Your search keyword '"Onkenhout, W"' showing total 15 results

1. Pilot Experience with an External Quality Assurance Scheme for Acylcarnitines in Plasma/Serum

Author

Sala, P. Ruiz, Ruijter, G., Acquaviva, C., Chabli, A., de Sain-van der Velden, M. G. M., Garcia-Villoria, J., Heiner-Fokkema, M. R., Jeannesson-Thivisol, E., Leckstrom, K., Franzson, L., Lynes, G., Olesen, J., Onkenhout, W., Petrou, P., Drousiotou, A., Ribes, A., Vianey-Saban, C., Merinero, B., Baumgartner, Matthias R., Series editor, Patterson, Marc, Series editor, Rahman, Shamima, Series editor, Peters, Verena, Series editor, Morava, Eva, Editor-in-chief, Zschocke, Johannes, Series editor, and Baumgartner, Matthias, editor

Published

2016

2. Fibroblast growth factor 21 as a biomarker for long-term complications in organic acidemias

Author

Molema, F., Jacobs, E. H., Onkenhout, W., Schoonderwoerd, G. C., Langendonk, J. G., and Williams, Monique

Published

2018

3. Abnormal VLCADD newborn screening resembling MADD in four neonates with decreased riboflavin levels and VLCAD activity

Author

Hagemeijer, M.C., Oussoren, E., Ruijter, G.J., Onkenhout, W., Huidekoper, H.H., Ebberink, M.S., Waterham, H.R., Ferdinandusse, S., Vries, M.C. de, Huigen, M.C.D.G., Kluijtmans, L.A.J., Coene, K.L.M., Blom, H.J., Hagemeijer, M.C., Oussoren, E., Ruijter, G.J., Onkenhout, W., Huidekoper, H.H., Ebberink, M.S., Waterham, H.R., Ferdinandusse, S., Vries, M.C. de, Huigen, M.C.D.G., Kluijtmans, L.A.J., Coene, K.L.M., and Blom, H.J.

Abstract

Contains fulltext : 237460.pdf (Publisher’s version ) (Open Access), Early detection of congenital disorders by newborn screening (NBS) programs is essential to prevent or limit disease manifestation in affected neonates. These programs balance between the detection of the highest number of true cases and the lowest number of false-positives. In this case report, we describe four unrelated cases with a false-positive NBS result for very-long-chain acyl-CoA dehydrogenase deficiency (VLCADD). Three neonates presented with decreased but not deficient VLCAD enzyme activity and two of them carried a single heterozygous ACADVL c.1844G>A mutation. Initial biochemical investigations after positive NBS referral in these infants revealed acylcarnitine and organic acid profiles resembling those seen in multiple acyl-CoA dehydrogenase deficiency (MADD). Genetic analysis did not reveal any pathogenic mutations in the genes encoding the electron transfer flavoprotein (ETF alpha and beta subunits) nor in ETF dehydrogenase. Subsequent further diagnostics revealed decreased levels of riboflavin in the newborns and oral riboflavin administration normalized the MADD-like biochemical profiles. During pregnancy, the mothers followed a vegan, vegetarian or lactose-free diet which probably caused alimentary riboflavin deficiency in the neonates. This report demonstrates that a secondary (alimentary) maternal riboflavin deficiency in combination with reduced VLCAD activity in the newborns can result in an abnormal VLCADD/MADD acylcarnitine profile and can cause false-positive NBS. We hypothesize that maternal riboflavin deficiency contributed to the false-positive VLCADD neonatal screening results.

