Cryopyrin-associated periodic syndrome
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Synonyms and keywords: Cryopyrinopathies, familial cold autoinflammatory syndrome (FCAS), Muckle-Wells syndrome (MWS), and Neonatal-onset multisystem inflammatory disorder (NOMID) , also known as chronic infantile neurologic cutaneous and articular syndrome (CINCA)
Overview
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
Cryopyrin-associated periodic syndrome (CAPS) is a rare disease entity encompassing three different clinical phenotypes including Muckle-Wells syndrome (MWS), neonatal-onset multisystem inflammatory disorder (NOMID), and familial cold autoinflammatory syndrome (FCAS). The three aforementioned phenotypes occur due to a common gene mutation.
Historical Perspective
In 1940, Dr. Kile first described Familial cold autoinflammatory syndrome (FCAS) in a family presenting with recurrent urticaria, arthralgia, and fever after general exposure to cold. In 1962, Muckle-Wells syndrome (MWS), the intermediate phenotype of cryopyrin-associated periodic syndrome (CAPS), in terms of severity, was first described by Muckle and Wells. The association between NLRP3 gene and MWS was made in 1999 by Dr. Cuisset. Neonatal-onset multi-system inflammatory disease (NOMID), the most severe phenotype of CAPS, first discovered by Dr. Lorber in 1973. CAPS was first described by Dr. Hoffman, in 2001, following the identification of the NLRP3 gene as the causative mutant gene in families with Familial cold autoinflammatory syndrome (FCAS) and Muckle-Wells syndrome (MWS).
Classification
The cryopyrin-associated periodic syndrome may be classified according to clinical phenotype into three subtypes: familial cold autoinflammatory syndrome (FCAS), Muckle-Wells syndrome (MWS) and neonatal-onset multisystem inflammatory disease (NOMID)
Pathophysiology
The exact pathogenesis of cryopyrin-associated periodic syndrome is not fully understood. However, it occurs due to the dysregulation of innate immune system. NLRP3 gene encoding a protein called cryopyrin involved in the pathogenesis of this disorder.
Causes
Cryopyrin-associated periodic syndrome is caused by a mutation in the NLRP3, also known as CIAS1, gene.
Differentiating cryopyrin-associated periodic syndrome from Other Diseases
Cryopyrin-associated periodic syndrome must be differentiated from other diseases that cause fever, fatigue, weight loss, arthralgia, myalgia, rash and soft tissue swelling.
Epidemiology and Demographics
The incidence cryopyrin-associated periodic syndrome is approximately 0.0343 per 100,000 individuals aged 16 years old or younger worldwide. The prevalence of cryopyrin-associated periodic syndrome is approximately 0.1 per 100,000 individuals worldwide. CAPS is usually first presented in the infancy. There is no racial predilection to cryopyrin-associated periodic syndrome. Cryopyrin-associated periodic syndrome affects men and women equally. The majority of CAPS cases are reported in Europe.
Risk Factors
There are no established risk factors for the cryopyrin-associated periodic syndrome.
Screening
There is insufficient evidence to recommend routine screening for the cryopyrin-associated periodic syndrome.
Natural History, Complications, and Prognosis
The symptoms of neonatal-onset multisystem inflammatory disease (NOMID) usually develops during infancy, and start with symptoms such as continuous often low-grade fever, skin rash, neurological involvement, and arthropathy. Some of the possible complications include, renal failure, amyloidosis, and destructive arthropathy. Prognosis of cryopyrin-associated periodic syndrome varies according to the clinical phenotype and other factors.
Diagnosis
Diagnostic Study of Choice
Cryopyrin-associated periodic syndrome is primarily diagnosed based on the clinical presentation. Genetic analysis of NLRP3 gene is the gold standard test for the diagnosis.
History and Symptoms
The cryopyrin-associated periodic syndrome is a spectrum of three different clinical phenotypes with the mildest form being familial cold autoinflammatory syndrome (FCAS), formerly called familial cold urticaria and neonatal-onset multisystem inflammatory disorder (NOMID), also known as chronic infantile neurologic cutaneous and articular (CINCA) as the most severe form. Muckle-Wells syndrome (MWS) is the intermediate form of the disease in terms of severity. Symptoms of the cryopyrin-associated periodic syndrome include episodes of cold-induced fever, skin rash, and joint pain.
Physical Examination
Physical examination of patients with the cryopyrin-associated periodic syndrome (CAPS) is usually remarkable for recurrent episodes of cold-induced fever, urticaria-like painful rash, and arthritis. Hearing loss, ophthalmologic involvement, and focal neurologic signs are more suggestive of NOMID.
Laboratory Findings
An elevated concentration of serum acute-phase reactant is diagnostic of cryopyrin-associated periodic syndrome.
Electrocardiogram
There are no ECG findings associated with cryopyrin-associated periodic syndrome.
