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3. B4GALT1-congenital disorders of glycosylation presents as a non-neurologic glycosylation disorder with hepatointestinal involvement

Author

Guillard, M, Morava, E, De Ruijter, J, Roscioli, T, Penzien, J, Van Den Heuvel, L, Willemsen, MA, De Brouwer, A, Bodamer, OA, Wevers, RA, Lefeber, DJ, Guillard, M, Morava, E, De Ruijter, J, Roscioli, T, Penzien, J, Van Den Heuvel, L, Willemsen, MA, De Brouwer, A, Bodamer, OA, Wevers, RA, and Lefeber, DJ

Abstract

The clinical phenotype of congenital disorders of glycosylation is heterogeneous, mostly including a severe neurological involvement and multisystem disease. We identified a novel patient with a galactosyltransferase deficiency with mild hepatopathy and coagulation anomalies, but normal psychomotor development. The tissue-specific expression of the defective B4GALT1 gene correlated with the clinical phenotype. © 2011 Mosby Inc. All rights reserved.

Published
2011

4. Mucopolysaccharidosis type II: European recommendations for the diagnosis and multidisciplinary management of a rare disease

Author

Scarpa, M, Almassy, Z, Beck, M, Bodamer, OA, Bruce, IA, de Meirleir, L, Guffon, N, Guillen-Navarro, E, Hensman, P, Jones, S, Kamin, W, Kampmann, C, Lampe, C, Lavery, CA, Leao Teles, E, Link, BK, Lund, AM, Malm, G, Pitz, S, Rothera, M, Stewart, C, Tylki-Szmanska, A, van der Ploeg, Ans, walker, R, Zeman, J, Wraith, JE, Scarpa, M, Almassy, Z, Beck, M, Bodamer, OA, Bruce, IA, de Meirleir, L, Guffon, N, Guillen-Navarro, E, Hensman, P, Jones, S, Kamin, W, Kampmann, C, Lampe, C, Lavery, CA, Leao Teles, E, Link, BK, Lund, AM, Malm, G, Pitz, S, Rothera, M, Stewart, C, Tylki-Szmanska, A, van der Ploeg, Ans, walker, R, Zeman, J, and Wraith, JE

Published
2011

12. Characterization of central manifestations in patients with Niemann-Pick disease type C.

Author

van Gool R, Golden E, Goodlett B, Zhang F, Vogel AP, Tourville JA, Yao K, Cay M, Tiwari S, Yang E, Zekelman LR, Todd N, O'Donnell LJ, Ren B, Bodamer OA, Al-Hertani W, and Upadhyay J

Subjects
Adult, Humans, Magnetic Resonance Imaging methods, Cerebellum diagnostic imaging, Biomarkers, Diffusion Tensor Imaging, Niemann-Pick Disease, Type C genetics, Niemann-Pick Disease, Type C pathology
Abstract

Purpose: Niemann-Pick disease type C (NPC) is a rare lysosomal storage disease characterized by progressive neurodegeneration and neuropsychiatric symptoms. This study investigated pathophysiological mechanisms underlying motor deficits, particularly speech production, and cognitive impairment., Methods: We prospectively phenotyped 8 adults with NPC and age-sex-matched healthy controls using a comprehensive assessment battery, encompassing clinical presentation, plasma biomarkers, hand-motor skills, speech production, cognitive tasks, and (micro-)structural and functional central nervous system properties through magnetic resonance imaging., Results: Patients with NPC demonstrated deficits in fine-motor skills, speech production timing and coordination, and cognitive performance. Magnetic resonance imaging revealed reduced cortical thickness and volume in cerebellar subdivisions (lobule VI and crus I), cortical (frontal, temporal, and cingulate gyri) and subcortical (thalamus and basal ganglia) regions, and increased choroid plexus volumes in NPC. White matter fractional anisotropy was reduced in specific pathways (intracerebellar input and Purkinje tracts), whereas diffusion tensor imaging graph theory analysis identified altered structural connectivity. Patients with NPC exhibited altered activity in sensorimotor and cognitive processing hubs during resting-state and speech production. Canonical component analysis highlighted the role of cerebellar-cerebral circuitry in NPC and its integration with behavioral performance and disease severity., Conclusion: This deep phenotyping approach offers a comprehensive systems neuroscience understanding of NPC motor and cognitive impairments, identifying potential central nervous system biomarkers., Competing Interests: Conflict of Interest Adam P. Vogel is Chief Science Officer of Redenlab Inc. Jaymin Upadhyay and Walla Al-Hertani receive funding support from SanofiGenzyme. Dr. Bodamer and WallaAl-Hertani are, respectively, site Principal Investigator and Co-Investigator for the Early Access Program with Arimoclomol in US Patients with NPC (NCT04316637, Zevra Therapeutics). Walla Al-Hertani is on the advisory board for Beam Therapeutics and Kriya Therapeutics. All other authors declare that they have no competing interests., (Copyright © 2023 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.)

Published
2024
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13. A case of Aicardi syndrome associated with duplication event of Xp22 including SHOX .

Author

Yavuz Saricay L, Hoyek S, Ashit Parikh A, Baldwin G, Bodamer OA, Gonzalez E, and Patel NA

Subjects
Child, Preschool, Female, Humans, Child, Vigabatrin, Retina, Anticonvulsants, Short Stature Homeobox Protein, Aicardi Syndrome diagnosis, Aicardi Syndrome genetics, Spasms, Infantile diagnosis, Spasms, Infantile genetics
Abstract

Background: Aicardi syndrome is a neurodevelopmental disorder characterized by a triad of partial or complete agenesis of the corpus callosum, infantile spasms, and pathognomonic chorioretinal lacunae., Methods: Examination, multimodal imaging, and genetic testing were used to guide diagnosis., Results: We report a case of a pediatric patient who was initially diagnosed with refractory infantile spasms. The patient was unresponsive to conventional antiepileptic therapy, and genetic testing with whole exome and mitochondrial genome sequencing could not identify the underlying cause, so vigabatrin was initiated. The ophthalmic examination under anesthesia for vigabatrin toxicity screening revealed chorioretinal atrophy in the retinal periphery of both eyes, with two 3-disc diameter chorioretinal lacunae superotemporal and inferonasal to the optic nerve in the left eye. Given the neuroimaging findings of corpus callosum hypoplasia with polymicrogyria and ocular findings, the patient was diagnosed with Aicardi syndrome. Genetic testing revealed a novel duplication event at the Xp22 locus., Conclusions: Aicardi syndrome, albeit a rare condition, should always be considered in the differential diagnosis when investigating a female child with refractory seizures in early childhood. Genetic testing may help further our understanding of AIS and the search for a genetic etiology.

Published
2023
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14. Persistent Lactic Acidosis in an Infant With Milk Protein Allergy.

Author

Rabinowitz DG, Brewster RCL, Juttukonda LJ, Bodamer OA, and Palma MJ

Subjects
Infant, Humans, Animals, Milk Proteins adverse effects, Milk, Infant Nutritional Physiological Phenomena, Acidosis, Lactic diagnosis, Acidosis, Lactic etiology, Milk Hypersensitivity complications, Milk Hypersensitivity diagnosis
Published
2023
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15. Insights into the genotype-phenotype relationship of ocular manifestations in Kabuki syndrome.

Author

Shah SS, Fulton A, Jabroun M, Brightman D, Simpson BN, and Bodamer OA

Subjects
Humans, Retrospective Studies, Phenotype, Genotype, Histone Demethylases genetics, Mutation, Abnormalities, Multiple diagnosis, Abnormalities, Multiple genetics, Abnormalities, Multiple pathology, Vestibular Diseases diagnosis, Vestibular Diseases genetics, Vestibular Diseases complications
Abstract

We aim to assess if genotype-phenotype correlations are present within ocular manifestations of Kabuki syndrome (KS) among a large multicenter cohort. We conducted a retrospective, medical record review including clinical history and comprehensive ophthalmological examinations of a total of 47 individuals with molecularly confirmed KS and ocular manifestations at Boston Children's Hospital and Cincinnati Children's Hospital Medical Center. We assessed information regarding ocular structural, functional, and adnexal elements as well as pertinent associated phenotypic features associated with KS. For both type 1 KS (KS1) and type 2 KS (KS2), we observed more severe eye pathology in nonsense variants towards the C-terminus of each gene, KMT2D and KDM6A, respectively. Furthermore, frameshift variants appeared to be not associated with structural ocular elements. Between both types of KS, ocular structural elements were more frequently identified in KS1 compared with KS2, which only involved the optic disc in our cohort. These results reinforce the need for a comprehensive ophthalmologic exam upon diagnosis of KS and regular follow-up exams. The specific genotype may allow risk stratification of the severity of the ophthalmologic manifestation. However, additional studies involving larger cohorts are needed to replicate our observations and conduct powered analyses to more formally risk-stratify based on genotype, highlighting the importance of multicenter collaborations in rare disease research., (© 2023 Wiley Periodicals LLC.)