Published

2021

4. Abnormal VLCADD newborn screening resembling MADD in four neonates with decreased riboflavin levels and VLCAD activity

Author

Hagemeijer, Marne, Oussoren, E, Ruijter, George, Onkenhout, W, Huidekoper, Hidde, Ebberink, Merel, Waterham, Hans R., Ferdinandusse, S, de Vries, Maaike C., Huigen, Marleen C.D.G., Kluijtmans, Leo A.J., Coene, Karlien L.M., Blom, Henk, Hagemeijer, Marne, Oussoren, E, Ruijter, George, Onkenhout, W, Huidekoper, Hidde, Ebberink, Merel, Waterham, Hans R., Ferdinandusse, S, de Vries, Maaike C., Huigen, Marleen C.D.G., Kluijtmans, Leo A.J., Coene, Karlien L.M., and Blom, Henk

Abstract

Early detection of congenital disorders by newborn screening (NBS) programs is essential to prevent or limit disease manifestation in affected neonates. These programs balance between the detection of the highest number of true cases and the lowest number of false-positives. In this case report, we describe four unrelated cases with a false-positive NBS result for very-long-chain acyl-CoA dehydrogenase deficiency (VLCADD). Three neonates presented with decreased but not deficient VLCAD enzyme activity and two of them carried a single heterozygous ACADVL c.1844G>A mutation. Initial biochemical investigations after positive NBS referral in these infants revealed acylcarnitine and organic acid profiles resembling those seen in multiple acyl-CoA dehydrogenase deficiency (MADD). Genetic analysis did not reveal any pathogenic mutations in the genes encoding the electron transfer flavoprotein (ETF alpha and beta subunits) nor in ETF dehydrogenase. Subsequent further diagnostics revealed decreased levels of riboflavin in the newborns and oral riboflavin administration normalized the MADD-like biochemical profiles. During pregnancy, the mothers followed a vegan, vegetarian or lactose-free diet which probably caused alimentary riboflavin deficiency in the neonates. This report demonstrates that a secondary (alimentary) maternal riboflavin deficiency in combination with reduced VLCAD activity in the newborns can result in an abnormal VLCADD/MADD acylcarnitine profile and can cause false-positive NBS. We hypothesize that maternal riboflavin deficiency contributed to the false-positive VLCADD neonatal screening results.

Published

2021

5. Untargeted metabolomics-based screening method for inborn errors of metabolism using semi-automatic sample preparation with an UHPLC-orbitrap-MS platform

Author

Bonte, R. (Ramon), Bongaerts, M. (Michiel), Demirdas, S. (Serwet), Langendonk, J.G. (Janneke), Huidekoper, H.H. (Hidde H.), Williams, M. (Monique), Onkenhout, W. (W.), Jacobs, E.H. (Edwin H.), Blom, H.J. (Henk), Ruijter, G.J.G. (George), Bonte, R. (Ramon), Bongaerts, M. (Michiel), Demirdas, S. (Serwet), Langendonk, J.G. (Janneke), Huidekoper, H.H. (Hidde H.), Williams, M. (Monique), Onkenhout, W. (W.), Jacobs, E.H. (Edwin H.), Blom, H.J. (Henk), and Ruijter, G.J.G. (George)

Abstract

Routine diagnostic screening of inborn errors of metabolism (IEM) is currently performed by different targeted analyses of known biomarkers. This approach is time-consuming, targets a limited number of biomarkers and will not identify new biomarkers. Untargeted metabolomics generates a global metabolic phenotype and has the potential to overcome these issues. We describe a novel, single platform, untargeted metabolomics method for screening IEM, combining semi-automatic sample preparation with pentafluorophenylpropyl phase (PFPP)-based UHPLC-Orbitrap-MS. We evaluated analytical performance and diagnostic capability of the method by analysing plasma samples of 260 controls and 53 patients with 33 distinct IEM. Analytical reproducibility was excellent, with peak area variation coefficients below 20% for the majority of the metabolites. We illustrate that PFPP-based chromatography enhances identification of isomeric compounds. Ranked z-score plots of metabolites annotated in IEM samples were reviewed by two laboratory specialists experienced in biochemical genetics, resulting in the correct diagnosis in 90% of cases. Thus, our untargeted metabolomics platform is robust and differentiates metabolite patterns of different IEMs from those of controls. We envision that the current approach to diagnose IEM, using numerous tests, will eventually be replaced by untargeted metabolomics methods, which also have the potential to discover novel biomarkers and assist in interpretation of genetic data.

