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3. Innenohrschwerhörigkeit als Folge einer Propionazidämie

Author

Michels, L, Trefz, FK, Scheible, D, de Maddalena, H, and Brosch, S

Subjects
ddc: 610
Abstract

Die Propionazidämie ist eine vererbte Abbaustörung der verzweigtkettigen Aminosäuren. Es liegt ein Defekt der biotinabhängigen Propionyl-CoA-Carboxylase zugrunde. Bei Nichtbehandlung kommt es bereits beim Neugeborenen zu einer schweren Stoffwechselentgleisung, neurologischen Symptomen, Atemstörung und Koma. Eine frühe Diagnostik, diätetische und medikamentöse Behandlung lässt viele Patienten ein (fast) normales Leben führen. Neben einer mentalen Retardierung bestehen bleibende Schädigungen des visuellen sensorischen Systems. Bisher sind keine Zusammenhänge mit Innenohrschädigungen beschrieben. Wir haben mehrere Fälle von Schwerhörigkeiten beobachtet, so dass sich der Verdacht auf einen möglichen Zusammenhang zwischen der Stoffwechselstörung und einer Hörschädigung ergab. Bisher wurden 5 Patienten (Alter 6-23 Jahre) untersucht, von denen 4 mit Hörgeräten versorgt waren. In der audiologischen Diagnostik zeigten sich unterschiedliche Schweregrade von Hörschädigungen. Sehr stark variierte auch das Alter bei der Erstdiagnose (ein Jahr bis 13 Jahre). In einem zweiten Schritt werden molekulargenetische Untersuchungen durchgeführt. Bei einem Teil der Betroffenen besteht möglicherweise ein Zusammenhang zwischen einer Propionazidämie und einer Innenohrschwerhörigkeit. Die Ätiologie ist bislang unklar. Bei allen Patienten mit Propionazidämie sollte deshalb eine pädaudiologische Untersuchung sowohl in der frühen Manifestationsphase als auch im Verlauf durchgeführt werden.

Published
2004

4. Haplotype distribution and molecular defects of PKU in Italy

Author

Dianzani I, Saglio G, Ferrero GB, Romeo G, Devoto M, Romano C, Cerone R, Giovannini M, Riva E, Trefz FK, Lichter Konechi U, Woo SL, CAMASCHELLA , CLARA, Dianzani, I, Camaschella, Clara, Saglio, G, Ferrero, Gb, Romeo, G, Devoto, M, Romano, C, Cerone, R, Giovannini, M, Riva, E, Trefz, Fk, Lichter Konechi, U, and Woo, Sl

Published
1990

20. Linkage relationships and allelic associations of the cystic fibrosis locus and four marker loci.

Author

Schmidke, J., Krawczak, M., Schwartz, M., Alkan, M., Bonduelle, M, Bühler, E M, Chemke, M., Darnedde, T., Domagk, J., Engel, W., Frey, D., Fryburg, K., Halley, Dicky J J, Hundrieser, J., Ladanyi, L., Libaers, I., Lissens, Willy, Mächler, M., Malik, N J, Morreau, J., Neubauer, V., Oostra, B., Pape, B., Poncin, Jacques, Schinzel, Albert, Simon, Philippe, Trefz, FK, Tümmler, B., Vassart, Gilbert, Voss, R., Schmidke, J., Krawczak, M., Schwartz, M., Alkan, M., Bonduelle, M, Bühler, E M, Chemke, M., Darnedde, T., Domagk, J., Engel, W., Frey, D., Fryburg, K., Halley, Dicky J J, Hundrieser, J., Ladanyi, L., Libaers, I., Lissens, Willy, Mächler, M., Malik, N J, Morreau, J., Neubauer, V., Oostra, B., Pape, B., Poncin, Jacques, Schinzel, Albert, Simon, Philippe, Trefz, FK, Tümmler, B., Vassart, Gilbert, and Voss, R.

Abstract

The linkage relationships between the cystic fibrosis (CF) locus and four marker loci (MET-H, MET-D, D7S8 and D7S16), allelic associations between these loci and the extent of informativity at these marker loci were investigated in a sample of 206 families with at least one child affected by CF. The data were contributed by 11 laboratories from Europe and Israel. The maximum lod scores and recombination frequency estimates (luminal diameter) (and confidence limits of luminal diameter) were: 18.3 at luminal diameter = 0.007 (0.001-0.038) for CF vs. MET, 11.0 at luminal diameter = 0.016 (0.001-0.068) for CF vs. D7S8, and 5.7 at luminal diameter = 0.0 (0.0-0.064) for CF vs. D7S16. A gene order of CF-MET-D7S8 was best supported by the data, but its preference to the order D7S8-CF-MET is mainly based on one single family. There are significant allelic associations between CF, MET, D7S8 and D7S16; these allelic associations affect the risk of random individuals to be carriers of CF., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
1987

21. Endocarditis lenta durch Lactobacillus salivarius subsp. salicinicus

Author

Lutz P, Sievers C, Trefz Fk, and Berger U

Subjects
biology, business.industry, Lactobacillus salivarius, General Medicine, medicine.disease, biology.organism_classification, Microbiology, Penicillin, Causative organism, TOOTH EXTRACTIONS, Ampicillin, Antibiotic cover, High doses, Medicine, Endocarditis, business, medicine.drug
Abstract

After two tooth extractions performed without antibiotic cover endocarditis lenta occurred in a ten-year-old girl. The causative organism isolated was Lactobacillus salivarius subsp. salicinicus, the first such reported case. The child has a small, haemodynamically insignificant, ventricular septal defect. A cure was achieved after long-term administration of penicillin G in high doses, at first combined with ampicillin. There were no complications.

Published
1976

23. Efficacy of sapropterin dihydrochloride (tetrahydrobiopterin, 6R-BH4) for reduction of phenylalanine concentration in patients with phenylketonuria: a phase III randomised placebo-controlled study.

Author

Levy HL, Milanowski A, Chakrapani A, Cleary M, Lee P, Trefz FK, Whitley CB, Feillet F, Feigenbaum AS, Bebchuk JD, Christ-Schmidt H, Dorenbaum A, and Sapropterin Research Group

Abstract

BACKGROUND: Early and strict dietary management of phenylketonuria is the only option to prevent mental retardation. We aimed to test the efficacy of sapropterin, a synthetic form of tetrahydrobiopterin (BH4), for reduction of blood phenylalanine concentration. METHODS: We enrolled 89 patients with phenylketonuria in a Phase III, multicentre, randomised, double-blind, placebo-controlled trial. We randomly assigned 42 patients to receive oral doses of sapropterin (10 mg/kg) and 47 patients to receive placebo, once daily for 6 weeks. The primary endpoint was mean change from baseline in concentration of phenylalanine in blood after 6 weeks. Analysis was on an intention-to-treat basis. The study is registered with ClinicalTrials.gov, number NCT00104247. FINDINGS: 88 of 89 enrolled patients received at least one dose of study drug, and 87 attended the week 6 visit. Mean age was 20 (SD 9.7) years. At baseline, mean concentration of phenylalanine in blood was 843 (300) micromol/L in patients assigned to receive sapropterin, and 888 (323) micromol/L in controls. After 6 weeks of treatment, patients given sapropterin had a decrease in mean blood phenylalanine of 236 (257) micromol/L, compared with a 3 (240) micromol/L increase in the placebo group (p<0.0001). After 6 weeks, 18/41 (44%) patients (95% CI 28-60) in the sapropterin group and 4/47 (9%) controls (95% CI 2-20) had a reduction in blood phenylalanine concentration of 30% or greater from baseline. Blood phenylalanine concentrations fell by about 200 micromol/L after 1 week in the sapropterin group and this reduction persisted for the remaining 5 weeks of the study (p<0.0001). 11/47 (23%) patients in the sapropterin group and 8/41 (20%) in the placebo group experienced adverse events that might have been drug-related (p=0.80). Upper respiratory tract infections were the most common disorder. INTERPRETATION: In some patients with phenylketonuria who are responsive to BH4, sapropterin treatment to reduce blood phenylalanine could be used as an adjunct to a restrictive low-phenylalanine diet, and might even replace the diet in some instances. [ABSTRACT FROM AUTHOR]

Published
2007

24. Efficacy and safety of sapropterin before and during pregnancy: Final analysis of the Kuvan® Adult Maternal Paediatric European Registry (KAMPER) maternal and Phenylketonuria Developmental Outcomes and Safety (PKUDOS) PKU-MOMs sub-registries.