Published
2023
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16. From Genotype to Phenotype-A Review of Kabuki Syndrome.

Author

Barry KK, Tsaparlis M, Hoffman D, Hartman D, Adam MP, Hung C, and Bodamer OA

Subjects
Phenotype, Genotype, Quality of Life, Histone Demethylases genetics
Abstract

Kabuki syndrome (KS) is a rare neuro-developmental disorder caused by variants in genes of histone modification, including KMT2D and KDM6A . This review assesses our current understanding of KS, which was originally named Niikawa-Kuroki syndrome, and aims to guide surveillance and medical care of affected individuals as well as identify gaps in knowledge and unmet patient needs. Ovid MEDLINE and EMBASE databases were searched from 1981 to 2021 to identify reports related to genotype and systems-based phenotype characterization of KS. A total of 2418 articles were retrieved, and 152 were included in this review, representing a total of 1369 individuals with KS. Genotype, phenotype, and the developmental and behavioral profile of KS are reviewed. There is a continuous clinical phenotype spectrum associated with KS with notable variability between affected individuals and an emerging genotype-phenotype correlation. The observed clinical variability may be attributable to differences in genotypes and/or unknown genetic and epigenetic factors. Clinical management is symptom oriented, fragmented, and lacks established clinical care standards. Additional research should focus on enhancing understanding of the burden of illness, the impact on quality of life, the adult phenotype, life expectancy and development of standard-of-care guidelines.

Published
2022
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17. Targeting neurological abnormalities in lysosomal storage diseases.

Author

van Gool R, Tucker-Bartley A, Yang E, Todd N, Guenther F, Goodlett B, Al-Hertani W, Bodamer OA, and Upadhyay J

Subjects
Autophagy, Blood-Brain Barrier, Humans, Lysosomes, Central Nervous System Diseases, Lysosomal Storage Diseases drug therapy, Lysosomal Storage Diseases genetics
Abstract

Central nervous system (CNS) abnormalities and corresponding neurological and psychiatric symptoms are frequently observed in lysosomal storage disorders (LSDs). The genetic background of individual LSDs is indeed unique to each illness. However, resulting defective lysosomal function within the CNS can transition normal cellular processes (i.e., autophagy) into aberrant mechanisms, facilitating overlapping downstream consequences including neurocircuitry dysfunction, neurodegeneration as well as sensory, motor, cognitive, and psychological symptoms. Here, the neurological and biobehavioral phenotypes of major classes of LSDs are discussed alongside therapeutic strategies in development that aim to tackle neuropathology among other disease elements. Finally, focused ultrasound blood-brain barrier opening is proposed to enhance therapeutic delivery thereby overcoming the key hurdle of central distribution of disease modifying therapies in LSDs., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2022
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18. Congenital microgastria-limb reduction association: A case report and review of the literature.

Author

Shah SS, Rashid A, and Bodamer OA

Subjects
Child, Preschool, Humans, Male, Abnormalities, Multiple pathology, Limb Deformities, Congenital pathology, Stomach abnormalities, Stomach pathology
Abstract

We report a patient with phenotypic semblance to the congenital microgastria-limb reduction association (MLRD). Our patient presented with microgastria, bilateral upper limb anomalies, asplenia, solitary kidney, and mild micrognathia. In addition to the anomalies seen in our patient, MLRD has been associated with respiratory, cardiovascular, and central nervous system anomalies. MLRD is thought to arise from a developmental field defect during embryonic weeks five and six; however, no genetic cause has been elucidated. Along with our patient presentation, we review the literature to further our understanding of the MLRD phenotype spectrum., (© 2020 Wiley Periodicals LLC.)

Published
2020
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20. Clinical Validation of Targeted and Untargeted Metabolomics Testing for Genetic Disorders: A 3 Year Comparative Study.

Author

Almontashiri NAM, Zha L, Young K, Law T, Kellogg MD, Bodamer OA, and Peake RWA

Subjects
Adolescent, Biomarkers metabolism, Child, Child, Preschool, Cohort Studies, Female, Genetic Testing, Humans, Male, Phenotype, Syndrome, Genetic Diseases, Inborn genetics, Metabolism, Inborn Errors genetics, Metabolomics methods
Abstract

Global untargeted metabolomics (GUM) has entered clinical diagnostics for genetic disorders. We compared the clinical utility of GUM with traditional targeted metabolomics (TM) as a screening tool in patients with established genetic disorders and determined the scope of GUM as a discovery tool in patients with no diagnosis under investigation. We compared TM and GUM data in 226 patients. The first cohort (n = 87) included patients with confirmed inborn errors of metabolism (IEM) and genetic syndromes; the second cohort (n = 139) included patients without diagnosis who were undergoing evaluation for a genetic disorder. In patients with known disorders (n = 87), GUM performed with a sensitivity of 86% (95% CI: 78-91) compared with TM for the detection of 51 diagnostic metabolites. The diagnostic yield of GUM in patients under evaluation with no established diagnosis (n = 139) was 0.7%. GUM successfully detected the majority of diagnostic compounds associated with known IEMs. The diagnostic yield of both targeted and untargeted metabolomics studies is low when assessing patients with non-specific, neurological phenotypes. GUM shows promise as a validation tool for variants of unknown significance in candidate genes in patients with non-specific phenotypes.

Published
2020
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21. A defect in the inner kinetochore protein CENPT causes a new syndrome of severe growth failure.

Author

Hung CY, Volkmar B, Baker JD, Bauer JW, Gussoni E, Hainzl S, Klausegger A, Lorenzo J, Mihalek I, Rittinger O, Tekin M, Dallman JE, and Bodamer OA

Subjects
Animals, Female, Gene Knockdown Techniques, Humans, Male, Models, Animal, Zebrafish genetics, Chromosomal Proteins, Non-Histone genetics, Growth Disorders genetics
Abstract

Primordial growth failure has been linked to defects in the biology of cell division and replication. The complex processes involved in microtubule spindle formation, organization and function have emerged as a dominant patho-mechanism in these conditions. The majority of reported disease genes encode for centrosome and centriole proteins, leaving kinetochore proteins by which the spindle apparatus interacts with the chromosomes largely unaccounted for. We report a novel disease gene encoding the constitutive inner kinetochore member CENPT, which is involved in kinetochore targeting and assembly, resulting in severe growth failure in two siblings of a consanguineous family. We herein present studies on the molecular and cellular mechanisms that explain how genetic mutations in this gene lead to primordial growth failure. In both, affected human cell lines and a zebrafish knock-down model of Cenpt, we observed aberrations in cell division with abnormal accumulation of micronuclei and of nuclei with increased DNA content arising from incomplete and/or irregular chromosomal segregation. Our studies underscore the critical importance of kinetochore function for overall body growth and provide new insight into the cellular mechanisms implicated in the spectrum of these severe growth disorders.

Published
2017
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22. Newborn Screening for Pompe Disease.

Author

Bodamer OA, Scott CR, and Giugliani R

Subjects
Humans, Infant, Newborn, Glycogen Storage Disease Type II diagnosis, Neonatal Screening methods
Abstract

Started in 1963 by Robert Guthrie, newborn screening (NBS) is considered to be one of the great public health achievements. Its original goal was to screen newborns for conditions that could benefit from presymptomatic treatment, thereby reducing associated morbidity and mortality. With advances in technology, the number of disorders included in NBS programs increased. Pompe disease is a good candidate for NBS. Because decisions regarding which diseases should be included in NBS panels are made regionally and locally, programs and efforts for NBS for Pompe disease have been inconsistent both in the United States and globally. In this article, published in the "Newborn Screening, Diagnosis, and Treatment for Pompe Disease" guidance supplement, the Pompe Disease Newborn Screening Working Group, an international group of experts in both NBS and Pompe disease, review the methods used for NBS for Pompe disease and summarize results of current and ongoing NBS programs in the United States and other countries. Challenges and potential drawbacks associated with NBS also are discussed., Competing Interests: POTENTIAL CONFLICT OF INTEREST: Dr Bodamer has received research funding from Sanofi Genzyme, and Shire. Dr Scott has received funding from the National Institutes for Health (NIH) and Sanofi Genzyme. Dr Giugliani has received travel grants, investigator fees, and/or speaker honoraria from Sanofi Genzyme; Shire; Amicus; Synageva; BioMarin; and Synageva for participation in advisory boards, expert committees, and educational meetings in the past 12 months., (Copyright © 2017 by the American Academy of Pediatrics.)

Published
2017
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23. Newborn Screening for Lysosomal Storage Disorders.

Author

Peake RW and Bodamer OA

Abstract

Newborn screening is one of the most important public health initiatives to date, focusing on the identification of presymptomatic newborn infants with treatable conditions to reduce morbidity and mortality. The number of screening conditions continues to expand due to advances in screening technologies and the development of novel therapies. Consequently, some of the lysosomal storage disorders are now considered as candidates for newborn screening, although many challenges including identification of late-onset phenotypes remain. This review provides a critical appraisal of the current state of newborn screening for lysosomal storage disorders.