Published

2019

6. Fibroblast growth factor 21 as a biomarker for long-term complications in organic acidemias

Author

Molema, F. (Femke), Jacobs, E.H. (Edwin), Onkenhout, W. (W.), Schoonderwoerd, G.C. (Kees), Langendonk, J.G. (Janneke), Williams, M. (Monique), Molema, F. (Femke), Jacobs, E.H. (Edwin), Onkenhout, W. (W.), Schoonderwoerd, G.C. (Kees), Langendonk, J.G. (Janneke), and Williams, M. (Monique)

Abstract

Background: There is increasing evidence that long-term complications in organic acidemias are caused by impaired mitochondrial metabolism. Currently, there is no specific biomarker to monitor mitochondrial dysfunction in organic acidemias. Serum fibroblast growth factor 21 (FGF-21) is a biomarker for mitochondrial disease and could be a candidate to monitor mitochondrial function in the deleterious course of disease. Methods: Data of 17 patients with classical organic acidemias (11 propionic acidemia (PA), four methylmalonic acidemia (MMA) and two isovaleric acidemia (IVA) patients) were included. The clinical course was evaluated; metabolic decompensations and long-term complications were correlated with plasma FGF-21 levels. Cardiomyopathy, prolonged QT interval, renal failure, and optic neuropathy were defined as long-term complications. Results: Patients ages ranged from 16 months up to 32 years. Serious long-term complications occurred in eight patients (five PA and three MMA patients). In MMA and PA patients plasma FGF-21 levels during stable metabolic periods were significantly higher in patients with long-term complications (Mdn = 2556.0 pg/ml) compared to patients without (Mdn = 287.0 pg/ml). A median plasma FGF-21 level above 1500 pg/ml during a stable metabolic period, measured before the occurrence of long-term complications, had a positive predictive value of 0.83 and a negative predictive value of 1.00 on long-term complications in MMA and PA patients. Conclusion: This study demonstrates the potential role of FGF-21 as a biomarker for long-term complications in classical organic acidemias, attributed to mitochondrial dysfunction.

Published

2018

7. Pilot Experience with an External Quality Assurance Scheme for Acylcarnitines in Plasma/Serum

Author

Sala, P Ruiz, Ruijter, G, Acquaviva, C, Chabli, A, de Sain-van der Velden, M G M, Garcia-Villoria, J, Heiner-Fokkema, M R, Jeannesson-Thivisol, E, Leckstrom, K, Franzson, L, Lynes, G, Olesen, J, Onkenhout, W, Petrou, P, Drousiotou, A, Ribes, A, Vianey-Saban, C, Merinero, B, Sala, P Ruiz, Ruijter, G, Acquaviva, C, Chabli, A, de Sain-van der Velden, M G M, Garcia-Villoria, J, Heiner-Fokkema, M R, Jeannesson-Thivisol, E, Leckstrom, K, Franzson, L, Lynes, G, Olesen, J, Onkenhout, W, Petrou, P, Drousiotou, A, Ribes, A, Vianey-Saban, C, and Merinero, B

Published

2016

8. Pilot Experience with an External Quality Assurance Scheme for Acylcarnitines in Plasma/Serum

Author

Genetica Sectie Metabole Diagnostiek, Child Health, Sala, P Ruiz, Ruijter, G, Acquaviva, C, Chabli, A, de Sain-van der Velden, M G M, Garcia-Villoria, J, Heiner-Fokkema, M R, Jeannesson-Thivisol, E, Leckstrom, K, Franzson, L, Lynes, G, Olesen, J, Onkenhout, W, Petrou, P, Drousiotou, A, Ribes, A, Vianey-Saban, C, Merinero, B, Genetica Sectie Metabole Diagnostiek, Child Health, Sala, P Ruiz, Ruijter, G, Acquaviva, C, Chabli, A, de Sain-van der Velden, M G M, Garcia-Villoria, J, Heiner-Fokkema, M R, Jeannesson-Thivisol, E, Leckstrom, K, Franzson, L, Lynes, G, Olesen, J, Onkenhout, W, Petrou, P, Drousiotou, A, Ribes, A, Vianey-Saban, C, and Merinero, B