Author

Feillet F, Ficicioglu C, Lagler FB, Longo N, Muntau AC, Burlina A, Trefz FK, van Spronsen FJ, Arnoux JB, Lindstrom K, Lilienstein J, Clague GE, Rowell R, and Burton BK

Subjects
Humans, Pregnancy, Female, Adult, Infant, Newborn, Phenylketonuria, Maternal drug therapy, Young Adult, Europe, Pregnancy Complications drug therapy, Pregnancy Complications blood, Registries, Phenylalanine blood, Biopterins analogs & derivatives, Biopterins therapeutic use, Biopterins adverse effects, Phenylketonurias drug therapy, Phenylketonurias blood, Pregnancy Outcome
Abstract

Infants born to mothers with phenylketonuria (PKU) may develop congenital abnormalities because of elevated phenylalanine (Phe) levels in the mother during pregnancy. Maintenance of blood Phe levels between 120 and 360 μmol/L reduces risks of birth defects. Sapropterin dihydrochloride helps maintain blood Phe control, but there is limited evidence on its risk-benefit ratio when used during pregnancy. Data from the maternal sub-registries-KAMPER (NCT01016392) and PKUDOS (NCT00778206; PKU-MOMs sub-registry)-were collected to assess the long-term safety and efficacy of sapropterin in pregnant women in a real-life setting. Pregnancy and infant outcomes, and the safety of sapropterin were assessed. Final data from 79 pregnancies in 57 women with PKU are reported. Sapropterin dose was fairly constant before and during pregnancy, with blood Phe levels maintained in the recommended target range during the majority (82%) of pregnancies. Most pregnancies were carried to term, and the majority of liveborn infants were reported as 'normal' at birth. Few adverse and serious adverse events were considered related to sapropterin, with these occurring in participants with high blood Phe levels. This report represents the largest population of pregnant women with PKU exposed to sapropterin. Results demonstrate that exposure to sapropterin during pregnancy was well-tolerated and facilitated maintenance of blood Phe levels within the target range, resulting in normal delivery. This critical real-world data may facilitate physicians and patients to make informed treatment decisions about using sapropterin in pregnant women with PKU and in women of childbearing age with PKU who are responsive to sapropterin., (© 2024 The Authors. Journal of Inherited Metabolic Disease published by John Wiley & Sons Ltd on behalf of SSIEM.)

Published
2024
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25. 1 H-NMR-based metabolic profiling identifies non-invasive diagnostic and predictive urinary fingerprints in 5q spinal muscular atrophy.

Author

Saffari A, Cannet C, Blaschek A, Hahn A, Hoffmann GF, Johannsen J, Kirsten R, Kockaya M, Kölker S, Müller-Felber W, Roos A, Schäfer H, Schara U, Spraul M, Trefz FK, Vill K, Wick W, Weiler M, Okun JG, and Ziegler A

Subjects
Adolescent, Child, Humans, Infant, Newborn, Magnetic Resonance Imaging, Magnetic Resonance Spectroscopy, Proton Magnetic Resonance Spectroscopy, Muscular Atrophy, Spinal diagnosis, Muscular Atrophy, Spinal genetics, Muscular Dystrophy, Duchenne
Abstract

Background: 5q spinal muscular atrophy (SMA) is a disabling and life-limiting neuromuscular disease. In recent years, novel therapies have shown to improve clinical outcomes. Yet, the absence of reliable biomarkers renders clinical assessment and prognosis of possibly already affected newborns with a positive newborn screening result for SMA imprecise and difficult. Therapeutic decisions and stratification of individualized therapies remain challenging, especially in symptomatic children. The aim of this proof-of-concept and feasibility study was to explore the value of 1 H-nuclear magnetic resonance (NMR)-based metabolic profiling in identifying non-invasive diagnostic and prognostic urinary fingerprints in children and adolescents with SMA., Results: Urine samples were collected from 29 treatment-naïve SMA patients (5 pre-symptomatic, 9 SMA 1, 8 SMA 2, 7 SMA 3), 18 patients with Duchenne muscular dystrophy (DMD) and 444 healthy controls. Using machine-learning algorithms, we propose a set of prediction models built on urinary fingerprints that showed potential diagnostic value in discriminating SMA patients from controls and DMD, as well as predictive properties in separating between SMA types, allowing predictions about phenotypic severity. Interestingly, preliminary results of the prediction models suggest additional value in determining biochemical onset of disease in pre-symptomatic infants with SMA identified by genetic newborn screening and furthermore as potential therapeutic monitoring tool., Conclusions: This study provides preliminary evidence for the use of 1 H-NMR-based urinary metabolic profiling as diagnostic and prognostic biomarker in spinal muscular atrophy., (© 2021. The Author(s).)

Published
2021
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26. Differences of Phenylalanine Concentrations in Dried Blood Spots and in Plasma: Erythrocytes as a Neglected Component for This Observation.

Author

Haas D, Hauke J, Schwarz KV, Consalvi L, Trefz FK, Blau N, Hoffmann GF, Burgard P, Garbade SF, and Okun JG

Abstract

Monitoring phenylalanine (Phe) concentrations is critical for the management of phenylketonuria (PKU). This can be done in dried blood spots (DBS) or in EDTA plasma derived from capillary or venous blood. Different techniques are used to measure Phe, the most common being flow-injection analysis tandem mass spectrometry (FIA-MS-MS) and ion exchange chromatography (IEC). Significant differences have been reported between Phe concentrations in various sample types measured by different techniques, the cause of which is not yet understood. We measured Phe concentrations in 240 venous blood samples from 199 patients with hyperphenylalaninemia in dried blood spots, EDTA plasma and erythrocytes by FIA-MS-MS and IEC. Phe concentrations were significantly lower in erythrocytes than in plasma leading to about 19% lower Phe DBS concentrations compared with plasma independent from the method used for quantification. As most therapy recommendations for PKU patients are based on plasma concentrations reliable conversion of DBS into plasma concentrations is necessary. Variances of Phe concentrations in plasma and DBS are not linear but increases with higher concentrations indicating heteroscedasticity. We therefore suggest the slope of the 75th percentile from quantile regression as a correction factor.

Published
2021
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27. Defining tetrahydrobiopterin responsiveness in phenylketonuria: Survey results from 38 countries.

Author

Evers RAF, van Wegberg AMJ, Ahring K, Beblo S, Bélanger-Quintana A, Bosch AM, Burlina A, Campistol J, Coskun T, Feillet F, Giżewska M, Huijbregts SCJ, Kearney S, Langeveld M, Leuzzi V, Maillot F, Muntau AC, Rocha JC, Romani C, Trefz FK, MacDonald A, and van Spronsen FJ

Subjects
Biopterins adverse effects, Biopterins therapeutic use, Canada epidemiology, Europe epidemiology, Humans, Phenylalanine blood, Phenylalanine Hydroxylase genetics, Phenylketonurias blood, Phenylketonurias epidemiology, Phenylketonurias pathology, United States epidemiology, Biopterins analogs & derivatives, Phenylalanine genetics, Phenylketonurias drug therapy
Abstract

