Inconsistencies in the Nutrition Management of Glutaric Aciduria Type 1: An International Survey.

Glutaric aciduria type 1 (GA-1) is a cerebral organic aciduria characterized by striatal injury and progressive movement disorder. Nutrition management shifted from a general restriction of intact protein to targeted restriction of lysine and tryptophan. Recent guidelines advocate for a low-lysine diet using lysine-free, tryptophan-reduced medical foods. GA-1 guideline recommendations for dietary management of patients over the age of six are unclear, ranging from avoiding excessive intake of intact protein to counting milligrams of lysine intake. A 22-question survey on the nutrition management of GA-1 was developed with the goal of understanding approaches to diet management for patients identified by newborn screening under age six years compared to management after diet liberalization, as well as to gain insight into how clinicians define diet liberalization. Seventy-six responses (25% of possible responses) to the survey were received. Nutrition management with GA-1 is divergent among surveyed clinicians. There was congruency among survey responses to the guidelines, but there is still uncertainty about how to counsel patients on diet optimization and when diet liberalization should occur. Ongoing clinical research and better understanding of the natural history of this disease will help establish stronger recommendations from which clinicians can best counsel families.

Glutaric acidemia type 1: Treatment and outcome of 168 patients over three decades.

Glutaric acidemia type 1 (GA1) is a disorder of cerebral organic acid metabolism resulting from biallelic mutations of GCDH. Without treatment, GA1 causes striatal degeneration in >80% of affected children before two years of age. We analyzed clinical, biochemical, and developmental outcomes for 168 genotypically diverse GA1 patients managed at a single center over 31 years, here separated into three treatment cohorts: children in Cohort I (n = 60; DOB 2006-2019) were identified by newborn screening (NBS) and treated prospectively using a standardized protocol that included a lysine-free, arginine-enriched metabolic formula, enteral l-carnitine (100 mg/kg•day), and emergency intravenous (IV) infusions of dextrose, saline, and l-carnitine during illnesses; children in Cohort II (n = 57; DOB 1989-2018) were identified by NBS and treated with natural protein restriction (1.0-1.3 g/kg•day) and emergency IV infusions; children in Cohort III (n = 51; DOB 1973-2016) did not receive NBS or special diet. The incidence of striatal degeneration in Cohorts I, II, and III was 7%, 47%, and 90%, respectively (p < .0001). No neurologic injuries occurred after 19 months of age. Among uninjured children followed prospectively from birth (Cohort I), measures of growth, nutritional sufficiency, motor development, and cognitive function were normal. Adherence to metabolic formula and l-carnitine supplementation in Cohort I declined to 12% and 32%, respectively, by age 7 years. Cessation of strict dietary therapy altered plasma amino acid and carnitine concentrations but resulted in no serious adverse outcomes. In conclusion, neonatal diagnosis of GA1 coupled to management with lysine-free, arginine-enriched metabolic formula and emergency IV infusions during the first two years of life is safe and effective, preventing more than 90% of striatal injuries while supporting normal growth and psychomotor development. The need for dietary interventions and emergency IV therapies beyond early childhood is uncertain.

Induction of Neuroinflammatory Response and Histopathological Alterations Caused by Quinolinic Acid Administration in the Striatum of Glutaryl-CoA Dehydrogenase Deficient Mice.

