The Comprehensive Genetic Test for Palmoplantar Keratoderma utilizes next-generation sequencing (NGS) to examine 26 genes associated with genetically occurring disruption of keratinization and epidermal cohesion. It is a targeted gene panel specifically designed to support accurate diagnosis, risk assessment, and prevention.
More Information
The Palmoplantar Keratoderma (PPK) Panel is a focused genetic test designed to identify mutations responsible for inherited forms of palmoplantar keratoderma, a diverse group of genodermatoses characterized by thickening of the skin on the palms and soles. This test is used within functional medicine to investigate keratinization disorders affecting epidermal structure, skin integrity, and barrier homeostasis. By analyzing mutations in genes that govern epithelial differentiation, keratin structure, lipid metabolism, and cell adhesion, the PPK Panel offers critical insight into the molecular pathways involved in epidermal resilience and mechanical stress adaptation.
Palmoplantar keratoderma includes a broad spectrum of inherited conditions that present with diffuse, focal, or punctate thickening of the skin in pressure-prone areas. Mutations in key structural genes such as KRT1, KRT9, KRT16, and KRT6C, which encode keratin proteins involved in mechanical strength and filament network organization, can disrupt cytoskeletal stability and lead to epidermal hyperplasia. Other genes commonly implicated include LOR, GJB2, DSP, SLURP1, DSG1, and AQP5, many of which play roles in cell-cell adhesion, desmosome formation, and hydration of the stratum corneum. These mutations contribute to abnormal epidermal turnover, barrier dysfunction, and increased susceptibility to infection, fissuring, and inflammation.
Lower function or absent expression of these proteins leads to reduced structural integrity of the epidermis, particularly in areas subjected to mechanical friction and pressure. In diffuse types of PPK, uniform thickening may involve the entire palm and sole, while focal forms result in calluses over high-pressure points, and punctate forms present with small, localized hyperkeratotic papules. Syndromic forms of PPK, such as Vohwinkel syndrome or Naxos disease, may also involve hearing loss, cardiomyopathy, or other ectodermal abnormalities. These phenotypes reflect the systemic consequences of mutations in genes that function beyond the skin, such as connexins, plakoglobin, or desmoplakin.
The genes included in the Palmoplantar Keratoderma Panel regulate critical processes such as keratin filament assembly, epidermal barrier formation, lipid transport, and hydration balance. Their disruption alters desquamation, weakens epidermal cohesion, and activates compensatory hyperproliferation and keratinocyte inflammation. The panel is used to explore the genetic basis of persistent, treatment-resistant hyperkeratosis, particularly when symptoms appear early in life or are associated with other ectodermal or systemic features. Identifying the molecular cause provides clarity in diagnosis and supports targeted interventions aimed at improving skin function, preventing fissures and infections, and restoring epidermal homeostasis.
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.