Background: A subset of patients with phenylketonuria benefit from treatment with tetrahydrobiopterin (BH 4 ), although there is no consensus on the definition of BH 4 responsiveness. The aim of this study therefore was to gain insight into the definitions of long-term BH 4 responsiveness being used around the world., Methods: We performed a web-based survey targeting healthcare professionals involved in the treatment of PKU patients. Data were analysed according to geographical region (Europe, USA/Canada, other)., Results: We analysed 166 responses. Long-term BH 4 responsiveness was commonly defined using natural protein tolerance (95.6%), improvement of metabolic control (73.5%) and increase in quality of life (48.2%). When a specific value for a reduction in phenylalanine concentrations was reported (n = 89), 30% and 20% were most frequently used as cut-off values (76% and 19% of respondents, respectively). When a specific relative increase in natural protein tolerance was used to define long-term BH 4 responsiveness (n = 71), respondents most commonly reported cut-off values of 30% and 100% (28% of respondents in both cases). Respondents from USA/Canada (n = 50) generally used less strict cut-off values compared to Europe (n = 96). Furthermore, respondents working within the same center answered differently., Conclusion: The results of this study suggest a very heterogeneous situation on the topic of defining long-term BH 4 responsiveness, not only at a worldwide level but also within centers. Developing a strong evidence- and consensus-based definition would improve the quality of BH 4 treatment., Competing Interests: Declaration of Competing Interest RAFE has received financial support from Biomarin for attending symposia. AMJvW has received a research grant form Nutricia, honoraria from Biomarin as speaker, and travel grants from Nutricia and Vitaflo. AMB has received a speakers fee from Nutricia and has been a member of advisory boards for Biomarin. MG received honoraria and was a consultant for: Nutricia International/Danone, Merck-Serono, Mead Johnson, BioMarin and Vitaflo. JCR has been a member of the European Nutritionist Expert Panel [Biomarin], the Advisory Board for Applied Pharma Research and Nutricia, and received honoraria as a speaker from APR, Merck Serono, Biomarin, Nutricia, Vitaflo, Cambrooke, PIAM and Lifediet. FJvS is a member of scientific advisory boards for PKU and aminoacid defects that are supported by Agios, Applied Pharma Research, Arla Food Int, BioMarin, Eurocept, Homology, Lucane, Nestle-Codexis Alliance, Nutricia, orphan Europe, Rivium Medical BV, Vivet, has received research grants from Alexion, BioMarin, Beatrix Research Fund, Codexis, ESPKU, NPKUA, NPKUV, Nutricia, Sobi, Tyrosinemia Foundation, Vitaflo, ZONMW, and has received honoraria as a consultant and speaker from Applied Pharma Research, Biomarin, MendeliKABS, Nutricia, Pluvia, SoBi, and Vitaflo. AM is an advisory board member for ELEMENT, Danone-Nutricia, Arla, and Applied Pharma Research, and has received research funding and honoraria from Applied Pharma Research, Nutricia, and Vitaflo International. All other authors reported no conflicts of interest., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2021
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28. The Genetic Landscape and Epidemiology of Phenylketonuria.

Author

Hillert A, Anikster Y, Belanger-Quintana A, Burlina A, Burton BK, Carducci C, Chiesa AE, Christodoulou J, Đorđević M, Desviat LR, Eliyahu A, Evers RAF, Fajkusova L, Feillet F, Bonfim-Freitas PE, Giżewska M, Gundorova P, Karall D, Kneller K, Kutsev SI, Leuzzi V, Levy HL, Lichter-Konecki U, Muntau AC, Namour F, Oltarzewski M, Paras A, Perez B, Polak E, Polyakov AV, Porta F, Rohrbach M, Scholl-Bürgi S, Spécola N, Stojiljković M, Shen N, Santana-da Silva LC, Skouma A, van Spronsen F, Stoppioni V, Thöny B, Trefz FK, Vockley J, Yu Y, Zschocke J, Hoffmann GF, Garbade SF, and Blau N

Subjects
Alleles, Biopterins analogs & derivatives, Biopterins genetics, Europe, Gene Frequency genetics, Genetic Association Studies methods, Genotype, Homozygote, Humans, Mutation genetics, Phenotype, Phenylalanine blood, Phenylalanine Hydroxylase genetics, Phenylketonurias blood, Genetic Predisposition to Disease genetics, Phenylketonurias epidemiology, Phenylketonurias genetics
Abstract

Phenylketonuria (PKU), caused by variants in the phenylalanine hydroxylase (PAH) gene, is the most common autosomal-recessive Mendelian phenotype of amino acid metabolism. We estimated that globally 0.45 million individuals have PKU, with global prevalence 1:23,930 live births (range 1:4,500 [Italy]-1:125,000 [Japan]). Comparing genotypes and metabolic phenotypes from 16,092 affected subjects revealed differences in disease severity in 51 countries from 17 world regions, with the global phenotype distribution of 62% classic PKU, 22% mild PKU, and 16% mild hyperphenylalaninemia. A gradient in genotype and phenotype distribution exists across Europe, from classic PKU in the east to mild PKU in the southwest and mild hyperphenylalaninemia in the south. The c.1241A>G (p.Tyr414Cys)-associated genotype can be traced from Northern to Western Europe, from Sweden via Norway, to Denmark, to the Netherlands. The frequency of classic PKU increases from Europe (56%) via Middle East (71%) to Australia (80%). Of 758 PAH variants, c.1222C>T (p.Arg408Trp) (22.2%), c.1066-11G>A (IVS10-11G>A) (6.4%), and c.782G>A (p.Arg261Gln) (5.5%) were most common and responsible for two prevalent genotypes: p.[Arg408Trp];[Arg408Trp] (11.4%) and c.[1066-11G>A];[1066-11G>A] (2.6%). Most genotypes (73%) were compound heterozygous, 27% were homozygous, and 55% of 3,659 different genotypes occurred in only a single individual. PAH variants were scored using an allelic phenotype value and correlated with pre-treatment blood phenylalanine concentrations (n = 6,115) and tetrahydrobiopterin loading test results (n = 4,381), enabling prediction of both a genotype-based phenotype (88%) and tetrahydrobiopterin responsiveness (83%). This study shows that large genotype databases enable accurate phenotype prediction, allowing appropriate targeting of therapies to optimize clinical outcome., (Copyright © 2020 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2020
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29. Untreated PKU Patients without Intellectual Disability: What Do They Teach Us?

Author

van Vliet D, van Wegberg AMJ, Ahring K, Bik-Multanowski M, Casas K, Didycz B, Djordjevic M, Hertecant JL, Leuzzi V, Mathisen P, Nardecchia F, Powell KK, Rutsch F, Stojiljkovic M, Trefz FK, Usurelu N, Wilson C, van Karnebeek CD, Hanley WB, and van Spronsen FJ

Subjects
Adolescent, Adult, Brain metabolism, Child, Delayed Diagnosis, Female, Humans, Individuality, Intellectual Disability genetics, Male, Middle Aged, Phenylketonurias blood, Phenylketonurias diagnosis, Young Adult, Phenylalanine blood, Phenylketonurias psychology
Abstract

Phenylketonuria (PKU) management is aimed at preventing neurocognitive and psychosocial dysfunction by keeping plasma phenylalanine concentrations within the recommended target range. It can be questioned, however, whether universal plasma phenylalanine target levels would result in optimal neurocognitive outcomes for all patients, as similar plasma phenylalanine concentrations do not seem to have the same consequences to the brain for each PKU individual. To better understand the inter-individual differences in brain vulnerability to high plasma phenylalanine concentrations, we aimed to identify untreated and/or late-diagnosed PKU patients with near-normal outcome, despite high plasma phenylalanine concentrations, who are still alive. In total, we identified 16 such cases. While intellectual functioning in these patients was relatively unaffected, they often did present other neurological, psychological, and behavioral problems. Thereby, these "unusual" PKU patients show that the classical symptomatology of untreated or late-treated PKU may have to be rewritten. Moreover, these cases show that a lack of intellectual dysfunction despite high plasma phenylalanine concentrations does not necessarily imply that these high phenylalanine concentrations have not been toxic to the brain. Also, these cases may suggest that different mechanisms are involved in PKU pathophysiology, of which the relative importance seems to differ between patients and possibly also with increasing age. Further research should aim to better distinguish PKU patients with respect to their cerebral effects to high plasma phenylalanine concentrations.

Published
2019
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30. Allelic phenotype values: a model for genotype-based phenotype prediction in phenylketonuria.

