suha Salim, Dima Z. Jamjoom, Aqeela H. Alhashim, Malak Ali AlGhamdi, Amal Y. Kentab, and Fahad A. Bashiri

Subjects

hypermanganesemia, dystonia, chelation therapy, SLC39A14 gene, movement disorders, neurodegenerative disorders, Pediatrics, RJ1-570

Abstract

Importance: Hypermanganesemia with dystonia type 2 is a rare autosomal recessive neurodegenerative disorder characterized by the loss of previously acquired milestones, dystonia, parkinsonian features, a high serum manganese level, and characteristic neuroimaging findings such as bilateral and symmetrically increased T1 and decreased T2/fluid-attenuated inversion recovery signal intensity in the basal ganglia. This condition is secondary to a mutation in the SLC39A14 gene. Objective: To present a series of three cases of hypermanganesemia with dystonia type 2, which was genetically confirmed secondary to a mutation in the SLC39A14 gene, and to describe the treatment and clinical course in these cases. Design: A retrospective case series. Setting: University, Tertiary hospital. Participants: Three unrelated pediatric patients with hypermanganesemia with dystonia type 2, genetically confirmed to be secondary to a mutation in the SLC39A14 gene. Exposures: Chelation therapy using calcium disodium edetate. Main outcome(s) and measure(s): The response to chelation therapy based on clinical improvements in motor and cognition developments. Results: All three patients were started on chelation therapy using calcium disodium edetate, and two of them showed an improvement in their clinical course. The chelation therapy could alter the course of the disease and prevent deterioration in the clinical setting. Conclusions and Relevance: Early diagnosis and intervention with chelating agents, such as calcium disodium edetate, will help change the outcome in patients with hypermanganesemia with dystonia type 2. This finding highlights the importance of early diagnosis and treatment in improving the outcomes of patients with treatable neurodegenerative disorders.

Published

2022

6. A case of dystonia with polycythemia and hypermanganesemia caused by SLC30A10 mutation: a treatable inborn error of manganese metabolism

Author

Azita Tavasoli, Khadije Arjmandi Rafsanjani, Saba Hemmati, Marziyeh Mojbafan, Elham Zarei, and Soudabeh Hosseini

Subjects

Case report, Dystonia, Hypermanganesemia, Polycythemia, SLC30A10, Pediatrics, RJ1-570

Abstract

Abstract Background Manganese is a critical trace element that not only has antioxidant properties, but also is essential for various metabolic pathways and neurotransmitters production. However, it can be toxic at high levels, particularly in the central nervous system. Manganese intoxication can be acquired, but an inherited form due to autosomal-recessive mutations in the SLC30A10 gene encoding a Mn transporter protein has also been reported recently. These mutations are associated with significant failure of manganese excretion and its storage in the liver, brain (especially basal ganglia), and other peripheral tissues, resulting in toxicity. Case presentation A 10-year-old boy from consanguineous parents presented with a history of progressive truncal instability, gait difficulty, and frequent falls for 2 months. He had dystonia, rigidity, ataxia, dysarthria, bradykinesia and a plethoric skin. Investigations showed polycythemia, low serum iron and ferritin levels, and increased total iron binding capacity. A brain MRI revealed symmetric hyperintensities in the basal ganglia and dentate nucleuses on TI images that were suggestive of brain metal deposition together with clinical manifestations. Serum calcium and copper levels were normal, while the manganese level was significantly higher than normal values. There was no history of environmental overexposure to manganese. Genetic testing showed a homozygous missense mutation in SLC30A10 (c.C1006T, p.His336Tyr) and Sanger sequencing confirmed a homozygous state in the proband and a heterozygous state in the parents. Regular treatment with monthly infusions of disodium calcium edetate and oral iron compounds resulted in decreased serum manganese and hemoglobin levels to normal values, significant resolution of MRI lesions, and partial improvement of neurological symptoms during 6 months of follow-up. Conclusion The syndrome of hepatic cirrhosis, dystonia, polycythemia, and hypermanganesemia caused by SLC30A10 mutation is a treatable inherited metal deposition syndrome. The patient may only have pure neurological without hepatic manifestations. Although this is a rare and potentially fatal inborn error of metabolism, early diagnosis and continuous chelation therapy might improve the symptoms and prevent disease progression.

