RESUMO
OBJECTIVES: To determine how advanced genetic analysis methods may help in clinical diagnosis. STUDY DESIGN: We report a combined genetic diagnosis approach for patients with clinical suspicion of genetic liver diseases in a tertiary referral center, using tools either tier 1: Sanger sequencing on SLC2SA13, ATP8B1, ABCB11, ABCB4, and JAG1 genes, tier 2: panel-based next generation sequencing (NGS), or tier 3: whole-exome sequencing (WES) analysis. RESULTS: In a total of 374 patients undergoing genetic analysis, 175 patients received tier 1 Sanger sequencing based on phenotypic suspicion, and pathogenic variants were identified in 38 patients (21.7%). Tier 2 included 216 patients (39 of tier 1-negative patients) who received panel-based NGS, and pathogenic variants were identified in 60 (27.8%). In tier 3, 41 patients received WES analysis, and 20 (48.8%) obtained genetic diagnosis. Pathogenic variants were detected in 6 of 19 (31.6%) who tested negative in tier 2, and a greater detection rate in 14 of 22 (63.6%) patients with deteriorating/multiorgan disease receiving one-step WES (P = .041). The overall disease spectrum is comprised of 35 genetic defects; 90% of genes belong to the functional categories of small molecule metabolism, ciliopathy, bile duct development, and membrane transport. Only 13 (37%) genetic diseases were detected in more than 2 families. A hypothetical approach using a small panel-based NGS can serve as the first tier with diagnostic yield of 27.8% (98/352). CONCLUSIONS: NGS based genetic test using a combined panel-WES approach is efficient for the diagnosis of the highly diverse genetic liver diseases.
Assuntos
Testes Genéticos , Hepatopatias , Humanos , Sequenciamento do Exoma , Hepatopatias/diagnóstico , Hepatopatias/genética , Sequenciamento de Nucleotídeos em Larga Escala/métodos , MutaçãoRESUMO
OBJECTIVE: To test the application of a target enrichment next-generation sequencing (NGS) jaundice panel in genetic diagnosis of pediatric liver diseases. STUDY DESIGN: We developed a capture-based target enrichment NGS jaundice panel containing 42 known disease-causing genes associated with jaundice or cholestasis and 10 pathway-related genes. During 2015-2017, 102 pediatric patients with various forms of cholestasis or idiopathic liver diseases were tested, including patients with initial diagnosis of cholestasis in infancy, progressive familial intrahepatic cholestasis, syndromic cholestasis, Wilson disease, and others. RESULTS: Of the 102 patients, 137 mutations/variants in 44 different genes were identified in 84 patients. The genetic disease diagnosis rate was 33 of 102 (32.4%). A total of 79 of 102 (77.5%) of patients had at least 1 heterozygous genetic variation. Those with progressive intrahepatic cholestasis or syndromic cholestasis in infancy had a diagnostic rate of 62.5%. Disease-causing mutations, including ATP8B1, ABCB11, ABCB4, ABCC2, TJP2, NR1H4 (FXR), JAG1, AKR1D1, CYP7B1, PKHD1, ATP7B, and SLC25A13, were identified. Nine patients had unpredicted genetic diagnosis with atypical phenotype or novel mutations in the investigational genes. We propose an NGS diagnosis classification categorizing patients into high (n = 24), moderate (n = 9), or weak (n = 25) levels of genotype-phenotype correlations to facilitate patient management. CONCLUSIONS: This panel enabled high-throughput detection of genetic variants and disease diagnosis in patients with a long list of candidate causative genes. A NGS report with diagnosis classification may aid clinicians in data interpretation and patient management.