Your search keyword '"Urea cycle disorders"' showing total 23 results

1. CPS1: Looking at an ancient enzyme in a modern light

Author

Nitzahn, Matthew and Lipshutz, Gerald S

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Nutrition, Digestive Diseases, Good Health and Well Being, Ammonia, Carbamoyl-Phosphate Synthase (Ammonia), Carbamoyl-Phosphate Synthase I Deficiency Disease, Homeostasis, Humans, Urea, Urea Cycle Disorders, Inborn, Clinical Sciences, Genetics & Heredity, Genetics, Clinical sciences

Abstract

The mammalian urea cycle (UC) is responsible for siphoning catabolic waste nitrogen into urea for excretion. Disruptions of the functions of any of the enzymes or transporters lead to elevated ammonia and neurological injury. Carbamoyl phosphate synthetase 1 (CPS1) is the first and rate-limiting UC enzyme responsible for the direct incorporation of ammonia into UC intermediates. Symptoms in CPS1 deficiency are typically the most severe of all UC disorders, and current clinical management is insufficient to prevent the associated morbidities and high mortality. With recent advances in basic and translational studies of CPS1, appreciation for this enzyme's essential role in the UC has been broadened to include systemic metabolic regulation during homeostasis and disease. Here, we review recent advances in CPS1 biology and contextualize them around the role of CPS1 in health and disease.

Published

2020

2. Severity-adjusted evaluation of initial dialysis on short-term health outcomes in urea cycle disorders.

Author

Zielonka M, Kölker S, Garbade SF, Gleich F, Nagamani SCS, Gropman AL, Druck AC, Ramdhouni N, Göde L, Hoffmann GF, and Posset R

Subjects

Humans, Male, Retrospective Studies, Female, Ornithine Carbamoyltransferase Deficiency Disease therapy, Ornithine Carbamoyltransferase Deficiency Disease genetics, Child, Preschool, Child, Infant, Argininosuccinic Aciduria genetics, Argininosuccinic Aciduria therapy, Adolescent, Adult, Treatment Outcome, Citrullinemia therapy, Citrullinemia genetics, Severity of Illness Index, Young Adult, Infant, Newborn, Urea Cycle Disorders, Inborn therapy, Urea Cycle Disorders, Inborn genetics, Urea Cycle Disorders, Inborn pathology, Renal Dialysis

Abstract

Objective: In individuals with urea cycle disorders (UCDs) and neonatal disease onset, extracorporeal detoxification by continuous kidney replacement therapy is considered the therapeutic method of choice in addition to metabolic emergency treatment to resolve hyperammonemic decompensation. However, the indications for the initiation of dialysis are heterogeneously implemented transnationally, thereby hampering our understanding of (optimal) short-term health outcomes., Methods: We performed a retrospective comparative analysis evaluating the therapeutic effects of initial dialysis on survival as well as neurocognitive outcome parameters in individuals with UCDs in comparison to a severity-adjusted non-dialyzed control cohort. Overall, 108 individuals with a severe phenotype of male ornithine transcarbamylase deficiency (mOTC-D), citrullinemia type 1 (CTLN1) and argininosuccinic aciduria (ASA) were investigated by stratification based on a recently established and validated genotype-specific disease prediction model., Results: Mortality is associated with the height of initial peak plasma ammonium concentration, but appears to be independent from treatment with initial dialysis in mOTC-D. However, improved survival after initial dialysis was observed in CTLN1, while there was a trend towards improved survival in ASA. In survivors, annual frequency of (subsequent) metabolic decompensations did not differ between the dialyzed and non-dialyzed cohorts. Moreover, treatment with initial dialysis was not associated with improved neurocognitive outcomes., Interpretation: The present severity-adjusted comparative analysis reveals that general practice of initial dialysis is neither associated with improved survival in individuals with mOTC-D nor does it differ with regard to the neurocognitive outcome for the investigated UCD subtypes. However, initial dialysis might potentially prove beneficial for survival in CTLN1 and ASA., Clinical Trial Registration: The UCDC database is recorded at the US National Library of Medicine (https://clinicaltrials.gov)., Competing Interests: Declaration of competing interest None., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

3. Self-reported treatment-associated symptoms among patients with urea cycle disorders participating in glycerol phenylbutyrate clinical trials

Author

Nagamani, Sandesh CS, Diaz, George A, Rhead, William, Berry, Susan A, Le Mons, Cynthia, Lichter-Konecki, Uta, Bartley, James, Feigenbaum, Annette, Schulze, Andreas, Longo, Nicola, Berquist, William, Gallagher, Renata, Bartholomew, Dennis, Harding, Cary O, Korson, Mark S, McCandless, Shawn E, Smith, Wendy, Vockley, Jerry, Kronn, David, Zori, Robert, Cederbaum, Stephen, Merritt, J Lawrence, Wong, Derek, Coakley, Dion F, Scharschmidt, Bruce F, Dickinson, Klara, Marino, Miguel, Lee, Brendan H, and Mokhtarani, Masoud

Subjects

Chronic Pain, Pain Research, Clinical Research, Neurosciences, Clinical Trials and Supportive Activities, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Adolescent, Adult, Aged, Ammonia, Antineoplastic Agents, Child, Child, Preschool, Female, Glycerol, Humans, Infant, Male, Middle Aged, Phenylbutyrates, Quality of Life, Self Report, Surveys and Questionnaires, Urea Cycle Disorders, Inborn, Young Adult, Treatment-related symptoms, Glycerol phenylbutyrate, Sodium phenylbutyrate, Patient-reported outcomes, Health-related quality of life, Clinical Sciences, Genetics & Heredity

Abstract

BackgroundHealth care outcomes have been increasingly assessed through health-related quality of life (HRQoL) measures. While the introduction of nitrogen-scavenging medications has improved survival in patients with urea cycle disorders (UCDs), they are often associated with side effects that may affect patient compliance and outcomes.MethodsSymptoms commonly associated with nitrogen-scavenging medications were evaluated in 100 adult and pediatric participants using a non-validated UCD-specific questionnaire. Patients or their caregivers responded to a pre-defined list of symptoms known to be associated with the use of these medications. Responses were collected at baseline (while patients were receiving sodium phenylbutyrate [NaPBA]) and during treatment with glycerol phenylbutyrate (GPB).ResultsAfter 3 months of GPB dosing, there were significant reductions in the proportion of patients with treatment-associated symptoms (69% vs. 46%; p

Published

2015

4. Impact of supplementation with L-citrulline/arginine after liver transplantation in individuals with Urea Cycle Disorders.