Published

2019

7. Atypical presentation of SLC30A10 gene mutation with hypermanganesemia, seizures and polycythemia

Author

Spoorthi Jagadish, Lillian Howard, and Sreenath Thati Ganganna

Subjects

Hypermanganesemia, SLC30A10 gene mutation, Dystonia, Polycythemia, T1 hyperintensity, Seizures, Neurology. Diseases of the nervous system, RC346-429, Neurophysiology and neuropsychology, QP351-495

Abstract

Manganese is an essential element that is ubiquitously present in our diet and water supply. It is a cofactor for several critical physiological processes. Elevated blood levels of Manganese secondary to SLC30A10 gene mutation presents distinctly with dystonia, polycythemia, chronic liver disease and a characteristic high T1 signal in basal ganglia on brain MRI. The primary treatment for this condition is chelation along with iron therapy. We report a previously healthy boy with compound heterozygous SLC30A10 gene mutations who had a unique clinical presentation with prominent seizures, polycythemia, and characteristic T1 hyperintensity in basal ganglia. Seizures have not been previously reported to be associated with this specific mutation.

Published

2021

8. Hypermanganesemia due to mutations in SLC39A14: further insights into Mn deposition in the central nervous system

Author

L. Marti-Sanchez, J. D. Ortigoza-Escobar, A. Darling, M. Villaronga, H. Baide, M. Molero-Luis, M. Batllori, M. I. Vanegas, J. Muchart, L. Aquino, R. Artuch, A. Macaya, M. A. Kurian, and Pérez Dueñas

Subjects

Manganese homeostasis, SLC39A14, SLC30A10, Dystonia, Pallidum, Hypermanganesemia, Medicine

Abstract

Abstract Background The SLC39A14, SLC30A10 and SLC39A8 are considered to be key genes involved in manganese (Mn) homeostasis in humans. Mn levels in plasma and urine are useful tools for early recognition of these disorders. We aimed to explore further biomarkers of Mn deposition in the central nervous system in two siblings presenting with acute dystonia and hypermanganesemia due to mutations in SLC39A14. These biomarkers may help clinicians to establish faster and accurate diagnosis and to monitor disease progression after chelation therapy is administered. Results A customized gene panel for movement disorders revealed a novel missense variant (c.311G > T; p.Ser104Ile) in SLC39A14 gene in two siblings presenting at the age of 10 months with acute dystonia and motor regression. Mn concentrations were analyzed using inductively coupled mass spectrometry in plasma and cerebrospinal fluid, disclosing elevated Mn levels in the index case compared to control patients. Surprisingly, Mn values were 3-fold higher in CSF than in plasma. We quantified the pallidal index, defined as the ratio between the signal intensity in the globus pallidus and the subcortical frontal white matter in axial T1-weighted MRI, and found significantly higher values in the SLC39A14 patient than in controls. These values increased over a period of 10 years, suggesting the relentless pallidal accumulation of Mn. Following genetic confirmation, a trial with the Mn chelator Na2CaEDTA led to a reduction in plasma Mn, zinc and selenium levels. However, parents reported worsening of cervical dystonia, irritability and sleep difficulties and chelation therapy was discontinued. Conclusions Our study expands the very few descriptions of patients with SLC39A14 mutations. We report for the first time the elevation of Mn in CSF of SLC39A14 mutated patients, supporting the hypothesis that brain is an important organ of Mn deposition in SLC39A14-related disease. The pallidal index is an indirect and non-invasive method that can be used to rate disease progression on follow-up MRIs. Finally, we propose that patients with inherited defects of manganese transport should be initially treated with low doses of Na2CaEDTA followed by gradual dose escalation, together with a close monitoring of blood trace elements in order to avoid side effects.

Published

2018

9. Hypermanganesemia due to mutations in SLC39A14: further insights into Mn deposition in the central nervous system.

Author

Marti-Sanchez, L., Ortigoza-Escobar, J. D., Darling, A., Villaronga, M., Baide, H., Molero-Luis, M., Batllori, M., Vanegas, M. I., Muchart, J., Aquino, L., Artuch, R., Macaya, A., Kurian, M. A., and Dueñas, Pérez

