Natural history of symptomatic partial ornithine transcarbamylase deficiency

Benefits of tailored disease management in improving tremor, white matter hyperintensities, and liver enzymes in a child with heterozygous X-linked ornithine transcarbamylase deficiency

We report the case of a 19-month-old girl with late-onset ornithine transcarbamylase (OTC) deficiency initially referred to gastroenterology for intermittent vomiting lasting a year and abnormal liver enzymes (AST 730 U/L [reference range 26-55 U/L]; ALT 1213 U/L [reference range 11-30 U/L]) without hepatomegaly. While the patient was hospitalized for liver biopsy, intermittent tremors of the upper extremities with varying severity were noted. The patient was presumed to have hyperammonemia secondary to acute liver failure and was discharged after 5 days; follow-up monitoring led to readmission 7 days later. A brain MRI showed nonspecific bilateral pericallosal and bifrontal white matter FLAIR hyperintensities. These findings raised suspicion for a metabolic disease and prompted a genetics consultation. After inconclusive biochemical testing and worsening clinical status, rapid whole genome sequencing results were obtained identifying a novel, de novo, likely pathogenic, variant c.608C > T (p.Ser203Phe) in the OTC gene. The patient was promptly started on an oral nitrogen scavenger, citrulline supplementation, and protein restriction. Ammonia and glutamine levels normalized within 1 month of treatment and have stayed within the goal ranges with continued tailoring of treatment. Her parents noted resolution of vomiting and improved mood stability. Liver enzymes normalized after 2 months of treatment. The tremor, identified as asterixis, improved and a repeat brain MRI 3 months after the initial imaging showed near-complete resolution of previous white matter hyperintensities.

Nonhepatic Hyperammonemia With Septic Shock: Case and Review of Literature

Elevated ammonia levels lead to cerebral edema, encephalopathy, seizures, coma, and death. Hyperammonemia is primarily associated with liver disease; however, there are rare cases without liver disease. Noncirrhotic hyperammonemia is primarily due to increased production and/or decreased elimination of ammonia. We present a rare case of a 35-year-old female with severe acute noncirrhotic hyperammonemia associated with gram-negative septic shock and a suspected undiagnosed partial urea cycle enzyme deficiency. She had elevated blood and urine amino acid levels speculated to be due to an underlying urea cycle defect, which was unmasked in the setting of septic shock with urea splitting bacteria leading to severely elevated ammonia levels. Ammonia levels were rapidly corrected with hemodialysis, as other conventional treatments failed. We highlight the importance of considering noncirrhotic causes of hyperammonemia in patients with elevated ammonia levels and intact liver function. Prompt treatment should begin with reducing the catabolic state, nitrogen scavenging, replacing urea cycle substrates, decreasing intestinal absorption, and augmented removal of ammonia with renal replacement therapy.

Ornithine transcarbamylase deficiency and pregnancy: A case series and review of recommendations

Background

Ornithine transcarbamylase deficiency (OTCD) is a rare disorder of the urea cycle that obstetricians should be aware of in order to guide management for pregnant carriers of the X-linked gene that causes the condition.

Cases

We present the pregnancy management and outcomes of two women with OTCD. The particular manifestations of the disease drive antenatal, intrapartum and postpartum management.

Conclusion

Preconception counseling, early prenatal diagnostics and multidisciplinary intrapartum and postpartum management plans contribute to improved outcomes for patients.

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Ornithine transcarbamylase deficiency (OTCD) is a rare X-linked genetic disorder of the urea cycle.

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Two cases of ornithine transcarbamylase deficiency in pregnancy are described.

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The antenatal, intrapartum, and postpartum management of OTCD in pregnancy is described.

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Preconception counseling, early prenatal diagnostics and multidisciplinary management plans contribute to improved outcomes for patients.

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Recognition of the condition supports the prevention of hyperammonemia.

A Mysterious Case of Recurrent Acute Hyperammonemic Encephalopathy

Ammonia is a well-recognized neurotoxin. Awareness about hyperammonemia, in the absence of liver cirrhosis, may help in lifesaving, prompt diagnosis, and treatment. We present a case of a 53-year-old male who presented to the emergency department (ED) with altered mental status (AMS). He was unresponsive with occasional eye opening. Initial labs were normal except for mildly elevated blood alcohol level. Serum ammonia levels were very high (305 umol/L). He improved with lactulose. He had similar admissions later on. Urine orotic acid levels were high confirming ornithine transcarbamylase (OTC) deficiency. Noncirrhotic hyperammonemia as a cause of AMS remains a diagnosis of exclusion requiring high index suspicion. Very few cases of late inborn errors of urea cycle disorders (UCDs) have been reported in the literature. Our case highlights the importance of early diagnosis of UCDs and that outcome can be excellent if treated aggressively. Once identified, adult-onset forms of the UCDs have a good prognosis-largely due to the initiation of preventative measures and earlier recognition of exacerbations.

Maternal genetic diseases: potential concerns for mother and baby

With advances in medical care, many women with genetic conditions previously known to decrease life expectancy are reaching childbearing age. Thus, it is important to understand the management of patients in the preconception, antepartum, and postpartum periods as they pose a unique challenge to the obstetrician. Most rare disorders lack well-established clinical guidelines for management in pregnancy. Existing data stem from case reports, case series, and expert opinion. We aim to summarize these recommendations and develop a clinical reference for managing reproductive age women with these conditions. We review recommendations for women with inborn errors in metabolism, connective tissue disorders, skeletal dysplasia, and selected single gene disorders. In all cases, it is crucial to employ a multidisciplinary team to optimize care for patients with rare disease before, during, and immediately after their pregnancies. The emphasis on expert consensus recommendations in the guidance of obstetric care is a signal that more studies are needed to determine best practices.