Author

Posset R, Garbade SF, Gleich F, Nagamani SCS, Gropman AL, Epp F, Ramdhouni N, Druck AC, Hoffmann GF, Kölker S, and Zielonka M

Subjects

Male, Humans, Citrulline therapeutic use, Arginine metabolism, Pilot Projects, Dietary Supplements, Urea metabolism, Liver Transplantation, Urea Cycle Disorders, Inborn drug therapy, Urea Cycle Disorders, Inborn surgery

Abstract

Objective: Liver transplantation (LTx) is an intervention when medical management is not sufficiently preventing individuals with urea cycle disorders (UCDs) from the occurrence of hyperammonemic events. Supplementation with L-citrulline/arginine is regularly performed prior to LTx to support ureagenesis and is often continued after the intervention. However, systematic studies assessing the impact of long-term L-citrulline/arginine supplementation in individuals who have undergone LTx is lacking to date., Methods: Using longitudinal data collected systematically, a comparative analysis was carried out by studying the effects of long-term L-citrulline/arginine supplementation vs. no supplementation on health-related outcome parameters (i.e., anthropometric, neurological, and cognitive outcomes) in individuals with UCDs who have undergone LTx. Altogether, 52 individuals with male ornithine transcarbamylase deficiency, citrullinemia type 1 and argininosuccinic aciduria and a pre-transplant "severe" disease course who have undergone LTx were investigated by using recently established and validated genotype-specific in vitro enzyme activities., Results: Long-term supplementation of individuals with L-citrulline/arginine who have undergone LTx (n = 16) does neither appear to alter anthropometric nor neurocognitive endpoints when compared to their severity-adjusted counterparts that were not supplemented (n = 36) after LTx with mean observation periods between four to five years. Moreover, supplementation with L-citrulline/arginine was not associated with an increase of disease-specific plasma arithmetic mean values for the respective amino acids when compared to the non-supplemented control cohort., Conclusion: Although supplementation with L-citrulline/arginine is often continued after LTx, this pilot study does neither identify altered long-term anthropometric or neurocognitive health-related outcomes nor does it find an adequate biochemical response as reflected by the unaltered plasma arithmetic mean values for L-citrulline or L-arginine. Further prospective analyses in larger samples and even longer observation periods will provide more insight into the usefulness of long-term supplementation with L-citrulline/arginine for individuals with UCDs who have undergone LTx., Competing Interests: Declaration of Competing Interest RP receives consultancy fees from Immedica Pharma AB. SK received funding from Immedica Pharma AB for the European Post-Authorization Registry for Ravicti® (glycerol phenylbutyrate) oral liquid in partnership with the E-IMD (RRPE) (EU PAS Register no. EUPAS17267; http://www.encepp.eu/). GFH received lecture fees from Swedish Orphan Biovitrum GmbH. AS is paid consultant and member of advisory boards for HZNP Canada Ltd., ModernaTX Inc., and Recordati Rare Diseases Canada Inc. AS is site PI on clinical trials sponsored by ModernaTX Inc., Ultragenyx Canada Inc., and iECURE Inc. The sponsors have in no way influenced the design, conductance, analysis and report of the present study. All other authors declare that they have no conflict of interest., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

5. Urinary phenylacetylglutamine as dosing biomarker for patients with urea cycle disorders

Author

Mokhtarani, M, Diaz, GA, Rhead, W, Lichter-Konecki, U, Bartley, J, Feigenbaum, A, Longo, N, Berquist, W, Berry, SA, Gallagher, R, Bartholomew, D, Harding, CO, Korson, MS, McCandless, SE, Smith, W, Vockley, J, Bart, S, Kronn, D, Zori, R, Cederbaum, S, Dorrani, N, Merritt, JL, Sreenath-Nagamani, Sandesh, Summar, M, LeMons, C, Dickinson, K, Coakley, DF, Moors, TL, Lee, B, and Scharschmidt, BF

Subjects

Clinical Research, Adolescent, Adult, Ammonia, Biomarkers, Pharmacological, Child, Cross-Over Studies, Drug Administration Schedule, Female, Glutamine, Glycerol, Humans, Male, Phenylacetates, Phenylbutyrates, Urea Cycle Disorders, Inborn, Urea cycle disorders, Phenylacetic acid, Glycerol phenylbutyrate, Sodium phenylbutyrate, Phenylacetylglutamine, Phenylbutyric acid, Clinical Sciences, Genetics & Heredity

Abstract

UnlabelledWe have analyzed pharmacokinetic data for glycerol phenylbutyrate (also GT4P or HPN-100) and sodium phenylbutyrate with respect to possible dosing biomarkers in patients with urea cycle disorders (UCD).Study designThese analyses are based on over 3000 urine and plasma data points from 54 adult and 11 pediatric UCD patients (ages 6-17) who participated in three clinical studies comparing ammonia control and pharmacokinetics during steady state treatment with glycerol phenylbutyrate or sodium phenylbutyrate. All patients received phenylbutyric acid equivalent doses of glycerol phenylbutyrate or sodium phenylbutyrate in a cross over fashion and underwent 24-hour blood samples and urine sampling for phenylbutyric acid, phenylacetic acid and phenylacetylglutamine.ResultsPatients received phenylbutyric acid equivalent doses of glycerol phenylbutyrate ranging from 1.5 to 31.8 g/day and of sodium phenylbutyrate ranging from 1.3 to 31.7 g/day. Plasma metabolite levels varied widely, with average fluctuation indices ranging from 1979% to 5690% for phenylbutyric acid, 843% to 3931% for phenylacetic acid, and 881% to 1434% for phenylacetylglutamine. Mean percent recovery of phenylbutyric acid as urinary phenylacetylglutamine was 66.4 and 69.0 for pediatric patients and 68.7 and 71.4 for adult patients on glycerol phenylbutyrate and sodium phenylbutyrate, respectively. The correlation with dose was strongest for urinary phenylacetylglutamine excretion, either as morning spot urine (r = 0.730, p < 0.001) or as total 24-hour excretion (r = 0.791 p

Published

2012

6. ASS1 deficiency is associated with impaired neuronal differentiation in zebrafish larvae.

Author

Seidl MJ, Scharre S, Posset R, Druck AC, Epp F, Okun JG, Dimitrov B, Hoffmann GF, Kölker S, and Zielonka M

Subjects

Animals, Humans, Zebrafish genetics, Citrulline, Argininosuccinate Synthase genetics, Argininosuccinate Synthase metabolism, Phenotype, Citrullinemia pathology, Hyperammonemia genetics

Abstract

Citrullinemia type 1 (CTLN1) is a rare autosomal recessive urea cycle disorder caused by deficiency of the cytosolic enzyme argininosuccinate synthetase 1 (ASS1) due to pathogenic variants in the ASS1 gene located on chromosome 9q34.11. Even though hyperammenomia is considered the major pathomechanistic factor for neurological impairment and cognitive dysfunction, a relevant subset of individuals presents with a neurodegenerative course in the absence of hyperammonemic decompensations. Here we show, that ASS1 deficiency induced by antisense-mediated knockdown of the zebrafish ASS1 homologue is associated with defective neuronal differentiation ultimately causing neuronal cell loss and consecutively decreased brain size in zebrafish larvae in vivo. Whereas ASS1-deficient zebrafish larvae are characterized by markedly elevated concentrations of citrulline - the biochemical hallmark of CTLN1, accumulation of L-citrulline, hyperammonemia or therewith associated secondary metabolic alterations did not account for the observed phenotype. Intriguingly, coinjection of the human ASS1 mRNA not only normalized citrulline concentration but also reversed the morphological cerebral phenotype and restored brain size, confirming conserved functional properties of ASS1 across species. The results of the present study imply a novel, potentially non-enzymatic (moonlighting) function of the ASS1 protein in neurodevelopment., Competing Interests: Declaration of Competing Interest All authors declare that there exist no potential conflicts of interest with regard to research, authorship and/or publication of this article., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

7. Monitoring the treatment of urea cycle disorders using phenylbutyrate metabolite analyses: Still many lessons to learn.

