Treatment and management for children with urea cycle disorder in chronic stage / 浙江大学学报·医学版

Urea cycle disorder (UCD) is a group of inherited metabolic diseases with high disability or fatality rate, which need long-term drug treatment and diet management. Except those with Citrin deficiency or liver transplantation, all pediatric patients require lifelong low protein diet with safe levels of protein intake and adequate energy and lipids supply for their corresponding age; supplementing essential amino acids and protein-free milk are also needed if necessary. The drugs for long-term use include nitrogen scavengers (sodium benzoate, sodium phenylbutyrate, glycerol phenylbutyrate), urea cycle activation/substrate supplementation agents (N-carbamylglutamate, arginine, citrulline), etc. Liver transplantation is recommended for pediatric patients not responding to standard diet and drug treatment, and those with severe progressive liver disease and/or recurrent metabolic decompensations. Gene therapy, stem cell therapy, enzyme therapy and other novel technologies may offer options for treatment in UCD patients. The regular biochemical assessments like blood ammonia, liver function and plasma amino acid profile are needed, and physical growth, intellectual development, nutritional intake should be also evaluated for adjusting treatment in time.

Emerging trends in management of propionic acidemia / Tendências emergentes no manejo da academia propiônica

Objetivo : To evaluate the therapeutic agents used during metabolic crises and in long-term management of patients with propionic acidemia (PA).Materials and methods : The records of PA patients were retrospectively evaluated.Results : The study group consisted of 30 patients with 141 admissions. During metabolic crises, hyperammonemia was found in 130 (92%) admissions and almost all patients were managed with normal saline, ≥ 10% dextrose, and restriction of protein intake. In 56 (40%) admissions, management was done in intensive care unit, 31 (22%) with mechanical ventilation, 10 (7%) with haemodialysis, 16 (11%) with vasopressor agents, and 12 (9%) with insulin. In the rescue procedure, L-carnitine was used in 135 (96%) patients, sodium bicarbonate in 116 (82%), sodium benzoate in 76 (54%), and metronidazole in 10 (7%), biotin in about one-quarter, L-arginine in one third, and antibiotics in three-quarter of the admissions. Blood/packed RBCs were used in 28 (20%) patients, platelets in 26 (18%), fresh frozen plasma in 8 (6%), and granulocyte-colony stimulating factors in 10 (7%) admissions. All patients were managed completely/partially with medical nutrition formula plus amino acid mixture, vitamins and minerals. For long-term management 24 (80%) patients were on L-carnitine, 22 (73%) on sodium benzoate, 6 (20%) on biotin, one half on alkaline therapy and 4 (13%) on regular metronidazole use. Almost all patients were on medical formula and regular follow-up.Conclusion : Aggressive and adequate management of acute metabolic crises with restriction of protein intake, stabilization of patient, reversal of catabolism, and removal of toxic metabolites are essential steps. Concerted efforts to ensure adequate nutrition, to minimize the risk of acute decompensation and additional therapeutic advances are imperative to improve the outcome of PA patients. Arq Bras Endocrinol Metab. 2014;58(3):237-42.

Objetivo : Avaliar os agentes terapêuticos usados durante as crises metabólicas e para o manejo de longo prazo de pacientes com academia propiônica (AP).Materiais e métodos : Avaliação retrospectiva das fichas médicas de pacientes com AP.Resultados : O grupo estudado consistiu de 30 pacientes com 141 hospitalizações. Durante as crises metabólicas, a hiperamonemia foi observada em 130 (92%) pacientes hospitalizados e quase todos foram tratados com solução salina regular, ≥ 10% dextrose e restrição da ingestão de proteína. Em 56 (40%) das hospitalizações, o manejo foi feito na unidade de terapia intensiva, 31(22%) com ventilação mecânica, 10 (7%) com hemodiálise, 16 (11%) com vasopressores e 12 (9%) com insulina. Para o resgate, a L-carnitina foi usada em 135 (96%) pacientes, o bicarbonato de sódio em 116 (82%), o benzoato de sódio em 76 (54%), o metronidazole em 10 (7%), a biotina em cerca de um quarto, a L-arginina em um quarto e antibióticos em três quartos dos pacientes hospitalizados. Sangue/concentrado de hemácias foram usados em 28 (20%), plaquetas em 26 (18%), plasma fresco congelado em 8 (6%) e fatores estimulantes de colônias de granulócitos em 10 (7%) pacientes hospitalizados. Todos os pacientes foram manejados completamente/parcialmente com fórmula de nutrição hospitalar mais uma mistura de aminoácidos, vitaminas e minerais. Para o manejo de longo prazo, 24 (80%) dos pacientes foram tratados com L-carnitina, 22 (73%) com benzoato de sódio, 6 (20%) com biotina, a metade com tratamento alcalino e 4 (13%) com uso regular de metronidazole. Quase todos os pacientes foram tratados com fórmulas médicas e acompanhamento regular.Conclusão : O manejo adequado e agressivo de crises metabólicas com restrição da ingestão de proteína, ...