Author

Garbade SF, Shen N, Himmelreich N, Haas D, Trefz FK, Hoffmann GF, Burgard P, and Blau N

Subjects
Alleles, Female, Gene Frequency genetics, Genotype, Humans, Male, Mutation, Phenotype, Phenylalanine Hydroxylase physiology, Phenylketonurias diagnosis, Genetic Association Studies methods, Phenylalanine Hydroxylase genetics, Phenylketonurias genetics
Abstract

Purpose: The nature of phenylalanine hydroxylase (PAH) variants determines residual enzyme activity, which modifies the clinical phenotype in phenylketonuria (PKU). We exploited the statistical power of a large genotype database to determine the relationship between genotype and phenotype in PKU., Methods: A total of 9336 PKU patients with 2589 different genotypes, carrying 588 variants, were investigated using an allelic phenotype value (APV) algorithm., Results: We identified 251 0-variants encoding inactive PAH, and assigned APVs (0 = classic PKU; 5 = mild PKU; 10 = mild hyperphenylalaninaemia) to 88 variants in PAH-functional hemizygous patients. The genotypic phenotype values (GPVs) were set equal to the higher-APV allele, which was assumed to be dominant over the lower-APV allele and to determine the metabolic phenotype. GPVs for 8872 patients resulted in cut-off ranges of 0.0-2.7 for classic PKU, 2.8-6.6 for mild PKU and 6.7-10.0 for mild hyperphenylalaninaemia. Genotype-based phenotype prediction was 99.2% for classic PKU, 46.2% for mild PKU and 89.5% for mild hyperphenylalaninaemia. The relationships between known pretreatment blood phenylalanine levels and GPVs (n = 4217), as well as tetrahydrobiopterin responsiveness and GPVs (n = 3488), were significant (both P < 0.001)., Conclusions: APV and GPV are powerful tools to investigate genotype-phenotype associations, and can be used for genetic counselling of PKU families.

Published
2019
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31. Can untreated PKU patients escape from intellectual disability? A systematic review.

Author

van Vliet D, van Wegberg AMJ, Ahring K, Bik-Multanowski M, Blau N, Bulut FD, Casas K, Didycz B, Djordjevic M, Federico A, Feillet F, Gizewska M, Gramer G, Hertecant JL, Hollak CEM, Jørgensen JV, Karall D, Landau Y, Leuzzi V, Mathisen P, Moseley K, Mungan NÖ, Nardecchia F, Õunap K, Powell KK, Ramachandran R, Rutsch F, Setoodeh A, Stojiljkovic M, Trefz FK, Usurelu N, Wilson C, van Karnebeek CD, Hanley WB, and van Spronsen FJ

Subjects
Female, Humans, Male, Phenylalanine blood, Intellectual Disability blood, Intellectual Disability etiology, Phenylketonurias blood, Phenylketonurias complications
Abstract

Background: Phenylketonuria (PKU) is often considered as the classical example of a genetic disorder in which severe symptoms can nowadays successfully be prevented by early diagnosis and treatment. In contrast, untreated or late-treated PKU is known to result in severe intellectual disability, seizures, and behavioral disturbances. Rarely, however, untreated or late-diagnosed PKU patients with high plasma phenylalanine concentrations have been reported to escape from intellectual disability. The present study aimed to review published cases of such PKU patients., Methods: To this purpose, we conducted a literature search in PubMed and EMBASE up to 8th of September 2017 to identify cases with 1) PKU diagnosis and start of treatment after 7 years of age; 2) untreated plasma phenylalanine concentrations ≥1200 μmol/l; and 3) IQ ≥80. Literature search, checking reference lists, selection of articles, and extraction of data were performed by two independent researchers., Results: In total, we identified 59 published cases of patients with late-diagnosed PKU and unexpected favorable outcome who met the inclusion criteria. Although all investigated patients had intellectual functioning within the normal range, at least 19 showed other neurological, psychological, and/or behavioral symptoms., Conclusions: Based on the present findings, the classical symptomatology of untreated or late-treated PKU may need to be rewritten, not only in the sense that intellectual dysfunction is not obligatory, but also in the sense that intellectual functioning does not (re)present the full picture of brain damage due to high plasma phenylalanine concentrations. Further identification of such patients and additional analyses are necessary to better understand these differences between PKU patients.

Published
2018
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33. Key European guidelines for the diagnosis and management of patients with phenylketonuria.

Author

van Spronsen FJ, van Wegberg AM, Ahring K, Bélanger-Quintana A, Blau N, Bosch AM, Burlina A, Campistol J, Feillet F, Giżewska M, Huijbregts SC, Kearney S, Leuzzi V, Maillot F, Muntau AC, Trefz FK, van Rijn M, Walter JH, and MacDonald A

Subjects
Biopterins administration & dosage, Biopterins analogs & derivatives, Delphi Technique, Disease Management, Europe, Humans, Phenylalanine blood, Phenylketonurias blood, Phenylketonurias diagnosis, Phenylketonurias diet therapy
Abstract

We developed European guidelines to optimise phenylketonuria (PKU) care. To develop the guidelines, we did a literature search, critical appraisal, and evidence grading according to the Scottish Intercollegiate Guidelines Network method. We used the Delphi method when little or no evidence was available. From the 70 recommendations formulated, in this Review we describe ten that we deem as having the highest priority. Diet is the cornerstone of treatment, although some patients can benefit from tetrahydrobiopterin (BH4). Untreated blood phenylalanine concentrations determine management of people with PKU. No intervention is required if the blood phenylalanine concentration is less than 360 μmol/L. Treatment is recommended up to the age of 12 years if the phenylalanine blood concentration is between 360 μmol/L and 600 μmol/L, and lifelong treatment is recommended if the concentration is more than 600 μmol/L. For women trying to conceive and during pregnancy (maternal PKU), untreated phenylalanine blood concentrations of more than 360 μmol/L need to be reduced. Treatment target concentrations are as follows: 120-360 μmol/L for individuals aged 0-12 years and for maternal PKU, and 120-600 μmol/L for non-pregnant individuals older than 12 years. Minimum requirements for the management and follow-up of patients with PKU are scheduled according to age, adherence to treatment, and clinical status. Nutritional, clinical, and biochemical follow-up is necessary for all patients, regardless of therapy., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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34. Biallelic Mutations in DNAJC12 Cause Hyperphenylalaninemia, Dystonia, and Intellectual Disability.

Author

Anikster Y, Haack TB, Vilboux T, Pode-Shakked B, Thöny B, Shen N, Guarani V, Meissner T, Mayatepek E, Trefz FK, Marek-Yagel D, Martinez A, Huttlin EL, Paulo JA, Berutti R, Benoist JF, Imbard A, Dorboz I, Heimer G, Landau Y, Ziv-Strasser L, Malicdan MCV, Gemperle-Britschgi C, Cremer K, Engels H, Meili D, Keller I, Bruggmann R, Strom TM, Meitinger T, Mullikin JC, Schwartz G, Ben-Zeev B, Gahl WA, Harper JW, Blau N, Hoffmann GF, Prokisch H, Opladen T, and Schiff M

Subjects
Alleles, Amino Acid Sequence, Biopterins analogs & derivatives, Biopterins metabolism, Case-Control Studies, Dopamine deficiency, Dopamine metabolism, Exons, Female, Fibroblasts metabolism, Gene Deletion, Genome-Wide Association Study, HSP70 Heat-Shock Proteins genetics, Humans, Male, Pedigree, Phenylalanine metabolism, Phenylalanine Hydroxylase genetics, Serotonin deficiency, Serotonin metabolism, Tryptophan metabolism, Tryptophan Hydroxylase genetics, Tryptophan Hydroxylase metabolism, Tyrosine metabolism, Tyrosine 3-Monooxygenase genetics, Tyrosine 3-Monooxygenase metabolism, Dystonia genetics, Intellectual Disability genetics, Phenylketonurias genetics, Repressor Proteins genetics
Abstract

Phenylketonuria (PKU, phenylalanine hydroxylase deficiency), an inborn error of metabolism, can be detected through newborn screening for hyperphenylalaninemia (HPA). Most individuals with HPA harbor mutations in the gene encoding phenylalanine hydroxylase (PAH), and a small proportion (2%) exhibit tetrahydrobiopterin (BH 4 ) deficiency with additional neurotransmitter (dopamine and serotonin) deficiency. Here we report six individuals from four unrelated families with HPA who exhibited progressive neurodevelopmental delay, dystonia, and a unique profile of neurotransmitter deficiencies without mutations in PAH or BH 4 metabolism disorder-related genes. In these six affected individuals, whole-exome sequencing (WES) identified biallelic mutations in DNAJC12, which encodes a heat shock co-chaperone family member that interacts with phenylalanine, tyrosine, and tryptophan hydroxylases catalyzing the BH 4 -activated conversion of phenylalanine into tyrosine, tyrosine into L-dopa (the precursor of dopamine), and tryptophan into 5-hydroxytryptophan (the precursor of serotonin), respectively. DNAJC12 was undetectable in fibroblasts from the individuals with null mutations. PAH enzyme activity was reduced in the presence of DNAJC12 mutations. Early treatment with BH 4 and/or neurotransmitter precursors had dramatic beneficial effects and resulted in the prevention of neurodevelopmental delay in the one individual treated before symptom onset. Thus, DNAJC12 deficiency is a preventable and treatable cause of intellectual disability that should be considered in the early differential diagnosis when screening results are positive for HPA. Sequencing of DNAJC12 may resolve any uncertainty and should be considered in all children with unresolved HPA., (Copyright © 2017 American Society of Human Genetics. All rights reserved.)