Author

Glinton KE, Minard CG, Liu N, Sun Q, Elsea SH, Burrage LC, and Nagamani SCS

Subjects

Child, Humans, Retrospective Studies, Phenylbutyrates, Urea Cycle Disorders, Inborn

Abstract

Medications that elicit an alternate pathway for nitrogen excretion such as oral sodium phenylbutyrate (NaPBA) and glycerol phenylbutyrate (GPB) and intravenous sodium phenylacetate (NaPAA) are important for the management of urea cycle disorders (UCDs). Plasma concentrations of their primary metabolite, phenylacetate (PAA), as well as the ratio of PAA to phenylacetylglutamine (PAGN) are useful for guiding dosing and detecting toxicity. However, the frequency of toxic elevations of metabolites and associated clinical covariates is relatively unknown. A retrospective analysis was conducted on 1255 plasma phenylbutyrate metabolite measurements from 387 individuals. An additional analysis was also conducted on a subset of 68 individuals in whom detailed clinical information was available. In the course of these analyses, abnormally elevated plasma PAA and PAA:PAGN were identified in 39 individuals (4.15% of samples) and 42 individuals (4.30% of samples), respectively. Abnormally elevated PAA and PAA:PAGN values were more likely to occur in younger individuals and associate positively with dose of NAPBA and negatively with plasma glutamine and glycine levels. These results demonstrate that during routine clinical management, the majority of patients have PAA levels that are deemed safe. As age is negatively associated with PAA levels however, children undergoing treatment with NaPBA may need close monitoring of their phenylbutyrate metabolite levels., Competing Interests: Declaration of Competing Interest K.E.G., N.L., Q.S., S.H.E., L.C.B., and S.C.S.N. are employees of the Baylor College of Medicine, which generates genetic testing revenue in a partnership with Baylor Genetics., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

8. Health-related quality of life in a systematically assessed cohort of children and adults with urea cycle disorders.

Author

Murali CN, Barber JR, McCarter R, Zhang A, Gallant N, Simpson K, Dorrani N, Wilkening GN, Hays RD, Lichter-Konecki U, Burrage LC, and Nagamani SCS

Subjects

Child, Humans, Adult, Quality of Life, Multicenter Studies as Topic, Urea Cycle Disorders, Inborn diagnosis, Hyperammonemia diagnosis, Liver Transplantation, Phenylketonurias complications, Diabetes Mellitus

Abstract

Purpose: Individuals with urea cycle disorders (UCDs) may develop recurrent hyperammonemia, episodic encephalopathy, and neurological sequelae which can impact Health-related Quality of Life (HRQoL). To date, there have been no systematic studies of HRQoL in people with UCDs., Methods: We reviewed HRQoL and clinical data for 190 children and 203 adults enrolled in a multicenter UCD natural history study. Physical and psychosocial HRQoL in people with UCDs were compared to HRQoL in healthy people and people with phenylketonuria (PKU) and diabetes mellitus. We assessed relationships between HRQoL, UCD diagnosis, and disease severity. Finally, we calculated sample sizes required to detect changes in these HRQoL measures., Results: Individuals with UCDs demonstrated worse physical and psychosocial HRQoL than their healthy peers and peers with PKU and diabetes. In children, HRQoL scores did not differ by diagnosis or severity. In adults, individuals with decreased severity had worse psychosocial HRQoL. Finally, we show that a large number of individuals would be required in clinical trials to detect differences in HRQoL in UCDs., Conclusion: Individuals with UCDs have worse HRQoL compared to healthy individuals and those with PKU and diabetes. Future work should focus on the impact of liver transplantation and other clinical variables on HRQoL in UCDs., Competing Interests: Declaration of Competing Interest None., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

9. What are the clues for an inherited metabolic disorder in Reye syndrome? A single Centre study of 58 children

Author

Goetz, Violette, Yang, David Dawei, Lacaille, Florence, Pelosi, Michele, Angoulvant, François, Brassier, Anais, Arnoux, Jean-Baptiste, Schiff, Manuel, Heilbronner, Claire, Salvador, Elodie, Debray, Dominique, Oualha, Mehdi, Renolleau, Sylvain, Girard, Muriel, de Lonlay, Pascale, CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Health data- and model- driven Knowledge Acquisition (HeKA), Inria de Paris, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-Centre de Recherche des Cordeliers (CRC (UMR_S_1138 / U1138)), École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Université Paris Cité (UPCité)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Université Paris Cité (UPCité), Centre de Recherche des Cordeliers (CRC (UMR_S_1138 / U1138)), Imagine - Institut des maladies génétiques (IHU) (Imagine - U1163), and Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité)

Subjects

[SDV]Life Sciences [q-bio], Endocrinology, Diabetes and Metabolism, Reye Syndrome, Inherited metabolic disorder, Biochemistry, Urea cycle disorders, Deferasirox, Endocrinology, Metabolic Diseases, Ammonia, Child, Preschool, Genetics, Humans, NBAS, Ketogenesis defects, Acidosis, Child, Molecular Biology, Fatty-acid oxidation disorders, Retrospective Studies

Abstract

International audience; ObjectivesReye Syndrome is an acute encephalopathy with increased liver enzymes and blood ammonia, without jaundice. The prevalence of an underlying inherited metabolic disorder (IMD) is unclear, nor the clinical or biological factors directing toward this diagnosis. Our aims were to define these clues in a large series of patients.Patients and methodsWe retrospectively studied all patients with Reye admitted in our institution from 1995. We defined 3 groups: Group 1 with a confirmed IMD, Group 2 considered as free of IMD, Group 3 unclassified. Statistical analysis compared patients in Groups 1 and 2, to find criteria for a diagnosis of IMD.ResultsFifty-eight children were included; 41 (71%) had a confirmed IMD, 12 (20%) were free of IMD, and 5 remained unclassified. IMDs included Urea Cycle Disorders (51%), Fatty-Acid Oxidation Disorders (24%), ketogenesis defects (5%), other mitochondrial energy metabolism defects (10%), NBAS mutation (7%), Glycosylation Disorders (2%). In Group 2, the trigger was a viral infection, or a drug, deferasirox in three children. Univariate analysis showed that onset before 2 years-old, recurrent Reye and the association with rhabdomyolysis were significantly associated with IMD. Blood ammonia was a poor discriminating marker. All children were admitted into the intensive care unit, 23% needed continuous venovenous hemodialysis and one died from brain oedema.ConclusionMetabolic tests should be performed early in all cases of Reye, regardless of triggers. As they can be inconclusive, we suggest to systematically go to Next-Generation Sequencing study. These children should be transferred early to a specialized unit.

