Familial Mediterranean Fever; Recurrent Polyserositis; Familial Paroxysmal Polyserositis; Familial Periodic Fever; TNF receptor-associated periodic syndrome; TRAPS; Familial Hibernian Fever; Autosomal dominant periodic fever syndrome; Hyper-IgD syndrome; Mevalonate Kinase Deficiency; Periodic Fever, Dutch Type; Hypergammaglobulinemia D and periodic fever syndrome

The periodic fever syndromes are disorders of the innate immune system characterized by recurrent episodes of inflammation and fever. The periodic fever syndromes may be inherited or acquired; the hereditary syndromes include familial Mediterranean fever (FMF), TNF receptor-associated periodic syndrome (TRAPS) and hyperimmunoglobulin D syndrome (HIDS), among others.

Familial Mediterranean Fever (FMF) in its classic form (Type 1) is characterized by recurrent episodes of inflammation and serositis including fever, peritonitis, synovitis, pleuritis, and, rarely, pericarditis and meningitis. Amyloidosis, which can lead to renal failure, is the most severe complication. Amyloidosis is the first clinical manifestation in Type 2 FMF. The disorder predominantly affects individuals of Mediterranean descent, particularly North African Jews.

TNF receptor-associated periodic syndrome (TRAPS) is most frequently characterized by recurrent fevers (seen in 95% of cases); arthralgia/myalgia and abdominal pain are also common symptoms. Approximately 15% of individuals with TRAPS eventually go on to develop amyloidosis. The conditions typically presents in early childhood, although this, like the clinical symptoms, is highly variable, both within and between families.

Hyperimmunoglobulin D Syndrome (HIDS) is characterized by recurrent episodes of fever, gastrointestinal symptoms and lymphadenopathy. Individuals often have a high serum immunoglobulin D (IgD) and immunoglobulin A (IgA), and these remain elevated even in the absence of symptoms. The disorder mainly affects individuals with ancestry that can be traced to Northwestern Europe, although it has been reported in other ethnic groups.

FMF is an autosomal recessive disorder caused by mutations in the MEFV gene. MEFV is expressed exclusively in granulocytes and encodes pyrin, a protein critical in regulating the immune response.

TRAPS is an autosomal dominant condition caused by mutations in the TNFRSF1A gene, a member of the TNF-receptor superfamily. Most mutations are found in exons 2 to 4, and around 50% are substitutions of highly conserved cysteines in the extracellular domain. The exact mechanism by which mutations in TNFRSF1A cause TRAPS remains unclear, but most theories suggest that mutations lead to excess TNFR1 signalling. The majority of mutations are highly penetrant, but two recurrent variants (p.Pro46Leu and p.Arg92Gln) that can be seen in patients with milder symptoms of TRAPS can also be seen in healthy individuals.

HIDS is an autosomal recessive disease caused by mutations in the MVK gene. MVK encodes mevalonate kinase, an enzyme in the cholesterol, farnasyl and isoprenoid biosynthesis pathway. Most mutations in MVK that cause HIDS are missense variants that cause a reduction of MVK activity; however, more severe mutations that cause a near complete reduction in MVK activity cause the much more severe condition, mevalonic aciduria.

NOTE: TRAPS and HIDS may only be ordered or must be recommended* by a rheumatologist. 

        *consult letter must be provided

1. Confirmation of diagnosis:

       a.  In individuals with clinical features suggestive of FMF, TRAPS and/or HIDS.

2. Carrier testing

       a.  FMF and HIDS: Adults at risk to be carriers of either FMF or HIDS due to a family history confirmed with molecular testing.

3. Prenatal testing (technically feasible but not routinely performed – contact MGL to discuss):

       a.  Pregnancies known to be at risk of FMF, TRAPS or HIDS due to a family history. The mutation(s) segregating in the family must be known.

4. Presymptomatic testing:

       a.  Individuals at risk to have FMF, TRAPS or HIDS due to a family history of the condition. The mutation(s) segregating in the family must be known. Genetic counseling is recommended prior to presymptomatic testing.

Bi-directional Sanger sequencing across coding regions and flanking intronic sequences of the MEFV, TNFRSF1A and MVK genes.

In cases where FMF, TRAPS, and/or HIDS are requested for the same patient and priority of testing is not indicated, testing will proceed sequentially, starting with FMF. If FMF testing is negative, testing for TRAPS will be performed, followed by testing for HIDS.

MEFV: NM_000243.2

TNFRSF1A: NM_001065.2

MVK: NM_000431.2

The ‘A’ within the initiation codon, ATG, is designated as nucleotide number 1.

Blood: 4 mL EDTA is optimal (Minimum: 1 mL EDTA)
DNA: 100 μL at 200 ng/μL is optimal (Minimum: 30 μL at 200 ng/μL)

Label each sample with three patient identifiers; preferably patient name, PHN, and date of birth and ship to the address below. Samples should be shipped at room temperature with a completed MGL Requisition to arrive Monday to Friday (not on Canadian statutory holidays). 

Testing is only available to residents of Canada, except in very specific circumstances where testing is urgent or emergent.  Payment is not required when requests are made for individuals who are insured by Health Insurance BC (administered through the BC Medical Services Plan (MSP)) AND eligible for testing according to the test utilization guidelines / policy. If the individual undergoing testing is not insured by these providers or does not meet utilization guidelines or policy, please complete a billing form; testing will only commence after receipt of billing informationTest prices can be found here.

Molecular genetic testing is limited by the current understanding of the genome and the genetics of a particular disease, as well as by the method of detection used. This method will not detect all mutations (e.g., large genomic deletions/duplications, promoter mutations, regulatory element mutations).

For carrier/predictive testing due to a family history, it is generally important to first document the gene mutation in an affected or carrier family member. This information should be provided to the laboratory for assessment of whether the assay is appropriate for detection of the familial mutation, and to aid in the interpretation of data.

In some cases, DNA alterations of undetermined or unclear clinical significance may be identified.

Rare single nucleotide variants or polymorphisms could lead to false-negative results. If results obtained do not match the clinical findings, consult the on-service Molecular Geneticist.

A previous bone marrow transplant from an allogenic donor will result in molecular data that reflects the donor genotype rather than the recipient (patient) genotype. Consult the on-service Molecular Geneticist for approach to testing in such individuals.

Transfusions performed with packed red blood cells will generally not affect the outcome of molecular genetic testing. However, if there is no clinical urgency, the cautious approach is to wait one week post packed red cell transfusion before collecting a sample for genetic testing. Consult the on-service Molecular Geneticist as needed.

Test results should be interpreted in the context of clinical findings, family history, and other laboratory data. Errors in our interpretation of results may occur if information given is inaccurate or incomplete.