Neuropsychological attributes of urea cycle disorders: A systematic review of the literature

Urea cycle disorders (UCDs) are rare inherited metabolic conditions that impair the effectiveness of the urea cycle responsible for removing excess ammonia from the body. The estimated incidence of UCDs is 1:35 000 births, or approximately 113 new patients with UCD per year. This review summarizes neuropsychological outcomes among patients with the eight UCDs in reports published since 1980. Rates of intellectual disabilities published before (and including) 2000 and after 2000 were pooled and compared for each UCD. Since diagnoses for UCDs tended to occur earlier and better treatments became more readily available after the turn of the century, this assessment will characterize the extent that current management strategies have improved neuropsychological outcomes. The pooled sample included data on cognitive abilities of 1649 individuals reported in 58 citations. A total of 556 patients (34%) functioned in the range of intellectual disabilities. The decline in the proportion of intellectual disabilities in six disorders, ranged from 7% to 41%. Results from various studies differed and the cohorts varied with respect to age at symptom onset, age at diagnosis and treatment initiation, current age, severity of the metabolic deficiency, management strategies, and ethnic origins. The proportion of cases with intellectual disabilities ranged from 9% to 65% after 2000 in the seven UCDs associated with cognitive deficits. Positive outcomes from some studies suggest that it is possible to prevent or reverse the adverse impact of UCDs on neuropsychological functioning. It is time to "raise the bar" in terms of expectations for treatment effectiveness.

RNA delivery biomaterials for the treatment of genetic and rare diseases

Genetic and rare diseases (GARDs) affect more than 350 million patients worldwide and remain a significant challenge in the clinic. Hence, continuous efforts have been made to bridge the significant gap between the supply and demand of effective treatments for GARDs. Recent decades have witnessed the impressive progress in the fight against GARDs, with an improved understanding of the genetic origins of rare diseases and the rapid development in gene therapy providing a new avenue for GARD therapy. RNA-based therapeutics, such as RNA interference (RNAi), messenger RNA (mRNA) and RNA-involved genome editing technologies, demonstrate great potential as a therapy tool for treating genetic associated rare diseases. In the meantime, a variety of RNA delivery vehicles were established for boosting the widespread applications of RNA therapeutics. Among all the RNA delivery platforms which enable the systemic applications of RNAs, non-viral RNA delivery biomaterials display superior properties and a few biomaterials have been successfully exploited for achieving the RNA-based gene therapies on GARDs. In this review article, we focus on recent advances in the development of novel biomaterials for delivery of RNA-based therapeutics and highlight their applications to treat GARDs.

Hyperammonemia in a Woman with Late-onset Ornithine Transcarbamylase Deficiency

A 52-year-old woman developed vomiting and disturbance of consciousness after consuming raw fish and sushi on a trip. A blood test showed hyperammonemia (310 μg/dL) with a normal liver function. She fell into a deep coma, and her serum ammonia level increased to 684 μg/dL. L-arginine was administered as a diagnostic treatment for urea cycle disorder (UCD) and serum ammonia, and her consciousness levels improved. She was diagnosed with ornithine transcarbamylase deficiency (OTCD) by analyses of plasma amino acids, urinary orotic acid, and the OTC gene mutation. UCD should be considered for patients with hyperammonemia without severe liver function abnormalities.

Psychiatric adult-onset of urea cycle disorders: A case-series

Adult onset urea cycle disorders (UCD) may present with psychiatric symptoms, occasionally as the initial presentation. We aimed to describe the characteristics of patients presenting with a psychiatric adult-onset of UCDs, to discuss which signs could suggest this diagnosis in such a situation, and to determine which tests should be conducted. A survey of psychiatric symptoms occurring in teenagers or adults with UCD was conducted in 2010 among clinicians involved in the French society for the study of inborn errors of metabolism (SFEIM). Fourteen patients from 14 to 57 years old were reported. Agitation was reported in 10 cases, perseveration in 5, delirium in 4, and disinhibition in 3 cases. Three patients had pre-existing psychiatric symptoms. All patients had neurological symptoms associated with psychiatric symptoms, such as ataxia or dysmetria, psychomotor slowing, seizures, or hallucinations. Fluctuations of consciousness and coma were reported in 9 cases. Digestive symptoms were reported in 7 cases. 9 patients had a personal history suggestive of UCD. The differential diagnoses most frequently considered were exogenous intoxication, non-convulsive status epilepticus, and meningoencephalitis. Hyperammonemia (180-600 μmol/L) was found in all patients. The outcome was severe: mechanical ventilation was required in 10 patients, 5 patients died, and only 4 patients survived without sequelae. Adult onset UCDs can present with predominant psychiatric symptoms, associated with neurological involvement. These patients, as well as patients presenting with a suspicion of intoxication, must have UCD considered and ammonia measured without delay.

Hiding in Plain Sight: A Case of Ornithine Transcarbamylase Deficiency Unmasked Post-Liver Transplantation

Ornithine transcarbamylase deficiency represents the most common inherited defect of the urea cycle. This enzyme, predominantly found in the liver, plays a crucial role in recycling free ammonia, with deficiencies often leading to fatal complications. Here, we present the case of a 63-year-old man with alcoholic cirrhosis who underwent orthotopic liver transplantation, gradual worsening of his mental status, and progressive elevation of ammonia levels. Liver allograft function was deemed normal, raising concern for a donor-derived metabolic disorder of the urea cycle. Evaluation of the donor patient's blood revealed that the donor was heterozygous for the OTC gene. Posttransplantation changes in mental status should prompt a clinician to consider the most likely causes; however, once these have been ruled out, it is important to consider the less common causes of metabolic derangements. The rarity of these disorders makes expertise of diagnosis, standardization of evaluation, and treatment strategies challenging.

Neonatal mortality and outcome at the end of the first year of life in early onset urea cycle disorders--review and meta-analysis of observational studies published over more than 35 years

BACKGROUND

For urea cycle disorders (UCD), proportions and mortality of early onset (EO) patients, as well as outcome at one year of life show large variability. We aimed to integrate available evidence to create benchmarks for new diagnostic and therapeutic strategies.

