• Journal of The Korean Society of Inherited Metabolic disease
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• v.2 no.1
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• pp.7-11
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• 2002

Isovaleric acidemia is an inborn error in metabolism due to a defect in isovaleryl-CoA dehydrogenase. Accumulation of serum isovaleric acid causes poor feeding, vomiting, lethargy, hypothermia, convulsion, mental retardation, etc. It is inherited as an autosomal recessive trait. Since the first reports of isovaleric acidemia by Tanaka et al in 1966, more than 60 cases have been reported. There are two clinically different presentations of isovaleric acidemia, with about half the patients presenting with an acute severe neonatal form and about half with a chronic intermittent form. The difference in clinical presentation may not be a consequence of differing severities of the causative mutation, but a result of the timing of application of catabolic stress or the ability to form isovalerylglycine. We described here clinical and organic acid analytical findings of in 3 cases isovaleric acidemia.

• Journal of The Korean Society of Inherited Metabolic disease
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• v.2 no.1
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• pp.85-88
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• 2002

Methylmalonic acidemia is an inborn error of branched chain amino acid metabolism, clinically characterized by lethargy, vomiting, and hypertonia with abnormal movements, and biochemically characterized by ketoacidosis, hyperammonemia, and sometimes hyperglycinemia. Conventional treatment of methylmalonic acidemia incluides dietary protein restriction, bicarbonate, carnitine, and metronidazole. However, most patient have recurrent episodes of acidosis, and a significant number have neurologic deficits and renal impairment. We report the successful treatment of a patient with methylmalonic acidemia by liver transplantation.

• Journal of The Korean Society of Inherited Metabolic disease
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• v.6 no.1
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• pp.6-14
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• 2006

Propionic acidemia is an autosomal recessive metabolic disorder caused by a defect of propionyl CoA carboxylase with resultant accumulation of toxic organic acid metabolites. This disorder is biochemically characterized by metabolic acidosis, ketoacidosis, hyperglycinemia and hyperammonemia. Clinical symptoms are very heterogeneous and present as a severe neonatal-onset or a late-onet form. We describe one case of propionic acidemia in a 4-year-old boy who has developed gait disturbance after acute metabolic decompensation.

• Journal of The Korean Society of Inherited Metabolic disease
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• v.13 no.1
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• pp.54-56
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• 2013

Propionic acidemia is an inherited organic acid metabolic disorder. During chronic recurrent metabolic crisis, multiple blood transfusions can cause secondary hemochromatosis. We report a patient with propionic acidemia who had iron overload that resulted in liver dysfunction, cardiomyopathy and diabetes. When multiple blood transfusions are unavoidable, use of chelating agents for iron can prevent complications such as diabetes and hemochromatosis.

• Journal of The Korean Society of Inherited Metabolic disease
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• v.5 no.1
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• pp.1-8
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• 2005

Glutaric acidemia (GA) type II is a very rare inherited disorder that have no accruate figure on its icidende. People with Glutaric acidemia type II have an enzyme that does not work properly. Two specific enzymes are associated with Glutaric acidemia type II:1. Electron transfer flavoprotein (ETF), 2. ETF-ubiquinone oxidoreductase (ETF-QO). Both of these enzymes have similar functions in the body, and children with Glutaric acidemia type II may lack one or the other of these enzymes. They play an important role in breaking down fats and proteins, and help the body to produce energy. GA II clinically manifested as (1) neonatal onset with congenital anomalies (2) neonatal onset without anomalies, and (3) mild and/or later onset. The first two groups are sometimes said to have multiple acyl CoA dehydrogenation deficiency-severe and the third to have multiple acyl CoA dehydrogenation deficiency-mild. The course and age at presentation of later-onset glutaric acidemia type II is extremely variable, therefore it is difficult to diagnosis. We experienced one case of late onset form glutaric acidemia type II with afebrile status epilepticus-like convulsion.