Glutaric acidemia type I (GA I) is an inherited neurometabolic disorder caused by a severe deficiency of the mitochondrial glutaryl-CoA dehydrogenase (GCDH) activity. Patients usually present progressive cortical leukodystrophy and commonly develop acute bilateral striatal degeneration mainly during infections that markedly worse their prognosis. A role for quinolinic acid (QA), a key metabolite of the kynurenine pathway, which is activated during inflammatory processes, on the pathogenesis of the acute striatum degeneration occurring in GA I was proposed but so far has not yet been evaluated. Therefore, we investigated whether an acute intrastriatal administration of quinolinic acid (QA) could induce histopathological alterations in the striatum of 30-day-old wild-type (WT) and GCDH knockout (Gcdh-/-) mice. Striatum morphology was evaluated by hematoxylin and eosin, T lymphocyte presence (CD3), and glial activation (GFAP and S100ß) by immunohistochemistry and 3-nitrotyrosine (YNO2) by immunofluorescence. QA provoked extensive vacuolation, edema, and especially lymphocyte infiltration in the striatum of Gcdh-/-. QA also enhanced CD3 staining and the number of YNO2 positive cells in Gcdh-/- mice, relatively to WT, indicating T lymphocyte infiltration and nitrosative stress, respectively. QA-treated WT mice also showed an increase of GFAP and S100ß staining, which is indicative of reactive astrogliosis, whereas the levels of these astrocytic proteins were not changed in Gcdh-/- QA-injected mice. The present data indicate that QA significantly contributes to the histopathological changes observed in the striatum of Gcdh-/- mice.

Clinical and mutational spectra of 23 Chinese patients with glutaric aciduria type 1.

OBJECTIVE: Glutaric aciduria type 1 (GA1) is a rare neurometabolic disorder caused by glutaryl-CoA dehydrogenase deficiency due to GCDH gene mutations. In this study, the clinical presentation and molecular aspects of 23 Chinese patients (11 males and 12 females) were investigated. METHODS: All patients were diagnosed by elevated urinary glutaric acid and GCDH gene analysis. Protein-restricted diet supplemented with special formula, l-carnitine and GABA analog were initialed after diagnosis. The clinical and biochemical features were analyzed. Mutational analysis of GCDH was conducted. RESULTS: Clinical manifestations of 23 patients varied from asymptomatic to severe encephalopathy, with notable phenotypic differences between siblings with the same mutations. One case was detected by newborn screening, while 22 Cases were diagnosed between the ages of 5 months and 51 years. 29 mutations in GCDH were identified. Among them, 11 were novel, including seven missense mutations (c.406G > T, C.416C > G, c.442G > A, c.640A > G, c.901G > A, c.979G > A, and c.1207C > T), three frameshift mutations (c.873delC, c.1172-1173insT and c.1282-1285ins71) and one nonsense mutation (c.411C > G). In exon 5, c.553G > A and c.148T > C were found in four alleles (8.7%) and three alleles (6.5%) of the patients, respectively. CONCLUSIONS: In 23 Chinese patients with GA1, 11 novel GCDH mutations were identified. This may indicate that the genetic profiles of Chinese patients are different from those of other populations. SYNOPSIS: 23 Chinese GA1 patients with varied clinical manifestations have been reported. 11 novel mutations in their GCDH gene were identified, indicating that the genetic profiles of Chinese GA1 patients differ from those of other populations.

Low lysine diet in glutaric aciduria type I--effect on anthropometric and biochemical follow-up parameters.

BACKGROUND: Metabolic treatment in glutaric aciduria type I (GA-I) including a low lysine diet with lysine-free, tryptophan-reduced amino acid supplements (AAS), carnitine supplementation and early start of emergency treatment during putatively threatening episodes of intermittent febrile illness dramatically improves the outcome and thus has been recommended by an international guideline group (Kölker et al, J Inherit Metab Dis 30:5-22, 2007). However, possible affection of linear growth, weight gain and biochemical follow-up monitoring has not been studied systematically. METHODS: Thirty-three patients (n = 29 asymptomatic, n = 4 dystonic) with GA-I who have been identified by newborn screening in Germany from 1999 to 2009 were followed prospectively during the first six years of life. Dietary treatment protocols, anthropometrical and biochemical parameters were longitudinally evaluated. RESULTS: Mean daily intake as percentage of guideline recommendations was excellent for lysine (asymptomatic patients: 101 %; dystonic patients: 103 %), lysine-free, tryptophan-reduced AAS (108 %; 104 %), energy (106 %; 110 %), and carnitine (92 %; 102 %). Low lysine diet did not affect weight gain (mean SDS 0.05) but mildly impaired linear growth in asymptomatic patients (mean SDS -0.38), while dystonic patients showed significantly reduced weight gain (mean SDS -1.32) and a tendency towards linear growth retardation (mean SDS -1.03). Patients treated in accordance with recent recommendations did not show relevant abnormalities of routine biochemical follow-up parameters. INTERPRETATION: Low lysine diet promotes sufficient intake of essential nutrients and anthropometric development in asymptomatic children up to age 6 year, whereas individualized nutritional concepts are required for dystonic patients. Revised recommendations for biochemical monitoring might be required for asymptomatic patients.