Published

2021

10. Taste-masked formulation of sodium phenylbutyrate (ACER-001) for the treatment of urea cycle disorders.

Author

Cederbaum SD, Edwards J, Kellmeyer T, Peters Y, and Steiner RD

Subjects

Humans, Phenylbutyrates, Taste, Powders therapeutic use, Nitrogen, Rare Diseases drug therapy, Urea, Urea Cycle Disorders, Inborn, Hyperammonemia drug therapy

Abstract

Urea cycle disorders (UCDs) are a group of rare inherited metabolic diseases caused by a deficiency of one of the enzymes or transporters that constitute the urea cycle. Defects in these enzymes lead to acute accumulation (hyperammonemic crises, HAC) or chronically elevated levels (hyperammonemia) of ammonia in the blood and/or various tissues including the brain, which can cause persistent neurological deficits, irreversible brain damage, coma, and death. Ongoing treatment of UCDs include the use of nitrogen-scavenging agents, such as sodium phenylbutyrate (salt of 4-phenylbutyric acid; NaPBA) or glycerol phenylbutyrate (GPB). These treatments provide an alternative pathway for nitrogen disposal through the urinary excretion of phenylacetylglutamine. ACER-001 is a novel formulation of NaPBA with polymer coated pellets in suspension, which is designed to briefly mask the unpleasant bitter taste of NaPBA and is being developed as a treatment option for patients with UCDs. Four Phase 1 studies were conducted to characterize the bioavailability (BA) and/or bioequivalence (BE) of ACER-001 (in healthy volunteers) and taste assessment relative to NaPBA powder (in taste panelists). ACER-001 was shown to be bioequivalent to NaPBA powder under both fed and fasting conditions. Lower systemic exposure of phenylacetate (PAA) and phenylbutyrate (PBA) was observed when ACER-001 was administered with a high-fat meal relative to a fasting state suggesting that the lower doses of PBA administered under fasting conditions may yield similar efficacy with potentially fewer dose dependent adverse effects relative to higher doses with a meal. ACER-001 appeared to be adequately taste-masked, staying below the aversive taste threshold for the first 3 min after the formulation was prepared and remaining palatable when taken within 5 min., Competing Interests: Declaration of Competing Interest R.D.S. has equity interest in and has received consulting fees from Acer Therapeutics and PTC Therapeutics. He was not compensated for the preparation of this manuscript. He has received consulting fees from Aeglea BioTherapeutics; Best Doctors/Teladoc; Health Advances LLC; Leadiant, and Travere Therapeutics, Inc.; and honoraria from Medscape/WebMD LLC and The France Foundation. R.D.S. is an employee of PreventionGenetics, a subsidiary of Exact Sciences. He received research funding from Alexion Pharmaceuticals, Children's Mercy Research Institute, and the Smith Lemli Opitz Foundation. SDC is a consultant to Acer and has a consulting relationship with a number of other companies in the field of inborn errors of metabolism. He is not being paid for his participation in this work or for the preparation of the manuscript. JE, YP, and TK are employees and holders of Acer Therapeutics equity., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

11. Childhood-onset hereditary spastic paraplegia and its treatable mimics.

Author

Ebrahimi-Fakhari D, Saffari A, and Pearl PL

Subjects

Child, Humans, Phenotype, High-Throughput Nucleotide Sequencing, Mutation, Proteins genetics, Spastic Paraplegia, Hereditary diagnosis, Spastic Paraplegia, Hereditary genetics, Spastic Paraplegia, Hereditary metabolism, Retinal Degeneration, Metabolism, Inborn Errors

Abstract

Early-onset forms of hereditary spastic paraplegia and inborn errors of metabolism that present with spastic diplegia are among the most common "mimics" of cerebral palsy. Early detection of these heterogenous genetic disorders can inform genetic counseling, anticipatory guidance, and improve outcomes, particularly where specific treatments exist. The diagnosis relies on clinical pattern recognition, biochemical testing, neuroimaging, and increasingly next-generation sequencing-based molecular testing. In this short review, we summarize the clinical and molecular understanding of: 1) childhood-onset and complex forms of hereditary spastic paraplegia (SPG5, SPG7, SPG11, SPG15, SPG35, SPG47, SPG48, SPG50, SPG51, SPG52) and, 2) the most common inborn errors of metabolism that present with phenotypes that resemble hereditary spastic paraplegia., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

12. Epidemiology, methods of diagnosis, and clinical management of patients with arginase 1 deficiency (ARG1-D): A systematic review.

Author

Bin Sawad A, Jackimiec J, Bechter M, Trucillo A, Lindsley K, Bhagat A, Uyei J, and Diaz GA

Subjects

Infant, Newborn, Humans, Child, Preschool, Arginase genetics, Seizures diagnosis, Seizures epidemiology, Seizures etiology, Muscle Spasticity diagnosis, Muscle Spasticity epidemiology, Muscle Spasticity genetics, Arginine therapeutic use, Amino Acids, Essential, Disease Progression, Nitrogen, Intellectual Disability, Hyperargininemia diagnosis, Hyperargininemia epidemiology, Hyperargininemia genetics

Abstract

Background: Arginase 1 Deficiency (ARG1-D) is a rare, progressive, metabolic disorder that is characterized by devastating manifestations driven by elevated plasma arginine levels. It typically presents in early childhood with spasticity (predominately affecting the lower limbs), mobility impairment, seizures, developmental delay, and intellectual disability. This systematic review aims to identify and describe the published evidence outlining the epidemiology, diagnosis methods, measures of disease progression, clinical management, and outcomes for ARG1-D patients., Methods: A comprehensive literature search across multiple databases such as MEDLINE, Embase, and a review of clinical studies in ClinicalTrials.gov (with results reported) was carried out per PRISMA guidelines on 20 April 2020 with no date restriction. Pre-defined eligibility criteria were used to identify studies with data specific to patients with ARG1-D. Two independent reviewers screened records and extracted data from included studies. Quality was assessed using the modified Newcastle-Ottawa Scale for non-comparative studies., Results: Overall, 55 records reporting 40 completed studies and 3 ongoing studies were included. Ten studies reported the prevalence of ARG1-D in the general population, with a median of 1 in 1,000,000. Frequently reported diagnostic methods included genetic testing, plasma arginine levels, and red blood cell arginase activity. However, routine newborn screening is not universally available, and lack of disease awareness may prevent early diagnosis or lead to misdiagnosis, as the disease has overlapping symptomology with other diseases, such as cerebral palsy. Common manifestations reported at time of diagnosis and assessed for disease progression included spasticity (predominately affecting the lower limbs), mobility impairment, developmental delay, intellectual disability, and seizures. Severe dietary protein restriction, essential amino acid supplementation, and nitrogen scavenger administration were the most commonly reported treatments among patients with ARG1-D. Only a few studies reported meaningful clinical outcomes of these interventions on intellectual disability, motor function and adaptive behavior assessment, hospitalization, or death. The overall quality of included studies was assessed as good according to the Newcastle-Ottawa Scale., Conclusions: Although ARG1-D is a rare disease, published evidence demonstrates a high burden of disease for patients. The current standard of care is ineffective at preventing disease progression. There remains a clear need for new treatment options as well as improved access to diagnostics and disease awareness to detect and initiate treatment before the onset of clinical manifestations to potentially enable more normal development, improve symptomatology, or prevent disease progression., Competing Interests: Declaration of Competing Interest This study was sponsored by Aeglea BioTherapeutics. Aseel Bin Sawad, John Jackimiec, Mark Bechter, and Allison Trucillo are employees of Aeglea BioTherapeutics. Kristina Lindsley, Anil Bhagat, and Jennifer Uyei are employees of IQVIA. George A. Diaz is employed at the Division of Medical Genetics and Genomics in the Department of Genetics and Genomic Sciences at the Icahn School of Medicine at Mount Sinai and has served as an advisor/consultant and clinical trial investigator for Aeglea BioTherapeutics., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

13. What are the clues for an inherited metabolic disorder in Reye syndrome? A single Centre study of 58 children.

Author

Goetz V, Yang DD, Lacaille F, Pelosi M, Angoulvant F, Brassier A, Arnoux JB, Schiff M, Heilbronner C, Salvador E, Debray D, Oualha M, Renolleau S, Girard M, and de Lonlay P

