Test code: PU0201
The Blueprint Genetics Bronchiectasis Panel is a 15 gene test for genetic diagnostics of patients with clinical suspicion of cystic fibrosis, idiopathic bronchiectasis or primary ciliary dyskinesia.
Autosomal recessive mutations causing cystic fibrosis and primary ciliary dyskinesia (PCD) may lead to bronchiectasis. Mutations in SCNN1A and SCNN1B, encoding epithelial sodium channels, are quite recently found to cause autosomal dominant bronchiectasis.
Etiology of bronchiectasis is a complex interplay between the host, genetics, respiratory pathogens and environmental factors. While the most common inherited cause for bronchiectasis is cystic fibrosis (CF), multiple other genetic causes have found to underlie the disease during the past years. If naturally occurring mucus in the respiratory airway cannot be cleared due to insufficient ciliary movement or abnormal mucus production, bacterial colonization result in chronic inflammation and ultimately in severe and irreversible damage to the lungs. Bronchiectasis is increasingly recognized cause of morbidity and mortality in children and adults. Since the clinical phenotypes can vary within the same disease, the molecular genetic diagnosis is of significance in understanding the pathogenesis of the disease, and to initiate the right treatment for the patient. CFTR mutations and the autosomal recessive mutations causing primary ciliary dyskinesia (PCD) are the two main inherited causes for bronchiectasis. Like CF, PCD presents clinically with chronic wet cough, recurrent pneumonia, and therapy-resistant wheezing. Genetic diagnosis of CF is of significance due to mutation specific treatment opportunities. Although many of the therapies used to treat non-cystic fibrosis bronchiectasis (NCFB) were originally developed for cystic fibrosis but not all of them are effective in NCFB and some may even be harmful (PMID: 26857775). Less than half of the PCD patients have heterotaxy defects. Interestingly, reproductive problems associating to PCD are gene specific further highlighting importance of definitive diagnosis. Mutations in SCNN1A and SCNN1B, encoding epithelial sodium channels, are quite recently found to cause autosomal dominant bronchiectasis. The prevalence of cystic fibrosis is 1:3,200 - 31,000 depending on the ethnic background and primary ciliary dyskinesia 1:12,000 - 16,000.
Results in 3-4 weeks. We do not offer a maternal cell contamination (MCC) test at the moment. We offer prenatal testing only for cases where the maternal cell contamination studies (MCC) are done by a local genetic laboratory. Read more.
|SCNN1A||Pseudohypoaldosteronism, Bronchiectasis with or without elevated sweat chloride||AR/Digenic (with CFTR or other SCCN1 genes)||7||44|
|SCNN1B||Liddle syndrome, Pseudohypoaldosteronism, Bronchiectasis with or without elevated sweat chloride||AR/Digenic (with CFTR or other SCCN1 genes)||13||44|
- * Some regions of the gene are duplicated in the genome leading to limited sensitivity within the regions. Thus, low-quality variants are filtered out from the duplicated regions and only high-quality variants confirmed by other methods are reported out. Read more.
Gene, refers to HGNC approved gene symbol; Inheritance to inheritance patterns such as autosomal dominant (AD), autosomal recessive (AR) and X-linked (XL); ClinVar, refers to a number of variants in the gene classified as pathogenic or likely pathogenic in ClinVar (http://www.ncbi.nlm.nih.gov/clinvar/); HGMD, refers to a number of variants with possible disease association in the gene listed in Human Gene Mutation Database (HGMD, http://www.hgmd.cf.ac.uk/ac/). The list of associated (gene specific) phenotypes are generated from CDG (http://research.nhgri.nih.gov/CGD/) or Orphanet (http://www.orpha.net/) databases.
|Gene||Genomic location HG19||HGVS||RefSeq||RS-number||Comment||Reference|
Blueprint Genetics offers a comprehensive Bronchiectasis Panel that covers classical genes associated with cystic fibrosis, idiopathic bronchiectasis and primary ciliary dyskinesia. The genes are carefully selected based on the existing scientific evidence, our experience and most current mutation databases. Candidate genes are excluded from this first-line diagnostic test. The test does not recognise balanced translocations or complex inversions, and it may not detect low-level mosaicism. The test should not be used for analysis of sequence repeats or for diagnosis of disorders caused by mutations in the mitochondrial DNA.