Published
2017
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24. Dark Colored Urine in a 2-Year-Old Child.

Author

Peake RW and Bodamer OA

Subjects
Child, Preschool, Gas Chromatography-Mass Spectrometry, Humans, Male, Alkaptonuria diagnosis, Alkaptonuria urine, Color, Rare Diseases diagnosis, Rare Diseases urine, Urine
Published
2017
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25. Newborn Screening for Lysosomal Storage Disorders: Quo Vadis?

Author

Peake RW, Marsden DL, Bodamer OA, Gelb MH, Millington DS, and Wijburg F

Subjects
Cost-Benefit Analysis, Humans, Infant, Newborn, Lysosomal Storage Diseases therapy, Neonatal Screening economics, Lysosomal Storage Diseases diagnosis, Neonatal Screening statistics & numerical data
Published
2016
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26. Mutations in SLC39A14 disrupt manganese homeostasis and cause childhood-onset parkinsonism-dystonia.

Author

Tuschl K, Meyer E, Valdivia LE, Zhao N, Dadswell C, Abdul-Sada A, Hung CY, Simpson MA, Chong WK, Jacques TS, Woltjer RL, Eaton S, Gregory A, Sanford L, Kara E, Houlden H, Cuno SM, Prokisch H, Valletta L, Tiranti V, Younis R, Maher ER, Spencer J, Straatman-Iwanowska A, Gissen P, Selim LA, Pintos-Morell G, Coroleu-Lletget W, Mohammad SS, Yoganathan S, Dale RC, Thomas M, Rihel J, Bodamer OA, Enns CA, Hayflick SJ, Clayton PT, Mills PB, Kurian MA, and Wilson SW

Subjects
Adolescent, Animals, Cation Transport Proteins metabolism, Child, Child, Preschool, Dystonic Disorders metabolism, Female, Genetic Predisposition to Disease genetics, HEK293 Cells, Humans, Male, Manganese blood, Parkinsonian Disorders metabolism, Pedigree, Young Adult, Zebrafish embryology, Zebrafish metabolism, Cation Transport Proteins genetics, Dystonic Disorders genetics, Homeostasis, Manganese metabolism, Mutation, Parkinsonian Disorders genetics
Abstract

Although manganese is an essential trace metal, little is known about its transport and homeostatic regulation. Here we have identified a cohort of patients with a novel autosomal recessive manganese transporter defect caused by mutations in SLC39A14. Excessive accumulation of manganese in these patients results in rapidly progressive childhood-onset parkinsonism-dystonia with distinctive brain magnetic resonance imaging appearances and neurodegenerative features on post-mortem examination. We show that mutations in SLC39A14 impair manganese transport in vitro and lead to manganese dyshomeostasis and altered locomotor activity in zebrafish with CRISPR-induced slc39a14 null mutations. Chelation with disodium calcium edetate lowers blood manganese levels in patients and can lead to striking clinical improvement. Our results demonstrate that SLC39A14 functions as a pivotal manganese transporter in vertebrates.

Published
2016
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27. Mutations in RIT1 cause Noonan syndrome - additional functional evidence and expanding the clinical phenotype.

Author

Koenighofer M, Hung CY, McCauley JL, Dallman J, Back EJ, Mihalek I, Gripp KW, Sol-Church K, Rusconi P, Zhang Z, Shi GX, Andres DA, and Bodamer OA

Subjects
Adolescent, Animals, Animals, Genetically Modified, Child, Child, Preschool, Disease Models, Animal, Eye Abnormalities genetics, Female, Humans, Infant, Infant, Newborn, Lower Extremity, Lymphedema genetics, Male, Noonan Syndrome genetics, Protein Conformation, Zebrafish genetics, ras Proteins metabolism, MAP Kinase Signaling System, Mutation, Missense, Noonan Syndrome metabolism, ras Proteins genetics
Abstract

RASopathies are a clinically heterogeneous group of conditions caused by mutations in 1 of 16 proteins in the RAS-mitogen activated protein kinase (RAS-MAPK) pathway. Recently, mutations in RIT1 were identified as a novel cause for Noonan syndrome. Here we provide additional functional evidence for a causal role of RIT1 mutations and expand the associated phenotypic spectrum. We identified two de novo missense variants p.Met90Ile and p.Ala57Gly. Both variants resulted in increased MEK-ERK signaling compared to wild-type, underscoring gain-of-function as the primary functional mechanism. Introduction of p.Met90Ile and p.Ala57Gly into zebrafish embryos reproduced not only aspects of the human phenotype but also revealed abnormalities of eye development, emphasizing the importance of RIT1 for spatial and temporal organization of the growing organism. In addition, we observed severe lymphedema of the lower extremity and genitalia in one patient. We provide additional evidence for a causal relationship between pathogenic mutations in RIT1, increased RAS-MAPK/MEK-ERK signaling and the clinical phenotype. The mutant RIT1 protein may possess reduced GTPase activity or a diminished ability to interact with cellular GTPase activating proteins; however the precise mechanism remains unknown. The phenotypic spectrum is likely to expand and includes lymphedema of the lower extremities in addition to nuchal hygroma., (© 2015 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2016
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28. Epidemiology and diagnosis of lysosomal storage disorders; challenges of screening.

Author

Kingma SD, Bodamer OA, and Wijburg FA

Subjects
Early Diagnosis, Early Medical Intervention, Humans, Infant, Newborn, Lysosomal Storage Diseases epidemiology, Risk Assessment, Genetic Carrier Screening methods, Lysosomal Storage Diseases diagnosis, Neonatal Screening methods
Abstract

The lysosomal storage disorders (LSDs) are a group of genetic disorders resulting from defective lysosomal metabolism and subsequent accumulation of substrates. Patients present with a large phenotypic spectrum of disease manifestations that are generally not specific for LSDs, leading to considerable diagnostic delay and missed cases. Introduction of new disease modifying therapies for LSDs has made early diagnosis a priority. Increased awareness, but particularly the introduction of screening programs allow for early diagnosis and timely initiation of treatment. This review will provide insight into the epidemiology and diagnostic process for LSDs. In addition, challenges for carrier screening, high-risk screening and newborn population screening for LSDs are discussed., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published
2015
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29. Diagnosing lysosomal storage disorders: mucopolysaccharidosis type I.

Author

Johnson BA, Dajnoki A, and Bodamer OA

Subjects
Dermatan Sulfate biosynthesis, Dried Blood Spot Testing instrumentation, Enzyme Replacement Therapy, Gene Expression, Heparitin Sulfate biosynthesis, Humans, Iduronidase genetics, Iduronidase therapeutic use, Infant, Infant, Newborn, Leukocytes, Mononuclear enzymology, Mucopolysaccharidosis I drug therapy, Mucopolysaccharidosis I enzymology, Mucopolysaccharidosis I genetics, Mutation, Neonatal Screening, Tandem Mass Spectrometry, Dried Blood Spot Testing methods, Iduronidase deficiency, Leukocytes, Mononuclear chemistry, Mucopolysaccharidosis I diagnosis
Abstract

Mucopolysaccharidosis type I (MPS I) is a lysosomal storage disorder due to deficiency of alpha iduronidase (IDUA). Progressive storage of dermatan and heparan sulfate throughout the body lead to a multiorgan presentation including short stature, dysostosis multiplex, corneal clouding, hearing loss, coarse facies, hepatosplenomegaly, and intellectual disability. Diagnosis of MPS I is based on IDUA enzyme analysis in leukocytes or dried blood spots (DBS) followed by molecular confirmation of the IDUA gene mutations in individuals with low enzyme activity. The advent of mass spectrometry methods for enzyme analysis in DBS has enabled high-throughput screening for MPS I in symptomatic individuals and newborn infants. The following unit provides the detailed analytical protocol for measurement of IDUA activity in DBS using tandem mass spectrometry., (Copyright © 2015 John Wiley & Sons, Inc.)

Published
2015
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30. Subfertility and growth restriction in a new galactose-1 phosphate uridylyltransferase (GALT) - deficient mouse model.