Dietary practices in glutaric aciduria type 1 over 16 years.

BACKGROUND: In glutaric aciduria type 1 (GA1), dietary treatment with emergency management (EM) is essential to prevent encephalopathic crisis (EC). In the present study, dietary practices were examined in a single UK centre without access to newborn screening. METHODS: Twenty GA1 patients (11 males, median age: 10.2 years, range 2.2-24.1 years) were evaluated. Nine presented without EC (median diagnosis age: 1.1 years, range 4 days to 8 years) and 11 with EC (median diagnosis age 10 months, range 6 months to 1.7 years). Dietary treatment, neurological outcome, anthropometry and biochemical/haematological markers were assessed. RESULTS: Diet treatment varied according to age of diagnosis and symptom severity. Four of six pre-encephalopathic children diagnosed before 2 years of age were treated with carnitine, protein restriction (medium l.2 g kg day(-1)) and lysine-free/low tryptophan protein substitute (PS) (medium dose: 1.6 g kg day(-1)). EM consisted of natural protein cessation and glucose polymer with PS delivered via an enteral feeding tube. Older children (>3 years) without EC were given carnitine and protein restriction, and seven of nine EC patients had PS via an enteral feeding tube. Clinical deterioration occurred in two patients without EC; one taking PS and protein restriction (with a second untreatable pathology) and one after protein restriction only. In patients presenting with EC, four died and one had some improvement in movement, with the rest remaining stable but with severe disability. Patients taking PS had better nutritional markers [serum vitamin B(12) (P < 0.001), albumin (P < 0.001), haemoglobin (P < 0.001) and essential plasma amino acids]. CONCLUSIONS: Early diagnosis of GA1 before EC is essential because PS and protein restriction with meticulous EM prevents EC. PS also improves nutritional status irrespective of clinical condition.

[Hyperammonemic encephalopathy: nutritional assessment and management of a case]. / Encefalopatía hiperamoniémica: valoración y manejo nutricional a propósito de un caso.

OTC deficiency is a disorder of the urea cycle X-linked. It is manifested in men as severe hyperammonemia in the first days of life. In women the disease is milder severity. Various conditions cause decompensation with hyperammonemia. It could be fatal or cause permanent neurological damage. We report a 36 years old woman admitted for surgery, she suffered a decompensation in conjunction with surgical wound infection. Hyperammonemia caused neurological deterioration with decreased level of consciousness, tetraparesis and neurogenic dysphagia. The treatment consisting of low-protein diet, ammonium chelating drugs and dialytic measures, was effective in controlling hyperammonaemia and improving neurological status. This case illustrates the importance of nutritional support of patients with disorders of the urea cycle in the hospital because the descompensations are more frecuent here.

Complementary dietary treatment using lysine-free, arginine-fortified amino acid supplements in glutaric aciduria type I - A decade of experience.

