The Comprehensive Genetic Test for Hypoglycemia, Hyperinsulinism and Ketone Metabolism utilizes next-generation sequencing (NGS) to examine 50 genes associated with inherited disorders of glucose and ketone metabolism. It is a targeted gene panel specifically designed to support accurate diagnosis, risk assessment, and prevention.
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The Comprehensive Genetic Test for Hypoglycemia, Hyperinsulinism and Ketone Metabolism is a comprehensive genetic test designed to detect mutations responsible for inherited metabolic disorders that disrupt glucose homeostasis, insulin regulation, and ketone body production. This panel enables early diagnosis of complex syndromes and single-gene disorders associated with recurrent hypoglycemia, inappropriate insulin secretion, or impaired ketogenesis, and plays a vital role in guiding clinical management, treatment, and dietary planning.
Hypoglycemia in infancy or childhood, particularly when severe or recurrent, can indicate a genetic defect in pathways regulating insulin secretion, glycogen metabolism, fatty acid oxidation, or ketone body formation. Hyperinsulinism is one of the most common causes of persistent hypoglycemia in newborns and infants, often resulting from mutations in genes controlling pancreatic β-cell function. Additionally, defects in ketone metabolism can lead to metabolic crises during fasting or illness, particularly in disorders of fatty acid oxidation and ketogenesis.
This panel examines a broad range of genes including ABCC8, KCNJ11, GLUD1, HADH, GCK, HNF4A, HNF1A, SLC16A1, FAH, ACADM, ACADVL, and HMGCS2, among others. These genes are involved in critical pathways for insulin signaling, mitochondrial energy metabolism, gluconeogenesis, and lipid utilization. The test is indicated for individuals presenting with hypoglycemia that is unexplained, resistant to standard glucose therapy, or associated with low ketone levels during fasting. It is also appropriate for patients with suspected congenital hyperinsulinism, ketotic hypoglycemia, or a family history of metabolic crises or sudden unexplained infant deaths.
Detection of pathogenic variants provides a definitive molecular diagnosis, supports individualized treatment decisions (including surgical vs. medical management of hyperinsulinism), and enables early dietary interventions to prevent metabolic decompensation. In some cases, variants of uncertain significance may require further functional or familial studies. When no mutations are identified, additional metabolic or enzymatic testing may still be necessary, particularly in cases with a strong clinical presentation.
A higher genetic risk is confirmed when a known disease-causing variant is identified, particularly in the context of fasting intolerance, persistent hypoglycemia, or neonatal metabolic instability. A lower risk may be inferred when no relevant variants are found, although undetectable mutations or novel genetic contributors cannot be excluded. Interpretation should always consider clinical history, biochemical profiles, and treatment responses, thereby enabling optimal disease management and preventing long-term neurological complications.
The test is performed in a clinical laboratory accredited to ISO 15189 and certified by CLIA and CAP, ensuring the validity, accuracy and international recognition of the results.