Published
2017
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35. Successful intrauterine treatment of a patient with cobalamin C defect.

Author

Trefz FK, Scheible D, Frauendienst-Egger G, Huemer M, Suomala T, Fowler B, Haas D, and Baumgartner MR

Abstract

Cobalamin C (cblC) defect is an inherited autosomal recessive disorder that affects cobalamin metabolism. Patients are treated with hydroxycobalamin to ameliorate the clinical features of early-onset disease and prevent clinical symptoms in late-onset disease. Here we describe a patient in whom prenatal maternal treatment with 30 mg/week hydroxycobalamin and 5 mg/day folic acid from week 15 of pregnancy prevented disease manifestation in a girl who is now 11 years old with normal IQ and only mild ophthalmic findings. The affected older sister received postnatal treatment only and is severely intellectually disabled with severe ophthalmic symptoms. This case highlights the potential of early, high-dose intrauterine treatment in a fetus affected by the cblC defect.

Published
2016
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36. Diagnostic and management practices for phenylketonuria in 19 countries of the South and Eastern European Region: survey results.

Author

Giżewska M, MacDonald A, Bélanger-Quintana A, Burlina A, Cleary M, Coşkun T, Feillet F, Muntau AC, Trefz FK, van Spronsen FJ, and Blau N

Subjects
Adolescent, Adult, Child, Child, Preschool, Disease Management, Europe, Female, Health Personnel, Humans, Infant, Infant, Newborn, Phenylketonurias epidemiology, Phenylketonurias therapy, Pregnancy, Surveys and Questionnaires, Young Adult, Neonatal Screening methods, Phenylalanine blood, Phenylketonurias diagnosis
Abstract

To avoid potentially severe outcomes, phenylketonuria (PKU) must be detected as soon as possible after birth and managed with life-long treatment. A questionnaire-based survey was performed to document diagnosis and management practices for PKU in a region of Southern and Eastern Europe. Prevalence and management data were obtained from 37/59 (63 %) centres within 19/22 (86%) contacted countries (N = 8600 patients). The main results' analysis was based on completed questionnaires obtained from 31 centres (53%) within 15 countries (68%). A median of 10 % of patients per centre had been diagnosed after the newborn period. Metabolic dieticians and specialised adult PKU clinics were lacking in 36 and 84% of centres, respectively. In 26% of centres, treatment initiation was delayed until >15 days of life. Blood phenylalanine (Phe) thresholds to start treatment and upper Phe targets were inconsistent across centres. Ten percent of centres reported monitoring Phe every 2 weeks for pregnant women with PKU, which is insufficient to minimise risk of neonatal sequalae. Sapropterin dihydrochloride treatment was available in 48% of centres, with 24-h responsiveness tests most common (36%). Only one centre among the five countries lacking newborn screening provided a completed questionnaire., Conclusion: Targeted efforts by health care professionals and governments are needed to optimise diagnostic and management approaches for PKU in Southern and Eastern Europe., What Is Known: PKU must be detected early and optimally managed throughout life to avoid poor outcomes, yet newborn screening is not universal and diagnostic and management practices for PKU are known to vary widely between different centres and countries. Targeted efforts by health care professionals and governments are needed to optimise diagnostic and management approaches., What Is New: PKU management practices are documented in 19 South and Eastern European countries indicating a heterogeneous situation across the region. Key areas for improvement identified in surveyed centres include a need for comprehensive screening in all countries, increased number of metabolic dietitians and specialised adult PKU clinics, delayed time to treatment initiation, appropriate Phe thresholds, Phe targets and monitoring frequencies, and universal access to currently available treatment options.

Published
2016
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37. The challenges of managing coexistent disorders with phenylketonuria: 30 cases.

Author

MacDonald A, Ahring K, Almeida MF, Belanger-Quintana A, Blau N, Burlina A, Cleary M, Coskum T, Dokoupil K, Evans S, Feillet F, Giżewska M, Gokmen Ozel H, Lotz-Havla AS, Kamieńska E, Maillot F, Lammardo AM, Muntau AC, Puchwein-Schwepcke A, Robert M, Rocha JC, Santra S, Skeath R, Strączek K, Trefz FK, van Dam E, van Rijn M, van Spronsen F, and Vijay S

Subjects
Adolescent, Adult, Autoimmune Diseases blood, Autoimmune Diseases complications, Autoimmune Diseases diagnosis, Biopterins analogs & derivatives, Biopterins therapeutic use, Child, Child, Preschool, Consanguinity, Diet, Europe, Female, Gastrointestinal Diseases blood, Gastrointestinal Diseases complications, Gastrointestinal Diseases diagnosis, Humans, Infant, Male, Phenylketonurias blood, Phenylketonurias complications, Phenylketonurias diagnosis, Pregnancy, Retrospective Studies, Turkey, Autoimmune Diseases therapy, Chromosome Aberrations, Disease Management, Gastrointestinal Diseases therapy, Phenylalanine blood, Phenylketonurias therapy
Abstract

Introduction: The few published case reports of co-existent disease with phenylketonuria (PKU) are mainly genetic and familial conditions from consanguineous marriages. The clinical and demographic features of 30 subjects with PKU and co-existent conditions were described in this multi-centre, retrospective cohort study., Methods: Diagnostic age of PKU and co-existent condition, treatment regimen, and impact of co-existent condition on blood phenylalanine (Phe) control and PKU management were reported., Results: 30 patients (11 males and 19 females), with PKU and a co-existent condition, current median age of 14 years (range 0.4 to 40 years) from 13 treatment centres from Europe and Turkey were described. There were 21 co-existent conditions with PKU; 9 were autoimmune; 6 gastrointestinal, 3 chromosomal abnormalities, and 3 inherited conditions. There were only 5 cases of parental consanguinity. Some patients required conflicting diet therapy (n=5), nutritional support (n=7) and 5 children had feeding problems. There was delayed diagnosis of co-existent conditions (n=3); delayed treatment of PKU (n=1) and amenorrhea associated with Grave's disease that masked a PKU pregnancy for 12 weeks. Co-existent conditions adversely affected blood Phe control in 47% (n=14) of patients. Some co-existent conditions increased the complexity of disease management and increased management burden for patients and caregivers., Conclusions: Occurrence of co-existent disease is not uncommon in patients with PKU and so investigation for co-existent disorders when the clinical history is not completely consistent with PKU is essential. Integrating care of a second condition with PKU management is challenging., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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38. The Kuvan(®) Adult Maternal Paediatric European Registry (KAMPER) Multinational Observational Study: Baseline and 1-Year Data in Phenylketonuria Patients Responsive to Sapropterin.

Author

Trefz FK, Muntau AC, Lagler FB, Moreau F, Alm J, Burlina A, Rutsch F, Bélanger-Quintana A, and Feillet F

Abstract

Introduction: Sapropterin dihydrochloride (Kuvan(®)), a synthetic 6R-diastereoisomer of tetrahydrobiopterin (BH4), is approved in Europe for the treatment of patients aged ≥4 years with hyperphenylalaninaemia (HPA) due to BH4-responsive phenylalanine hydroxylase (PAH) deficiency, in conjunction with a phenylalanine-restricted diet, and also for the treatment of patients with BH4 deficiency., Aims/methods: KAMPER is an ongoing, observational, multicentre registry with the primary objective of providing information over 15 years on long-term safety of sapropterin dihydrochloride treatment in patients with HPA. Here we report initial data on characteristics from patients recruited by the time of the third interim analysis and results at 1 year., Results: Overall, 325 patients from 55 sites in seven European countries were included in the analysis: 296 (91.1%) patients with PAH deficiency (median [Q1, Q3] age, 10.3 [7.2, 15.0] years) and 29 (8.9%) with BH4 deficiency (12.8 [6.6, 18.9] years). Fifty-nine patients (18.2%) were aged ≥18 years; 4 patients were pregnant. No elderly patients (aged ≥65 years) or patients with renal or hepatic insufficiency were enroled in the study. Twelve-month data were available for 164 patients with PAH deficiency and 16 with BH4 deficiency. No new safety concerns were identified as of May 2013., Conclusions: Initial data from KAMPER show that sapropterin dihydrochloride has a favourable safety profile. Registry data collected over time will provide insight into the management and outcomes of patients with PAH deficiency and BH4 deficiency, including long-term safety, impact on growth and neurocognitive outcomes and the effect of sapropterin dihydrochloride treatment on populations of special interest.