METHODS

Medline search for reports published between 1978 and Dec 22, 2014 was completed by hand search. Random effects meta-analysis was done for four UCDs, deficiency of carbamylphosphate synthetase 1 (CPS1D), male/female ornithine transcarbamylase (OTCDm/f), argininosuccinate synthetase (ASSD) and lyase (ASLD). Effects of publication year and geographic area were analysed by meta-regression.

RESULTS

Twenty-four publications report onset time (n = 1542 patients), survival of EO (n = 665 patients) and outcome at one year of life (n = 172 patients). Proportions for EO manifestation (95% confidence interval) were: CPS1D = 0.75 (0.61;0.88); OTCDm = 0.52 (0.39;0.65); OTCDf = 0.07 (0.03;0.11); ASSD = 0.65 (0.57;0.73); ASLD = 0.60 (0.44;0.77); for surviving EO patients: CPS1D = 0.64 (0.50;0.79); OTCDm = 0.40 (0.16;0.64); OTCDf = 0.57 (0.29;0.85); ASSD = 0.67 (0.48;0.86); ASLD = 0.81 (0.68;0.94); and for normal outcome at one year for survivors: CPS1D = 0.20 (0.07;0.38); OTCDm = 0.15 (0.00;0.39); OTCDf no data; ASSD = 0.36 (0.13;0.60); ASLD = 0.36 (0.17;0.58). Between study variation was large. Year of publication had no effect. Studies from Europe showed lower survival rates than those from Japan or USA.

CONCLUSIONS

UCDs, except for OTCDf, have high risks of EO disease manifestation and, except for ASLD, of neonatal death. No improvement of survival was observed over more than three decades. Geographic variation remains to be explained. This comprehensive description of the natural history of EO UCDs should be considered by scientists, clinicians, health policy makers and guideline developers.

Sudden unexpected fatal encephalopathy in adults with OTC gene mutations-Clues for early diagnosis and timely treatment

Background

X-linked Ornithine Transcarbamylase deficiency (OTCD) is often unrecognized in adults, as clinical manifestations are non-specific, often episodic and unmasked by precipitants, and laboratory findings can be normal outside the acute phase. It may thus be associated with significant mortality if not promptly recognized and treated. The aim of this study was to provide clues for recognition of OTCD in adults and analyze the environmental factors that, interacting with OTC gene mutations, might have triggered acute clinical manifestations.

Methods

We carried out a clinical, biochemical and molecular study on five unrelated adult patients (one female and four males) with late onset OTCD, who presented to the Emergency Department (ED) with initial fatal encephalopathy. The molecular study consisted of OTC gene sequencing in the probands and family members and in silico characterization of the newly detected mutations.

Results

We identified two new, c.119G>T (p.Arg40Leu) and c.314G>A (p.Gly105Glu), and three known OTC mutations. Both new mutations were predicted to cause a structural destabilization, correlating with late onset OTCD. We also identified, among the family members, 8 heterozygous females and 2 hemizygous asymptomatic males. Patients' histories revealed potential environmental triggering factors, including steroid treatment, chemotherapy, diet changes and hormone therapy for in vitro fertilization.

Conclusions

This report raises awareness of the ED medical staff in considering OTCD in the differential diagnosis of sudden neurological and behavioural disorders associated with hyperammonemia at any age and in both genders. It also widens the knowledge about combined effect of genetic and environmental factors in determining the phenotypic expression of OTCD.

Cross-sectional observational study of 208 patients with non-classical urea cycle disorders

Urea cycle disorders (UCDs) are inherited disorders of ammonia detoxification often regarded as mainly of relevance to pediatricians. Based on an increasing number of case studies it has become obvious that a significant number of UCD patients are affected by their disease in a non-classical way: presenting outside the newborn period, following a mild course, presenting with unusual clinical features, or asymptomatic patients with only biochemical signs of a UCD. These patients are surviving into adolescence and adulthood, rendering this group of diseases clinically relevant to adult physicians as well as pediatricians. In preparation for an international workshop we collected data on all patients with non-classical UCDs treated by the participants in 20 European metabolic centres. Information was collected on a cohort of 208 patients 50% of which were ≥ 16 years old. The largest subgroup (121 patients) had X-linked ornithine transcarbamylase deficiency (OTCD) of whom 83 were female and 29% of these were asymptomatic. In index patients, there was a mean delay from first symptoms to diagnosis of 1.6 years. Cognitive impairment was present in 36% of all patients including female OTCD patients (in 31%) and those 41 patients identified presymptomatically following positive newborn screening (in 12%). In conclusion, UCD patients with non-classical clinical presentations require the interest and care of adult physicians and have a high risk of neurological complications. To improve the outcome of UCDs, a greater awareness by health professionals of the importance of hyperammonemia and UCDs, and ultimately avoidance of the still long delay to correctly diagnose the patients, is crucial.

Developmental and psychiatric presentations of inherited metabolic disorders

Pediatric neurologists and developmental pediatricians may evaluate patients with primary or associated behavioral and academic concerns. A critical element of the evaluation involves determining that the child's condition is not better explained by underlying inherited metabolic disorders. In this review, psychiatric and behavioral presentations of inherited metabolic disorders are discussed via several case studies. Key features of vignettes will illustrate when to consider these disorders in evaluating children referred for psychiatric and behavioral changes, after more common etiologies have been excluded. We seek to develop a better understanding of key clinical pearls to help identify children with an inherited metabolic disorder to account for behavioral or academic concerns.

Ornithine transcarbamylase deficiency presenting as hepatitis

Ornithine transcarbamylase deficiency is an inborn error of metabolism that commonly presents as hyperammonemia in neonates. We present a case of a 2-year-old girl who was referred to a pediatric emergency department for evaluation of hepatitis, an uncommon presentation of ornithine transcarbamylase deficiency. Recognition of late presentations of this disease is important for survival and neurological outcome.

