The Comprehensive Genetic Test for Hemolytic Uremic Syndrome (HUS) utilizes next-generation sequencing (NGS) to examine 9 genes associated with thrombotic microangiopathies and complement dysregulation. 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 Hemolytic Uremic Syndrome (HUS) is a targeted genetic test designed to detect mutations in genes associated with atypical hemolytic uremic syndrome (aHUS) and related thrombotic microangiopathies. These conditions are characterized by microangiopathic hemolytic anemia, thrombocytopenia, and acute kidney injury, resulting from dysregulation of the alternative complement pathway or defects in other pro-thrombotic and endothelial homeostasis mechanisms. The comprehensive genetic test for hemolytic uremic syndrome (HUS) enables accurate diagnosis, supports individualized treatment decisions, and facilitates evaluation of familial risk.
Unlike typical Hemolytic Uremic Syndrome (HUS) caused by Shiga toxin-producing bacteria, atypical hemolytic uremic syndrome (aHUS) is often triggered by genetic predisposition, sometimes in combination with environmental factors such as infections, medications, or pregnancy. The condition is rare and potentially life-threatening, frequently presenting with fatigue, pallor, oliguria, edema, and severe hypertension. Early diagnosis is critical to prevent irreversible kidney damage and systemic complications.
The comprehensive genetic test for hemolytic uremic syndrome (HUS) includes analysis of genes such as CFH, CFI, MCP (CD46), CFB, C3, THBD, DGKE, PLG, CFHR5, and others involved in complement regulation, coagulation control, and endothelial integrity. These genes modulate the balance between activation and inhibition of the complement cascade and are critical for protecting host tissues from inappropriate complement-mediated damage. The comprehensive genetic test for hemolytic uremic syndrome (HUS) is indicated in individuals with unexplained thrombotic microangiopathy, relapsing HUS episodes, early-onset renal failure, or family history of HUS or complement-mediated disorders.
Identification of pathogenic variants confirms a genetic basis for disease, helps differentiate aHUS from other causes of thrombotic microangiopathy (such as TTP or STEC-HUS), and guides use of complement inhibitors like eculizumab. Genetic findings also inform transplantation risk management and guide long-term follow-up, especially in cases where recurrence is a concern. Inconclusive results may require further evaluation through functional assays and clinical correlation. A negative result does not fully exclude aHUS due to potential unknown or undetectable variants.
A higher genetic risk is established when rare, disease-causing variants are found, particularly in patients with recurrent or familial disease. A lower risk may be inferred when no pathogenic variants are identified, but continued monitoring is recommended given the potential for non-genetic triggers. Integration of genetic data with laboratory findings, renal biopsy, complement profiles, and clinical history is essential for precise diagnosis and effective disease management.
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.