Author

Tang M, Siddiqi A, Witt B, Yuzyuk T, Johnson B, Fraser N, Chen W, Rascon R, Yin X, Goli H, Bodamer OA, and Lai K

Subjects
Alleles, Animals, Brain metabolism, Disease Models, Animal, Female, Galactose administration & dosage, Galactose toxicity, Genotyping Techniques, Glutathione metabolism, Heterozygote, Homozygote, Lactation genetics, Male, Mice, Mice, Knockout, UTP-Hexose-1-Phosphate Uridylyltransferase metabolism, Galactosemias genetics, Infertility genetics, UTP-Hexose-1-Phosphate Uridylyltransferase deficiency, UTP-Hexose-1-Phosphate Uridylyltransferase genetics
Abstract

The first GalT gene knockout (KO) mouse model for Classic Galactosemia (OMIM 230400) accumulated some galactose and its metabolites upon galactose challenge, but was seemingly fertile and symptom free. Here we constructed a new GalT gene-trapped mouse model by injecting GalT gene-trapped mouse embryonic stem cells into blastocysts, which were later implanted into pseudo-pregnant females. High percentage GalT gene-trapped chimera obtained were used to generate heterozygous and subsequently, homozygous GalT gene-trapped mice. Biochemical assays confirmed total absence of galactose-1 phosphate uridylyltransferase (GALT) activity in the homozygotes. Although the homozygous GalT gene-trapped females could conceive and give birth when fed with normal chow, they had smaller litter size (P=0.02) and longer time-to-pregnancy (P=0.013) than their wild-type littermates. Follicle-stimulating hormone levels of the mutant female mice were not significantly different from the age-matched, wild-type females, but histological examination of the ovaries revealed fewer follicles in the homozygous mutants (P=0.007). Administration of a high-galactose (40% w/w) diet to lactating homozygous GalT gene-trapped females led to lethality in over 70% of the homozygous GalT gene-trapped pups before weaning. Cerebral edema, abnormal changes in the Purkinje and the outer granular cell layers of the cerebellum, as well as lower blood GSH/GSSG ratio were identified in the galactose-intoxicated pups. Finally, reduced growth was observed in GalT gene-trapped pups fed with normal chow and all pups fed with high-galactose (20% w/w) diet. This new mouse model presents several of the complications of Classic Galactosemia and will be useful to investigate pathogenesis and new therapies.

Published
2014
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31. The laboratory diagnosis of mucopolysaccharidosis III (Sanfilippo syndrome): A changing landscape.

Author

Bodamer OA, Giugliani R, and Wood T

Subjects
Genetic Testing, Humans, Infant, Newborn, Neonatal Screening, Diagnostic Tests, Routine methods, Mucopolysaccharidosis III diagnosis
Abstract

Mucopolysaccharidosis type III (MPS III) is characterized by progressive neurological deterioration, behavioral abnormalities, a relatively mild somatic phenotype, and early mortality. Because of the paucity of somatic manifestations and the rarity of the disease, early diagnosis is often difficult. Therapy targeting the underlying disease pathophysiology may offer the greatest clinical benefit when started prior to the onset of significant neurologic sequelae. Here we review current practices in the laboratory diagnosis of MPS III in order to facilitate earlier patient identification and diagnosis. When clinical suspicion of MPS III arises, the first step is to order a quantitative assay that screens urine for the presence of glycosaminoglycan biomarkers using a spectrophotometric compound (e.g., dimethylmethylene blue). We recommend testing all patients with developmental delay and/or behavioral abnormalities as part of the diagnostic work-up because quantitative urine screening is inexpensive and non-invasive. Semi-quantitative urine screening assays using cationic dyes on filter paper (e.g., spot tests) have relatively high rates of false-positives and false-negatives and are obsolete. Of note, a negative urinary glycosaminoglycan assay does not necessarily rule out MPS because, in some patients, an overlap in excretion levels with healthy controls may occur. All urine samples that test positive for glycosaminoglycans with a quantitative assay should be confirmed by electrophoresis, thin layer chromatography, or tandem mass spectrometry, which further improves the sensitivity and specificity. The gold standard for diagnosis remains the enzyme activity assay in cultured skin fibroblasts, leukocytes, plasma, or serum, which can be used as a first-line diagnostic test in some regions. Molecular genetic analysis should be offered to all families of patients to allow genetic counseling for informed family planning. For a small number of variants, genotype-phenotype correlations are available and can offer prognostic value. Prenatal testing via enzyme activity assay in chorionic villi or amniotic fluid cells is available at a limited number of centers worldwide, but whenever possible, a molecular genetic analysis is preferred for prenatal diagnosis. To conclude, we discuss the development of newborn screening assays in dried blood spots and high-throughput methods for sequencing the protein-coding regions of the genome (whole exome sequencing) and their relevance to future changes in the MPS III diagnostic landscape., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published
2014
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32. Bridging the gaps between the histopathological and demographic risk factors of preterm birth in a unique Miami inner-city population.

Author

Veerapen MK, Pelaez L, Potter JE, Duthely L, Birusingh R, Rampersaud E, Bodamer OA, and Rodriguez MM

Subjects
Adult, Cohort Studies, Demography, Diabetes, Gestational epidemiology, Female, Florida epidemiology, Humans, Infant, Newborn, Placenta pathology, Placenta Diseases epidemiology, Placenta Diseases pathology, Pre-Eclampsia epidemiology, Pregnancy, Premature Birth epidemiology, Prenatal Care, Prospective Studies, Risk Factors, Urban Population, Young Adult, Premature Birth etiology, Premature Birth pathology
Abstract

We aim to identify the link between placental histological findings and obstetric reports to determine possible risk factors of spontaneous preterm birth (SPTB). We prospectively ascertained birth records and outcomes from all deliveries in our hospital in 1 year. Records were used to determine and stratify for either full-term or preterm [spontaneous or indicated (I)] deliveries. We analyzed for risk factor association using χ(2) tests and common odds ratio estimates (SPSS v21.0). Our cohort totaled 6088 deliveries: 236 IPTB, 43 SPTB, and 5809 term births. Largely Hispanic, we determined race, parity, prenatal care access, preeclampsia, gestational diabetes, and BMI to be highly associated with SPTB (p < 0.01). Histologically, placentas of women with SPTB were twice as likely to have chronic villitis. We found that chronic villitis is associated with SPTB. Results of this study can be used in increasing the understanding of SPTB.

Published
2014
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33. Phenylketonuria Scientific Review Conference: state of the science and future research needs.

Author

Camp KM, Parisi MA, Acosta PB, Berry GT, Bilder DA, Blau N, Bodamer OA, Brosco JP, Brown CS, Burlina AB, Burton BK, Chang CS, Coates PM, Cunningham AC, Dobrowolski SF, Ferguson JH, Franklin TD, Frazier DM, Grange DK, Greene CL, Groft SC, Harding CO, Howell RR, Huntington KL, Hyatt-Knorr HD, Jevaji IP, Levy HL, Lichter-Konecki U, Lindegren ML, Lloyd-Puryear MA, Matalon K, MacDonald A, McPheeters ML, Mitchell JJ, Mofidi S, Moseley KD, Mueller CM, Mulberg AE, Nerurkar LS, Ogata BN, Pariser AR, Prasad S, Pridjian G, Rasmussen SA, Reddy UM, Rohr FJ, Singh RH, Sirrs SM, Stremer SE, Tagle DA, Thompson SM, Urv TK, Utz JR, van Spronsen F, Vockley J, Waisbren SE, Weglicki LS, White DA, Whitley CB, Wilfond BS, Yannicelli S, and Young JM

Subjects
Biopterins therapeutic use, Disease Management, Evidence-Based Medicine, Female, Humans, Infant, Newborn, National Institutes of Health (U.S.), Phenylketonurias diagnosis, Pregnancy, United States, Biopterins analogs & derivatives, Diet Therapy, Phenylketonurias blood, Phenylketonurias therapy, Practice Guidelines as Topic
Abstract

New developments in the treatment and management of phenylketonuria (PKU) as well as advances in molecular testing have emerged since the National Institutes of Health 2000 PKU Consensus Statement was released. An NIH State-of-the-Science Conference was convened in 2012 to address new findings, particularly the use of the medication sapropterin to treat some individuals with PKU, and to develop a research agenda. Prior to the 2012 conference, five working groups of experts and public members met over a 1-year period. The working groups addressed the following: long-term outcomes and management across the lifespan; PKU and pregnancy; diet control and management; pharmacologic interventions; and molecular testing, new technologies, and epidemiologic considerations. In a parallel and independent activity, an Evidence-based Practice Center supported by the Agency for Healthcare Research and Quality conducted a systematic review of adjuvant treatments for PKU; its conclusions were presented at the conference. The conference included the findings of the working groups, panel discussions from industry and international perspectives, and presentations on topics such as emerging treatments for PKU, transitioning to adult care, and the U.S. Food and Drug Administration regulatory perspective. Over 85 experts participated in the conference through information gathering and/or as presenters during the conference, and they reached several important conclusions. The most serious neurological impairments in PKU are preventable with current dietary treatment approaches. However, a variety of more subtle physical, cognitive, and behavioral consequences of even well-controlled PKU are now recognized. The best outcomes in maternal PKU occur when blood phenylalanine (Phe) concentrations are maintained between 120 and 360 μmol/L before and during pregnancy. The dietary management treatment goal for individuals with PKU is a blood Phe concentration between 120 and 360 μmol/L. The use of genotype information in the newborn period may yield valuable insights about the severity of the condition for infants diagnosed before maximal Phe levels are achieved. While emerging and established genotype-phenotype correlations may transform our understanding of PKU, establishing correlations with intellectual outcomes is more challenging. Regarding the use of sapropterin in PKU, there are significant gaps in predicting response to treatment; at least half of those with PKU will have either minimal or no response. A coordinated approach to PKU treatment improves long-term outcomes for those with PKU and facilitates the conduct of research to improve diagnosis and treatment. New drugs that are safe, efficacious, and impact a larger proportion of individuals with PKU are needed. However, it is imperative that treatment guidelines and the decision processes for determining access to treatments be tied to a solid evidence base with rigorous standards for robust and consistent data collection. The process that preceded the PKU State-of-the-Science Conference, the conference itself, and the identification of a research agenda have facilitated the development of clinical practice guidelines by professional organizations and serve as a model for other inborn errors of metabolism., (Copyright © 2014. Published by Elsevier Inc. All rights reserved.)

