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  • Title: The utility of next generation sequencing in the correct diagnosis of congenital hypochloremic hypokalemic metabolic alkalosis.
    Author: Ben-David Y, Halevy R, Sakran W, Zehavi Y, Spiegel R.
    Journal: Eur J Med Genet; 2019 Oct; 62(10):103728. PubMed ID: 31325522.
    Abstract:
    Persistent hypokalemic hypochloremic metabolic alkalosis represents a heterogeneous group of genetic disorders of which the most common is Bartter syndrome (BS). BS is an inherited renal tubulopathy caused by defective salt reabsorption in the thick ascending loop of Henle, which results in persistent hypokalemic hypochloremic metabolic alkalosis. Here we report a 10-year-old girl of a consanguineous family. She presented prenatally with severe polyhydramnios and distended bowel loops. Thereafter, she displayed failure to thrive and had recurrent admissions due to dehydration episodes associated with diarrhea, and characterized by hypokalemia, hypochloremia and metabolic alkalosis. BS was considered her working diagnosis for several years despite negative genetic analysis of the known genes associated with BS. Whole exome sequencing identified a novel homozygous c.1652delT deleterious frameshift mutation in the SLC26A3 gene, which confirmed the diagnosis of congenital chloride diarrhea (CCD), a rare autosomal recessive disease that mimics biochemically BS. A review of twelve additional reported cases of CCD that were initially misdiagnosed as BS, emphasizes CCD in the differential diagnosis of BS, and highlights the clinical discrepancies between these two entities. Taken together, our report further emphasizes the typical clinical features of CCD, and the importance of next generation sequencing in the diagnosis of syndromes with genetic heterogeneity. We suggest including SLC26A3 in the extended BS targeted gene panels.
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