Subjects

Ammonia, Child, Child, Preschool, Humans, Retrospective Studies, Acidosis, Metabolic Diseases, Reye Syndrome metabolism

Abstract

Objectives: Reye Syndrome is an acute encephalopathy with increased liver enzymes and blood ammonia, without jaundice. The prevalence of an underlying inherited metabolic disorder (IMD) is unclear, nor the clinical or biological factors directing toward this diagnosis. Our aims were to define these clues in a large series of patients., Patients and Methods: We retrospectively studied all patients with Reye admitted in our institution from 1995. We defined 3 groups: Group 1 with a confirmed IMD, Group 2 considered as free of IMD, Group 3 unclassified. Statistical analysis compared patients in Groups 1 and 2, to find criteria for a diagnosis of IMD., Results: Fifty-eight children were included; 41 (71%) had a confirmed IMD, 12 (20%) were free of IMD, and 5 remained unclassified. IMDs included Urea Cycle Disorders (51%), Fatty-Acid Oxidation Disorders (24%), ketogenesis defects (5%), other mitochondrial energy metabolism defects (10%), NBAS mutation (7%), Glycosylation Disorders (2%). In Group 2, the trigger was a viral infection, or a drug, deferasirox in three children. Univariate analysis showed that onset before 2 years-old, recurrent Reye and the association with rhabdomyolysis were significantly associated with IMD. Blood ammonia was a poor discriminating marker. All children were admitted into the intensive care unit, 23% needed continuous venovenous hemodialysis and one died from brain oedema., Conclusion: Metabolic tests should be performed early in all cases of Reye, regardless of triggers. As they can be inconclusive, we suggest to systematically go to Next-Generation Sequencing study. These children should be transferred early to a specialized unit., Competing Interests: Declaration of Competing Interest The authors disclose no conflict of interest nor source of financial assistance. The authors disclose no prior presentation of study data as an abstract or poster., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

14. A randomized trial to examine the impact of food on pharmacokinetics of 4-phenylbutyrate and change in amino acid availability after a single oral administration of sodium 4-phenylbutyrarte in healthy volunteers.

Author

Osaka S, Nakano S, Mizuno T, Hiraoka Y, Minowa K, Hirai S, Mizutani A, Sabu Y, Miura Y, Shimizu T, Kusuhara H, Suzuki M, and Hayashi H

Subjects

Administration, Oral, Adult, Amino Acids genetics, Amino Acids, Branched-Chain genetics, Biological Availability, Female, Glutamine genetics, Healthy Volunteers, Humans, Male, Middle Aged, Urea Cycle Disorders, Inborn genetics, Urea Cycle Disorders, Inborn pathology, Young Adult, Eating genetics, Pharmacokinetics, Phenylbutyrates administration & dosage, Urea Cycle Disorders, Inborn drug therapy

Abstract

Urea cycle disorders (UCDs), inborn errors of hepatocyte metabolism, result in the systemic accumulation of ammonia to toxic levels. Sodium 4-phenylbutyrate (NaPB), a standard therapy for UCDs for over 20 years, generates an alternative pathway of nitrogen deposition through glutamine consumption. Administration during or immediately after a meal is the accepted use of NaPB. However, this regimen is not based on clinical evidence. Here, an open-label, single-dose, five-period crossover study was conducted in healthy adults to investigate the effect of food on the pharmacokinetics of NaPB and determine any subsequent change in amino acid availability. Twenty subjects were randomized to one of four treatment groups. Following an overnight fast, NaPB was administered orally at 4.3 g/m 2 (high dose, HD) or 1.4 g/m 2 (low dose, LD) either 30 min before or just after breakfast. At both doses, compared with post-breakfast administration, pre-breakfast administration significantly increased systemic exposure of PB and decreased plasma glutamine availability. Pre-breakfast LD administration attenuated plasma glutamine availability to the same extent as post-breakfast HD administration. Regardless of the regimen, plasma levels of branched-chain amino acids (BCAA) were decreased below baseline in a dose-dependent manner. In conclusion, preprandial oral administration of NaPB maximized systemic exposure of the drug and thereby its potency to consume plasma glutamine. This finding may improve poor medication compliance because of the issues with odor, taste, and pill burden of NaPB and reduce the risk of BCAA deficiency in NaPB therapy., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

15. Perspectives on urea cycle disorder management: Results of a clinician survey.

Author

Enns GM, Porter MH, Francis-Sedlak M, Burdett A, and Vockley J

Subjects

Humans, Hyperammonemia diagnosis, Longitudinal Studies, Quality of Life, Urea metabolism, Urea Cycle Disorders, Inborn diagnosis, Disease Management, Physicians, Surveys and Questionnaires, Urea Cycle Disorders, Inborn drug therapy

Abstract

Background/aims: Urea cycle disorders (UCDs) are rare inborn errors of urea synthesis. US and European consensus statements on the diagnosis and treatment of UCDs were last published in 2001 and 2019, respectively. Recommendations are based primarily on case reports and expert opinion and there is limited agreement or consistency related to long-term management approaches. A clinician survey was conducted to assess current real-world practices and perspectives on challenges and unmet needs., Methods: A 14-item multiple-choice survey was administered to physicians in 2017. Clinicians who reported actively managing at least 1 patient with UCD were eligible to participate. Descriptive statistics were calculated for each survey item (frequencies for categorical variables; means, standard deviations, medians, and ranges for continuous variables)., Results: Sixty-six US clinicians completed the survey (65 geneticists; 1 pediatric neurologist). Over 90% of responders agreed or strongly agreed that even modest elevations in ammonia could cause physiological and functional brain damage; >80% of respondents agreed that asymptomatic UCD patients are at risk of brain damage over time due to mild/subclinical elevations in ammonia. Eighty-six percent of clinicians agreed or strongly agreed with recommending genetic testing for female relatives when a patient is diagnosed with ornithine transcarbamylase deficiency. Ninety-four percent of respondents agreed that patients have better disease control when they are more adherent to their UCD therapy. Nearly 90% indicated that clinicians and patients would benefit from updated UCD management guidance. More than half (53%) of respondents rated the symptoms of UCDs as extremely or very burdensome to the everyday lives of patients and their families; only 8% rated UCD symptoms as slightly or not at all burdensome. The majority of clinicians agreed (48%) or strongly agreed (32%) that caring for a child or family member with a UCD has a negative impact on the quality of life and/or health of family members/guardians (e.g. stress, relationships, ability to work)., Conclusions: This self-reported survey suggests a need for updated and expanded clinical guidance on the long-term treatment and management of UCD patients., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2019

16. Long-term safety and efficacy of glycerol phenylbutyrate for the management of urea cycle disorder patients.

Author

Diaz GA, Schulze A, Longo N, Rhead W, Feigenbaum A, Wong D, Merritt JL 2nd, Berquist W, Gallagher RC, Bartholomew D, McCandless SE, Smith WE, Harding CO, Zori R, Lichter-Konecki U, Vockley J, Canavan C, Vescio T, Holt RJ, and Berry SA