Published
2015
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39. Management of adult patients with phenylketonuria: survey results from 24 countries.

Author

Trefz FK, van Spronsen FJ, MacDonald A, Feillet F, Muntau AC, Belanger-Quintana A, Burlina A, Demirkol M, Giovannini M, and Gasteyger C

Subjects
Adult, Health Care Surveys, Health Personnel, Humans, Phenylalanine blood, Phenylketonurias blood, Surveys and Questionnaires, Phenylketonurias therapy, Practice Patterns, Physicians'
Abstract

Unlabelled: Phenylketonuria (PKU) is no longer considered merely a pediatric concern; current guidelines recommend life-long treatment. However, information on the adult PKU patient population is scarce. A survey was initiated on behalf of the European PKU Group (EPG) that focused specifically on early-treated adult patients diagnosed by neonatal screening. The online survey was sent via email to 204 healthcare professionals (HCPs) in 33 countries. Eighty-one HCPs from 24 countries responded. The main findings were that the majority of adult patients with PKU in active follow-up are under 30 years of age and are managed in centers that also treat children. Seventy-eight percent of adult PKU patients in follow-up receive treatment, mainly by diet (71 %), with BH4 treatment rarely used in adulthood. Only 26 % of responding HCPs perform routine neurocognitive testing in all their adult patients. There was little consensus regarding target blood phenylalanine (Phe) concentrations, although the majority of respondents reported that their patients achieved blood Phe concentrations below 1200 μmol/l., Conclusion: This survey highlights the need for blood Phe concentration target recommendations and consensus guidelines, more research into adult PKU patient management, and the need to identify those patients lost to follow-up to ensure PKU is managed for life.

Published
2015
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40. Efficacy and outcome of expanded newborn screening for metabolic diseases--report of 10 years from South-West Germany.

Author

Lindner M, Gramer G, Haege G, Fang-Hoffmann J, Schwab KO, Tacke U, Trefz FK, Mengel E, Wendel U, Leichsenring M, Burgard P, and Hoffmann GF

Subjects
Female, Germany epidemiology, Humans, Infant, Newborn, Infant, Newborn, Diseases epidemiology, Male, Metabolism, Inborn Errors epidemiology, Phenylketonurias diagnosis, Phenylketonurias epidemiology, Tandem Mass Spectrometry methods, Infant, Newborn, Diseases diagnosis, Metabolism, Inborn Errors diagnosis, Neonatal Screening methods, Outcome Assessment, Health Care, Technology Assessment, Biomedical
Abstract

Background: National newborn screening programmes based on tandem-mass spectrometry (MS/MS) and other newborn screening (NBS) technologies show a substantial variation in number and types of disorders included in the screening panel. Once established, these methods offer the opportunity to extend newborn screening panels without significant investment and cost. However, systematic evaluations of newborn screening programmes are rare, most often only describing parts of the whole process from taking blood samples to long-term evaluation of outcome., Methods: In a prospective single screening centre observational study 373 cases with confirmed diagnosis of a metabolic disorder from a total cohort of 1,084,195 neonates screened in one newborn screening laboratory between January 1, 1999, and June 30, 2009 and subsequently treated and monitored in five specialised centres for inborn errors of metabolism were examined. Process times for taking screening samples, obtaining results, initiating diagnostic confirmation and starting treatment as well as the outcome variables metabolic decompensations, clinical status, and intellectual development at a mean age of 3.3 years were evaluated., Results: Optimal outcome is achieved especially for the large subgroup of patients with medium-chain acyl-CoA dehydrogenase deficiency. Kaplan-Meier-analysis revealed disorder related patterns of decompensation. Urea cycle disorders, organic acid disorders, and amino acid disorders show an early high and continuous risk, medium-chain acyl-CoA dehydrogenase deficiency a continuous but much lower risk for decompensation, other fatty acid oxidation disorders an intermediate risk increasing towards the end of the first year. Clinical symptoms seem inevitable in a small subgroup of patients with very early disease onset. Later decompensation can not be completely prevented despite pre-symptomatic start of treatment. Metabolic decompensation does not necessarily result in impairment of intellectual development, but there is a definite association between the two., Conclusions: Physical and cognitive outcome in patients with presymptomatic diagnosis of metabolic disorders included in the current German screening panel is equally good as in phenylketonuria, used as a gold standard for NBS. Extended NBS entails many different interrelated variables which need to be carefully evaluated and optimized. More reports from different parts of the world are needed to allow a comprehensive assessment of the likely benefits, harms and costs in different populations.

Published
2011
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41. Long-term follow-up of patients with phenylketonuria receiving tetrahydrobiopterin treatment.

Author

Trefz FK, Scheible D, and Frauendienst-Egger G

Subjects
Adolescent, Biomarkers blood, Biopterins administration & dosage, Biopterins therapeutic use, Body Weight, Child, Child, Preschool, Combined Modality Therapy, Diet, Protein-Restricted, Drug Dosage Calculations, Follow-Up Studies, Humans, Infant, Infant, Newborn, Phenylalanine blood, Phenylketonurias blood, Phenylketonurias diagnosis, Phenylketonurias diet therapy, Time Factors, Treatment Outcome, Biopterins analogs & derivatives, Phenylketonurias drug therapy
Abstract

Treatment with tetrahydrobiopterin (BH4), the natural cofactor of phenylalanine hydroxylase (PAH), can reduce blood phenylalanine (Phe) levels in patients with BH4-responsive phenylketonuria (PKU). A number of studies has reported on the short-term BH4 treatment of patients with PKU, but long-term data are lacking. Here, we describe the effects of long-term treatment with BH4 on 16 patients, who showed a >28% reduction in blood Phe following testing for BH4 overload. The mean dose of BH4 was 16 mg/kg body weight (range 5-36 mg/kg body weight). The mean treatment duration was 56 months (range 24-110 months). Of 16 patients, 14 achieved long-term Phe control with BH4 treatment, with a mean blood Phe concentration of 321 ± 236 µmol/l. The mean decrease from baseline in blood Phe levels in these 14 patients was 54.6%. Of the seven patients who required continued dietary restriction, Phe intake increased from 200-300 mg/day to 800-1000 mg/day. Factors that may cause fluctuation of Phe levels in BH4-treated patients include patients' PAH genotype, Phe intake, changes in protein catabolism or anabolism, and periods of illness or infection.

Published
2010
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42. Sapropterin dihydrochloride: a new drug and a new concept in the management of phenylketonuria.

Author

Trefz FK and Belanger-Quintana A

Subjects
Administration, Oral, Biopterins administration & dosage, Biopterins adverse effects, Biopterins therapeutic use, Evidence-Based Medicine, Humans, Phenylalanine metabolism, Phenylalanine Hydroxylase genetics, Phenylalanine Hydroxylase metabolism, Phenylketonurias epidemiology, Phenylketonurias genetics, Phenylketonurias metabolism, Tablets, Treatment Outcome, Biopterins analogs & derivatives, Phenylketonurias drug therapy
Abstract

Phenylketonuria (PKU) is characterized by persistent hyperphenylalaninemia, due to mutations in the gene coding for phenylalanine hydroxylase (PAH). If untreated, patients develop profound mental retardation. The principal treatment for PKU is lifelong dietary phenylalanine restriction, requiring the administration of special phenylalanine-free protein supplements. Adhering to the diet is burdensome, and poor compliance and control of blood phenylalanine are common, especially in adolescents and adults. A subset of patients, particularly those with milder forms of PKU, shows a clinically significant reduction in blood phenylalanine when treated with pharmacological doses of tetrahydrobiopterin, the cofactor of PAH. A tablet formulation of sapropterin dihydrochloride is approved for therapeutic use in Europe and the USA. Clinical trials have demonstrated durable reductions in blood phenylalanine, and/or increased dietary phenylalanine tolerance, in some patients with hyperphenylalaninemia due to PKU. Although further data are needed, especially with regard to long-term neuropsychological outcomes or possible use in pregnancy, sapropterin appears to represent a useful addition to the management of PKU., (Copyright 2010 Prous Science, S.A.U. or its licensors. All rights reserved.)

