Normal plasma free amino acid levels in Thai children.

Analysis of plasma free amino acid levels is important for diagnosis of inborn errors of metabolism. Traditionally, this is performed using commercially available dedicated amino acid analyzers, but few such instruments are available in Thailand, and many are not used in routine operations. Here, the authors describe the analysis of plasma free amino acid levels in 57 normal children by reverse-phase HPLC and pre-column derivatization with phenylisothiocyanate. Plasma free amino levels are reported as mean +/- SD and 95 per cent confidence interval of mean for each of 5 age groups: 0-6 months; 6-12 months; 1-3 years; 3-6 years; 6-12 years. Mean amino acid levels were generally similar in all age groups (p > or = 0.01), except that hydroxyproline tended to be higher in the 0-6 months age group compared to other age groups (p<0.01). Comparisons were made between the present data with the normal free plasma amino acid levels in children of similar age groups reported both in Thailand and overseas in terms of both mean +/- SD and maximum and minimum values. Overall, our methodology involving HPLC can identify 35 amino acid derivatives, including all the major amino acids except for cysteine, which is substantially more than the number reported in earlier work on plasma free amino acid levels in normal Thai children. Moreover, the present methodology gives mean +/- SD values similar to an overseas report. For these reasons, HPLC should be considered as an alternative approach in laboratories, where demand does not justify the need for dedicated amino acid analyzers. However, there can be substantial variations between the results from different laboratories, and each laboratory should establish its own normal values.

Plasma amino acid and urine organic acid analyses of methylmalonic acidemia in a Thai infant.

Methylmalonic acidemia is an inborn error of organic acid metabolism resulting from defects in methylmalonyl CoA mutase. Analysis of plasma free amino acids in a 15-month-old Thai infant by HPLC showed marked elevation of glycine. HPLC analysis of urinary organic acids showed high levels of methylmalonic acid.

Detection and structural analysis of abnormal hemoglobins found in Thailand.

In Thailand, some 20 different abnormal hemoglobins have been found in the last 30 years. Most are rare except for Hb E and Hb Constant Spring, found with frequencies of 10-53% and 1-8% respectively in different parts of the country. Most mutations are point mutations, but C-terminal elongations and crossing-over are also found. Most mutations do not cause clinical problems, but some can give rise to mild thalassemia syndromes, or cause problems in association with thalassemia. Abnormal hemoglobins may often be diagnosed by electrophoresis, but some variants have the same mobility, so that other techniques are required, such as HPLC and the use of allele-specific polymerase reaction or oligonucleotide probes. Novel variants, not previously described in Thailand, require structural analysis at the protein and DNA level.

Inherited metabolic disorders in Thailand--Siriraj experience.

The incidence of inborn errors of metabolism (IEM) in Thailand is yet unknown. However, by estimation it is generally accepted to be 1 in 5,000. From a survey in 7 medical schools from different parts of the country and a large pediatric hospital in Bangkok, we found numerous cases of IEM nationwidc. Thesc were amino acid disorders, carbohydrate disorders, urea cycle defects, peroxisomal, lysosomal storage disorders, and many others. Since Thais are quite homogeneous in their genetic make-up; it is, therefore, very likely that IEM is much more prevalent than we realized. With the exception of thalassemias, IFAM is probably very common in Thailand and other countries in the Asia-Pacific region. IEM identified were amino acid disorders eg phenylketonuria, maple syrup urine disease: urea cycle disorders eg ornithine transcarbamylase deficincy (OTC), argininosuccinic lyase deficiency (ALD), argininosuccinic acid synthetasc deficiency (ASD); glycogen storage disorders eg Pompe's discase, Von Gierkc's; organic acid disorders eg, isovaleric acidemia, methylmalonic acidemia. Lysosmal storagc disorders identified were GM1 gangliosidosis, mucolipidosis II, Hurler, Hunter, Maroteaux-Lamy, Sialidosis (neuraminidase deficicncy), Sly, Scheie, Gaucher, Niemann-Pick, Sandhoff and many other neurodegeneraative disorders identified were rhizomelic chondrodysplasia punctata (RCDP) and Zellweger. Recently fatty acid oxidation disorders: MCAD, translocase deficiency and multiple carbosxylase deficiency 9biotinidase deficiency) were also identified.

Plasma amino acid analyses in two cases of maple syrup urine disease.

Maple syrup urine disease is a rare inborn error of metabolism, characterized by elevated plasma levels of branched chain amino acids and urinary excretion of branched chain keto acids. Plasma amino acid levels in two subjects were followed by deproteinizing plasma, derivatizing the free amino acids with phenylisothiocyanate, and analysis by HPLC. The results indicate that valine, leucine and isoleucine are elevated in Maple syrup urine disease, and that leucine remains high even after dietary treatment.