Subjects

Adolescent, Adult, Canada, Child, Child, Preschool, Disease Management, Female, Follow-Up Studies, Glycerol adverse effects, Glycerol therapeutic use, Humans, Hyperammonemia chemically induced, Infant, Male, Middle Aged, Neuropsychological Tests, Phenylbutyrates adverse effects, United States, Young Adult, Glycerol analogs & derivatives, Phenylbutyrates therapeutic use, Urea Cycle Disorders, Inborn drug therapy

Abstract

Introduction: Glycerol phenylbutyrate (GPB) is currently approved for use in the US and Europe for patients of all ages with urea cycle disorders (UCD) who cannot be managed with protein restriction and/or amino acid supplementation alone. Currently available data on GPB is limited to 12 months exposure. Here, we present long-term experience with GPB., Methods: This was an open-label, long-term safety study of GPB conducted in the US (17 sites) and Canada (1 site) monitoring the use of GPB in UCD patients who had previously completed 12 months of treatment in the previous safety extension studies. Ninety patients completed the previous studies with 88 of these continuing into the long-term evaluation. The duration of therapy was open ended until GPB was commercially available. The primary endpoint was the rate of adverse events (AEs). Secondary endpoints were venous ammonia levels, number and causes of hyperammonemic crises (HACs) and neuropsychological testing., Results: A total of 45 pediatric patients between the ages of 1 to 17 years (median 7 years) and 43 adult patients between the ages of 19 and 61 years (median 30 years) were enrolled. The treatment emergent adverse events (TEAE) reported in ≥10% of adult or pediatric patients were consistent with the TEAEs reported in the previous safety extension studies with no increase in the overall incidence of TEAEs and no new TEAEs that indicated a new safety signal. Mean ammonia levels remained stable and below the adult upper limit of normal (<35 µmol/L) through 24 months of treatment in both the pediatric and adult population. Over time, glutamine levels decreased in the overall population. The mean annualized rate of HACs (0.29) established in the previously reported 12-month follow-up study was maintained with continued GPB exposure., Conclusion: Following the completion of 12-month follow-up studies with GPB treatment, UCD patients were followed for an additional median of 1.85 (range 0 to 5.86) years in the present study with continued maintenance of ammonia control, similar rates of adverse events, and no new adverse events identified., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2019

17. Decreased plasma l-arginine levels in organic acidurias (MMA and PA) and decreased plasma branched-chain amino acid levels in urea cycle disorders as a potential cause of growth retardation: Options for treatment.

Author

Molema F, Gleich F, Burgard P, van der Ploeg AT, Summar ML, Chapman KA, Lund AM, Rizopoulos D, Kölker S, and Williams M

Subjects

Adolescent, Amino Acid Metabolism, Inborn Errors diet therapy, Body Height, Child, Child, Preschool, Diet, Europe, Female, Growth Disorders diet therapy, Humans, Longitudinal Studies, Male, Registries, Amino Acid Metabolism, Inborn Errors complications, Amino Acids, Branched-Chain blood, Arginine blood, Growth Disorders etiology, Propionic Acidemia complications, Urea Cycle Disorders, Inborn complications

Abstract

Background and Aim: Patients with methylmalonic acidemia (MMA) and propionic acidemia (PA) and urea cycle disorders (UCD), treated with a protein restricted diet, are prone to growth failure. To obtain optimal growth and thereby efficacious protein incorporation, a diet containing the essential and functional amino acids for growth is necessary. Optimal growth will result in improved protein tolerance and possibly a decrease in the number of decompensations. It thus needs to be determined if amino acid deficiencies are associated with the growth retardation in these patient groups. We studied the correlations between plasma L-arginine levels, plasma branched chain amino acids (BCAA: L-isoleucine, L-leucine and L-valine) levels (amino acids known to influence growth), and height in MMA/PA and UCD patients., Methods: We analyzed data from longitudinal visits made in stable metabolic periods by patients registered at the European Registry and Network for Intoxication Type Metabolic Diseases (E-IMD, Chafea no. 2010 12 01)., Results: In total, 263 MMA/PA and 311 UCD patients were included, all aged below 18 years of age. In patients with MMA and PA, height z-score was positively associated with patients' natural-protein-to-energy prescription ratio and their plasma L-valine and L-arginine levels, while negatively associated with the amount of synthetic protein prescription and their age at visit. In all UCDs combined, height z-score was positively associated with the natural-protein-to-energy prescription ratio. In those with carbamylphosphate synthetase 1 deficiency (CPS1-D), those with male ornithine transcarbamylase deficiency (OTC-D), and those in the hyperornithinemia-hyperammonemia-homocitrullinuria (HHH) syndrome subgroup, height z-score was positively associated with patients' plasma L-leucine levels. In those with argininosuccinate synthetase deficiency (ASS-D) and argininosuccinate lyase deficiency (ASL-D), height was positively associated with patients' plasma L-valine levels., Conclusion: Plasma L-arginine and L-valine levels in MMA/PA patients and plasma L-leucine and L-valine levels in UCD patients, as well as the protein-to-energy prescription ratio in both groups were positively associated with height. Optimization of these plasma amino acid levels is essential to support normal growth and increase protein tolerance in these disorders. Consequently this could improve the protein-to-energy intake ratio., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

18. Urinary phenylacetylglutamine as dosing biomarker for patients with urea cycle disorders

Author

David Kronn, S. Bart, James Bartley, George A. Diaz, Dion F. Coakley, Roberto T. Zori, B. Lee, T. Moors, Bruce F. Scharschmidt, Mark S. Korson, Nicola Longo, Stephen D. Cederbaum, Dennis Bartholomew, Masoud Mokhtarani, Uta Lichter-Konecki, Marshall L. Summar, Annette Feigenbaum, J. L. Merritt, Renata C. Gallagher, Jerry Vockley, William E. Berquist, William J. Rhead, Cary O. Harding, Susan A. Berry, Naghmeh Dorrani, Cynthia LeMons, Wendy E. Smith, Shawn E. McCandless, Sandesh Sreenath-Nagamani, and Klara Dickinson

Subjects

Adult, Glycerol, Male, Urea Cycle Disorders, Sodium phenylbutyrate, Urea cycle disorder, Adolescent, Endocrinology, Diabetes and Metabolism, Glutamine, Clinical Sciences, Urine, Pharmacology, Phenylacetic acid, Biochemistry, Phenylbutyrate, Biomarkers, Pharmacological, Drug Administration Schedule, Article, Excretion, chemistry.chemical_compound, Endocrinology, Clinical Research, Ammonia, Genetics, medicine, Humans, Phenylacetylglutamine, Glycerol phenylbutyrate, Child, Molecular Biology, Urea Cycle Disorders, Inborn, Phenylacetates, Genetics & Heredity, Cross-Over Studies, Pharmacological, medicine.disease, Phenylbutyrates, Inborn, chemistry, Phenylbutyric acid, Female, Biomarkers, medicine.drug

