Familial Mediterranean fever

Familial Mediterranean fever
Familial Mediterranean fever has an autosomal recessive pattern of inheritance
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Familial Mediterranean fever (FMF) is a hereditary inflammatory disorder.[1]:149 FMF is an autoinflammatory disease caused by mutations in Mediterranean fever gene, which encodes a 781–amino acid protein called pyrin.[2] While all ethnic groups are susceptible to FMF, it "usually occurs in people of Mediterranean origin—including Sephardic Jews, Mizrahi Jews, Armenians, Azerbaijanis, Arabs, Greeks, Turks, and Italians".[3][4][5]

The disorder has been given various names, including familial paroxysmal polyserositis, periodic peritonitis, recurrent polyserositis, benign paroxysmal peritonitis, periodic disease or periodic fever, Reimann periodic disease or Reimann syndrome, Siegal-Cattan-Mamou disease, and Wolff periodic disease.[6][7][8] Note that "periodic fever" can also refer to any of the periodic fever syndromes.

Signs and symptoms

Attacks

There are seven types of attacks. Ninety percent of all patients have their first attack before they are 18 years old. All develop over 2–4 hours and last anywhere from 6 hours to 4 days. Most attacks involve fever.[9]

  1. Abdominal attacks, featuring abdominal pain, affect the whole abdomen with all signs of peritonitis (inflammation of abdominal lining), and acute abdominal pain like appendicitis. They occur in 95% of all patients and may lead to unnecessary laparotomy. Incomplete attacks, with local tenderness and normal blood tests, have been reported.
  2. Joint attacks mainly occur in large joints, especially in the legs. Usually, only one joint is affected. 75% of all FMF patients experience joint attacks.
  3. Chest attacks include pleuritis (inflammation of the pleura) and pericarditis (inflammation of the pericardium). Pleuritis occurs in 40% of patients and makes it difficult to breathe or lie flat, but pericarditis is rare.
  4. Scrotal attacks due to inflammation of the tunica vaginalis occurs in up to 5% and may be mistaken for acute scrotum (i.e. testicular torsion).
  5. Myalgia (rare in isolation)
  6. Erysipeloid (a skin reaction on the legs that can mimic cellulitis, rare in isolation)
  7. Fever without any of the other symptoms listed above (25%)

Complications

AA-amyloidosis with kidney failure is a complication and may develop without overt crises. AA amyloid protein is produced in very large quantities during attacks, and at a low rate between them, and accumulates mainly in the kidney, as well as the heart, spleen, gastrointestinal tract, and thyroid.[9]

There appears to be an increase in the risk for developing particular vasculitis-related diseases (e.g. Henoch–Schönlein purpura), spondylarthropathy, prolonged arthritis of certain joints and protracted myalgia.[9]

Pathophysiology

Virtually all cases are due to a mutation in the Mediterranean Fever (MEFV) gene on the sixteenth chromosome, which codes for a protein called pyrin or marenostrin. Various mutations of this gene lead to FMF, although some mutations cause a more severe picture than others. Mutations occur mainly in exons 2, 3, 5 and 10.[9]

The function of pyrin has not been completely elucidated, but in short, it is a protein that binds to the adaptor ASC and the pro form of the enzyme caspase-1 to generate multiprotein complexes called inflammasomes in response to certain infections. In healthy individuals, pyrin-mediated inflammasome assembly (which leads to the caspase 1) dependent processing and secretion of the pro-inflammatory cytokines (such as interleukin-18 (IL-18) and IL-1β) is a response to enterotoxins from certain bacteria.[10] The gain-of-function mutations in the MEFV gene render Pyrin hyperactive, and subsequently, the formation of the inflammasomes becomes more frequent.[11] It is not conclusively known what exactly sets off the attacks, and why overproduction of IL-1 would lead to particular symptoms in particular organs (e.g. joints or the peritoneal cavity).[9]

Genetics

The MEFV gene is located on the short arm of chromosome 16 (16p13). Many different mutations of the MEFV gene can cause the disorder. Having one mutation is unlikely to cause the condition. Having two mutations either a copy from both parents, or two different mutations, one from each parent is the threshold for a genetic diagnosis of FMF. However, most individuals who comply with the genetic diagnosis of FMF remain asymptomatic or undiagnosed. Whether this is due to modifier genes or environmental factors remains to be established.[12]