• Journal of The Korean Society of Inherited Metabolic disease
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• v.16 no.1
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• pp.42-46
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• 2016

Isovaleric acidemia is autosomal-recessively inherited and an inborn error of metabolism caused by abnormal leucine metabolism due to the genetic defect of IVD (Isovaleryl-CoA dehydrogenase). IVD corresponds to mitochondrial matrix enzyme that acts on converting isovaleryl-CoA into 3-methylcrotonyl-CoA in the leucine catabolism. The IVD gene is located at Chromosome 15q14-q15, particularly between base pair 40,405,485 and base pair 40,435,948. It consists of 12 exons and has been reported to cause over 50 diseases so far. We conducted IVD gene test on the patient with acute isovaleric acidemia and confirmed a new type of mutation for the first time. As a result of analyzing the IVD gene sequence, we found out that c.129T>G(p.Asn43Lys) and c.1033A>G(p.Asn345Asp) mutations exist as heterozygosity at Exon 1 and Exon 10 respectively, novel mutation.

• Childhood Kidney Diseases
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• v.7 no.1
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• pp.96-102
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• 2003

Acute hyperammonemia is a medical emergency in the newborn. Efficient, prompt removal of serum ammonia is essential in preventing irreversible brain damage in order to prevent the profound central nervous system dysfunction due to hyperammonia. We report a case of 2.3 kg, 5-day old girl with methylmalonic acidemia who presented with severe hyperammonemia and was successfully treated with continuous venovenous hemodiafiltration(CVVHDF). CVVHDF is an effective and safe method of ammonia removal in the newborn.

• Childhood Kidney Diseases
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• v.17 no.2
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• pp.132-136
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• 2013

Parainfluenza virus infection is one of the causes of fatal rhabdomyolysis. Rhabdomyolysis can be aggravated by mitochondrial fatty acid ${\beta}$-oxidation disorders during prolonged periods of fasting. Moreover, in patients with late-onset isovaleric acidemia, hyperammonemia may occur following catabolic stress. In the present report, we describe a case of a 4-year-old boy with parainfluenza virus infection and late-onset isovaleric acidemia that rapidly progressed to coma, seizures, and cardiorespiratory collapse. His serum ammonia and creatinine kinase (CK) levels were $385{\mu}Mol/L$ and 23,707 IU/L, respectively. Continuous renal replacement therapy (CRRT) was initiated using continuous venovenous hemodiafiltration, after which the ammonia and CK levels returned to normal. Thus, we recommend the immediate initiation of CRRT in the management of patients with life-threatening rhabdomyolysis and hyperammonemia.

• Pediatric Gastroenterology, Hepatology & Nutrition
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• v.4 no.2
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• pp.249-255
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• 2001

Methylmalonic acidemia is a rare congenital autosomal recessive metabolic disease. It is caused by blocking in the pathways of isoleucine, valine, threonine, methionine, cholesterol and odd-chain fatty acids to succinyl CoA, resulting in the increase of L-methylmalonyl CoA and methylmalonic acid. In most cases, there are symptoms such as recurrent vomitings, lethargy and laboratory abnormalities including metabolic acidosis and hyperammonemia from the neonatal period. We had a 6-month-old infant with methylmalonyl acidemia who presented with recurrent vomiting episodes since 3 months of age, failure to thrive and developmental delay. The laboratory findings showed hyperammoninemia and ketotic metabolic acidosis. Plasma amino acid analysis showed nonspecific finding. Urine organic acid ananysis by gas chromatography and mass spectrometry detected large amount of methylmalonic acid excreted in the urine. We restrained the supply of protein in the amount of 1~1.5 g/kg of body weight a day using leucine, isoleucine and valine-r-estrained milk and administered vitamine $B_{12}$, in the amount of 1mg per day. During the follow-up in the outpatient clinic, He could control his head and showed increased muscle strength.

• Journal of The Korean Society of Inherited Metabolic disease
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• v.18 no.1
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• pp.13-17
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• 2018

Methylmalonic acidemia is an autosomal recessive disorder caused by complete (mut0) or partial (mut-) deficiency of methylmalonyl-CoA mutase (MUT) or by defects in the synthesis of adenosylcobalamin (cblA, cblB, cblD variant 2). Long term complications of methylmalonic acidemia include tubulointerstitial nephritis with progressive renal failure, intellectual impairment, pancreatitis, and growth failure. We report a case of methylmalonic acidemia in a girl who diagnosed at 6 days after birth. She has developed recurrent metabolic crises with hyperammonemia and metabolic acidosis. In addition, she suffered from the chronic complications including tubulointerstitial nephritis, electrolyte imbalance associated with renal dysfunction, growth failure and fracture of femur shaft. At the age of 10 years, hypercalcemia and severe osteoporosis were noted, and pamidronate therapy was given for two years, which relieved hypercalcemia and osteoporosis.