Published

2016

9. Polyhydramnios and cerebellar atrophy: a prenatal presentation of mitochondrial encephalomyopathy caused by mutations in theFBXL 4gene

Author

Rij, Maartje C., primary, Jansen, Fenna A. R., additional, Hellebrekers, Debby M. E. I., additional, Onkenhout, W., additional, Smeets, Hubert J. M., additional, Hendrickx, Alexandra T., additional, Gottschalk, Ralph W. H., additional, Steggerda, Sylke J., additional, Peeters‐Scholte, Cacha M. P. C. D., additional, Haak, Monique C., additional, and Hilhorst‐Hofstee, Yvonne, additional

Published

2016

10. Polyhydramnios and cerebellar atrophy: a prenatal presentation of mitochondrial encephalomyopathy caused by mutations in the FBXL4 gene.

Author

Rij, Maartje C., Jansen, Fenna A. R., Hellebrekers, Debby M. E. I., Onkenhout, W., Smeets, Hubert J. M., Hendrickx, Alexandra T., Gottschalk, Ralph W. H., Steggerda, Sylke J., Peeters‐Scholte, Cacha M. P. C. D., Haak, Monique C., and Hilhorst‐Hofstee, Yvonne

Subjects

MITOCHONDRIAL myopathy, POLYHYDRAMNIOS, PYRUVATES, BODY dysmorphic disorder, PREGNANCY complications

Abstract

Key Clinical Message Severe recessive mitochondrial myopathy caused by FBXL4 gene mutations may present prenatally with polyhydramnios and cerebellar hypoplasia. Characteristic dysmorphic features are: high and arched eyebrows, triangular face, a slight upslant of palpebral fissures, and a prominent pointed chin. Metabolic investigations invariably show increased serum lactate and pyruvate levels. [ABSTRACT FROM AUTHOR]

Published

2016

11. Abnormal VLCADD newborn screening resembling MADD in four neonates with decreased riboflavin levels and VLCAD activity.

Author

Hagemeijer MC, Oussoren E, Ruijter GJG, Onkenhout W, Huidekoper HH, Ebberink MS, Waterham HR, Ferdinandusse S, de Vries MC, Huigen MCDG, Kluijtmans LAJ, Coene KLM, and Blom HJ

Abstract

Early detection of congenital disorders by newborn screening (NBS) programs is essential to prevent or limit disease manifestation in affected neonates. These programs balance between the detection of the highest number of true cases and the lowest number of false-positives. In this case report, we describe four unrelated cases with a false-positive NBS result for very-long-chain acyl-CoA dehydrogenase deficiency (VLCADD). Three neonates presented with decreased but not deficient VLCAD enzyme activity and two of them carried a single heterozygous ACADVL c.1844G>A mutation. Initial biochemical investigations after positive NBS referral in these infants revealed acylcarnitine and organic acid profiles resembling those seen in multiple acyl-CoA dehydrogenase deficiency (MADD). Genetic analysis did not reveal any pathogenic mutations in the genes encoding the electron transfer flavoprotein (ETF alpha and beta subunits) nor in ETF dehydrogenase. Subsequent further diagnostics revealed decreased levels of riboflavin in the newborns and oral riboflavin administration normalized the MADD-like biochemical profiles. During pregnancy, the mothers followed a vegan, vegetarian or lactose-free diet which probably caused alimentary riboflavin deficiency in the neonates. This report demonstrates that a secondary (alimentary) maternal riboflavin deficiency in combination with reduced VLCAD activity in the newborns can result in an abnormal VLCADD/MADD acylcarnitine profile and can cause false-positive NBS. We hypothesize that maternal riboflavin deficiency contributed to the false-positive VLCADD neonatal screening results., Competing Interests: The authors declared no potential conflicts of interest., (© 2021 The Authors. JIMD Reports published by John Wiley & Sons Ltd on behalf of SSIEM.)