Published
2010
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43. Challenges and pitfalls in the management of phenylketonuria.

Author

Feillet F, van Spronsen FJ, MacDonald A, Trefz FK, Demirkol M, Giovannini M, Bélanger-Quintana A, and Blau N

Subjects
Biopterins analogs & derivatives, Biopterins therapeutic use, Brain metabolism, Cognition Disorders diagnosis, Cognition Disorders epidemiology, Consensus, Growth Disorders blood, Growth Disorders epidemiology, Humans, Infant, Newborn, Neonatal Screening, Neuropsychological Tests, Phenylalanine blood, Phenylketonurias blood, Phenylketonurias epidemiology, Treatment Failure, Phenylketonurias drug therapy
Abstract

Despite recent advances in the management of phenylketonuria and hyperphenylalaninemia, important questions on the management of this disorder remain unanswered. Consensus exists on the need for neonatal screening and early treatment, yet disagreement persists over threshold levels of blood phenylalanine for starting treatment, target blood phenylalanine levels, and the management of older patient groups. The mainstay of treatment is a phenylalanine-restricted diet, but its application varies between and within countries. Beyond diet treatment, there is a lack of consensus on the use of newer treatments such as tetrahydrobiopterin. Although neonatal screening and early treatment has meant that most well-treated children grow up with near-normal IQ scores, the effect of relaxing metabolic control on cognitive and executive function later in life is still not fully understood. Although it is clear from the available literature that the active control of blood phenylalanine levels is of vital importance, there are other treatment-related factors that affect outcome. A uniform and firmly evidence-based approach to the management of phenylketonuria is required.

Published
2010
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44. An overview of L-2-hydroxyglutarate dehydrogenase gene (L2HGDH) variants: a genotype-phenotype study.

Author

Steenweg ME, Jakobs C, Errami A, van Dooren SJ, Adeva Bartolomé MT, Aerssens P, Augoustides-Savvapoulou P, Baric I, Baumann M, Bonafé L, Chabrol B, Clarke JT, Clayton P, Coker M, Cooper S, Falik-Zaccai T, Gorman M, Hahn A, Hasanoglu A, King MD, de Klerk HB, Korman SH, Lee C, Meldgaard Lund A, Mejaski-Bosnjak V, Pascual-Castroviejo I, Raadhyaksha A, Rootwelt T, Roubertie A, Ruiz-Falco ML, Scalais E, Schimmel U, Seijo-Martinez M, Suri M, Sykut-Cegielska J, Trefz FK, Uziel G, Valayannopoulos V, Vianey-Saban C, Vlaho S, Vodopiutz J, Wajner M, Walter J, Walter-Derbort C, Yapici Z, Zafeiriou DI, Spreeuwenberg MD, Celli J, den Dunnen JT, van der Knaap MS, and Salomons GS

Subjects
Animals, Brain Diseases, Metabolic, Inborn pathology, Disease Models, Animal, Humans, Alcohol Oxidoreductases genetics, Brain Diseases, Metabolic, Inborn enzymology, Brain Diseases, Metabolic, Inborn genetics, Genetic Association Studies, Mutation genetics
Abstract

L-2-Hydroxyglutaric aciduria (L2HGA) is a rare, neurometabolic disorder with an autosomal recessive mode of inheritance. Affected individuals only have neurological manifestations, including psychomotor retardation, cerebellar ataxia, and more variably macrocephaly, or epilepsy. The diagnosis of L2HGA can be made based on magnetic resonance imaging (MRI), biochemical analysis, and mutational analysis of L2HGDH. About 200 patients with elevated concentrations of 2-hydroxyglutarate (2HG) in the urine were referred for chiral determination of 2HG and L2HGDH mutational analysis. All patients with increased L2HG (n=106; 83 families) were included. Clinical information on 61 patients was obtained via questionnaires. In 82 families the mutations were detected by direct sequence analysis and/or multiplex ligation dependent probe amplification (MLPA), including one case where MLPA was essential to detect the second allele. In another case RT-PCR followed by deep intronic sequencing was needed to detect the mutation. Thirty-five novel mutations as well as 35 reported mutations and 14 nondisease-related variants are reviewed and included in a novel Leiden Open source Variation Database (LOVD) for L2HGDH variants (http://www.LOVD.nl/L2HGDH). Every user can access the database and submit variants/patients. Furthermore, we report on the phenotype, including neurological manifestations and urinary levels of L2HG, and we evaluate the phenotype-genotype relationship., ((c) 2010 Wiley-Liss, Inc.)

Published
2010
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45. Evidence for genetic heterogeneity in D-2-hydroxyglutaric aciduria.

Author

Kranendijk M, Struys EA, Gibson KM, Wickenhagen WV, Abdenur JE, Buechner J, Christensen E, de Kremer RD, Errami A, Gissen P, Gradowska W, Hobson E, Islam L, Korman SH, Kurczynski T, Maranda B, Meli C, Rizzo C, Sansaricq C, Trefz FK, Webster R, Jakobs C, and Salomons GS

Subjects
Algorithms, Body Fluids, DNA Mutational Analysis, Genotype, Glutarates cerebrospinal fluid, Homozygote, Humans, Models, Genetic, Mutation, Reproducibility of Results, gamma-Aminobutyric Acid analogs & derivatives, gamma-Aminobutyric Acid genetics, Alcohol Oxidoreductases genetics, Glutarates blood, Glutarates urine, Multiple Acyl Coenzyme A Dehydrogenase Deficiency genetics
Abstract

We performed molecular, enzyme, and metabolic studies in 50 patients with D-2-hydroxyglutaric aciduria (D-2-HGA) who accumulated D-2-hydroxyglutarate (D-2-HG) in physiological fluids. Presumed pathogenic mutations were detected in 24 of 50 patients in the D-2-hydroxyglutarate dehydrogenase (D2HGDH) gene, which encodes D-2-hydroxyglutarate dehydrogenase (D-2-HGDH). Enzyme assay of D-2-HGDH confirmed that all patients with mutations had impaired enzyme activity, whereas patients with D-2-HGA whose enzyme activity was normal did not have mutations. Significantly lower D-2-HG concentrations in body fluids were observed in mutation-positive D-2-HGA patients than in mutation-negative patients. These results imply that multiple genetic loci may be associated with hyperexcretion of D-2-HG. Accordingly, we suggest a new classification: D-2-HGA Type I associates with D-2-HGDH deficiency, whereas idiopathic D-2-HGA manifests with normal D-2-HGDH activity and higher D-2-HG levels in body fluids compared with Type I patients. It remains possible that several classifications for idiopathic D-2-HGA patients with diverse genetic loci will be revealed in future studies., ((c) 2009 Wiley-Liss, Inc.)

Published
2010
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46. Management of phenylketonuria in Europe: survey results from 19 countries.

Author

Blau N, Bélanger-Quintana A, Demirkol M, Feillet F, Giovannini M, MacDonald A, Trefz FK, and van Spronsen F

Subjects
Adult, Child, Preschool, Europe, Follow-Up Studies, Health Planning Guidelines, Humans, Infant, Newborn, Phenylalanine blood, Phenylketonurias blood, Phenylketonurias diagnosis, Registries, Surveys and Questionnaires, Health Care Surveys, Phenylketonurias therapy
Abstract

To gain better insight in the most current diagnosis and treatment practices for phenylketonuria (PKU) from a broad group of experts, a European PKU survey was performed. The questionnaire, consisting of 33 questions, was sent to 243 PKU professionals in 165 PKU centers in 23 European countries. The responses were compiled and descriptive analyses were performed. One hundred and one questionnaires were returned by 93/165 centers (56%) from 19/23 European countries (83%). The majority of respondents (77%) managed patients of all age groups and more than 90% of PKU teams included physicians or dieticians/nutritionists. The greatest variability existed especially in the definition of PKU phenotypes, therapeutic blood phenylalanine (Phe) target concentrations, and follow-up practices for PKU patients. The tetrahydrobiopterin (BH4; sapropterin) loading test was performed by 54% of respondents, of which 61% applied a single dose test (20mg/kg over 24h). BH4 was reported as a treatment option by 34%. This survey documents differences in diagnostic and treatment practices for PKU patients in European centers. In particular, recommendations for the treatment decision varied greatly between different European countries. There is an urgent need to pool long-term data in PKU registries in order to generate an evidence-based international guideline., (Copyright (c) 2009 Elsevier Inc. All rights reserved.)