Early orthotopic liver transplantation in urea cycle defects: follow up of a developmental outcome study

Patients with neonatal urea cycle defects (UCDs) typically have high mortality and poor neurological outcome unless they receive liver transplantation. Neurologic outcome may be better with liver transplantation before age one year. We report on a follow up on an initial prospective study performed to assess developmental outcome after early liver transplant using the Griffiths Scales. Developmental testing up to 7years after transplantation showed average developmental quotients (DQs) of 69 for four children who underwent transplantation before one year of age (latest DQs were 47, 63, 95 and 96), and 80 for a patient who underwent transplantation at 3years of age (latest DQ was 88). We conclude that a combination of early liver transplantation, aggressive metabolic management and early childhood intervention improve the neurologic outcome of children with UCDs.

1H MRS identifies symptomatic and asymptomatic subjects with partial ornithine transcarbamylase deficiency

OBJECTIVE

To evaluate brain metabolism in subjects with partial ornithine transcarbamylase deficiency (OTCD) utilizing (1)H MRS.

METHODS

Single-voxel (1)H MRS was performed on 25 medically-stable adults with partial OTCD, and 22 similarly aged controls. Metabolite concentrations from frontal and parietal white matter (FWM, PWM), frontal gray matter (FGM), posterior cingulate gray matter (PCGM), and thalamus (tha) were compared with controls and IQ, plasma ammonia, glutamine, and disease severity.

RESULTS

Cases ranged from 19 to 59 years; average 34 years; controls ranged from 18 to 59 years; average 33 years. IQ scores were lower in cases (full scale 111 vs. 126; performance IQ 106 vs. 117). Decreased myoinositol (mI) in FWM (p=0.005), PWM (p<0.001), PCGM (p=0.003), and tha (p=0.004), identified subjects with OTCD, including asymptomatic heterozygotes. Glutamine (gln) was increased in FWM (p<0.001), PWM (p<0.001), FGM (p=0.002), and PCGM (p=0.001). Disease severity was inversely correlated with [mI] in PWM (r=-0.403; p=0.046) and directly correlated with [gln] in PCGM (r=0.548; p=0.005). N-Acetylaspartate (NAA) was elevated in PWM (p=0.002); choline was decreased in FWM (p=0.001) and tha (p=0.002). There was an inverse relationship between [mI] and [gln] in cases only. Total buffering capacity (measured by [mI/mI+gln] ratio, a measure of total osmolar capacity) was inversely correlated with disease severity in FWM (r=-0.479; p=0.018), PWM (r=-0.458; p=0.021), PCGM (r=-0.567; p=0.003), and tha (r=-0.345; p=0.037).

CONCLUSION

Brain metabolism is impaired in partial OTCD. Depletion of mI and total buffering capacity are inversely correlated with disease severity, and serve as biomarkers.

Improved quality of life and unchanged magnetic resonance brain imaging after living donor liver transplantation for late-onset ornithine transcarbamylase deficiency: report of a case

We report the case of a 7-year-old girl with ornithine transcarbamylase deficiency whose quality of life (QOL) improved greatly after a living donor liver transplantation (LDLT). Ornithine transcarbamylase deficiency had been diagnosed when she was 2 years old and she finally underwent LDLT, with her father as the donor, when she was 7 years old. The patient had suffered episodes of hyperammonemic encephalopathy ranging from lethargy to coma, treated by hemodialysis twice before LDLT, and her intelligence quotient was borderline for her age. Preoperative magnetic resonance imaging (MRI) showed an atrophic area in the subcortical white matter of the frontal lobe. After LDLT, the patient suffered acute rejection with hyperamylasemia, but not hyperammonemia. Postoperative MRI and quantitative MR spectroscopy showed no changes in the subcortical lesion. She has been followed up carefully for 16 months and has had no further complications or any sign of hyperammonemia.

Urea Cycle Disorders: Clinical Presentation Outside the Newborn Period

Although most commonly associated with infancy, the majority of individuals with urea cycle disorders (UCDs) present outside the neonatal period, frequently in childhood. Signs and symptoms are often vague, but recurrent; fulminant presentations associated with acute illness are also common. A disorder of urea cycle metabolism should be considered in children who have recurrent symptoms, especially neurologic abnormalities associated with periods of decompensation. Routine laboratory tests, including measurement of plasma ammonia concentrations, can indicate a potential UCD; however, specific metabolic testing and ultimately enzymatic or molecular confirmation are necessary to establish a diagnosis. Treatment with dietary protein restriction and medications may be challenging in children.

A pathogenetic classification of hereditary ataxias: is the time ripe?

Harding's classification takes credits for defining the homogeneous phenotypes that have been essential for the genetic linkage studies and it is still useful for didactic purposes. The advances in pathogenetic knowledge make it now possible to modify Harding's classification. Five main pathogenetic mechanisms may be distinguished: 1) mitochondrial; 2) metabolic; 3) defective DNA repair; 4) abnormal protein folding and degradation; 5) channelopathies. The present attempt to classify ataxia disorders according to their pathogenetic mechanism is a work in progress, since the pathogenesis of several disorders is still unknown. A pathogenetic classification may be useful in clinical practice and when new therapeutic strategies become available.

Hyperammonemia, bane of the brain

Ammonia, normally produced from catabolism of amino acids, is a deadly neurotoxin. As such, the concentration of free ammonia in the blood is very tightly regulated and is exceeded by two orders of magnitude by its physiologic derivative, urea. The normal capacity for urea production far exceeds the rate of free ammonia production by protein catabolism under normal circumstances, such that any increase in free blood ammonia concentration is a reflection of either biochemical or pharmacologic impairment of urea cycle function or fairly extensive hepatic damage. Clinical signs of hyperammonemia occur at concentrations > 60 micromol/L and include anorexia, irritability, lethargy, vomiting, somnolence, disorientation, asterixis, cerebral edema, coma, and death; appearance of these findings is generally proportional to free ammonia concentration, is progressive, and is independent of the primary etiology. Causes of hyperammonemia include genetic defects in the urea cycle ("primary") or organic acidemias ("secondary"), as well as genetic or acquired disorders resulting in significant hepatic dysfunction. Thus, because of the neurotoxic implications of hyperammonemia and the typical absence of other specific laboratory abnormalities, appearance of the clinical signs should trigger an emergent search for elevated blood ammonia concentration.