Abstract

UnlabelledWe have analyzed pharmacokinetic data for glycerol phenylbutyrate (also GT4P or HPN-100) and sodium phenylbutyrate with respect to possible dosing biomarkers in patients with urea cycle disorders (UCD).Study designThese analyses are based on over 3000 urine and plasma data points from 54 adult and 11 pediatric UCD patients (ages 6-17) who participated in three clinical studies comparing ammonia control and pharmacokinetics during steady state treatment with glycerol phenylbutyrate or sodium phenylbutyrate. All patients received phenylbutyric acid equivalent doses of glycerol phenylbutyrate or sodium phenylbutyrate in a cross over fashion and underwent 24-hour blood samples and urine sampling for phenylbutyric acid, phenylacetic acid and phenylacetylglutamine.ResultsPatients received phenylbutyric acid equivalent doses of glycerol phenylbutyrate ranging from 1.5 to 31.8 g/day and of sodium phenylbutyrate ranging from 1.3 to 31.7 g/day. Plasma metabolite levels varied widely, with average fluctuation indices ranging from 1979% to 5690% for phenylbutyric acid, 843% to 3931% for phenylacetic acid, and 881% to 1434% for phenylacetylglutamine. Mean percent recovery of phenylbutyric acid as urinary phenylacetylglutamine was 66.4 and 69.0 for pediatric patients and 68.7 and 71.4 for adult patients on glycerol phenylbutyrate and sodium phenylbutyrate, respectively. The correlation with dose was strongest for urinary phenylacetylglutamine excretion, either as morning spot urine (r = 0.730, p < 0.001) or as total 24-hour excretion (r = 0.791 p

Published

2012

19. Pharmacokinetics of glycerol phenylbutyrate in pediatric patients 2 months to 2 years of age with urea cycle disorders.

Author

Berry SA, Vockley J, Vinks AA, Dong M, Diaz GA, McCandless SE, Smith WE, Harding CO, Zori R, Ficicioglu C, Lichter-Konecki U, Perdok R, Robinson B, Holt RJ, and Longo N

Subjects

Child, Child, Preschool, Female, Glutamine blood, Glycerol administration & dosage, Glycerol blood, Glycerol pharmacokinetics, Humans, Infant, Male, Nitrogen blood, Nitrogen metabolism, Phenylacetates blood, Phenylbutyrates blood, Phenylbutyrates pharmacokinetics, Prodrugs pharmacokinetics, Urea Cycle Disorders, Inborn blood, Urea Cycle Disorders, Inborn pathology, Glycerol analogs & derivatives, Lipase blood, Phenylbutyrates administration & dosage, Prodrugs administration & dosage, Urea Cycle Disorders, Inborn drug therapy

Abstract

Introduction: Glycerol phenylbutyrate (GPB) is approved in the US and EU for the chronic management of patients ≥2 months of age with urea cycle disorders (UCDs) who cannot be managed by dietary protein restriction and/or amino acid supplementation alone. GPB is a pre-prodrug, hydrolyzed by lipases to phenylbutyric acid (PBA) that upon absorption is beta-oxidized to the active nitrogen scavenger phenylacetic acid (PAA), which is conjugated to glutamine (PAGN) and excreted as urinary PAGN (UPAGN). Pharmacokinetics (PK) of GPB were examined to see if hydrolysis is impaired in very young patients who may lack lipase activity., Methods: Patients 2 months to <2 years of age with UCDs from two open label studies (n = 17, median age 10 months) predominantly on stable doses of nitrogen scavengers (n = 14) were switched to GPB. Primary assessments included traditional plasma PK analyses of PBA, PAA, and PAGN, using noncompartmental methods with WinNonlin™. UPAGN was collected periodically throughout the study up to 12 months., Results: PBA, PAA and PAGN rapidly appeared in plasma after GPB dosing, demonstrating evidence of GPB cleavage with subsequent PBA absorption. Median concentrations of PBA, PAA and PAGN did not increase over time and were similar to or lower than the values observed in older UCD patients. The median PAA/PAGN ratio was well below one over time, demonstrating that conjugation of PAA with glutamine to form PAGN did not reach saturation. Covariate analyses indicated that age did not influence the PK parameters, with body surface area (BSA) being the most significant covariate, reinforcing current BSA based dosing recommendations as seen in older patients., Conclusion: These observations demonstrate that UCD patients aged 2 months to <2 years have sufficient lipase activity to adequately convert the pre-prodrug GPB to PBA. PBA is then converted to its active moiety (PAA) providing successful nitrogen scavenging even in very young children., (Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2018

20. Safety and efficacy of glycerol phenylbutyrate for management of urea cycle disorders in patients aged 2months to 2years.

Author

Berry SA, Longo N, Diaz GA, McCandless SE, Smith WE, Harding CO, Zori R, Ficicioglu C, Lichter-Konecki U, Robinson B, and Vockley J

Subjects

Child, Preschool, Cough, Disease Management, Drug-Related Side Effects and Adverse Reactions, Female, Fever, Glutamine drug effects, Glycerol adverse effects, Glycerol blood, Glycerol therapeutic use, Glycerol toxicity, Humans, Infant, Male, Neutropenia, Phenylbutyrates blood, Phenylbutyrates toxicity, Prospective Studies, Retrospective Studies, Ammonia metabolism, Glutamine metabolism, Glycerol analogs & derivatives, Phenylbutyrates adverse effects, Phenylbutyrates therapeutic use, Urea Cycle Disorders, Inborn drug therapy

Abstract

Introduction: Glycerol phenylbutyrate (GPB) is approved in the US for the management of patients 2months of age and older with urea cycle disorders (UCDs) that cannot be managed with protein restriction and/or amino acid supplementation alone. Limited data exist on the use of nitrogen conjugation agents in very young patients., Methods: Seventeen patients (15 previously on other nitrogen scavengers) with all types of UCDs aged 2months to 2years were switched to, or started, GPB. Retrospective data up to 12months pre-switch and prospective data during initiation of therapy were used as baseline measures. The primary efficacy endpoint of the integrated analysis was the successful transition to GPB with controlled ammonia (<100μmol/L and no clinical symptoms). Secondary endpoints included glutamine and levels of other amino acids. Safety endpoints included adverse events, hyperammonemic crises (HACs), and growth and development., Results: 82% and 53% of patients completed 3 and 6months of therapy, respectively (mean 8.85months, range 6days-18.4months). Patients transitioned to GPB maintained excellent control of ammonia and glutamine levels. There were 36 HACs in 11 patients before GPB and 11 in 7 patients while on GPB, with a reduction from 2.98 to 0.88 episodes per year. Adverse events occurring in at least 10% of patients while on GPB were neutropenia, vomiting, diarrhea, pyrexia, hypophagia, cough, nasal congestion, rhinorrhea, rash/papule., Conclusion: GPB was safe and effective in UCD patients aged 2months to 2years. GPB use was associated with good short- and long-term control of ammonia and glutamine levels, and the annualized frequency of hyperammonemic crises was lower during the study than before the study. There was no evidence for any previously unknown toxicity of GPB., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2017

21. Investigating neurological deficits in carriers and affected patients with ornithine transcarbamylase deficiency.

Author

Sprouse C, King J, Helman G, Pacheco-Colón I, Shattuck K, Breeden A, Seltzer R, VanMeter JW, and Gropman AL

Subjects

Adolescent, Adult, Child, Cognition Disorders diagnosis, Humans, Middle Aged, Neuropsychological Tests, Psychomotor Performance, Young Adult, Cognition Disorders etiology, Cognition Disorders physiopathology, Heterozygote, Ornithine Carbamoyltransferase Deficiency Disease complications, Ornithine Carbamoyltransferase Deficiency Disease genetics