Published

2021

12. Neurotoxicity including posterior reversible encephalopathy syndrome after initiation of calcineurin inhibitors in transplanted methylmalonic acidemia patients: Two case reports and review of the literature.

Author

Molema F, Williams M, Langendonk J, Darwish-Murad S, van de Wetering J, Jacobs E, Onkenhout W, Brusse E, van der Eerden A, and Wagenmakers M

Abstract

Introduction: New neurological symptoms in methylmalonic acidemia (MMA) patients after liver and/or kidney transplantation (LKT) are often described as metabolic stroke-like-events. Since calcineurin inhibitors (CNIs) are a well-known cause of new neurological symptoms in non-MMA transplanted patients, we investigated the incidence of CNI-induced neurotoxicity including posterior reversible encephalopathy syndrome (PRES) in post-transplanted MMA patients., Methods: We report the two MMA patients treated with LKT in our center. Additionally, we performed a systematic review of case reports/series of post-transplanted MMA patients and determined if CNI-induced neurotoxicity/PRES was a likely cause of new neurological symptoms. Definite CNI-induced neurotoxicity was defined as new neurological symptoms during CNI treatment with symptom improvement after CNI dose reduction/discontinuation. PRES was defined as CNI-induced neurotoxicity with signs of vasogenic edema on brain magnetic resonance imaging (MRI)-scan post-transplantation., Results: Our two MMA patients both developed CNI-induced neurotoxicity, one had PRES. In literature, 230 transplanted MMA patients were identified. Neurological follow-up was reported in 54 of them, of which 24 were excluded from analysis since no anti-rejection medication was reported. Thirty patients, all using CNI, were included. Sixteen patients (53%) had no new neurological symptoms post-transplantation and five patients (17%) had definite CNI neurotoxicity of whom two had PRES. Including our cases this results in a pooled incidence of 22% (7/32) definite CNI neurotoxicity and 9% PRES (3/32) in post-transplanted MMA patients on CNI., Conclusion: In MMA post-transplanted patients with new neurological symptoms CNI-induced neurotoxicity/PRES should be considered. Early recognition of CNI-induced neurotoxicity is essential to initiate dose reduction/discontinuation of CNI to minimize persistent neurologic damage and improve outcome., Concise One Sentence Take Home Message: In all post-transplanted MMA patients with new neurological symptoms CNI-induced neurotoxicity/PRES should be considered, and directly reducing the dose/discontinuation of CNI is essential., Competing Interests: This research was performed independently of all financial sponsors other than Erasmus MC, University Medical Center, (© 2020 The Authors. Journal of Inherited Metabolic Disease published by John Wiley & Sons Ltd on behalf of SSIEM.)

Published

2020

13. Untargeted Metabolomics-Based Screening Method for Inborn Errors of Metabolism using Semi-Automatic Sample Preparation with an UHPLC- Orbitrap-MS Platform.

Author

Bonte R, Bongaerts M, Demirdas S, Langendonk JG, Huidekoper HH, Williams M, Onkenhout W, Jacobs EH, Blom HJ, and Ruijter GJG