The cerebral formation and entrapment of neurotoxic dicarboxylic metabolites (glutaryl-CoA, glutaric and 3-hydroxyglutaric acid) are considered to be important pathomechanisms of striatal injury in glutaric aciduria type I (GA-I). The quantitatively most important precursor of these metabolites is lysine. Recommended therapeutic interventions aim to reduce lysine oxidation (low lysine diet, emergency treatment to minimize catabolism) and to enhance physiologic detoxification of glutaryl-CoA via formation of glutarylcarnitine (carnitine supplementation). It has been recently shown in Gcdh(-/-) mice that cerebral lysine influx and oxidation can be modulated by arginine which competes with lysine for transport at the blood-brain barrier and the inner mitochondrial membrane [Sauer et al., Brain 134 (2011) 157-170]. Furthermore, short-term outcome of 12 children receiving arginine-fortified diet showed very promising results [Strauss et al., Mol. Genet. Metab. 104 (2011) 93-106]. Since lysine-free, arginine-fortified amino acid supplements (AAS) are commercially available and used in Germany for more than a decade, we evaluated the effect of arginine supplementation in a cohort of 34 neonatally diagnosed GA-I patients (median age, 7.43 years; cumulative follow-up period, 221.6 patient years) who received metabolic treatment according to a published guideline [Kölker et al., J. Inherit. Metab. Dis. 30 (2007) 5-22]. Patients used one of two AAS product lines during the first year of life, resulting in differences in arginine consumption [group 1 (Milupa Metabolics): mean=111 mg arginine/kg; group 2 (Nutricia): mean=145 mg arginine/kg; p<0.001]. However, in both groups the daily arginine intake was increased (mean, 137 mg/kg body weight) and the dietary lysine-to-arginine ratio was decreased (mean, 0.7) compared to infants receiving human milk and other natural foods only. All other dietary parameters were in the same range. Despite significantly different arginine intake, the plasma lysine-to-arginine ratio did not differ in both groups. Frequency of dystonia was low (group 1: 12.5%; group 2: 8%) compared with patients not being treated according to the guideline, and gross motor development was similar in both groups. In conclusion, the development of complementary dietary strategies exploiting transport competition between lysine and arginine for treatment of GA-I seems promising. More work is required to understand neuroprotective mechanisms of arginine, to develop dietary recommendations for arginine and to evaluate the usefulness of plasma monitoring for lysine and arginine levels as predictors of cerebral lysine influx.

The ketogenic diet for Dravet syndrome and other epileptic encephalopathies: an Italian consensus.

Ketogenic diet is a nonpharmacologic treatment for childhood epilepsy not amenable to drugs. At the present time, two works based on national research, one in Germany and one in the United States provide international guidelines to ensure a correct management of the ketogenic diet. Our Italian collaborative study group was set up in order to formulate a consensus statement regarding the clinical management of the ketogenic diet, patient selection, pre-ketogenic diet, counseling, setting and enforcement of dietary induction of ketosis, follow-up management, and eventual discontinuation of the diet.

Therapeutic modulation of cerebral L-lysine metabolism in a mouse model for glutaric aciduria type I.

Glutaric aciduria type I, an inherited deficiency of glutaryl-coenzyme A dehydrogenase localized in the final common catabolic pathway of L-lysine, L-hydroxylysine and L-tryptophan, leads to accumulation of neurotoxic glutaric and 3-hydroxyglutaric acid, as well as non-toxic glutarylcarnitine. Most untreated patients develop irreversible brain damage during infancy that can be prevented in the majority of cases if metabolic treatment with a low L-lysine diet and L-carnitine supplementation is started in the newborn period. The biochemical effect of this treatment remains uncertain, since cerebral concentrations of neurotoxic metabolites can only be determined by invasive techniques. Therefore, we studied the biochemical effect and mechanism of metabolic treatment in glutaryl-coenzyme A dehydrogenase-deficient mice, an animal model with complete loss of glutaryl-coenzyme A dehydrogenase activity, focusing on the tissue-specific changes of neurotoxic metabolites and key enzymes of L-lysine metabolism. Here, we demonstrate that low L-lysine diet, but not L-carnitine supplementation, lowered the concentration of glutaric acid in brain, liver, kidney and serum. L-carnitine supplementation restored the free L-carnitine pool and enhanced the formation of glutarylcarnitine. The effect of low L-lysine diet was amplified by add-on therapy with L-arginine, which we propose to result from competition with L-lysine at system y(+) of the blood-brain barrier and the mitochondrial L-ornithine carriers. L-lysine can be catabolized in the mitochondrial saccharopine or the peroxisomal pipecolate pathway. We detected high activity of mitochondrial 2-aminoadipate semialdehyde synthase, the rate-limiting enzyme of the saccharopine pathway, in the liver, whereas it was absent in the brain. Since we found activity of the subsequent enzymes of L-lysine oxidation, 2-aminoadipate semialdehyde dehydrogenase, 2-aminoadipate aminotransferase and 2-oxoglutarate dehydrogenase complex as well as peroxisomal pipecolic acid oxidase in brain tissue, we postulate that the pipecolate pathway is the major route of L-lysine degradation in the brain and the saccharopine pathway is the major route in the liver. Interestingly, treatment with clofibrate decreased cerebral and hepatic concentrations of glutaric acid in glutaryl-coenzyme A dehydrogenase-deficient mice. This finding opens new therapeutic perspectives such as pharmacological stimulation of alternative L-lysine oxidation in peroxisomes. In conclusion, this study gives insight into the discrepancies between cerebral and hepatic L-lysine metabolism, provides for the first time a biochemical proof of principle for metabolic treatment in glutaric aciduria type I and suggests that further optimization of treatment could be achieved by exploitation of competition between L-lysine and L-arginine at physiological barriers and enhancement of peroxisomal L-lysine oxidation and glutaric acid breakdown.