Published
2010
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47. Efficacy of sapropterin dihydrochloride in increasing phenylalanine tolerance in children with phenylketonuria: a phase III, randomized, double-blind, placebo-controlled study.

Author

Trefz FK, Burton BK, Longo N, Casanova MM, Gruskin DJ, Dorenbaum A, Kakkis ED, Crombez EA, Grange DK, Harmatz P, Lipson MH, Milanowski A, Randolph LM, Vockley J, Whitley CB, Wolff JA, Bebchuk J, Christ-Schmidt H, and Hennermann JB

Subjects
Algorithms, Biopterins therapeutic use, Child, Child, Preschool, Dietary Supplements, Dose-Response Relationship, Drug, Double-Blind Method, Female, Humans, Male, Phenylalanine administration & dosage, Phenylketonurias blood, Biopterins analogs & derivatives, Phenylalanine blood, Phenylketonurias drug therapy
Abstract

Objective: To evaluate the ability of sapropterin dihydrochloride (pharmaceutical preparation of tetrahydrobiopterin) to increase phenylalanine (Phe) tolerance while maintaining adequate blood Phe control in 4- to 12-year-old children with phenylketonuria (PKU)., Study Design: This international, double-blind, randomized, placebo-controlled study screened for sapropterin response among 90 enrolled subjects in Part 1. In Part 2, 46 responsive subjects with PKU were randomized (3:1) to sapropterin, 20 mg/kg/d, or placebo for 10 weeks while continuing on a Phe-restricted diet. After 3 weeks, a dietary Phe supplement was added every 2 weeks if Phe control was adequate., Results: The mean (+/-SD) Phe supplement tolerated by the sapropterin group had increased significantly from the pretreatment amount (0 mg/kg/d) to 20.9 (+/-15.4) mg/kg/d (P < .001) at the last visit at which subjects had adequate blood Phe control (<360 micromol/L), up to week 10. Over the 10-week period, the placebo group tolerated only an additional 2.9 (+/-4.0) mg/kg/d Phe supplement; the mean difference from the sapropterin group (+/-SE) was 17.7 +/- 4.5 mg/kg/d (P < .001). No severe or serious related adverse events were observed., Conclusions: Sapropterin is effective in increasing Phe tolerance while maintaining blood Phe control and has an acceptable safety profile in this population of children with PKU.

Published
2009
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48. Optimizing the use of sapropterin (BH(4)) in the management of phenylketonuria.

Author

Blau N, Bélanger-Quintana A, Demirkol M, Feillet F, Giovannini M, MacDonald A, Trefz FK, and van Spronsen FJ

Subjects
Biopterins therapeutic use, Clinical Trials as Topic, Diet, Genotype, Humans, Biopterins analogs & derivatives, Phenylketonurias drug therapy
Abstract

Phenylketonuria (PKU) is caused by mutations in the phenylalanine hydroxylase (PAH) gene, leading to deficient conversion of phenylalanine (Phe) to tyrosine and accumulation of toxic levels of Phe. A Phe-restricted diet is essential to reduce blood Phe levels and prevent long-term neurological impairment and other adverse sequelae. This diet is commenced within the first few weeks of life and current recommendations favor lifelong diet therapy. The observation of clinically significant reductions in blood Phe levels in a subset of patients with PKU following oral administration of 6R-tetrahydrobiopterin dihydrochloride (BH(4)), a cofactor of PAH, raises the prospect of oral pharmacotherapy for PKU. An orally active formulation of BH(4) (sapropterin dihydrochloride; Kuvan is now commercially available. Clinical studies suggest that treatment with sapropterin provides better Phe control and increases dietary Phe tolerance, allowing significant relaxation, or even discontinuation, of dietary Phe restriction. Firstly, patients who may respond to this treatment need to be identified. We propose an initial 48-h loading test, followed by a 1-4-week trial of sapropterin and subsequent adjustment of the sapropterin dosage and dietary Phe intake to optimize blood Phe control. Overall, sapropterin represents a major advance in the management of PKU.

Published
2009
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49. Significance of genotype in tetrahydrobiopterin-responsive phenylketonuria.

Author

Trefz FK, Scheible D, Götz H, and Frauendienst-Egger G

Subjects
Biopterins metabolism, Biopterins therapeutic use, Catalytic Domain, DNA Mutational Analysis, Drug Resistance genetics, Genotype, Humans, Phenylalanine Hydroxylase chemistry, Point Mutation, Protein Multimerization genetics, Protein Structure, Tertiary genetics, Retrospective Studies, Treatment Outcome, Biopterins analogs & derivatives, Phenylalanine Hydroxylase genetics, Phenylketonurias drug therapy, Phenylketonurias genetics
Abstract

Background: The value of genotyping to identify tetrahydrobiopterin-responsive (BH(4)-responsive) patients with phenylalanine hydroxylase (PAH) deficiency is a matter of debate., Methods: We reviewed 250 cases of patients with PAH deficiency, using published data from 198 cases and unpublished data from 52 cases of patients attending our own clinic. Patients underwent analyses for BH(4) load and genetic mutations. Partial and full BH(4) responses were defined as a 10-29% decrease and a >or=30% decrease from baseline in blood phenylalanine levels, respectively. BH(4)-responsive alleles were identified from BH(4)-responsive patients as either homozygous for a specific allele or compound heterozygous for that allele with a null mutation., Results: Most inconsistencies between observed genotype and BH(4) response were associated with mutations in the regulatory domain of PAH (p.R68S, p.I65T, p.L48S and p.F39C), where 20/62 alleles (32.2%) were non-responsive. In the catalytic domain (mutations p.Y414C, p.R261Q, p.E390G, p.A300S, p.R241C, p.A403V and p.V388M), only 8/125 alleles (6.4%) were non-responsive. Seven patients had a genotype with two BH(4)-responsive alleles resulting in no response or only a partial response to BH(4). Ten patients had identical genotypes but inconsistent responses in BH(4) load., Conclusions: These results show that BH(4) non-responsiveness is associated with genotype. However, patients with mutations in the regulatory domain show inconsistent results. In patients with two responsive alleles, non-responsiveness may be related to negative inter-allelic complementation. In patients with the same genotype and inconsistent results for BH(4) load, external factors such as intestinal absorption of BH(4), catabolic conditions or other genetic factors may be responsible. Further in vitro studies are necessary to clarify the genotype-phenotype correlation in patients with BH(4)-responsive PKU.

Published
2009
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50. [Propionic acidemia and sensorineural hearing loss: is there a connection at the molecular genetics level?].

Author

Brosch S, Rauffeisen A, Baur M, Michels L, Trefz FK, and Pfister M

Subjects
Adolescent, Adult, Child, Female, Genetic Predisposition to Disease genetics, Humans, Male, Pedigree, Propionates metabolism, Hearing Loss, Sensorineural enzymology, Hearing Loss, Sensorineural genetics, Metabolism, Inborn Errors enzymology, Metabolism, Inborn Errors genetics, Methylmalonyl-CoA Decarboxylase genetics
Abstract

Current Knowledge: Propionic acidemia is caused by a gene defect leading to malfunction of the enzyme propionyl-CoA carboxylase (PCC) and in turn to a pathologic accumulation of propionic acid. Many mutations have been found at the molecular genetic level over the past 20 years, and their implications for the limitation of enzyme activity of PCC in propionic acidemia are discussed., Scientific Question and Aims of the Study: As an elevated incidence of deafness has been observed in patients with propionic acidemia, the question arises of whether mutations primarily responsible for this disease could also be the underlying cause for a genetic form of deafness., Methods and Results: As well as a standard pure tone audiogram, a pedigree was elaborated and DNA isolated for each family concerned. In one family several subjects displayed mutations of both the PCCA and the PCCB -subunits; these included only one girl whose phenotype was affected, however., Conclusions: Mutation of the PCCB subunit p.R113X has not previously been mentioned in the literature. According to our present knowledge no connection can be assumed between either of the two mutations and the severe sensorineural hearing loss.

Published
2008
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