Published
2014
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34. Update on transcobalamin deficiency: clinical presentation, treatment and outcome.

Author

Trakadis YJ, Alfares A, Bodamer OA, Buyukavci M, Christodoulou J, Connor P, Glamuzina E, Gonzalez-Fernandez F, Bibi H, Echenne B, Manoli I, Mitchell J, Nordwall M, Prasad C, Scaglia F, Schiff M, Schrewe B, Touati G, Tchan MC, Varet B, Venditti CP, Zafeiriou D, Rupar CA, Rosenblatt DS, Watkins D, and Braverman N

Subjects
Adolescent, Adult, Child, Child, Preschool, Female, Humans, Hydroxocobalamin therapeutic use, Infant, Infant, Newborn, Male, Mutation, Treatment Outcome, Vitamin B 12 therapeutic use, Transcobalamins deficiency
Abstract

Transcobalamin (TC) transports cobalamin from blood into cells. TC deficiency is a rare autosomal recessive disorder usually presenting in early infancy with failure to thrive, weakness, diarrhoea, pallor, anemia, and pancytopenia or agammaglobulinemia. It can sometimes resemble neonatal leukemia or severe combined immunodeficiency disease. Diagnosis of TC deficiency is suspected based on megaloblastic anemia, elevation of total plasma homocysteine, and blood or urine methylmalonic acid. It is confirmed by studying the synthesis of TC in cultured fibroblasts, or by molecular analysis of the TCN2 gene. TC deficiency is treatable with supplemental cobalamin, but the optimal type, route and frequency of cobalamin administration and long term patient outcomes are unknown. Here we present a series of 30 patients with TC deficiency, including an update on multiple previously published patients, in order to evaluate the different treatment strategies and provide information about long term outcome. Based on the data presented, current practice appears to favour treatment of individuals with TC deficiency by intramuscular injections of hydroxy- or cyanocobalamin. In most cases presented, at least weekly injections (1 mg IM) were necessary to ensure optimal treatment. Most centres adjusted the treatment regimen based on monitoring CBC, total plasma homocysteine, plasma and urine methylmalonic acid, as well as, clinical status. Finally, continuing IM treatment into adulthood appears to be beneficial.

Published
2014
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35. Patients with type 1 Gaucher disease in South Florida, USA: demographics, genotypes, disease severity and treatment outcomes.

Author

Orenstein M, Barbouth D, Bodamer OA, and Weinreb NJ

Subjects
Adult, Aged, Aged, 80 and over, Enzyme Replacement Therapy, Female, Florida, Gaucher Disease drug therapy, Genotype, Glucosylceramidase genetics, Humans, Male, Middle Aged, Gaucher Disease epidemiology, Gaucher Disease genetics
Abstract

Background: Gaucher disease, an autosomal recessive condition due to deficiency of lysosomal glucocerebrosidase, is a multisystemic disease, with variable age of onset, severity and progression. It is classified into subtypes delineated by the absence (type 1) or presence (type 2 and 3) of primary nervous system involvement. The ethnically diverse, largely immigrant population in South Florida has a spectrum of Gaucher disease phenotypes, creating a challenge for optimization of disease management and an opportunity to explore treatment patterns., Methods: Ninety-three records from patients with Gaucher type I in South Florida were retrieved from the International Collaborative Gaucher Group (ICGG) Registry. Individual genotypes were correlated with severity scores and success at achieving published therapeutic goals for haemoglobin concentration, platelet count, spleen volume, liver volume and amelioration of bone pain and bone crises., Results: The majority of patients were diagnosed during the fifth decade of life. Almost two-thirds were homozygous for the N370S mutation, reflecting the large Ashkenazi Jewish population in South Florida. The majority received imiglucerase (62.8%) at various intervals. 24.5% of patients underwent splenectomy before starting enzyme replacement therapy. After a median 12 treatment years, South Florida patients matched or exceeded the ICCG 4 year therapeutic goal achievement for platelet count (85.4% vs. 79.6% success), spleen volume (93.3% vs. 78.0% success), liver volume (93.4% vs. 90.6% success), and bone crises (100% vs. 99% success). Nevertheless, fewer patients with intact spleens had sustained achievement of all 6 therapeutic goals (30.4% versus 41.4%) and only 40% of the splenectomy patients sustained achievement of 5/5 possible goals. 54.7% of the intact spleen patients continued to have bone pain vs. 29.8% in ICCG. Significantly, only 37% of the ICGG patient cohort had bone pain prior to initiation of treatment compared to 73.4% of the South Florida patients (moderate or severe pain in 59.6%)., Conclusions: Demographic characteristics are a significant determinant of the differences in response to treatment observed in South Florida Gaucher patients compared to those described in the international population enrolled in the ICGG Gaucher Registry. Individual genotypes and ethnic background are important considerations for optimizing patient care for Gaucher disease.

Published
2014
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36. Diagnosing lysosomal storage disorders: mucopolysaccharidosis type II.

Author

Johnson BA, van Diggelen OP, Dajnoki A, and Bodamer OA

Subjects
Dermatan Sulfate metabolism, Female, Glycoproteins deficiency, Glycoproteins genetics, Heparitin Sulfate metabolism, Humans, Lysosomes pathology, Male, Mucopolysaccharidosis II genetics, Dried Blood Spot Testing methods, Fluorometry methods, Glycoproteins blood, Mucopolysaccharidosis II diagnosis
Abstract

Mucopolysaccharidosis type II (MPS II) is an X-linked lysosomal storage disorder caused by a deficiency of iduronate 2-sulfatase (IDS). Progressive, intralysosomal accumulation of the glycosaminoglycans (GAGs) dermatan and heparan sulfate in almost all tissues leads to multi-organ involvement in affected males but to virtual absence of symptoms in heterozygote female carriers due to preferential inactivation of the mutant allele. Diagnosis of MPS II in males is based on IDS analysis in leukocytes, fibroblasts, plasma, or dried blood spots (DBS), whereas IDS activities may be within the normal range in heterozygote females. The advent of fluorometric and mass spectrometry methods for enzyme analysis in DBS has simplified the diagnostic approach for MPS II males. Molecular analysis of the IDS gene confirms the diagnosis of MPS II in males and is the only diagnostic test to confirm carrier status in females. This unit provides detailed analytical protocols for measurement of IDS activity in DBS and plasma using a fluorometric assay., (Copyright © 2013 John Wiley & Sons, Inc.)

Published
2013
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37. Lyso-globotriaosylsphingosine (lyso-Gb3) levels in neonates and adults with the Fabry disease later-onset GLA IVS4+919G>A mutation.

Author

Chien YH, Bodamer OA, Chiang SC, Mascher H, Hung C, and Hwu WL

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Biomarkers blood, Biomarkers metabolism, Child, Child, Preschool, Fabry Disease blood, Female, Glycolipids blood, Heterozygote, Humans, Infant, Infant, Newborn, Male, Middle Aged, Phenotype, Pilot Projects, Sphingolipids blood, Young Adult, Fabry Disease genetics, Fabry Disease metabolism, Glycolipids genetics, Glycolipids metabolism, Mutation, Sphingolipids genetics, Sphingolipids metabolism
Abstract

Lyso-globotriaosylsphingosine (lyso-Gb3) is a useful biomarker in the diagnosis and monitoring of treatment for Fabry disease. However, it is unclear whether lyso-Gb3 is elevated in patients with later-onset Fabry disease. Thus, we measured lyso-Gb3 levels from dried blood spots (DBS) from male newborns with the Fabry disease later-onset phenotype, IVS4+919G>A mutation, and their family members. The lyso-Gb3 levels were below the detection limit in normal control newborns and were slightly higher in adults. In males of all ages with the IVS4+919G>A mutation, lyso-Gb3 levels were elevated and were higher than in age-matched controls. The elevation of lyso-Gb3 levels in males with the IVS4+919G>A mutation was only slightly elevated compared with patients with the classical Fabry phenotype. The measurement of lyso-Gb3 levels is useful in the diagnosis of Fabry disease, including the later-onset phenotype. The DBS lyso-Gb3 level was not elevated in IVS4+919G>A heterozygotes, and is not useful for their diagnosis. Since lyso-Gb3 levels are elevated from birth in Fabry disease males, "an elevated lyso-Gb3 level" may be of little values for deciding when to begin enzyme replacement therapy.