Abstract

Background: Urea cycle disorders are caused by dysfunction in any of the six enzymes and two transport proteins involved in urea biosynthesis. Our study focuses on ornithine transcarbamylase deficiency (OTCD), an X-linked disorder that results in a dysfunctional mitochondrial enzyme, which prevents the synthesis of citrulline from carbamoyl phosphate and ornithine. This enzyme deficiency can lead to hyperammonemic episodes and severe cerebral edema. The objective of this study was to use a cognitive battery to expose the cognitive deficits in asymptomatic carriers of OTCD., Materials and Methods: In total, 81 participants were recruited as part of a larger urea cycle disorder imaging consortium study. There were 25 symptomatic participants (18 female, 7 male, 25.6 year s ± 12.72 years), 20 asymptomatic participants (20 female, 0 male, 37.6 years ± 15.19 years), and 36 healthy control participants (21 female, 15 male, 29.8 years ± 13.39 years). All participants gave informed consent to participate and were then given neurocognitive batteries with standard scores and T scores recorded., Results: When stratified by symptomatic participant, asymptomatic carrier, and control, the results showed significant differences in measures of executive function (e.g. CTMT and Stroop) and motor ability (Purdue Assembly) between all groups tested. Simple attention, academic measures, language and non-verbal motor abilities showed no significant differences between asymptomatic carriers and control participants, however, there were significant differences between symptomatic and control participant performance in these measures., Conclusions: In our study, asymptomatic carriers of OTCD showed no significant differences in cognitive function compared to control participants until they were cognitively challenged with fine motor tasks, measures of executive function, and measures of cognitive flexibility. This suggests that cognitive dysfunction is best measurable in asymptomatic carriers after they are cognitively challenged., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

22. Glycerol phenylbutyrate treatment in children with urea cycle disorders: pooled analysis of short and long-term ammonia control and outcomes.

Author

Berry SA, Lichter-Konecki U, Diaz GA, McCandless SE, Rhead W, Smith W, Lemons C, Nagamani SC, Coakley DF, Mokhtarani M, Scharschmidt BF, and Lee B

Subjects

Adolescent, Ammonia blood, Child, Child, Preschool, Cross-Over Studies, Female, Glutamine urine, Humans, Infant, Infant, Newborn, Male, Phenylbutyrates therapeutic use, Urea Cycle Disorders, Inborn diet therapy, Urea Cycle Disorders, Inborn physiopathology, Phenylbutyrates administration & dosage, Phenylbutyrates adverse effects, Urea Cycle Disorders, Inborn drug therapy

Abstract

Objective: To evaluate glycerol phenylbutyrate (GPB) in the treatment of pediatric patients with urea cycle disorders (UCDs)., Study Design: UCD patients (n=26) ages 2months through 17years were treated with GPB and sodium phenylbutyrate (NaPBA) in two short-term, open-label crossover studies, which compared 24-hour ammonia exposure (AUC0-24) and glutamine levels during equivalent steady-state dosing of GPB and sodium phenylbutyrate (NaPBA). These 26 patients plus an additional 23 patients also received GPB in one of three 12-month, open label extension studies, which assessed long-term ammonia control, hyperammonemic (HA) crises, amino acid levels, and patient growth., Results: Mean ammonia exposure on GPB was non-inferior to NaPBA in each of the individual crossover studies. In the pooled analyses, it was significantly lower on GPB vs. NaPBA (mean [SD] AUC0-24: 627 [302] vs. 872 [516] μmol/L; p=0.008) with significantly fewer abnormal values (15% on GPB vs. 35% on NaPBA; p=0.02). Mean ammonia levels remained within the normal range during 12months of GPB dosing and, when compared with the 12months preceding enrollment, a smaller percentage of patients (24.5% vs. 42.9%) experienced fewer (17 vs. 38) HA crises. Glutamine levels tended to be lower with GPB than with NaPBA during short-term dosing (mean [SD]: 660.8 [164.4] vs. 710.0 [158.7] μmol/L; p=0.114) and mean glutamine and branched chain amino acid levels, as well as other essential amino acids, remained within the normal range during 12months of GPB dosing. Mean height and weight Z-scores were within normal range at baseline and did not change significantly during 12months of GPB treatment., Conclusions: Dosing with GPB was associated with 24-hour ammonia exposure that was non-inferior to that during dosing with NaPBA in individual studies and significantly lower in the pooled analysis. Long-term GPB dosing was associated with normal levels of glutamine and essential amino acids, including branched chain amino acids, age-appropriate growth and fewer HA crises as compared with the 12month period preceding enrollment., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

23. Feasibility of adjunct therapeutic hypothermia treatment for hyperammonemia and encephalopathy due to urea cycle disorders and organic acidemias.

Author

Lichter-Konecki U, Nadkarni V, Moudgil A, Cook N, Poeschl J, Meyer MT, Dimmock D, and Baumgart S

Subjects

Adolescent, Child, Child, Preschool, Developmental Disabilities complications, Developmental Disabilities pathology, Humans, Hyperammonemia pathology, Hypoxia-Ischemia, Brain complications, Hypoxia-Ischemia, Brain pathology, Infant, Infant, Newborn, Pilot Projects, Urea Cycle Disorders, Inborn complications, Urea Cycle Disorders, Inborn genetics, Urea Cycle Disorders, Inborn pathology, Developmental Disabilities therapy, Hyperammonemia therapy, Hypothermia, Induced, Hypoxia-Ischemia, Brain drug therapy, Urea metabolism, Urea Cycle Disorders, Inborn therapy

Abstract

Background: Children with urea cycle disorders (UCDs) or organic acidemias (OAs) and acute hyperammonemia and encephalopathy are at great risk for neurological injury, developmental delay, intellectual disability, and death. Nutritional support, intravenous alternative pathway therapy, and dialysis are used to treat severe hyperammonemia associated with UCDs and nutritional support and dialysis are used to treat severe hyperammonemia in OAs. Brain protective treatment while therapy is initiated may improve neurological and cognitive function for the lifetime of the child. Animal experiments and small clinical trials in hepatic encephalopathy caused by acute liver failure suggest that therapeutic hypothermia provides neuroprotection in hyperammonemia associated encephalopathy. We report results of an ongoing pilot study that assesses if whole body cooling during rescue treatment of neonates with acute hyperammonemia and encephalopathy is feasible and can be conducted safely., Methods: Adjunct whole body therapeutic hypothermia was conducted in addition to standard treatment in acutely encephalopathic, hyperammonemic neonates with UCDs and OAs requiring dialysis. Therapeutic hypothermia was initiated using cooling blankets as preparations for dialysis were underway. Similar to standard therapeutic hypothermia treatment for neonatal hypoxic ischemic encephalopathy, patients were maintained at 33.5°C±1°C for 72h, they were then slowly rewarmed by 0.5°C every 3h over 18h. In addition data of age-matched historic controls were collected for comparison., Results: Seven patients were cooled using the pilot study protocol and data of seven historic controls were reviewed. All seven patients survived the initial rescue and cooling treatment, 6 patients were discharged home 2-4weeks after hospitalization, five of them feeding orally. The main complication observed in a majority of patients was hypotension., Conclusion: Adjunct therapeutic hypothermia for neonates with UCDs and OAs receiving standard treatment was feasible and could be conducted safely in pediatric and neonatal intensive care units experienced in the application of therapeutic hypothermia in critically ill neonates. However, including adjunct therapeutic hypothermia in the already involved treatment regimen of critically ill patients with hyperammonemia and encephalopathy adds to the complexity of care and should not be done unless it is proven efficacious in a randomized clinical trial., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013