Intermittent hyperammonemic encephalopathy in a child with ornithine transcarbamylase deficiency

Ornithine transcarbamylase (OTC) deficiency is an X-linked disorder and the most common inherited cause of hyperammonemia. Clinical manifestations are more severe in hemizygous males who often present in neonatal period. Heterozygous females may be asymptomatic until juvenile or adulthood. Fluctuating concentration of ammonia, glutamine and other excitotoxic amino acids result in a chronic or episodically recurring encephalopathy. The authors report a heterozygous female with OTC deficiency who presented with recurrent encephalopathy.

Cognitive outcome in urea cycle disorders

Despite treatment, cognitive and motor deficits are common in individuals with inherited urea cycle disorders. However, the extent to which the deficits involve specific cognitive or sensorimotor domains is unknown. Furthermore, little is known about the neurochemical basis of cognitive impairment in these disorders. This paper reviews studies of cognitive and motor dysfunction in urea cycle disorders, and discusses potential venues for investigation of the underlying neural basis that may elucidate these defects. Such methods of investigation may serve as a model for studying the relationship between genes, biochemical markers, brain function, and behavior in other metabolic diseases.

Metabolic and neuropsychological phenotype in women heterozygous for ornithine transcarbamylase deficiency

We compared neurocognitive indices with clinical status, mutation analysis, and urea synthetic capacity in 19 women heterozygous for ornithine transcarbamylase deficiency. Although as a group, these women had average IQ scores, they displayed a specific neuropsychological phenotype with significant strengths in verbal intelligence, verbal learning, verbal memory, and reading, and significant weaknesses in fine motor dexterity/speed and nonsignificant weaknesses in nonverbal intelligence, visual memory, attention/executive skills, and math. This suggests selective vulnerability of white matter and better preservation of gray matter. When the group was divided into symptomatic and asymptomatic subgroups, based on either clinical history or residual urea synthetic capacity, the asymptomatic subgroup outperformed the symptomatic subgroup on all tested domains of neuropsychological functioning. Furthermore, the amount of residual urea synthetic capacity was predictive of several end point cognitive measures. There was no correlation between neonatal versus late-onset mutation or between normal or abnormal allopurinol challenge and neuropsychological outcome. In sum, we identified a specific metabolic and neurocognitive phenotype in women heterozygous for ornithine transcarbamylase deficiency. The findings support the importance of maintaining meticulous metabolic control in children with urea cycle disorders, because even mildly symptomatic subjects demonstrate cognitive deficits.

Late-onset presentation of ornithine transcarbamylase deficiency in a young woman with hyperammonemic coma

Ornithine transcarbamylase deficiency (OTCD) is an X-linked inherited disease and the most common inborn error in urea synthesis in human patients. In adult heterozygous patients, OTCD can be responsible for life-threatening hyperammonemic coma. We report the case of a 32-year-old woman admitted to our hospital with seizures after a recent high protein load. Her parents related a history of recurrent episodes of vomiting, meat refusal, lethargy, and convulsions since childhood, and measurement of plasma ammonemia levels was the key to early diagnosis of OTCD. We report the pathophysiologic characteristics, clinical features, clinical course, and differential diagnosis of OTCD and discuss the therapeutic options, including continuous venovenous hemodiafiltration and pharmacologic therapy for reduction of plasma ammonemia levels. A diagnosis of OTCD should be considered in adult nonhepatic patients with hyperammonemic coma, particularly if they have a history of protein avoidance and neurologic symptoms. Early recognition and appropriate treatment are critical to avoid severe brain damage and death.

[Fulminant coma: think hyperammonemia and urea cycle disorders]

The authors report the case of 14-year-old boy admitted for acute coma without neurological focal symptom. The only relevant finding was the death of one uncle after a coma in the year 1992. This coma was associated with an ammonia blood level of 344 mumol l-1 and it rapidly lead to cerebral death despite a symptomatic treatment. The diagnosis of hereditary ornithine transcarbamylase deficiency was confirmed by liver biopsy in the immediate post-mortem period. The authors recommend the measurement of blood ammonia in every coma without diagnosis, whatever patient's age.

An integrated approach to the diagnosis and prospective management of partial ornithine transcarbamylase deficiency

Ornithine transcarbamylase deficiency (OTCD) is the most common inherited urea cycle disorder, and is transmitted as an X-linked trait. Female OTCD heterozygotes exhibit wide clinical severities, ranging from being apparently asymptomatic to having the profound neurologic impairment observed in affected males. However, clinical and laboratory diagnosis of partial OTCD during asymptomatic periods is difficult, and correlation of phenotypic severity with either DNA mutation and/or in vitro enzyme activity is imprecise. Provocative testing, including protein load and allopurinol challenge used in the diagnosis of OTCD females, is not without risk and subject to both false positives and negatives. Although definitive when successful, DNA-based diagnosis is unable to detect mutations in all cases. We have previously used the ratio of isotopic enrichments of [(15)N]urea/[(15)N]glutamine ((15)N-U/G) derived from physiologic measurements of ureagenesis by stable isotope infusion as a sensitive index of in vivo urea cycle activity. We have now applied this method in combination with traditional biochemical testing to aid in the diagnosis of a symptomatic OTCD female in whom mutation in the ornithine transcarbamylase (OTC) gene was not found. The (15)N-U/G ratio in this patient showed that she had severe reduction of in vivo urea cycle activity on par with affected male subjects. This was correlated with partially deficient OTC activity in her liver, degree of orotic aciduria, and history of suspected recurrent hyperammonemic episodes before age 3. The measurement of in vivo urea cycle activity in combination with traditional biochemical indices optimizes a diagnostic approach to the at-risk partial OTCD patient, especially in those in whom molecular testing is unproductive. Together they contribute to the risk versus benefit considerations regarding the pursuit of medical therapy versus surgical, ie, orthotopic liver transplantation (OLT) therapy. The decision to resort to OLT in females with partial OTC activity is controversial, requiring consideration of phenotypic severity, failure of medical therapy, access to tertiary care centers experienced in the management of acute hyperammonemia, and social factors. In this patient, the use of in vivo and in vitro measures of urea cycle activity in conjunction with a consideration of her clinical history and medical-social situation led to a decision for OLT.