Hiperamonemia en niños: clasificación y opciones terapéuticas / Hyperammonaemia in children: classification and therapeutic options

La hiperamonemia se presenta en forma secundaria por aumento en la producción de amonio, como en la hemorragia gastrointestinal o disminución de la eliminación, como ocurre en errores innatos del metabolismo, principalmente en aquellos con defectos en el ciclo de la urea, insuficiencia hepática o fármacos. Clasificar la hiperamonemia y reportar las opciones terapéuticas en niños, su abordaje clínico y revisión de la literatura. Estudio prospectivo, descriptivo y transversal de niños con hiperamonemia. Variables: edad, género, etiología, niveles de amonio, clínica, tratamiento. 21 pacientes, 12 (57,12%) varones y 9 (42,88%) hembras. Edad promedio 3,91 años (rango:<1mes-14 años). Amonio promedio general 214,66 mmol/l (rango:110-980), clasificados según severidad: sin insuficiencia hepática 11/21 con promedio de amonio 99,44 y 201 mmol/l en hiperamonemia leve y moderada respectivamente. Clínica y laboratorio de insuficiencia hepática en 10/21 con promedio de amonio de 114,44, 287,51 y 756,66 en leve, moderada y severa hiperamonemia, con una diferencia significativa entre el nivel de amonio y la presencia o ausencia de insuficiencia hepática (p<0,0001); 5/10 con insuficiencia hepática ingresaron a terapia intensiva, 4 de ellos presentaron encefalopatía hepática, un paciente fallecido. Etiología: Error innato del metabolismo 33,33%, toxicidad por medicamentos 23,80%, hepatitis viral A fulminante 19,04% y otros virus 9,52%, hepatitis autoinmune 4,76% y urosepsis 4,76%. En los casos leves-moderados se administró lactulosa dosis respuesta vía oral 19/21 y por enema rectal 7/21 con L-carnitina en 15/21 y en Hiperamonemia severa adicionalmente Benzoato de sodio en 4/21 y hubo indicación de hemodiálisis en 3 pacientes. Restricción proteica en todos, vitaminoterapia y 6 niños tratados con ácido ursodeoxicólico. La hiperamonemia es multifactorial, requiere diagnóstico temprano, la clasificación de severidad permite el tratamiento oportuno para evitar complicaciones....

