The Comprehensive Genetic Test for Polycystic Liver Disease (PLD) utilizes next-generation sequencing (NGS) to analyze 6 genes associated with hereditary polycystic liver conditions. It is a targeted gene panel specifically designed to support accurate diagnosis, risk assessment, and prevention.
More Information
The Polycystic Liver Disease (PLD) Panel is a targeted genetic test designed to detect mutations associated with isolated and syndromic forms of polycystic liver disease, a condition marked by the progressive development of multiple hepatic cysts. This panel enables the identification of causative variants in genes involved in liver cystogenesis and ciliary function, supporting early diagnosis, accurate subclassification, and personalized monitoring strategies.
Polycystic liver disease may occur as an isolated condition (autosomal dominant polycystic liver disease, ADPLD) or as part of autosomal dominant polycystic kidney disease (ADPKD) or other fibrocystic disorders. In both cases, cysts form due to abnormal proliferation and fluid secretion by biliary epithelial cells. The liver may become significantly enlarged, leading to abdominal distension, discomfort, early satiety, and occasionally liver dysfunction or complications from cyst rupture, hemorrhage, or infection. While many individuals remain asymptomatic, others may experience progressive hepatomegaly with a significant impact on their quality of life.
This panel examines genes including PRKCSH, SEC63, LRP5, ALG8, ALG9, GANAB, and PKD1/PKD2. These genes are involved in glycoprotein processing, ciliary signaling, and structural integrity of hepatobiliary cells. The test is indicated in individuals with multiple liver cysts detected by imaging, unexplained hepatomegaly, or a family history of liver or kidney cystic disease. It is also appropriate for differentiating between isolated PLD and syndromic forms such as ADPKD.
Detection of pathogenic mutations provides molecular confirmation of diagnosis and assists in anticipating disease progression, screening of at-risk family members, and tailoring long-term surveillance. Identification of syndromic cases is critical for early recognition of renal involvement and cardiovascular complications. In some cases, variants of uncertain significance may require correlation with clinical and imaging data. A negative result does not exclude the diagnosis, particularly in the presence of characteristic radiologic findings and strong family history.
A higher genetic risk is confirmed when mutations are identified in PLD-associated genes, especially in individuals with early-onset or familial disease. A lower genetic risk may be considered when no variants are found, although incomplete gene coverage and undetected novel variants must be acknowledged. Integration of genetic results with clinical evaluation, imaging, and family history is essential for comprehensive diagnosis and long-term 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.