Published
2013
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38. Analysis of lyso-globotriaosylsphingosine in dried blood spots.

Author

Johnson B, Mascher H, Mascher D, Legnini E, Hung CY, Dajnoki A, Chien YH, Maródi L, Hwu WL, and Bodamer OA

Subjects
Adolescent, Adult, Child, Chromatography, High Pressure Liquid, Fabry Disease blood, Fabry Disease diagnosis, Female, Humans, Infant, Newborn, Male, Tandem Mass Spectrometry, Young Adult, Blood Chemical Analysis methods, Dried Blood Spot Testing, Glycolipids blood, Sphingolipids blood
Abstract

Recently, lyso-globotriaosylsphingosine (lyso-Gb3) was found to be elevated in plasma of treatment naive male patients and some female patients with Fabry Disease (FD). This study tested whether lyso-Gb3 could be analyzed in dried blood spots (DBS) from filter cards and whether concentrations are elevated in newborn infants with FD. Lyso-Gb3 concentrations were analyzed in DBS following extraction using a novel HPLC-mass spectrometry (MS)/MS method. Lyso-Gb3 levels in DBS were above the lower limit of quantitation (0.28 ng/mL) in 5/17 newborn FD infants (16 males; range: 1.02-8.81 ng/mL), but in none of the newborn controls, in all 13 patients (4 males) with classic FD (range: 2.06-54.1 ng/mL), in 125/159 Taiwanese individuals with symptomatic or asymptomatic FD who carry the late onset α-galactosidase A (GLA) mutation c.936+919G>A (IVS4+919G>A) (3.75±0.69 ng/mL; range: 0.418-3.97 ng/mL) and in 20/29 healthy controls (0.77±0.24 ng/mL; range: 0.507-1.4 ng/mL). The HPLC-MS/MS method for analysis of lyso-Gb3 is robust and yields reproducible results in DBS in patients with FD. However, concentrations of lyso-Gb3 were below the limit of quantitation in most newborn infants with FD rendering this approach not suitable for newborn screening. In addition, most females with the late onset mutation have undetectable lyso-Gb3 concentrations.

Published
2013
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39. Propionic acidemia: clinical course and outcome in 55 pediatric and adolescent patients.

Author

Grünert SC, Müllerleile S, De Silva L, Barth M, Walter M, Walter K, Meissner T, Lindner M, Ensenauer R, Santer R, Bodamer OA, Baumgartner MR, Brunner-Krainz M, Karall D, Haase C, Knerr I, Marquardt T, Hennermann JB, Steinfeld R, Beblo S, Koch HG, Konstantopoulou V, Scholl-Bürgi S, van Teeffelen-Heithoff A, Suormala T, Sperl W, Kraus JP, Superti-Furga A, Schwab KO, and Sass JO

Subjects
Adolescent, Child, Child, Preschool, Cognition, Female, Humans, Infant, Intellectual Disability, Male, Propionic Acidemia psychology, Propionic Acidemia therapy, Psychomotor Performance, Quality of Life, Retrospective Studies, Treatment Outcome, Propionic Acidemia pathology
Abstract

Background: Propionic acidemia is an inherited disorder caused by deficiency of propionyl-CoA carboxylase. Although it is one of the most frequent organic acidurias, information on the outcome of affected individuals is still limited., Study Design/methods: Clinical and outcome data of 55 patients with propionic acidemia from 16 European metabolic centers were evaluated retrospectively. 35 patients were diagnosed by selective metabolic screening while 20 patients were identified by newborn screening. Endocrine parameters and bone age were evaluated. In addition, IQ testing was performed and the patients' and their families' quality of life was assessed., Results: The vast majority of patients (>85%) presented with metabolic decompensation in the neonatal period. Asymptomatic individuals were the exception. About three quarters of the study population was mentally retarded, median IQ was 55. Apart from neurologic symptoms, complications comprised hematologic abnormalities, cardiac diseases, feeding problems and impaired growth. Most patients considered their quality of life high. However, according to the parents' point of view psychic problems were four times more common in propionic acidemia patients than in healthy controls., Conclusion: Our data show that the outcome of propionic acidemia is still unfavourable, in spite of improved clinical management. Many patients develop long-term complications affecting different organ systems. Impairment of neurocognitive development is of special concern. Nevertheless, self-assessment of quality of life of the patients and their parents yielded rather positive results.

Published
2013
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40. Diagnosing lysosomal storage disorders: Fabry disease.

Author

Bodamer OA, Johnson B, and Dajnoki A

Subjects
Dried Blood Spot Testing methods, Fabry Disease blood, Fabry Disease pathology, Female, High-Throughput Screening Assays methods, Humans, Infant, Newborn, Leukocytes chemistry, Leukocytes cytology, Male, Neonatal Screening methods, Tandem Mass Spectrometry methods, alpha-Galactosidase blood, Fabry Disease diagnosis, Fabry Disease genetics
Abstract

Fabry disease (FD) is an X-linked lysosomal storage disorder due to deficiency of alpha galactosidase A (GLA). Progressive, intralysosomal accumulation of neutral glycosphingolipids in endothelial cells and podocytes leads to multi-organ involvement in affected males and to a lesser extent in affected females. Diagnosis of FD is based on GLA analysis in leukocytes or dried blood spots (DBS) in FD males while GLA activities may be within the normal range in FD females. The advent of fluorometric and mass spectrometry methods for enzyme analysis in DBS has simplified the diagnostic approach for FD males, facilitating high-throughput screening of at risk populations and newborn infants. However, the diagnostic mainstay for FD females remains molecular analysis of the GLA gene. The following unit will provide the detailed analytical protocol for measurement of GLA activity in DBS using tandem mass spectrometry.

Published
2013
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41. Defining the phenotype in congenital disorder of glycosylation due to ALG1 mutations.

Author

Morava E, Vodopiutz J, Lefeber DJ, Janecke AR, Schmidt WM, Lechner S, Item CB, Sykut-Cegielska J, Adamowicz M, Wierzba J, Zhang ZH, Mihalek I, Stockler S, Bodamer OA, Lehle L, and Wevers RA

Subjects
Child, Child, Preschool, Congenital Disorders of Glycosylation diagnosis, Fatal Outcome, Female, Genetic Markers, Humans, Infant, Male, Mannosyltransferases deficiency, Mutation, Phenotype, Young Adult, Congenital Disorders of Glycosylation genetics, Mannosyltransferases genetics
Abstract

Deficiency of β-1,4 mannosyltransferase (MT-1) congenital disorder of glycosylation (CDG), due to ALG1 gene mutations. Features in 9 patients reported previously consisted of prenatal growth retardation, pregnancy-induced maternal hypertension and fetal hydrops. Four patients died before 5 years of age, and survivors showed a severe psychomotor retardation. We report on 7 patients with psychomotor delay, microcephaly, strabismus and coagulation abnormalities, seizures and abnormal fat distribution. Four children had a stable clinical course, two had visual impairment, and 1 had hearing loss. Thrombotic and vascular events led to deterioration of the clinical outcome in 2 patients. Four novel ALG1 mutations were identified. Pathogenicity was determined in alg1 yeast mutants transformed with hALG1. Functional analyses showed all novel mutations representing hypomorphs associated with residual enzyme activity. We extend the phenotypic spectrum including the first description of deafness in MT1 deficiency, and report on mildly affected patients, surviving to adulthood. The dysmorphic features, including abnormal fat distribution and strabismus highly resemble CDG due to phosphomannomutase-2 deficiency (PMM2-CDG), the most common type of CDG. We suggest testing for ALG1 mutations in unsolved CDG patients with a type 1 transferrin isoelectric focusing pattern, especially with epilepsy, severe visual loss and hemorrhagic/thrombotic events.

Published
2012
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42. Diagnosing lysosomal storage disorders: Pompe disease.

Author

Bodamer OA and Dajnoki A

Subjects
Dried Blood Spot Testing, Fluorometry methods, Glycogen Storage Disease Type II blood, High-Throughput Screening Assays methods, Humans, Infant, Infant, Newborn, Neonatal Screening methods, Tandem Mass Spectrometry methods, alpha-Glucosidases genetics, alpha-Glucosidases metabolism, Glycogen Storage Disease Type II diagnosis, alpha-Glucosidases analysis
Abstract

Pompe disease is a lysosomal storage disorder caused by a deficiency of acid alpha glucosidase (GAA). Diagnosis of Pompe disease is typically based on an enzyme analysis of blood or tissues, such as fibroblasts, followed by confirmation through molecular testing. The advent of fluorometric and mass spectrometry methods for enzyme analysis in dried blood spots (DBS) has simplified the diagnostic approach for Pompe disease, facilitating high-throughput screening of at-risk populations and newborn infants. The following unit will provide the detailed analytical protocol for measurement of GAA activity in DBS using tandem mass spectrometry.

