Severe Hemolytic Anemia After Mothball Ingestion Complicated by an Undiagnosed Enzyme Deficiency: A Case Report.

Ingestion of mothballs containing naphthalene or paradichlorobenzene is known to cause hemolysis and methemoglobinemia secondary to severe oxidative stress, affecting the oxygen delivery system of the body. The gradual accumulation of oxidizing radicals in the setting of restricted glutathione availability leads to the oxidization of hemoglobin and other body proteins, ultimately causing cell destruction. In the setting of glucose-6-phosphate dehydrogenase deficiency (G6PDD), more pronounced symptoms and poor prognosis are anticipated as adequate nicotinamide adenine dinucleotide phosphate is not generated to protect red blood cells from oxidative injury, potentiating the hemolytic process further. Here, we report the case of a young male with mothball ingestion whose presentation and management were complicated by underlying undiagnosed G6PDD.

Neurological Characteristics of Pediatric Glycogen Storage Disease.

Glycogen storage diseases (GSD) encompass a group of rare inherited diseases due dysfunction of glycogen metabolism. Hypoglycemia is the most common primary manifestation of GSD, and disturbances in glucose metabolism can cause neurological damage. The aims of this study were to first investigate the metabolic, genetic, and neurological profiles of children with GSD, and to test the hypothesis whether GSD type I would have greater neurological impact than GSD type IX. A cross-sectional study was conducted with 12 children diagnosed with GSD [Types: Ia (n=5); 1, Ib (n=1); 4, IXa (n=5); and 1, IXb (n=1)]. Genetic testing was conducted for the following genes using multigene panel analysis. The biochemical data and magnetic resonance imaging of the brain presented by the patients were evaluated. The criteria of adequate metabolic control were adopted based on the European Study on Glycogen Storage Disease type I consensus. Pathogenic mutations were identified using multigene panel analyses. The mutations and clinical chronology were related to the disease course and neuroimaging findings. Adequate metabolic control was achieved in 67% of patients (GSD I, 43%; GSD IX, 100%). Fourteen different mutations were detected, and only two co-occurring mutations were observed across families (G6PC c.247C>T and c.1039C>T). Six previously unreported variants were identified (5 PHKA2; 1 PHKB). The proportion of GSD IX was higher in our cohort compared to other studies. Brain imaging abnormalities were more frequent among patients with GSD I, early-symptom onset, longer hospitalization, and inadequate metabolic control. The frequency of mutations was similar to that observed among the North American and European populations. None of the mutations observed in PHKA2 have been described previously. Therefore, current study reports six GSD variants previously unknown, and neurological consequences of GSD I. The principal neurological impact of GSD appeared to be related to inadequate metabolic control, especially hypoglycemia.

A Novel Variant in G6PD (c.1375C>G) Identified from a Hispanic Neonate with Extreme Hyperbilirubinemia and Low G6PD Enzymatic Activity.

We report a novel glucose-6-phosphate dehydrogenase (G6PD) variant (c.1375C>G) discovered in a 3-day-old Hispanic male child from Salt Lake City, UT, USA. This newborn presented with severe hyperbilirubinemia (29.8 mg/dL or 510 µmol/L) and marked hemolysis evidenced by elevated end-tidal carbon monoxide concentration (5.9 ppm, normal <1.7 ppm). Despite a very low prevalence of G6PD deficiency in Hispanic populations, we pursued testing for this condition and found he had low erythrocyte G6PD enzyme activity (2.8 U/g Hb, normal 9.9-16.6 U/g Hb) and a novel G6PD variant. His mother was heterozygous for this same variant, and she had a moderate decrease in G6PD enzyme activity (7.1 U/g Hb). On the basis of these findings, we propose this variant as a novel pathogenic mutation.

Enfermedad de vnn gierke: nuevas tendencias en el manejo / Von gieke diseasse: new trends in management / Doença de vn gieerke: novas tendências no tratamento

La enfermedad de von Gierke, también conocida como enfermedad de deposito de glucógeno tipo Ia, es una enfermedad producida por la deficiencia de la unidad catalítica de la G6Pasa-a, encargada de hidrolizar la glucosa 6 fosfato en el citoplasma celular durante la gluconeogénesis y la glucogenolisis. Las complicaciones a largo plazo son hipoglicemia severa y alteraciones en el crecimiento. En los niños más pequeños la enfermedad típicamente se presenta con crisis convulsivas y hepatomegalia que se manifiestan a los 6 y 8 meses. Otras complicaciones son osteoporosis, gota, enfermedad renal, hipertensión pulmonar y adenomas hepáticos que pueden malignizarse. No se ha encontrado una cura y de no recibir un manejo adecuado es letal en las primeras dos décadas de la vida. El tratamiento consiste en terapia nutricional, asociada a varios medicamentos convencionales. Algunos pacientes pueden requerir transplante renal o transplante hepático. Una nueva esperanza se ha abierto con el advenimiento de la terapia génica con vectores virales, esta estrategia hasta ahora esta siendo desarrollada, pero los estudios realizados han mostrado una luz de esperanza para investigadores, médicos y pacientes. Faltan estudios para que estos tratamientos permitan un beneficio a largo plazo y su aplicación en humanos, ya que las pruebas como es de esperarse solo han sido desarrolladas en modelos animales.

Von Gierke disease, also known as glycogen storage disease type Ia, is a disease caused by deficiency of the G6Pase-a catalytic unit, which hydrolyzes glucose-6- phosphate in the cell cytoplasm during gluconeogenesis and glycogenolysis. Long term complications include severe hypoglycemia and growth disturbances. In small children, the disease typically presents with seizure crisis and hepatomegaly which become manifest at the age of 6 and 8 months. Other complications include osteoporosis, gout, renal disease, pulmonary hypertension and hepatic adenomas which can become malignant. No cure has been found for this disease and it can turn out to be lethal if no appropriate management is given during the first two decades of life. The treatment consists of nutritional therapy associated with a number of conventional drugs. Some patients may require renal or liver transplant. A new hope has emerged with the arrival of gene therapy with viral vectors, strategy that is being developed hitherto, yet performed studies have shown a glimmer of hope for investigators, doctors and patients. There is a need for studies so these treatments allow for a longer term benefit and their application in humans since, as expected, the tests have been developed only in animal models.

A doença de Von Gierke, também conhecida como Glicogenose tipo I, é uma doença produzida pela deficiência da unidade catalítica da G6Pasa-a, encarregada de hidrolisar a glicose 6 fosfato no citoplasma celular durante a gliconeogênese e a glicogenólise. As complicações a longo prazo são hipoglicemia severa e alterações no crescimento. Nas crianças menores a doença se apresenta tipicamente com crises convulsivas e hepatomegalia que se manifestam aos 6 e 8 meses. Outras complicações são osteoporose, gota, doença renal, hipertensão pulmonar e adenomas hepáticos que podem malignizar-se. Não foi encontrada uma cura e se não recebe tratamento adequado é letal nas primeiras duas décadas de vida. O tratamento consiste em terapia nutricional, associada a vários medicamentos convencionais. Alguns pacientes podem requerer transplante renal ou transplante hepático. Uma nova esperança apareceu com a terapia gênica com vetores virais, esta estratégia até agora esta sendo desenvolvida, mas os estudos realizados mostram uma luz de esperança para pesquisadores, médicos e pacientes. Faltam estudos para que estes tratamentos permitam um beneficio a longo prazo e a sua aplicação em humanos, já que os testes como é de se esperar só foram desenvolvidos em modelos animais.