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.

Neuroglycopenia in normoglycaemic patients, and the potential benefit of ketosis.

We report a patient with recurrent symptoms of neuroglycopenia due to a defective glucose transport into brain. The potential benefit of ketosis in neuroglycopenia is discussed from the therapeutic concept of a ketogenic diet in GLUT1-deficiency syndrome.

Gastrostomía endoscópica percutánea.Quince años de experiencia / Fifteen years of experience on percutaneous endoscopic gastrostomy

La gastrostomía endoscópica percutánea (GEP), ha permitido establecer una vía de alimentación adecuada para aquellos pacientes portadores de enfermedades graves y crónicas, que no deben o no pueden utilizar para su nutrición la vía oral normal. En nuestro centro hemos realizado 262 GEP en patologías puramente pediátricas como insuficiencia renal crónica, encefalopatías, metabolopatías o fibrosis quística y otras patologías quirúrgicas como los grandes quemados, cardiopatías congénitas, epidermolisis bullosa, fisura palatina o neoplasias. La técnica que utilizamos es la descrita por Gauderer y Ponsky, empleando un equipo comercial que incluye todos los elementos necesarios para su instalación. No se han producido complicaciones graves. Un 10 por ciento de los pacientes han tenido complicaciones derivadas del estoma, siendo las más frecuentes los granulomas, infecciones locales e irritación dérmica por salida de jugo gástrico. La comprobación de la eficacia de la GEP se realizó con un seguimiento nutricional, aplicando los parámetros comparativos del Indice de Mc. Laren e Índice de talla corporal utilizando datos estándares antropométricos. Los pacientes más dependientes de su nutrición en relación con la evolución de la enfermedad, han sido en nuestra serie los niños nefrópatas, en los que hemos conseguido un cambio en el pronóstico de su insuficiencia renal crónica y una significativa mejor preparación para un trasplante renal cuando este se indicó. De igual manera disminuyeron los días de ingreso en los pacientes con metabolopatías graves y fueron menos frecuentes los episodios de infección respiratoria complicada en los niños con FQ o con otras bronconeumopatías severas. En los enfermos con neoplasias, la GEP permitió un mejor manejo de los tratamientos citostáticos y una mejora en su calidad de vida. El uso de la GEP se ha extendido hasta los niños con lesiones menos crónicas pero igualmente importantes como los grandes quemados en los que se ha demostrado una mejor respuesta al tratamiento y una más rápida cicatrización y reparación de sus lesiones. La GEP realizada en nuestro servicio por un grupo de cirujanos pediátricos entrenados en endoscopia no ha tenido complicaciones relevantes y ha demostrado su utilidad como vía de alimentación –alternativa a la oral–, fiable, cómoda y eficaz (AU)

Epilepsy, cerebral calcifications and clinical or subclinical coeliac disease. Course and follow up with gluten-free diet.