Hyperammonaemia occurs secondarily by increased production of ammonia, as gastrointestinal bleeding or decreased elimination, as occurs in inborn errors of metabolism, especially in those with defects in the urea cycle, liver failure or drugs. To classify the report hyperammonaemia and therapeutic options in children, its clinical approach and review of the literature. Prospective, descriptive and transversal children with hyperammonaemia. Variables: age, gender, etiology, ammonia levels, clinical treatment. 21 patients, 12 (57,12%) males and 9 (42,88%) females. Mean age 3,91 years (range: <1m-14a). ammonium 214,66 mmol / l (range :110-980), classified according to severity: no hepatic impairment 11/21 with 99,44 average ammonium and 201 mmol / l in Hyperammoanemia mild and moderate respectively. Clinical and laboratory liver failure 10/21 with ammonium averaging 114,44, 287,51 and 756,66 as mild, moderate and severe hyperammonemia, with a significant difference between the level of ammonia and the presence or absence of liver failure (p < 0,0001), 5/10 with liver failure admitted to intensive care, 4 of them had hepatic encephalopathy, a patient died. Etiology: An inborn error of metabolism 33,33%, 23,80% drug toxicity, fulminant viral hepatitis and other viruses 19,04% 9,52% 4,76% autoimmune hepatitis and urosepsis 4,76%. In mild-moderate cases were given oral lactulose Dose 19/21 and by enema rectal 7/21 with L-carnitine in 15/21 and further severe Hyperammonemia sodium benzoate 4/21 and was indication of hemodialysis in 3 patients. Protein restriction at all, vitamin therapy and 6 children treated with ácidoursodeoxicólico. Hyperammonemia is multifactorial, requires early diagnosis, classification of severity allows early treatment to avoid complications and development of irreversible neurological sequelae

The First Korean Case of Lysinuric Protein Intolerance: Presented with Short Stature and Increased Somnolence

Lysinuric protein intolerance (LPI) is a rare inherited metabolic disease, caused by defective transport of dibasic amino acids. Failure to thrive, hepatosplenomegaly, hematological abnormalities, and hyperammonemic crisis are major clinical features. However, there has been no reported Korean patient with LPI as of yet. We recently encountered a 3.7-yr-old Korean girl with LPI and the diagnosis was confirmed by amino acid analyses and the SLC7A7 gene analysis. Her initial chief complaint was short stature below the 3rd percentile and increased somnolence for several months. Hepatosplenomegaly was noted, as were anemia, leukopenia, elevated levels of ferritin and lactate dehydrogenase, and hyperammonemia. Lysine, arginine, and ornithine levels were low in plasma and high in urine. The patient was a homozygote with a splicing site mutation of IVS4+1G > A in the SLC7A7. With the implementation of a low protein diet, sodium benzoate, citrulline and L-carnitine supplementation, anemia, hyperferritinemia, and hyperammonemia were improved, and normal growth velocity was observed.

Hyperammonemia in a Patient with Late-Onset Ornithine Carbamoyltransferase Deficiency

Ornithine carbamoyltransferase (OTC) deficiency is a urea cycle disorder that causes the accumulation of ammonia, which can lead to encephalopathy. Adults presenting with hyperammonemia who are subsequently diagnosed with urea cycle disorders are rare. Herein, we report a case of a late-onset OTC deficient patient who was successfully treated with arginine, benzoate and hemodialysis. A 59-yr-old man was admitted to our hospital with progressive lethargy and confusion. Although hyperammonemia was suspected as the cause of the patient's mental changes, there was no evidence of chronic liver disease. A plasma amino acid and urine organic acid analysis revealed OTC deficiency. Despite the administration of a lactulose enema, the patient's serum ammonia level increased and he remained confused, leading us to initiate acute hemodialysis. After treatment with arginine, sodium benzoate and hemodialysis, the patient's serum ammonia level stabilized and his mental status returned to normal.

Role of gut bacteria in the therapy of hepatic encephalopathy with lactulose and antibiotics.

The pathogenesis of hepatic encephalopathy is mediated to a large extent by ammonia, mainly derived from the gut. Both bacterial and nonbacterial mechanisms of ammoniagenesis have been shown, but ammoniagenesis mediated by colonic bacteria is probably of clinical significance. The therapy of hepatic encephalopathy is based on the putative etiological agents, including ammonia. Non-absorbable disaccharides and antibiotics have been shown to modify gut flora and decrease blood ammonia levels, but these are not necessarily related (indicating nonbacterial sources of ammonia, which may also be decreased by these compounds). A combination of these has been suggested but not consistently demonstrated to be beneficial in hepatic encephalopathy. Sodium benzoate is an alternate method of nonbacterial, non-hepatic metabolic binding pathway for ammonia disposal. Other mechanisms of gut bacterial modification may be achieved albeit transiently by the use of resistant bacteria like Enterococcus faecium.