Abstract

Background: The SLC39A14, SLC30A10 and SLC39A8 are considered to be key genes involved in manganese (Mn) homeostasis in humans. Mn levels in plasma and urine are useful tools for early recognition of these disorders. We aimed to explore further biomarkers of Mn deposition in the central nervous system in two siblings presenting with acute dystonia and hypermanganesemia due to mutations in SLC39A14. These biomarkers may help clinicians to establish faster and accurate diagnosis and to monitor disease progression after chelation therapy is administered.Results: A customized gene panel for movement disorders revealed a novel missense variant (c.311G > T; p.Ser104Ile) in SLC39A14 gene in two siblings presenting at the age of 10 months with acute dystonia and motor regression. Mn concentrations were analyzed using inductively coupled mass spectrometry in plasma and cerebrospinal fluid, disclosing elevated Mn levels in the index case compared to control patients. Surprisingly, Mn values were 3-fold higher in CSF than in plasma. We quantified the pallidal index, defined as the ratio between the signal intensity in the globus pallidus and the subcortical frontal white matter in axial T1-weighted MRI, and found significantly higher values in the SLC39A14 patient than in controls. These values increased over a period of 10 years, suggesting the relentless pallidal accumulation of Mn. Following genetic confirmation, a trial with the Mn chelator Na2CaEDTA led to a reduction in plasma Mn, zinc and selenium levels. However, parents reported worsening of cervical dystonia, irritability and sleep difficulties and chelation therapy was discontinued.Conclusions: Our study expands the very few descriptions of patients with SLC39A14 mutations. We report for the first time the elevation of Mn in CSF of SLC39A14 mutated patients, supporting the hypothesis that brain is an important organ of Mn deposition in SLC39A14-related disease. The pallidal index is an indirect and non-invasive method that can be used to rate disease progression on follow-up MRIs. Finally, we propose that patients with inherited defects of manganese transport should be initially treated with low doses of Na2CaEDTA followed by gradual dose escalation, together with a close monitoring of blood trace elements in order to avoid side effects. [ABSTRACT FROM AUTHOR]

Published

2018

10. A case of dystonia with polycythemia and hypermanganesemia caused by SLC30A10 mutation: a treatable inborn error of manganese metabolism

Author

Tavasoli, Azita, Arjmandi Rafsanjani, Khadije, Hemmati, Saba, Mojbafan, Marziyeh, Zarei, Elham, and Hosseini, Soudabeh

Published

2019

11. Dystonia with brain manganese accumulation resulting from SLC30A10 mutations: A new treatable disorder.

Author

Stamelou, Maria, Tuschl, Karin, Chong, W. K., Burroughs, Andrew K., Mills, Philippa B., Bhatia, Kailash P., and Clayton, Peter T.

Abstract

Background: The first gene causing early-onset generalized dystonia with brain manganese accumulation has recently been identified. Mutations in the SLC30A10 gene, encoding a manganese transporter, cause a syndrome of hepatic cirrhosis, dystonia, polycythemia, and hypermanganesemia. Methods: We present 10-year longitudinal clinical features, MRI data, and treatment response to chelation therapy of the originally described patient with a proven homozygous mutation in SLC30A10. Results: The patient presented with early-onset generalized dystonia and mild hyperbilirubinemia accompanied by elevated whole-blood manganese levels. T1-sequences in MRI showed hyperintensities in the basal ganglia and cerebellum, characteristic of manganese deposition. Treatment with intravenous disodium calcium edetate led to clinical improvement and reduction of hyperintensities in brain imaging. Conclusions: We wish to highlight this rare disorder, which, together with Wilson's disease, is the only potentially treatable inherited metal storage disorder to date, that otherwise can be fatal as a result of complications of cirrhosis. © 2012 Movement Disorder Society [ABSTRACT FROM AUTHOR]

Published

2012

12. A case of dystonia with polycythemia and hypermanganesemia caused by SLC30A10 mutation: a treatable inborn error of manganese metabolism

Author

Marziyeh Mojbafan, Soudabeh Hosseini, Elham Zarei, Saba Hemmati, Azita Tavasoli, and Khadije Arjmandi Rafsanjani

Subjects

Proband, Male, medicine.medical_specialty, Cirrhosis, Ataxia, Genotype, Mutation, Missense, Case Report, Neuroimaging, Polycythemia, 03 medical and health sciences, Consanguinity, 0302 clinical medicine, Metabolic Diseases, 030225 pediatrics, Internal medicine, Exome Sequencing, medicine, Missense mutation, Humans, Point Mutation, 030212 general & internal medicine, Child, Cation Transport Proteins, Edetic Acid, Dystonia, Manganese, medicine.diagnostic_test, business.industry, SLC30A10, lcsh:RJ1-570, Brain, lcsh:Pediatrics, medicine.disease, Magnetic Resonance Imaging, Hyperintensity, Chelation Therapy, Endocrinology, Inborn error of metabolism, Hypermanganesemia, Pediatrics, Perinatology and Child Health, Serum iron, medicine.symptom, business, Iron Compounds