We have studied four patients (three male, one female, age range 15-25 years) with epilepsy, bilateral occipital calcifications and latent coeliac disease (CD). The epilepsy started at mean age 7 years, in three cases there were partial seizures and in one case generalized seizure. Three cases had symptoms suggesting malabsorptive syndrome during infancy and one case was diagnosed CD before the onset of seizures. In all cases serologic markers of CD were found, especially antiendomisium antibody, and intestinal biopsy indicated several grades of atrophy. The electroencephalograph (EEG) findings pointed to focal abnormalities in three patients and generalized abnormalities in one patient. In all cases computer tomography (CT) showed bilateral, almost symmetrical occipital calcifications in the cortical subcortical layers. The enhanced CT were unremarkable and magnetic resonance images (MRI) were normal. After diagnosis of CD, all patients followed a gluten-free diet and in three patients a significant reduction in seizure frequency was observed. CD should be ruled out in all cases of epilepsy, cerebral calcifications of unexplained origin and malabsorption syndrome in infancy.

[Internal medicine aspects and characteristics of nutrition in patients with cerebral cognitive deficits]. / Internistische Aspekte und Besonderheiten der Ernährung bei Patienten mit Hirnleistungsstörung.

The reason of cerebral disorders is estimated to be internal diseases in a quarter of the patients. Metabolic causes could be hypoxemia, electrolyte disorders, disorders of the acid-base balance, liver diseases, renal diseases, metabolic disorders and chronic deficiency conditions of several vitamins and iron, cardiovascular causes include heart diseases, which go along with reduced cardiac output. Further cerebral disorders could also occur in cases of neoplasia, severe infections and chronic pain conditions. Also a lot of pharmacological agents given in high doses, especially psychotropic drugs, can cause confusion conditions and severe cerebral disorders. Physiological and pharmacological peculiarities in older people, which concern the absorption in the gastrointestinal tract, the distribution in the organism, the biotransformation and the excretion, are shown, further the problems of the aging process at the cell-level. Changes of the body composition respectively of the organs and organ systems, and the decrease of the low-fat body mass and the combined decrease of the whole body water represent the most important figure. As with increasing age the daily energy absorption and energy turnover decrease, the peculiarities of the nutrition are discussed in detail. While malnutrition in the outpatients with dementia is rare, there might be a lack especially in patients under hospital or rent house care in the presence of considerable mental and/or physical handicaps: this happens when home nursing is not possible any longer. Further guidelines for the handling of patients with eating-related behavioral problems are discussed. Through proper arrangements eating difficulties should be prevented and an adequate training of the relatives and the nursing stuff is advisable. Suitable medication and dietetic intervention may be prophylactic and curative against malnutrition especially in the field of vitamins, trace elements and other essential nutritive substances.

Ornithine transcarbamylase deficiency in females: an often overlooked cause of treatable encephalopathy.

Ornithine transcarbamylase deficiency is an X-linked recessive disorder of urea biosynthesis characterized by recurrent, often fatal, hyperammonemic encephalopathy in affected males; carrier females are usually asymptomatic. We report here the clinical and laboratory findings in five symptomatic heterozygous females with ornithine transcarbamylase deficiency. In each case, the onset of symptoms occurred in the 1st year of life, but diagnosis was delayed by up to 15 years. Symptoms included recurrent vomiting with lethargy (five patients), dietary protein intolerance (five), irritability (four), severe acute encephalopathy (three), ataxia (three), and acute hemiparesis (two). All eventually showed evidence of developmental delay or learning difficulties. Two of the three who experienced severe, acute, hyperammonemic encephalopathy suffered serious, permanent neurologic sequelae. Three of the patients showed decreased ornithine transcarbamylase activity in liver obtained by needle biopsy, and the other two had marked orotic aciduria associated with hyperammonemia. Neuroimaging studies demonstrated persistent abnormal lobar attenuation and abnormal signal on computed tomographic scan and magnetic resonance imaging. All patients showed marked symptomatic improvement on treatment with dietary protein restriction supplemented by pharmacologic measures to increase nonprotein nitrogen excretion. Ornithine transcarbamylase deficiency should be considered in the differential diagnosis of acute or chronic encephalopathy in females at any age.