Diagnosis

The diagnosis is clinically made on the basis of the history of typical attacks, especially in patients from the ethnic groups in which FMF is more highly prevalent. An acute phase response is present during attacks, with high C-reactive protein levels, an elevated white blood cell count and other markers of inflammation. In patients with a long history of attacks, monitoring the kidney function is of importance in predicting chronic kidney failure.[9]

A genetic test is also available to detect mutations in the MEFV gene. Sequencing of exons 2, 3, 5, and 10 of this gene detects an estimated 97% of all known mutations.[9]

A specific and highly sensitive test for FMF is the "metaraminol provocative test (MPT)", whereby a single 10 mg infusion of metaraminol is administered to the patient. A positive diagnosis is made if the patient presents with a typical, albeit milder, FMF attack within 48 hours. As MPT is more specific than sensitive, it does not identify all cases of FMF, although a positive MPT can be very useful.[13][14]

Treatment

Attacks are self-limiting, and require analgesia and NSAIDs (such as diclofenac).[9] Colchicine, a drug otherwise mainly used in gout, decreases attack frequency in FMF patients. The exact way in which colchicine suppresses attacks is unclear. While this agent is not without side effects (such as abdominal pain and muscle pains), it may markedly improve quality of life in patients. The dosage is typically 1–2 mg a day. Development of amyloidosis is delayed with colchicine treatment. Interferon is being studied as a therapeutic modality.[9] Some advise discontinuation of colchicine before and during pregnancy, but the data are inconsistent, and others feel it is safe to take colchicine during pregnancy.[15]

Approximately 5–10% of FMF cases are resistant to colchicine therapy alone. In these cases, adding anakinra to the daily colchicine regimen has been successful.[16] Canakinumab, an anti-interleukin-1-beta monoclonal antibody, has likewise been shown to be effective in controlling and preventing flare-ups in patients with colchicine-resistant FMF and in two additional autoinflammatory recurrent fever syndromes: mevolonate kinase deficiency (hyper-immunoglobulin D syndrome, or HIDS) and tumor necrosis factor receptor-associated periodic syndrome (TRAPS).[17]

Epidemiology

FMF affects groups of people originating from around the Mediterranean Sea (hence its name). It is prominently present in the Armenians, Sephardic Jews (and, to a much lesser extent, Ashkenazi Jews), Cypriots and Arabs.[9][18]

History

A New York City allergist, Sheppard Siegal, first described the attacks of peritonitis in 1945; he termed this "benign paroxysmal peritonitis", as the disease course was essentially benign.[19] Dr Hobart Reimann, working in the American University in Beirut, described a more complete picture which he termed "periodic disease".The princeps description is from two french prof.dr henry mamou and pr dr daniel cattan paris medical university in 1952 by semaine des hoptaux de Paris[20][21]

In 1972, colchicine was discovered to prevent attacks.[22] The link to the MEFV gene was discovered in 1997 by two different groups, each working independently - the French FMF Consortium,[23] and the International FMF Consortium.[24]