Late diagnosis of ornithine transcarbamylase defect in three related female patients: polymorphic presentations

OBJECTIVE

To describe three female patients of one family with different phenotypes of the same mutation of the ornithine transcarbamylase gene. X-linked inherited ornithine transcarbamylase deficiency is the most frequent urea cycle disorder. Many of the hemizygous males die during the neonatal period. Women, who are mostly healthy carriers, can also develop symptomatic hyperammonemia.

DESIGN

Case study.

SETTING

Intensive care unit and internal medicine unit at a university hospital.

PATIENTS

The 20-yr-old female propositus was hospitalized for unexplained coma. She had a history of headaches, recurrent vomiting, specific anorexia for high-protein foods, and an acute neurologic crisis with alleged food poisoning 8 yrs before. The present episode began with psychiatric symptoms and seizures treated by diazepam and valproate. This unexplained coma, associated with respiratory alkalosis and major brain swelling on brain computed tomography scan, revealed hyperammonemia leading to the diagnosis of ornithine transcarbamylase deficiency. Continuous venovenous hemodiafiltration and treatment with sodium benzoate and phenylbutyrate improved the situation. However, the patient had some neurologic sequelae. DNA studies have disclosed a pathogenic mutation in the ornithine transcarbamylase gene of the patient, her mother, and her sister. For the mother, the disease was overlooked despite the onset of unusual headaches and neurologic signs that mimicked a cerebral tumor 12 yrs before. The 28-yr-old sister of the propositus has always been asymptomatic, even during pregnancy.

CONCLUSIONS

Diagnosis of urea cycle disorder should be considered in any patient with unexplained neurologic and psychiatric disorders with selective anorexia, even in adulthood. Unexplained coma with cerebral edema and respiratory alkalosis requires urgent measurement of ammonemia and metabolic work-up.

Ornithine transcarbamylase deficiency unmasked because of gastrointestinal bleeding

Ornithine transcarbamylase (OTC) is a mitochondrial-matrix enzyme that catalyzes conversion of ornithine and carbamyl phosphate to citrulline, the second step in the urea cycle. The urea cycle is the most important pathway to detoxification of ammonia in human beings. Ornithine transcarbamylase deficiency (OTCD) is the most common urea cycle disorder, inherited as an X-linked disorder that can cause fatal hyperammonemia in male newborns. Women with OTCD have a variable expression of their disease, the variability being determined by lyonization (random inactivation) of the X chromosome. We report a case of a 28-year-old woman who presented with hyperammonemic encephalopathy that was precipitated by a gastrointestinal bleed unmasking OTCD.

Urea cycle disorders

Deficiency of any of the five enzymes in the urea cycle results in the accumulation of ammonia and leads to encephalopathy. Episodes of encephalopathy and associated symptoms are unpredictable and, if untreated, are lethal or produce devastating neurologic sequelae in long-term survivors. Although these disorders do not produce liver disease, the consequences of hyperammonemia resemble those seen in patients with hepatic failure or in a transient interference with the urea cycle, as seen in some forms of organic acidemias. Therefore, investigation for hyperammonemia in any infant or child with altered mental status (in the absence of obvious causes, such as trauma, infection, or poisoning) is essential for prompt diagnosis of urea cycle disorders and institution of treatment to avoid brain damage and death. This article addresses the function of the urea cycle and the diagnosis and management of urea cycle disorders.

In vivo urea cycle flux distinguishes and correlates with phenotypic severity in disorders of the urea cycle

Urea cycle disorders are a group of inborn errors of hepatic metabolism that result in often life-threatening hyperammonemia and hyperglutaminemia. Clinical and laboratory diagnosis of partial deficiencies during asymptomatic periods is difficult, and correlation of phenotypic severity with either genotype and/or in vitro enzyme activity is often imprecise. We hypothesized that stable isotopically determined in vivo rates of total body urea synthesis and urea cycle-specific nitrogen flux would correlate with both phenotypic severity and carrier status in patients with a variety of different enzymatic deficiencies of the urea cycle. We studied control subjects, patients, and their relatives with different enzymatic deficiencies affecting the urea cycle while consuming a low protein diet. On a separate occasion the subjects either received a higher protein intake or were treated with an alternative route medication sodium phenylacetate/benzoate (Ucephan), or oral arginine supplementation. Total urea synthesis from all nitrogen sources was determined from [(18)O]urea labeling, and the utilization of peripheral nitrogen was estimated from the relative isotopic enrichments of [(15)N]urea and [(15)N]glutamine during i.v. co-infusions of [5-(amide)(15)N]glutamine and [(18)O]urea. The ratio of the isotopic enrichments of (15)N-urea/(15)N-glutamine distinguished normal control subjects (ratio = 0.42 +/- 0.06) from urea cycle patients with late (0.17 +/- 0.03) and neonatal (0.003 +/- 0.007) presentations irrespective of enzymatic deficiency. This index of urea cycle activity also distinguished asymptomatic heterozygous carriers of argininosuccinate synthetase deficiency (0. 22 +/- 0.03), argininosuccinate lyase deficiency (0.35 +/- 0.11), and partial ornithine transcarbamylase deficiency (0.26 +/- 0.06) from normal controls. Administration of Ucephan lowered, and arginine increased, urea synthesis to the degree predicted from their respective rates of metabolism. The (15)N-urea/(15)N-glutamine ratio is a sensitive index of in vivo urea cycle activity and correlates with clinical severity. Urea synthesis is altered by alternative route medications and arginine supplementation to the degree that is to be expected from theory. This stable isotope protocol provides a sensitive tool for evaluating the efficacy of therapeutic modalities and acts as an aid to the diagnosis and management of urea cycle patients.

