The Comprehensive Genetic Test for Epidermolysis Bullosa utilizes next-generation sequencing (NGS) to examine 26 genes associated with hereditary skin fragility disorders. It is a targeted gene panel specifically designed to support accurate diagnosis, risk assessment, and prevention.
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The Epidermolysis Bullosa Panel is a specialized genetic test designed to detect mutations associated with various forms of Epidermolysis Bullosa (EB), a rare group of inherited skin disorders characterized by extreme skin fragility and the tendency to form blisters from minor friction or trauma. This panel is used in functional medicine to investigate the genetic basis of epithelial tissue instability and structural failure within the skin and mucous membranes. By identifying the underlying molecular abnormalities that impair dermoepidermal adhesion, the test provides critical insights into the pathogenesis of chronic blistering and scarring conditions. It supports a systems-based evaluation of syndromic involvement.
Epidermolysis Bullosa results from mutations in genes that encode structural components of the skin’s basement membrane zone and cytoskeleton, which are essential for cell adhesion, tissue cohesion, and resistance to mechanical stress. These mutations affect proteins involved in anchoring the epidermis to the dermis, leading to a separation between skin layers when subjected to mechanical forces. Mutations in genes such as KRT5, KRT14, COL7A1, LAMA3, LAMB3, LAMC2, ITGA6, ITGB4, and FERMT1 are responsible for the clinical variability across the Epidermolysis Bullosa spectrum. The functional consequences of these variants range from localized blistering in mild cases to widespread skin erosions, chronic wounds, and life-threatening complications in severe types.
The absence or reduced function of keratins, integrins, laminins, or type VII collagen compromises the structural support between skin layers, resulting in skin that is significantly more fragile than normal. When expression of these proteins is reduced or structurally defective, even minor mechanical forces can lead to intraepidermal or subepidermal clefting. In more severe forms, mucosal tissues such as the esophagus, oral cavity, trachea, and eyes are also involved, leading to strictures, dysphagia, airway obstruction, and vision loss. Secondary complications may include infections, nutritional deficiencies, fibrosis, and, in the case of dystrophic Epidermolysis Bullosa, an elevated risk of aggressive squamous cell carcinoma. The inheritance pattern may be autosomal dominant or recessive, and the phenotype varies depending on the specific gene and mutation type.
The genes analyzed in the Epidermolysis Bullosa Panel are critical for maintaining epithelial integrity, modulating inflammatory responses to tissue injury, and regulating skin regeneration processes. Mutations affecting these pathways contribute to impaired wound healing, chronic inflammation, and barrier dysfunction. This test supports a precision-based approach to understanding the biological underpinnings of structural skin diseases and mucocutaneous fragility syndromes, offering insight into personalized strategies for managing tissue vulnerability and inherited epithelial defects.
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.