Abstract

Routine diagnostic screening of inborn errors of metabolism (IEM) is currently performed by different targeted analyses of known biomarkers. This approach is time-consuming, targets a limited number of biomarkers and will not identify new biomarkers. Untargeted metabolomics generates a global metabolic phenotype and has the potential to overcome these issues. We describe a novel, single platform, untargeted metabolomics method for screening IEM, combining semi-automatic sample preparation with pentafluorophenylpropyl phase (PFPP)-based UHPLC- Orbitrap-MS. We evaluated analytical performance and diagnostic capability of the method by analysing plasma samples of 260 controls and 53 patients with 33 distinct IEM. Analytical reproducibility was excellent, with peak area variation coefficients below 20% for the majority of the metabolites. We illustrate that PFPP-based chromatography enhances identification of isomeric compounds. Ranked z-score plots of metabolites annotated in IEM samples were reviewed by two laboratory specialists experienced in biochemical genetics, resulting in the correct diagnosis in 90% of cases. Thus, our untargeted metabolomics platform is robust and differentiates metabolite patterns of different IEMs from those of controls. We envision that the current approach to diagnose IEM, using numerous tests, will eventually be replaced by untargeted metabolomics methods, which also have the potential to discover novel biomarkers and assist in interpretation of genetic data.

Published

2019

14. Neonatal screening for profound biotinidase deficiency in the Netherlands: consequences and considerations.

Author

Wiltink RC, Kruijshaar ME, van Minkelen R, Onkenhout W, Verheijen FW, Kemper EA, van Spronsen FJ, van der Ploeg AT, Niezen-Koning KE, Saris JJ, and Williams M

Subjects

Biotinidase Deficiency diagnosis, False Positive Reactions, Female, Genetic Testing statistics & numerical data, Humans, Infant, Newborn, Male, Netherlands, Sensitivity and Specificity, Biotinidase Deficiency genetics, Genetic Testing standards

Abstract

Biotinidase deficiency is a rare inherited metabolic disorder that can cause severe neurological symptoms. To prevent severe clinical presentations, it was included in the Dutch neonatal screening programme in 2007. Since then the number of cases detected has been high. This study set out to describe the incidence of the disease, the clinical and demographic characteristics of the neonates identified and the type of mutations found. In the south-western Netherlands, 304 982 neonates were screened between 2007 and 2012; and 92 were identified for further testing. Confirmatory testing revealed 6 (7%) with a profound biotinidase deficiency (<10% enzyme activity), 44 (48%) with a partial deficiency (10-30%) and 42 (46%) with normal activity (>30%). All six patients whose profound deficiency was confirmed had enzyme activities below 15% on neonatal screening. Mutation analysis was performed in 61 neonates: 5 'profound', 35 'partial' and 21 'normal'. All five 'profound' cases had two severe mutations. Comparison with the northern Netherlands showed that the frequency and types of mutation were representative for the Netherlands as a whole. The most common mutation detected was c.[1330G>C] (p.(Asp444His); 34%), which is considered to be mild, followed by three severe mutations c.[1368A>C], c.[1595C>T] and c.[1330G>C;511G>A]. Seven new mutations were identified. We conclude that neonatal screening for profound biotinidase produces a high number of false positives. Biotinidase deficiency was profound in less than 10% of cases identified. As biotinidase activity lay below 15% on neonatal screening in all such cases, the screening threshold might be reduced to 15%.

Published

2016

15. Cystathionine Levels in Patients With Huntington Disease.

Author

Aziz NA, Onkenhout W, Kerstens HJ, and Roos RA

Abstract

Background: Recently a profound depletion of cystathionine γ-lyase (CSE), the principal enzyme involved in the generation of cysteine from cystathionine, was shown in Huntington disease (HD) patients and several transgenic HD mouse models. We therefore hypothesized that blood and urine cystathionine levels may be increased in HD patients and that this increase might correlate with disease progression., Methods: We measured concentrations of cystathionine as well as 22 other amino acids in fasting plasma and 24-h urine samples of nine early-stage HD patients and nine age, sex, and body mass index matched controls., Results: There were no significant differences in the plasma or urine concentrations of cystathionine or any other amino acid between HD patients and controls., Conclusion: We found no evidence for changes in plasma or urine concentrations of cystathionine in early-stage HD patients. Therefore, cystathionine levels are unlikely to be useful as a state biomarker in HD.

Published

2015