Andrea Schulze-Bergkamen scite author profile

Organic acid (OAD) and fatty acid oxidation disorders (FAOD) are inborn errors of metabolism often presenting with life-threatening metabolic decompensation followed by (irreversible) organ failure, and even death during catabolic state. Most of these diseases are considered as treatable, and metabolic decompensations can be avoided by early diagnosis and start of therapy. Confirmation of suspected diagnosis currently relies on enzymatic and mutation analyses and in vitro loading of palmitic acid in human skin fibroblast cultures. Furthermore, in some cases potentially life-threatening in vivo loading or fasting tests are still performed. In this study, we established a standardized in vitro loading test in peripheral blood mononuclear cells (PBMC) that allows reliable biochemical confirmation of a suspected diagnosis within 1 week. Patients with confirmed diagnosis of short-, medium-, very-long-chain, and long-chain 3-hydroxyacyl-CoA dehydrogenase deficiencies, methylmalonic, propionic, isovaleric acidurias, and glutaric aciduria type I were included in the study. PBMC, isolated from heparinized venous blood samples of these individuals were incubated for 5 days with palmitic acid or 2-oxoadipic acid (glutaric aciduria type I), respectively, and quantitative acylcarnitine profiling was subsequently performed in supernatants using electrospray ionization tandem mass spectrometry. All patients were clearly identified, including those with mild biochemical phenotypes who, in particular, are at risk to be missed under balanced metabolic conditions. In glutaric aciduria type I, the same results were also obtained using lymphoblasts. In conclusion, our assay allows biochemical confirmation of a number of FAOD and OAD and could easily be implemented into the confirmatory diagnostic work-up. Organic acids and fatty acids comprise a group of physiologically occurring intermediates in a variety of intracellular metabolic pathways, such as catabolism of amino acids, mitochondrial ␤-oxidation of fatty acids, tricarboxylic acid cycle, and cholesterol biosynthesis. Organic acid (OAD) and fatty acid oxidation disorders (FAOD) are caused by autosomal recessive inherited deficiencies of single enzymes (or in the metabolism of required coenzymes) in the outlined metabolic

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Looking forward—An evidence‐based approach to glutaryl‐CoA dehydrogenase deficiency

Kölker

Burgard

Okun

et al. 2004

J of Inher Metab Disea

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Three decades after the first description of glutaryl-CoA dehydrogenase deficiency, major progress has been achieved in the prevention of acute striatal necrosis and neurological sequelae in affected children, if diagnosis is made early and treatment is started before manifestation of acute encephalopathic crises. However, all concepts for diagnostic work-up, monitoring, and treatment are solely experience-based, and 10-35% of early-diagnosed children do not or only incompletely benefit from the current management. They still develop neurological deterioration and sequelae despite early implementation of dietary treatment, carnitine supplementation and emergency treatment during acute intercurrent illnesses. International efforts should be made to move management of affected children from experience-based to evidence-based medicine. Major tools for this optimization are the establishment of an international patients' database, the implementation of an international prospective clinical study, and the development of international guidelines for diagnostic work-up, monitoring and therapy.

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Andrea Schulze-Bergkamen

SLA/LP/tRNP(Ser)Sec antigen in autoimmune hepatitis: Identification of the native protein in human hepatic cell extract

Quantitative Acylcarnitine Profiling in Peripheral Blood Mononuclear Cells Using In Vitro Loading With Palmitic and 2-Oxoadipic Acids: Biochemical Confirmation of Fatty Acid Oxidation and Organic Acid Disorders

Looking forward—An evidence‐based approach to glutaryl‐CoA dehydrogenase deficiency

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