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HelpTest Code LAB3369 Periodic Fever Syndromes Panel
Additional Codes
PerFev Pnl
Clinical System Name
Periodic Fever Syndromes Panel
Synonyms
Acne (PAPA) Syndrome (PSTPIP1)
CINCA (NLRP3)
Cyclic Neutropenia
ELANE (formerly ELA2)
Familial Cold Autoinflammatory Syndrome (NLRP3)
Familial Hibernian Fever (TNFRSF1A)
Familial Mediterranean Fever (FMF)
Hyper-IgD Syndrome (MVK)
Majeed Syndrome (LPIN2)
Muckle-Wells Syndrome (NLRP3, formerly CIAS1)
NOMID (NLRP3)
Pyoderma Gangrenosum (PSTPIP1)
Pyogenic Sterile Arthritis (PSTPIP1)
Description
This next generation sequencing panel includes sequencing with CNV analysis for 13 genes CARD14, ELANE, IL36RN, LPIN2, MEFV, MVK, NLRP12, NLRP3, NOD2, PSMB8, PSTPIP1, TNFAIP3 and TNFRSF1A
Sample Requirements
Specimen: Whole Blood
Container(s): Lavender/EDTA or Yellow/ACD
Preferred Vol: 3.0 - 5.0 mL
Minimum Vol: 1.0 mL for small infants
Specimen: DNA
Container(s): Sterile Plastic Tube
Preferred Vol: 5 µg -10 µg of purified DNA at a concentration of at least 100 ng/μL
Alternative Specimen (e.g. salvia or buccal): Alternate Specimen Collection Kits for Genetic Testing
Processing Instructions
Reject due to:
Spin: N
Aliquot: N
Temp: 2 - 8 C
Storage location: Do not spin. Affix large Epic label to tube and store in CPA refrigerator, Send Outs rack.
Off-site collection: Send whole blood refrigerated.
Stability
| Specimen Type | Temperature | Time |
|---|---|---|
| Whole Blood | Room Temp | 3 d |
| Refrigerated | 7 d | |
| Frozen | Unacceptable | |
| Extracted DNA | Room Temp | 3 - 4 d |
| Refrigerated | 1 y | |
| Frozen | Indefinitely |
Availability
| STAT | TAT |
|---|---|
| N | 3 - 4 w |
Performing Laboratory
PreventionGenetics
3800 S. Business Park Ave.
Marshfield, WI 54449
Phone Number: (715) 387-0484
Department
Department: Send Outs/Genetic
Phone Number: (206) 987-2563
Reference Range
Interpretive report is provided.
Methodology
NextGen Sequencing: As of March 2016, 6.36 Mb of sequence (83 genes, 1557 exons) generated in our lab was compared between Sanger and NextGen methodologies. We detected no differences between the two methods. The comparison involved 6400 total sequence variants (differences from the reference sequences). Of these, 6144 were nucleotide substitutions and 256 were insertions or deletions. About 65% of the variants were heterozygous and 35% homozygous. The insertions and deletions ranged in length from 1 to over 100 nucleotides.
In silico validation of insertions and deletions in 20 replicates of 5 genes was also performed. The validation included insertions and deletions of lengths between 1 and 100 nucleotides. Insertions tested in silico: 2200 between 1 and 5 nucleotides, 625 between 6 and 10 nucleotides, 29 between 11 and 20 nucleotides, 25 between 21 and 49 nucleotides, and 23 at or greater than 50 nucleotides, with the largest at 98 nucleotides. All insertions were detected. Deletions tested in silico: 1813 between 1 and 5 nucleotides, 97 between 6 and 10 nucleotides, 32 between 11 and 20 nucleotides, 20 between 21 and 49 nucleotides, and 39 at or greater than 50 nucleotides, with the largest at 96 nucleotides. All deletions less than 50 nucleotides in length were detected, 13 greater than 50 nucleotides in length were missed. Our standard NextGen sequence variant calling algorithms are generally not capable of detecting insertions (duplications) or heterozygous deletions greater than 100 nucleotides. Large homozygous deletions appear to be detectable.
Copy Number Variant Analysis: The PGxome test detects most larger deletions and duplications including intragenic CNVs and large cytogenetic events; however aberrations in a small percentage of regions may not be accurately detected due to sequence paralogy (e.g., pseudogenes, segmental duplications), sequence properties, deletion/duplication size (e.g., 1-3 exons vs. 4 or more exons), and inadequate coverage. In general, sensitivity for single, double, or triple exon CNVs is ~70% and for CNVs of four exon size or larger is >95%, but may vary from gene-to-gene based on exon size, depth of coverage, and characteristics of the region.
Clinical Utility
Periodic Fever Syndromes (PFS) (also known as monogenic autoinflammatory syndromes) are a group of disorders highlighted by recurrent fever and inflammatory episodes. Fever episodes can range from hours up to ~ 2 weeks with recurrences ranging from several bouts per month to a few per year. PFS frequently involve inflammation of the skin, serous membranes, joints, lymph nodes, gastrointestinal tract, and nervous system. Onset of PFS occurs during the first year of life or early childhood with only Familial Mediterranean Fever (FMF) and Tnf Receptor-Associated Periodic Fever Syndrome (Traps) having cases of adult onset described. In severe cases, development of amyloidosis may occur. PFS are caused by aberrant inflammasome activation leading to heightened interleukin 1 levels and innate immune dysregulation. Differential diagnosis of individual PFS is important for employing appropriate therapeutics such as colchicine to treat FMF or antibiotics for cyclic neutropenia. PFS may mirror other immune dysfunction disorders such as cyclic neutropenia and severe combined immunodeficiency due to recurrent fever bouts, but unlike those disorders, bouts are not a result of recurrent infections (Caso et al. 2013; Touitou et al. 2013).
Disorders included in the PFS panel include Familial Mediterranean Fever (FMF), Familial Cold Autoinflammatory Syndrome (FACS), Muckle-Wells Syndrome (MWS), Chronic Infantile Neurological Cutaneous Articular syndrome (CINCA), Tumor necrosis factor Receptor-Associated Periodic Syndrome (TRAPS), Mevalonate Kinase Deficiency (MKD), NLRP12-associated autoinflammatory disorder, Pyogenic Arthritis Pyoderma gangrenosum and cystic Acne syndrome (PAPA), Majeed syndrome, and cyclic neutropenia.
Send Out Instructions
| Reference Test Name: | Periodic Fever Syndromes Panel |
| Reference Lab Test Code: | 10315 |
| Instructions: | Ship Monday through Friday via FedEx Priority Overnight. Saturday deliveries are accepted. |