Published
2012
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43. Analysis of acid sphingomyelinase activity in dried blood spots using tandem mass spectrometry.

Author

Legnini E, Orsini JJ, Mühl A, Johnson B, Dajnoki A, and Bodamer OA

Subjects
Hematocrit, Humans, Infant, Newborn, Reference Standards, Sphingomyelin Phosphodiesterase standards, Sphingomyelins metabolism, Substrate Specificity, Dried Blood Spot Testing, Sphingomyelin Phosphodiesterase analysis, Tandem Mass Spectrometry standards
Abstract

Background: Niemann Pick disease (NP) is a rare, lysosomal storage disorder due to deficiency of the intra-lysosomal enzyme acid sphingomyelinase (ASM) resulting in intracellular accumulation of sphingomyelin. We evaluated a tandem mass spectrometry (MS/MS) method to analyze ASM activity in dried blood spots (DBS) that may be suitable for laboratory diagnosis of NP including high throughput screening of at-risk populations and potentially for newborn screening., Methods: ASM activity was measured in 3.2 mm punches from DBS. The eluate was incubated with the ASM substrate (N-Hexanoyl-D-erythro-sphingosylphosphorylcholine [C6-sphingomyelin (C(29)H(59)N(2)O(6)P)]) and an internal standard (N-butyroyl-D-erythro-sphingosine [C4-ceramide (C(22)H(43)NO(3))]). ASM product and IS were analyzed using MS/MS in multiple reaction monitoring mode for transitions m/z 370.6>264.3 (ASM internal standard) and m/z 398.6>264.3 (ASM product)., Results: ASM activities were stable for up to 2 months at or below 4℃. Position of the punch in the DBS and/or hematocrit of the DBS had a limited effect on ASM activities. Both intra- and inter-assay variability were below 10%. There was no carry-over. The median ASM activity in 2,085 newborn infants was 9.5 µmol/h/L (mean 10.6) with a SD of 5.06 µmol/h/L. Six of 2,085 (0.3%) infants were found to have ASM activities below the cut-off of 2.5 µmol/h/L. ASM activities were below the cut-off level in all 10 previously diagnosed cases with NP (range: 0.16 to 2.08 µmol/h/L)., Conclusions: This MS/MS method for the measurement of ASM activity in DBS is robust and suitable for laboratory diagnosis of NP.

Published
2012
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44. Free asymmetric dimethylarginine (ADMA) is low in children and adolescents with classical phenylketonuria (PKU).

Author

Huemer M, Simma B, Mayr D, Möslinger D, Mühl A, Schmid I, Ulmer H, and Bodamer OA

Subjects
Adolescent, Arginine blood, Arginine metabolism, Atherosclerosis blood, Atherosclerosis metabolism, Blood Glucose metabolism, Cardiovascular Diseases blood, Cardiovascular Diseases metabolism, Child, Cross-Sectional Studies, Female, Homocysteine blood, Homocysteine metabolism, Humans, Lipid Metabolism, Male, Nitric Oxide metabolism, Nitric Oxide Synthase metabolism, Oxidative Stress, Phenylalanine blood, Phenylalanine metabolism, Arginine analogs & derivatives, Phenylketonurias blood, Phenylketonurias metabolism
Abstract

Introduction: Free asymmetric dimethylarginine (ADMA) is a competitive inhibitor of the nitric oxide synthases (NOS). Suppression of nitric oxide (NO) synthesis increases the risk of atherosclerosis. Nevertheless, in the condition of oxidative stress, NOS blockade by ADMA may exert protective effects. Protein metabolism is altered in patients with phenylketonuria (PKU) on dietary treatment and as shown recently, oxidative stress is high in PKU. Since free ADMA concentrations are determined by both protein metabolism and oxidative stress we hypothesized, that free ADMA levels may be elevated in PKU patients., Design: Sixteen patientswith PKU on dietary treatment (mean age 10.1 ± 5.2 yrs), and 91 healthy children (mean age 11.6 ± 3.7 yrs) participated in a cross sectional study., Results: ADMA, total homocysteine (tHcy) and blood glucose were lower and the L-arginine/ADMA ratio was higher in PKU patients compared to controls. No significant correlation was present between phenylalanine (Phe) concentrations, protein intake, and lipid profile, history of cardiovascular disease or ADMA., Discussion: In contrast to our hypothesis, ADMAwas lower and the L-arginine/ADMA ratio was higher in PKU patients. Therefore, in PKU patients, the regulating function of ADMA on NO synthesis is altered and may thus contribute to oxidative stress.

Published
2012
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45. Lysosomal storage disorder 4+1 multiplex assay for newborn screening using tandem mass spectrometry: application to a small-scale population study for five lysosomal storage disorders.

Author

Orsini JJ, Martin MM, Showers AL, Bodamer OA, Zhang XK, Gelb MH, and Caggana M

Subjects
Dried Blood Spot Testing, Fabry Disease diagnosis, Galactosylceramidase blood, Gaucher Disease diagnosis, Glucosylceramidase blood, Glycogen Storage Disease Type II diagnosis, Humans, Infant, Newborn, Leukodystrophy, Globoid Cell diagnosis, Lysosomal Storage Diseases blood, Niemann-Pick Diseases diagnosis, Quality Control, Sphingomyelin Phosphodiesterase blood, alpha-Glucosidases blood, Lysosomal Storage Diseases diagnosis, Neonatal Screening methods, Tandem Mass Spectrometry methods
Abstract

Background: We sought to modify a previously published tandem mass spectrometry method of screening for 5 lysosomal storage disorders (LSDs) in order to make it better suited for high-throughput newborn screening., Methods: Two 3-mm dried blood spot (DBS) punches were incubated, each with a different assay solution. The quadruplex solution was used for screening for Gaucher, Pompe, Krabbe and Fabry diseases, while a separate solution was used for Niemann-Pick A/B disease., Results: The mean activities of acid-β-glucocerebrosidase (ABG), acid sphingomyelinase (ASM), acid glucosidase (GAA), galactocerebroside-β-galactosidase (GALC) and acid-galactosidase A (GLA) were measured on 5055 unidentified newborns. The mean activities (compared with their disease controls) were, 15.1 (0.35), 22.2 (1.34), 16.8 (0.51), 3.61 (0.23), and 20.7 (1.43) (μmol/L/h), respectively. The number of specimens that fell below our retest level cutoff of <20% daily mean activity (DMA) for each analyte is: ABG (6), ASM (0), GAA (5), GALC (17), and GLA (2)., Conclusions: This method provides a simplified and reliable assay for screening for five LSDs with clear distinction between activities from normal and disease samples. Advantages of this new method include significant decreases in processing time and the number of required assay solutions and overall decreased complexity., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2012
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46. Concurrent FOXP3- and CTLA4-associated genetic predisposition and skewed X chromosome inactivation in an autoimmune disease-prone family.

Author

Seidel MG, Rami B, Item C, Schober E, Zeitlhofer P, Huber WD, Heitger A, Bodamer OA, and Haas OA

Subjects
Adult, Genetic Diseases, X-Linked genetics, Humans, Male, Mutation, Pedigree, Autoimmune Diseases genetics, CTLA-4 Antigen genetics, Forkhead Transcription Factors genetics, Genetic Predisposition to Disease, X Chromosome Inactivation genetics
Abstract

CLTA4 is relevant for FOXP3(+)Treg cells, and the link between skewed X chromosome inactivation (XCI) and autoimmunity is recognized. The observation of immune dysregulation polyendocrinopathy enteropathy X-linked syndrome and multiorgan endocrine autoimmune phenomena in various members of one family, associated with a CTLA4 polymorphism and skewed XCI, provides an in vivo model of how mechanisms of immune dysregulation may cooperate.

Published
2012
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47. Expert recommendations for the laboratory diagnosis of MPS VI.