Analytical validation is a continuous process at Blueprint Genetics. Our mission is to improve the quality of the sequencing process and each modification is followed by our standardized validation process. Average sensitivity and specificity in Blueprint NGS Panels is 99.3% and 99.9% for detecting SNPs. Sensitivity to for indels vary depending on the size of the alteration: 1-10bps (96.0%), 11-20 bps (88.4%) and 21-30 bps (66.7%). The longest detected indel was 46 bps by sequence analysis. Detection limit for Del/Dup (CNV) analysis varies through the genome depending on exon size, sequencing coverage and sequence content. The sensitivity is 71.5% for single exon deletions and duplications and 99% for three exons’ deletions and duplications. We have validated the assays for different starting materials including EDTA-blood, isolated DNA (no FFPE) and saliva that all provide high-quality results. The diagnostic yield varies substantially depending on the used assay, referring healthcare professional, hospital and country. Blueprint Genetics’ Plus Analysis (Seq+Del/Dup) maximizes the chance to find molecular genetic diagnosis for your patient although Sequence Analysis or Del/Dup Analysis may be cost-effective first line test if your patient’s phenotype is suggestive for a specific mutation profile.
The sequencing data generated in our laboratory is analyzed with our proprietary data analysis and annotation pipeline, integrating state-of-the art algorithms and industry-standard software solutions. Incorporation of rigorous quality control steps throughout the workflow of the pipeline ensures the consistency, validity and accuracy of results. The highest relevance in the reported variants is achieved through elimination of false positive findings based on variability data for thousands of publicly available human reference sequences and validation against our in-house curated mutation database as well as the most current and relevant human mutation databases. Reference databases currently used are the 1000 Genomes Project (http://www.1000genomes.org), the NHLBI GO Exome Sequencing Project (ESP; http://evs.gs.washington.edu/EVS), the Exome Aggregation Consortium (ExAC; http://exac.broadinstitute.org), ClinVar database of genotype-phenotype associations (http://www.ncbi.nlm.nih.gov/clinvar) and the Human Gene Mutation Database (http://www.hgmd.cf.ac.uk). The consequence of variants in coding and splice regions are estimated using the following in silico variant prediction tools: SIFT (http://sift.jcvi.org), Polyphen (http://genetics.bwh.harvard.edu/pph2/), and Mutation Taster (http://www.mutationtaster.org).
Through our online ordering and statement reporting system, Nucleus, the customer can access specific details of the analysis of the patient. This includes coverage and quality specifications and other relevant information on the analysis. This represents our mission to build fully transparent diagnostics where the customer gains easy access to crucial details of the analysis process.
In addition to our cutting-edge patented sequencing technology and proprietary bioinformatics pipeline, we also provide the customers with the best-informed clinical report on the market. Clinical interpretation requires fundamental clinical and genetic understanding. At Blueprint Genetics our geneticists and clinicians, who together evaluate the results from the sequence analysis pipeline in the context of phenotype information provided in the requisition form, prepare the clinical statement. Our goal is to provide clinically meaningful statements that are understandable for all medical professionals, even without training in genetics.
Variants reported in the statement are always classified using the Blueprint Genetics Variant Classification Scheme modified from the ACMG guidelines (Richards et al. 2015), which has been developed by evaluating existing literature, databases and with thousands of clinical cases analyzed in our laboratory. Variant classification forms the corner stone of clinical interpretation and following patient management decisions. Our statement also includes allele frequencies in reference populations and in silico predictions. We also provide PubMed IDs to the articles or submission numbers to public databases that have been used in the interpretation of the detected variants. In our conclusion, we summarize all the existing information and provide our rationale for the classification of the variant.
A final component of the analysis is the Sanger confirmation of the variants classified as likely pathogenic or pathogenic. This does not only bring confidence to the results obtained by our NGS solution but establishes the mutation specific test for family members. Sanger sequencing is also used occasionally with other variants reported in the statement. In the case of variant of uncertain significance (VUS) we do not recommend risk stratification based on the genetic finding. Furthermore, in the case VUS we do not recommend use of genetic information in patient management or genetic counseling. For some cases Blueprint Genetics offers a special free of charge service to investigate the role of identified VUS.
We constantly follow genetic literature adapting new relevant information and findings to our diagnostics. Relevant novel discoveries can be rapidly translated and adopted into our diagnostics without delay. These processes ensure that our diagnostic panels and clinical statements remain the most up-to-date on the market.
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ICD & CPT codes
Commonly used ICD-10 codes when ordering the Bronchiectasis Panel
|Q34.8||Primary ciliary dyskinesia|
|E84.1, E84.8, E84.9||Cystic fibrosis|
Accepted sample types
- EDTA blood, min. 1 ml
- Purified DNA, min. 5μg
- Saliva (Oragene DNA OG-500 kit)
Label the sample tube with your patient’s name, date of birth and the date of sample collection.
Note that we do not accept DNA samples isolated from formalin-fixed paraffin-embedded (FFPE) tissue.