Mendeliome sequencing enables differential diagnosis and treatment of neonatal lactic acidosis

Background Neonatal lactic acidosis can be associated to severe inborn errors of metabolism. Rapid identification of the underlying disorder may improve the clinical management through reliable counseling of the parents and adaptation of the treatment. Methods We present the case of a term newborn w...

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Published in:Molecular and cellular pediatrics 2016-06, Vol.3 (1), p.22-6, Article 22
Main Authors: Fazeli, Walid, Karakaya, Mert, Herkenrath, Peter, Vierzig, Anne, Dötsch, Jörg, von Kleist-Retzow, Jürgen-Christoph, Cirak, Sebahattin
Format: Article
Language:English
Subjects:
Acidosis
Dehydrogenases
Diabetes
Differential diagnosis
E3-binding protein
Endocrinology
High fat diet
Hypoglycemia
Inborn errors of metabolism
Intravenous administration
Ketogenesis
Lactic acid
Lactic acidosis
Low carbohydrate diet
Magnetic resonance spectroscopy
Medical diagnosis
Medicine
Medicine & Public Health
Mitochondria
N-Acetylaspartate
Neonates
Newborn babies
Oncology
Pediatrics
Protein deficiency
Pyruvic acid
Spectroscopy
Urine
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Summary:Background Neonatal lactic acidosis can be associated to severe inborn errors of metabolism. Rapid identification of the underlying disorder may improve the clinical management through reliable counseling of the parents and adaptation of the treatment. Methods We present the case of a term newborn with persistent hypoglycemia on postnatal day 1, who developed severe lactic acidosis, aggravating under intravenous glucose administration. Routine metabolic investigations revealed elevated pyruvate and lactate levels in urine, and magnetic resonance spectroscopy showed a lactic acid peak and decreased N-acetylaspartate levels. Mitochondrial disorders, e.g., pyruvate dehydrogenase (PDH) deficiency, were the major differential diagnoses. However, both hypoglycemia and the elevated lactate to pyruvate ratio in serum (=55.2) were not typical for PDH deficiency. We used “Mendeliome sequencing”, a next-generation sequencing approach targeting all genes which have been previously linked to single-gene disorders, to obtain the correct diagnosis. Results On day 27 of life, we identified a homozygous stop mutation in the PDHX gene, causing pyruvate dehydrogenase E3-binding protein deficiency. After starting the ketogenic diet, the infant recovered and is showing delayed but progressive development. Conclusions Mendeliome sequencing was successfully used to disentangle the underlying cause of severe neonatal lactic acidosis. Indeed, it is one of several targeted sequencing approaches that allow rapid and reliable counseling of the parents, adaptation of the clinical management, and renunciation of unnecessary, potentially invasive and often costly diagnostic measures.
ISSN:2194-7791
2194-7791
DOI:10.1186/s40348-016-0050-x