See also

References

  1. James, William; Berger, Timothy; Elston, Dirk (2005). Andrews' Diseases of the Skin: Clinical Dermatology. (10th ed.). Saunders. ISBN 0-7216-2921-0.
  2. Chae JJ, Wood G, Richard K, et al. (September 2008). "The familial Mediterranean fever protein, pyrin, is cleaved by caspase-1 and activates NF-kappaB through its N-terminal fragment". Blood. 112 (5): 1794–1803. doi:10.1182/blood-2008-01-134932. PMC 2518886. PMID 18577712.
  3. Mayo Clinic Staff. "Familial Mediterranean fever". Mayo Clinic.
  4. Papadopoulos, Vasileios; Mitroulis, Ioannis; Giaglis, Stavros (1 January 2010). "MEFV heterogeneity in Turkish Familial Mediterranean Fever patients". Mol. Biol. Rep. 37 (1): 355–358. doi:10.1007/s11033-009-9779-9. PMID 19714479.
  5. Saeed, Dastgiri; Mortaza, Bonyadi; Tooba, Mizani (15 December 2010). "The Prevalence of Genetic Disorders in East Azerbaijan Province". 21 (4).
  6. Dugdale III, David C; Jatin Vyas (2010-09-15). "Familial Mediterranean fever - PubMed Health". PubMed Health. National Centre for Biotechnology Information. Archived from the original on 2012-09-10. Retrieved 2011-04-24.
  7. Siegal-Cattan-Mamou syndrome at Who Named It?
  8. "Familial Mediterranean fever - Genetics Home Reference". Genetics Home Reference. U.S. National Library of Medicine. 2011-04-14. Archived from the original on 2011-04-24. Retrieved 2011-04-24.
  9. 1 2 3 4 5 6 7 8 9 10 Livneh A, Langevitz P (2000). "Diagnostic and treatment concerns in familial Mediterranean fever". Best Practice & Research Clinical Rheumatology. 14 (3): 477–498. doi:10.1053/berh.2000.0089. PMID 10985982.
  10. Alexandra A. Mushegian (2016). "An alternative path for pyrin". Science Signaling. 9: ec299. doi:10.1126/scisignal.aam6054.
  11. Dmitry Ratner. "Activation and Inhibition of Multiple Inflammasome Pathways by the Yersinia Pestis Type Three Secretion System: A Dissertation".
  12. Gershoni-Baruch, Ruth (August 2001). "Familial Mediterranean fever: prevalence, penetrance and genetic drift". European Journal of Human Genetics. 9: http://www.nature.com/ejhg/journal/v9/n8/pdf/5200672a.pdf. doi:10.1038/sj.ejhg.5200672. PMID 11528510.
  13. Barakat MH, El-Khawad AO, Gumaa KA, El-Sobki NI, Fenech FF (1984). "Metaraminol provocative test: a specific diagnostic test for familial Mediterranean fever". Lancet. 1 (8378): 656–7. doi:10.1016/s0140-6736(84)92172-x. PMID 6142351.
  14. Huppertz HI, Michels H (1988). "[The metaraminol provocation test in the diagnosis of familial Mediterranean fever]". Monatsschr Kinderheilkd. 136 (5): 243–5. PMID 3405225.
  15. Michael O, Goldman RD, Koren G (August 2003). "Safety of colchicine therapy during pregnancy". Can Fam Physician. 49: 967–9. PMC 2214270. PMID 12943352. Archived from the original on 2009-01-30.
  16. Calligaris L, Marchetti F, Tommasini A, Ventura A (2008). "The efficacy of anakinra in an adolescent with colchicine-resistant familial Mediterranean fever". European Journal of Pediatrics. 167 (6): 695–696. doi:10.1007/s00431-007-0547-3. PMC 2292480. PMID 17588171.
  17. https://www.nejm.org/doi/full/10.1056/NEJMoa1706314?query=featured_home
  18. Sinha, Chandrasen K.; Davenport, Mark (2010). Handbook of Pediatric Surgery. New York: Springer. p. 192. ISBN 9781848821323.
  19. Siegal S (1945). "Benign paroxysmal peritonitis". Ann Intern Med. 23 (1): 1–21. doi:10.7326/0003-4819-23-1-1.
  20. Reiman HA (1948). "Periodic disease. Probable syndrome including periodic fever, benign paroxysmal peritonitis, cyclic neutropenia and intermittent arthralgia". J Am Med Assoc. 136 (4): 239–44. doi:10.1001/jama.1948.02890210023004. PMID 18920089.
  21. synd/2503 at Who Named It?
  22. Goldfinger, S.E. (1972-12-21). "Colchicine for familial Mediterranean fever". New England Journal of Medicine. 287 (25): 1302. doi:10.1056/NEJM197212212872514. PMID 4636899.
  23. The French FMF Consortium (1997). "A candidate gene for familial Mediterranean fever". Nat. Genet. 17 (1): 25–31. doi:10.1038/ng0997-25. PMID 9288094.
  24. The International FMF Consortium (1997). "Ancient missense mutations in a new member of the RoRet gene family are likely to cause familial Mediterranean fever". Cell. 90 (4): 797–807. doi:10.1016/S0092-8674(00)80539-5. PMID 9288758.
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