Inborn errors of metabolism: a clinical overview

CONTEXT

Inborn errors of metabolism cause hereditary metabolic diseases (HMD) and classically they result from the lack of activity of one or more specific enzymes or defects in the transportation of proteins.

OBJECTIVES

A clinical review of inborn errors of metabolism (IEM) to give a practical approach to the physician with figures and tables to help in understanding the more common groups of these disorders.

DATA SOURCE

A systematic review of the clinical and biochemical basis of IEM in the literature, especially considering the last ten years and a classic textbook (Scriver CR et al, 1995).

SELECTION OF STUDIES

A selection of 108 references about IEM by experts in the subject was made. Clinical cases are presented with the peculiar symptoms of various diseases.

DATA SYNTHESIS

IEM are frequently misdiagnosed because the general practitioner, or pediatrician in the neonatal or intensive care units, does not think about this diagnosis until the more common cause have been ruled out. This review includes inheritance patterns and clinical and laboratory findings of the more common IEM diseases within a clinical classification that give a general idea about these disorders. A summary of treatment types for metabolic inherited diseases is given.

CONCLUSIONS

IEM are not rare diseases, unlike previous thinking about them, and IEM patients form part of the clientele in emergency rooms at general hospitals and in intensive care units. They are also to be found in neurological, pediatric, obstetrics, surgical and psychiatric clinics seeking diagnoses, prognoses and therapeutic or supportive treatment.

Heterogeneity of diagnoses presenting as cyclic vomiting

OBJECTIVE

To establish the diagnostic profile in children who present with cyclic vomiting.

METHODS

We studied 225 children < 18 years of age who presented to our pediatric gastroenterology service from 1986 to 1997 with at least three discrete episodes of vomiting between which they were well. To determine the diagnoses in those presenting with a pattern of cyclic vomiting, the results of diagnostic testing and responses to various treatments were obtained from a combination of chart review and structured telephone interviews.

RESULTS

The largest diagnostic category included idiopathic cyclic vomiting syndrome (88%). Extraintestinal disorders (7%) and gastrointestinal disorders (5%) constituting the probable cause of vomiting were established in those having complete cessation of episodes after therapy. In 12%, serious surgical disorders of the gastrointestinal (malrotation), renal (acute hydronephrosis), and central nervous systems (neoplasm) were found. In 2%, serious endocrine (Addison's disease) and metabolic disorders (disorder of fatty acid oxidation) were found. Among those with idiopathic cyclic vomiting syndrome, 41% had associated disorders (gastroesophageal reflux and chronic sinusitis) that could contribute to the vomiting, but, based on a partial response to therapy, were not deemed to be the main cause. Altogether 49% had an identified disorder that probably caused or could contribute to the vomiting.

CONCLUSIONS

The cyclic pattern of vomiting is a symptom complex that can be induced by heterogeneous disorders that either cause or contribute to the vomiting. Once the cyclic vomiting pattern is identified, systematic diagnostic testing is warranted to look for these underlying disorders.

Neurological effects associated with use of the insect repellent N,N-diethyl-m-toluamide (DEET)

BACKGROUND

N,N-Diethyl-m-toluamide, an effective tick repellent, when applied to the skin, is the major component of essentially all of the products marketed for this purpose. It is used by about 30% of the US population, and by 23-29% of children in this population. Reports of neurologic adversity and death are rare and primarily involve children, but the dose relationship between N,N-diethyl-m-toluamide exposure and the symptoms reported in the clinical literature is difficult to establish.

METHODS

Animal toxicology studies, clinical reports of neurological adversities in children and adults, and the available Poison Control Center records have been reviewed in an effort to understand the relationship between the N,N-diethyl-m-toluamide exposure and reported adverse events.

CONCLUSIONS

Based on (1) the animal toxicology database on N,N-diethyl-m-toluamide, (2) the reports of adverse events in humans, and (3) the possible alternate etiologies for the symptoms reported in most patients, the risk of adversity from label-directed use of N,N-diethyl-m-toluamide appears low. Future efforts should focus on the prospective collection of adversity data with special attention paid to the documentation of clinical effects.

In vivo nitrogen metabolism in ornithine transcarbamylase deficiency

We developed a new technique that monitors metabolic competency in female heterozygotes for ornithine transcarbamylase deficiency (OTCD). The method uses mass spectrometry to measure conversion of (15)NH4Cl to [15N]urea and [5-(15)N]glutamine following an oral load of (15)NH4Cl. We found that heterozygotes converted significantly less NH3 nitrogen to urea, with this difference being particularly obvious for symptomatic carriers, in whom the blood [15N]urea concentration (mM) was significantly less than control values at most time points. The blood concentration of [5-(15)N]-glutamine (microM) was significantly higher in both asymptomatic and symptomatic heterozygotes than it was in the control subjects. The administration of a test dose of sodium phenylbutyrate to the control group did not affect the rate of [15N]urea formation. We conclude: (a) This test effectively monitors in vivo N metabolism and might obviate the need for liver biopsy to measure enzyme activity in OTCD; (b) Asymptomatic OTCD carriers form urea at a normal rate, indicating that ureagenesis can be competent even though enzyme activity is below normal; (c) Although ostensibly asymptomatic OTCD carriers form urea at a normal rate, their nitrogen metabolism is still abnormal, as reflected in their increased production of [5-(15)N]glutamine; and (d) This new test may be important for monitoring the efficacy of novel treatments for OTCD, e.g., liver transplantation and gene therapy.