Author

Wood T, Bodamer OA, Burin MG, D'Almeida V, Fietz M, Giugliani R, Hawley SM, Hendriksz CJ, Hwu WL, Ketteridge D, Lukacs Z, Mendelsohn NJ, Miller N, Pasquali M, Schenone A, Schoonderwoerd K, Winchester B, and Harmatz P

Subjects
Cerebroside-Sulfatase blood, Cerebroside-Sulfatase urine, Dried Blood Spot Testing, Humans, Mucopolysaccharidosis VI enzymology, Glycosaminoglycans urine, Mucopolysaccharidosis VI diagnosis, N-Acetylgalactosamine-4-Sulfatase blood, N-Acetylgalactosamine-4-Sulfatase genetics, N-Acetylgalactosamine-4-Sulfatase urine
Abstract

Mucopolysaccharidosis VI (MPS VI) is a lysosomal storage disease caused by a deficiency of N-acetylgalactosamine 4-sulfatase (arylsulfatase B, ASB). This enzyme is required for the degradation of dermatan sulfate. In its absence, dermatan sulfate accumulates in cells and is excreted in large quantities in urine. Specific therapeutic intervention is available; however, accurate and timely diagnosis is crucial for maximal benefit. To better understand the current practices for diagnosis and to establish diagnostic guidelines, an international MPS VI laboratory diagnostics scientific summit was held in February of 2011 in Miami, Florida. The various steps in the diagnosis of MPS VI were discussed including urinary glycosaminoglycan (uGAG) analysis, enzyme activity analysis, and molecular analysis. The following conclusions were reached. Dilute urine samples pose a significant problem for uGAG analysis and MPS VI patients can be missed by quantitative uGAG testing alone as dermatan sulfate may not always be excreted in large quantities. Enzyme activity analysis is universally acknowledged as a key component of diagnosis; however, several caveats must be considered and the appropriate use of reference enzymes is essential. Molecular analysis supports enzyme activity test results and is essential for carrier testing, subsequent genetic counseling, and prenatal testing. Overall the expert panel recommends caution in the use of uGAG screening alone to rule out or confirm the diagnosis of MPS VI and acknowledges enzyme activity analysis as a critical component of diagnosis. Measurement of another sulfatase enzyme to exclude multiple sulfatase deficiency was recommended prior to the initiation of therapy. When feasible, the use of molecular testing as part of the diagnosis is encouraged. A diagnostic algorithm for MPS VI is provided., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published
2012
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48. Capturing phenotypic heterogeneity in MPS I: results of an international consensus procedure.

Author

de Ru MH, Teunissen QG, van der Lee JH, Beck M, Bodamer OA, Clarke LA, Hollak CE, Lin SP, Rojas MV, Pastores GM, Raiman JA, Scarpa M, Treacy EP, Tylki-Szymanska A, Wraith JE, Zeman J, and Wijburg FA

Subjects
Female, Genetic Association Studies, Hematopoietic Stem Cell Transplantation, Humans, Iduronidase genetics, Iduronidase metabolism, Male, Mucopolysaccharidosis I classification, Mucopolysaccharidosis I metabolism, Mucopolysaccharidosis I therapy, Mucopolysaccharidosis I diagnosis
Abstract

Background: Mucopolysaccharidosis type I (MPS I) is traditionally divided into three phenotypes: the severe Hurler (MPS I-H) phenotype, the intermediate Hurler-Scheie (MPS I-H/S) phenotype and the attenuated Scheie (MPS I-S) phenotype. However, there are no clear criteria for delineating the different phenotypes. Because decisions about optimal treatment (enzyme replacement therapy or hematopoietic stem cell transplantation) need to be made quickly and depend on the presumed phenotype, an assessment of phenotypic severity should be performed soon after diagnosis. Therefore, a numerical severity scale for classifying different MPS I phenotypes at diagnosis based on clinical signs and symptoms was developed., Methods: A consensus procedure based on a combined modified Delphi method and a nominal group technique was undertaken. It consisted of two written rounds and a face-to-face meeting. Sixteen MPS I experts participated in the process. The main goal was to identify the most important indicators of phenotypic severity and include these in a numerical severity scale. The correlation between the median subjective expert MPS I rating and the scores derived from this severity scale was used as an indicator of validity., Results: Full consensus was reached on six key clinical items for assessing severity: age of onset of signs and symptoms, developmental delay, joint stiffness/arthropathy/contractures, kyphosis, cardiomyopathy and large head/frontal bossing. Due to the remarkably large variability in the expert MPS I assessments, however, a reliable numerical scale could not be constructed. Because of this variability, such a scale would always result in patients whose calculated severity score differed unacceptably from the median expert severity score, which was considered to be the 'gold standard'., Conclusions: Although consensus was reached on the six key items for assessing phenotypic severity in MPS I, expert opinion on phenotypic severity at diagnosis proved to be highly variable. This subjectivity emphasizes the need for validated biomarkers and improved genotype-phenotype correlations that can be incorporated into phenotypic severity assessments at diagnosis.

Published
2012
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49. Mutation analysis in 54 propionic acidemia patients.

Author

Kraus JP, Spector E, Venezia S, Estes P, Chiang PW, Creadon-Swindell G, Müllerleile S, de Silva L, Barth M, Walter M, Walter K, Meissner T, Lindner M, Ensenauer R, Santer R, Bodamer OA, Baumgartner MR, Brunner-Krainz M, Karall D, Haase C, Knerr I, Marquardt T, Hennermann JB, Steinfeld R, Beblo S, Koch HG, Konstantopoulou V, Scholl-Bürgi S, van Teeffelen-Heithoff A, Suormala T, Ugarte M, Sperl W, Superti-Furga A, Schwab KO, Grünert SC, and Sass JO

Subjects
Adolescent, Alleles, Child, Child, Preschool, Escherichia coli genetics, Female, Humans, Infant, Introns, Lymphocytes cytology, Male, Mutagenesis, Mutation, Polymorphism, Genetic, Recombinant Proteins metabolism, Reverse Transcriptase Polymerase Chain Reaction methods, DNA Mutational Analysis, Propionic Acidemia diagnosis, Propionic Acidemia genetics
Abstract

Deficiency of propionyl CoA carboxylase (PCC), a dodecamer of alpha and beta subunits, causes inherited propionic acidemia. We have studied, at the molecular level, PCC in 54 patients from 48 families comprised of 96 independent alleles. These patients of various ethnic backgrounds came from research centers and hospitals in Germany, Austria and Switzerland. The thorough clinical characterization of these patients was described in the accompanying paper (Grünert et al. 2012). In all 54 patients, many of whom originated from consanguineous families, the entire PCCB gene was examined by genomic DNA sequencing and in 39 individuals the PCCA gene was also studied. In three patients we found mutations in both PCC genes. In addition, in many patients RT-PCR analysis of lymphoblast RNA, lymphoblast enzyme assays, and expression of new mutations in E.coli were carried out. Eight new and eight previously detected mutations were identified in the PCCA gene while 15 new and 13 previously detected mutations were found in the PCCB gene. One missense mutation, p.V288I in the PCCB gene, when expressed in E.coli, yielded 134% of control activity and was consequently classified as a polymorphism in the coding region. Numerous new intronic polymorphisms in both PCC genes were identified. This study adds a considerable amount of new molecular data to the studies of this disease.

Published
2012
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50. Propionic acidemia: neonatal versus selective metabolic screening.

Author

Grünert SC, Müllerleile S, de Silva L, Barth M, Walter M, Walter K, Meissner T, Lindner M, Ensenauer R, Santer R, Bodamer OA, Baumgartner MR, Brunner-Krainz M, Karall D, Haase C, Knerr I, Marquardt T, Hennermann JB, Steinfeld R, Beblo S, Koch HG, Konstantopoulou V, Scholl-Bürgi S, van Teeffelen-Heithoff A, Suormala T, Sperl W, Kraus JP, Superti-Furga A, Schwab KO, and Sass JO

Subjects
Adolescent, Austria, Child, Child, Preschool, Female, Germany, Humans, Infant, Infant, Newborn, Intelligence Tests, Male, Outpatients, Retrospective Studies, Surveys and Questionnaires, Switzerland, Neonatal Screening methods, Propionic Acidemia diagnosis
Abstract

Background: Whereas propionic acidemia (PA) is a target disease of newborn screening (NBS) in many countries, it is not in others. Data on the benefit of NBS for PA are sparse., Study Design: Twenty PA patients diagnosed through NBS were compared to 35 patients diagnosed by selective metabolic screening (SMS) prompted by clinical findings, family history, or routine laboratory test results. Clinical and biochemical data of patients from 16 metabolic centers in Germany, Austria, and Switzerland were evaluated retrospectively. Additionally, assessment of the intelligent quotient (IQ) was performed. In a second step, the number of PA patients who have died within the past 20 years was estimated based on information provided by the participating metabolic centers., Results: Patients diagnosed through NBS had neither a milder clinical course regarding the number of metabolic crises nor a better neurological outcome. Among NBS patients, 63% were already symptomatic at the time of diagnosis, and <10% of all patients remained asymptomatic. Among all PA patients, 76% were found to be at least mildly mentally retarded, with an IQ <69. IQ was negatively correlated with the number of metabolic decompensations, but not simply with the patients' age. Physical development was also impaired in the majority of patients. Mortality rates tended to be lower in NBS patients compared with patients diagnosed by SMS., Conclusion: Early diagnosis of PA through NBS seems to be associated with a lower mortality rate. However, no significant benefit could be shown for surviving patients with regard to their clinical course, including the number of metabolic crises, physical and neurocognitive development, and long-term complications.

Published
2012
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