Abstract

Background Manganese is a critical trace element that not only has antioxidant properties, but also is essential for various metabolic pathways and neurotransmitters production. However, it can be toxic at high levels, particularly in the central nervous system. Manganese intoxication can be acquired, but an inherited form due to autosomal-recessive mutations in the SLC30A10 gene encoding a Mn transporter protein has also been reported recently. These mutations are associated with significant failure of manganese excretion and its storage in the liver, brain (especially basal ganglia), and other peripheral tissues, resulting in toxicity. Case presentation A 10-year-old boy from consanguineous parents presented with a history of progressive truncal instability, gait difficulty, and frequent falls for 2 months. He had dystonia, rigidity, ataxia, dysarthria, bradykinesia and a plethoric skin. Investigations showed polycythemia, low serum iron and ferritin levels, and increased total iron binding capacity. A brain MRI revealed symmetric hyperintensities in the basal ganglia and dentate nucleuses on TI images that were suggestive of brain metal deposition together with clinical manifestations. Serum calcium and copper levels were normal, while the manganese level was significantly higher than normal values. There was no history of environmental overexposure to manganese. Genetic testing showed a homozygous missense mutation in SLC30A10 (c.C1006T, p.His336Tyr) and Sanger sequencing confirmed a homozygous state in the proband and a heterozygous state in the parents. Regular treatment with monthly infusions of disodium calcium edetate and oral iron compounds resulted in decreased serum manganese and hemoglobin levels to normal values, significant resolution of MRI lesions, and partial improvement of neurological symptoms during 6 months of follow-up. Conclusion The syndrome of hepatic cirrhosis, dystonia, polycythemia, and hypermanganesemia caused by SLC30A10 mutation is a treatable inherited metal deposition syndrome. The patient may only have pure neurological without hepatic manifestations. Although this is a rare and potentially fatal inborn error of metabolism, early diagnosis and continuous chelation therapy might improve the symptoms and prevent disease progression.

Published

2019

13. Inherited manganism: The “cock-walk” gait and typical neuroimaging features.

Author

Avelino, Marcela Amaral, Fusão, Eduardo Ferracioli, Pedroso, José Luiz, Arita, Juliana Harumi, Ribeiro, Reinaldo Teixeira, Pinho, Ricardo Silva, Tuschl, Karin, Barsottini, Orlando G.P., and Masruha, Marcelo Rodrigues

Subjects

*GAIT in humans, *MAGNETIC resonance imaging, *BRAIN imaging, *MANGANESE in the body, *HOMEOSTASIS, *LIVER diseases, *GENETIC testing, *DYSTONIA

Abstract

Abstract: Manganese (Mn) toxicity causes an extrapyramidal, parkinsonian-type movement disorder with characteristic magnetic resonance images of Mn accumulation in the basal ganglia. This letter highlights the neurological manifestations and neuroimaging features of inherited manganism (IMn), an unusual and treatable inborn error of Mn homeostasis. Early-onset dystonia with “cock-walk” gait and hyperintense signal in basal ganglia, associated to polycythemia, chronic liver disease and hypermanganesemia, promptly suggest IMn, and a genetic evaluation should be performed. [Copyright &y& Elsevier]

Published

2014

14. Dystonia with Brain Manganese Accumulation Resulting From SLC30A10 Mutations: A New Treatable Disorder

Author

Karin Tuschl, Philippa B. Mills, Peter E. Clayton, W. K. Chong, Andrew K. Burroughs, Maria Stamelou, and Kailash P. Bhatia

Subjects

Cerebellum, Pathology, medicine.medical_specialty, Cirrhosis, Zinc Transporter 8, medicine.disease_cause, hypermanganesemia, Young Adult, Basal ganglia, medicine, Humans, Chelation therapy, Longitudinal Studies, Cation Transport Proteins, Chelating Agents, Dystonia, Mutation, Manganese, medicine.diagnostic_test, business.industry, SLC30A10, cirrhosis, Brain, Magnetic resonance imaging, Pentetic Acid, medicine.disease, Magnetic Resonance Imaging, Hyperintensity, medicine.anatomical_structure, Neurology, polycythemia, Brief Reports, Female, Neurology (clinical), business

Abstract

Background The first gene causing early-onset generalized dystonia with brain manganese accumulation has recently been identified. Mutations in the SLC30A10 gene, encoding a manganese transporter, cause a syndrome of hepatic cirrhosis, dystonia, polycythemia, and hypermanganesemia. Methods We present 10-year longitudinal clinical features, MRI data, and treatment response to chelation therapy of the originally described patient with a proven homozygous mutation in SLC30A10. Results The patient presented with early-onset generalized dystonia and mild hyperbilirubinemia accompanied by elevated whole-blood manganese levels. T1-sequences in MRI showed hyperintensities in the basal ganglia and cerebellum, characteristic of manganese deposition. Treatment with intravenous disodium calcium edetate led to clinical improvement and reduction of hyperintensities in brain imaging. Conclusions We wish to highlight this rare disorder, which, together with Wilson's disease, is the only potentially treatable inherited metal storage disorder to date, that otherwise can be fatal as a result of complications of cirrhosis. © 2012 Movement Disorder Society.

Published

2012