Asymptomatic and late-onset ornithine transcarbamylase (OTC) deficiency in males of a five-generation family, caused by an A208T mutation

In a large five-generation Polish family, late-onset ornithine transcarbamylase (OTC) deficiency in males segregated with the missense mutation Ala208Thr (A208T), and all heterozygous females were asymptomatic. No other mutations were found in the coding sequences and intron-exon boundaries of the OTC gene. Surprisingly, the mutation originated from the great-grandfather of the index patient who died at age 59 of liver carcinoma. He never had dietary restrictions or hyperammonemic spells throughout life and appears to be the oldest male reported with OTC deficiency. The index patient had a severe OTC deficiency (3% of normal). Eight males died suddenly at ages 4 months to 23 years (average 14 years) after a foudroyant episode triggered by a common infection. The patients remained undiagnosed for 28 years because a metabolic defect was not considered to be the cause of the acute episodes. Recognition of the familial pattern of inheritance was initially unnoticed since the patients were admitted to eight different hospitals. DNA analysis predicted that two 'healthy' boys also had OTC deficiency, which was confirmed by abnormal results of allopurinol challenge tests. Initial suspicion of OTC deficiency in such families is complicated, since symptoms can develop at any age, or even remain absent. This obscures the typical pattern of X-linked inheritance in small families.

Long-term treatment of girls with ornithine transcarbamylase deficiency

BACKGROUND

Ornithine transcarbamylase is an X-linked mitochondrial enzyme that catalyzes the synthesis of citrulline from carbamoyl phosphate and ornithine. A deficiency of this enzyme leads to hyperammonemia and hyperglutaminemia. In boys the disease is often fatal when its onset occurs during the neonatal period, but it is milder when onset occurs later in childhood. Heterozygous girls may be normal or may have episodes of hyperammonemic encephalopathy and decline in cognitive function. We report here on the long-term outcome in girls with ornithine transcarbamylase deficiency enrolled in studies of treatments designed to activate new pathways of waste-nitrogen excretion.

METHODS

We studied 32 girls (age, 1 to 17 years) with ornithine transcarbamylase deficiency who had had at least one episode of encephalopathy. The patients were assigned to treatment that consisted of sodium benzoate, alone or in combination with sodium phenylacetate or sodium phenylbutyrate, or sodium phenylbutyrate alone. Collaborating physicians provided clinical, metabolic, and developmental data at specified intervals.

RESULTS

Patients treated according to these protocols had greater than 90 percent survival at five years and maintained appropriate weight for height. The frequency of hyperammonemic episodes decreased with increasing age and with sodium phenylacetate or sodium phenylbutyrate treatment. Although the mean IQ before treatment was in the low average range, 19 of the 23 girls in whom intelligence was tested longitudinally had stable test scores.

CONCLUSIONS

Girls with symptomatic ornithine transcarbamylase deficiency who are treated with drugs that activate new pathways of waste-nitrogen excretion have fewer hyperammonemic episodes and a reduced risk of further cognitive decline.

Correction of ornithine transcarbamylase deficiency in adult spf(ash) mice and in OTC-deficient human hepatocytes with recombinant adenoviruses bearing the CAG promoter

Ornithine transcarbamylase (OTC) deficiency, the most common and severe inborn error of the urea cycle in humans, remains without adequate treatment, and mortality rates are high. Adenoviral vectors provide an efficient system for gene delivery, but there are problems, including toxicity. Efficient promoters that reduce the amount of vector required for treatment need to be developed. We constructed two recombinant adenoviral vectors, AdexCAGhOTC and AdexSR alpha hOTC, which harbor the human OTC gene under transcriptional control of CAG (a modified chicken beta-actin promoter with CMV-IE enhancer) and SR alpha (the SV40 early promoter with the R segment and part of the US segment of the HTLV-1 LTR), respectively. Each was tested in adult spf(ash) mice, an animal model of human OTC deficiency, and in primary human hepatocytes with OTC deficiency. Spf(ash) mice have a pronounced orotic aciduria as seen in humans. A complete recovery of hepatic OTC activity with minimal tissue damage was observed in these animals following the intravenous administration of AdexCAGhOTC alone. Western blot analysis confirmed hepatic OTC expression and normalization of orotic aciduria was evident for 60 days. Enzyme activities of primary human hepatocytes infected with AdexCAGhOTC were 10-40 times higher than those with AdexSR alpha hOTC. Thus, the adenoviral vector with an efficient promoter such as CAG, can be given further consideration for possible gene therapy in humans with OTC deficiency.

Gene therapy for ornithine transcarbamylase deficiency

Ornithine transcarbamylase (OTC) deficiency in humans is the most common and severe inborn error of the urea cycle. Despite therapeutic advances, OTC deficiency remains without adequate treatment, hence mortality rates are high. In the two available strains of OTC-deficient murine models, spf and spfash, researchers have tried to make genetic corrections by introducing the OTC gene. Transient but complete recovery of OTC was obtained in adult spfash mice and in OTC-deficient human primary hepatocytes, using a recombinant adenoviral vector. These experiments represent a first step in the development of human gene therapy for OTC deficiency and other hepatic enzyme deficiencies.

Patient selection may affect gene therapy success. Dominant negative effects observed for ornithine transcarbamylase in mouse and human hepatocytes

We have achieved significant improvement of ornithine transcarbamylase deficiency (OTCD) in a mouse model through adenoviral-mediated gene transfer of the human ornithine transcarbamylase cDNA. Substantial reduction in orotic aciduria was observed within 24 h of treatment. Metabolic correction was later associated with phenotypic correction and moderate increase in enzymatic activity. In an effort to identify the level of gene expression required to achieve wild-type levels of enzyme activity we uncovered a dominant negative effect of the endogenous mutant protein on the activity of the delivered recombinant wild-type protein. This phenomenon is relevant to homomultimeric protein defects such as OTCD, represent a challenging category of disorders for gene therapy. Thus, although our findings indicate that adenoviral-mediated gene transfer may have potential as a short-term treatment for OTCD in humans and may be effective especially during catabolic crisis, the observations in this study suggest that careful patient selection based on mutation class may be essential for initial OTCD gene therapy trials, and perhaps, for other homomultimeric enzyme deficiencies being considered as gene therapy targets.