X-ray
There are no x-ray findings associated with the cryopyrin-associated periodic syndrome. However, an x-ray may be helpful in the diagnosis of arthropathy associated with neonatal-onset multisystem inflammatory disease (NOMID) which may indicate enlargement of the unossified physis leading to a mass-like lesion and later appearance of stippled calcifications.
Echocardiography and Ultrasound
There are no echocardiography/ultrasound findings associated with Cryopyrin-associated periodic syndrome.
CT scan
There are no CT scan findings associated with the cryopyrin-associated periodic syndrome.
MRI
There are no MRI findings associated with the cryopyrin-associated periodic syndrome. However, an MRI may be helpful in the diagnosis of arthropathy associated with neonatal-onset multi-system inflammatory disease (NOMID) which includes enlarged, heterogenous physis with hypointense calcifications and presence of popliteal lymph node.
Other Imaging Findings
There are no other imaging findings associated with the cryopyrin-associated periodic syndrome.
Other Diagnostic Studies
There are no other diagnostic studies associated with cryopyrin-associated periodic syndrome.
Treatment
Medical Therapy
There is no definitive treatment for cryopyrin-associated periodic syndrome; the mainstay of therapy is supportive care. Supportive therapy for cryopyrin-associated periodic syndrome includes anakinra, rilonacept, and canakinumab. Patients with NOMID are treated with anakinra, whereas patients with FCAS and MWS are treated with canakinumab. Symptomatic treatment options include nonsteroidal anti-inflammatory drugs, disease-modifying antirheumatic drugs, and glucocorticoids.
Surgery
Surgical intervention is not recommended for the management of the cryopyrin-associated periodic syndrome.
Primary Prevention
There are no established measures for the primary prevention of cryopyrin-associated periodic syndrome.
Secondary Prevention
There are no established measures for the secondary prevention of cryopyrin-associated periodic syndrome.
References
Historical Perspective
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
In 1940, Dr. Kile first described Familial cold autoinflammatory syndrome (FCAS) in a family presenting with recurrent urticaria, arthralgia, and fever after general exposure to cold. In 1962, Muckle-Wells syndrome (MWS), the intermediate phenotype of cryopyrin-associated periodic syndrome (CAPS), in terms of severity, was first described by Muckle and Wells. The association between NLRP3 gene and MWS was made in 1999 by Dr. Cuisset. Neonatal-onset multi-system inflammatory disease (NOMID), the most severe phenotype of CAPS, first discovered by Dr. Lorber in 1973. CAPS was first described by Dr. Hoffman, in 2001, following the identification of the NLRP3 gene as the causative mutant gene in families with Familial cold autoinflammatory syndrome (FCAS) and Muckle-Wells syndrome (MWS).
Historical Perspective
Discovery
- In 1940, Dr. Kile first described Familial cold autoinflammatory syndrome (FCAS) in a family presenting with recurrent urticaria, arthralgia, and fever after general exposure to cold.[1]
- In 1962, Muckle-Wells syndrome (MWS), the intermediate phenotype of cryopyrin-associated periodic syndrome (CAPS), in terms of severity, was first described by Muckle and Wells.[2]
- The association between NLRP3 gene and MWS was made in 1999 by Dr. Cuisset.[3]
- Neonatal-onset multisystem inflammatory disease (NOMID), the most severe phenotype of CAPS, first discovered by Dr. Lorber in 1973.[4]
- CAPS was first described by Dr. Hoffman, in 2001, following the identification of the NLRP3 gene as the causative mutant gene in families with Familial cold autoinflammatory syndrome (FCAS) and Muckle-Wells syndrome (MWS).[5]
- Dr. Feldmann first found the genetic association of NLRP3 gene, also known as CIAS1 gene, with phenotype of NOMID in 2002.[6]
References
- ↑ Kile, Roy L.; Rusk, Howard A. (1940). “A CASE OF COLD URTICARIA WITH AN UNUSUAL FAMILY HISTORY”. Journal of the American Medical Association. 114 (12). doi:10.1001/jama.1940.62810120003010b. ISSN 0002-9955.
- ↑ “URTICARIA, DEAFNESS, AND AMYLOIDOSIS: A NEW HEREDO-FAMILIAL SYNDROME”. QJM: An International Journal of Medicine. 1962. doi:10.1093/oxfordjournals.qjmed.a066967. ISSN 1460-2393.
- ↑ Cuisset, Laurence; Drenth, Joost P.H.; Berthelot, Jean-Marie; Meyrier, Alain; Vaudour, Gérard; Watts, Richard A.; Scott, David G.I.; Nicholls, Anne; Pavek, Sylvana; Vasseur, Christian; Beckmann, Jacques S.; Delpech, Marc; Grateau, Gilles (1999). “Genetic Linkage of the Muckle-Wells Syndrome to Chromosome 1q44”. The American Journal of Human Genetics. 65 (4): 1054–1059. doi:10.1086/302589. ISSN 0002-9297.
- ↑ J. Lorber (1973). “Syndrome for diagnosis: dwarfing, persistently open fontanelle; recurrent meningitis; recurrent subdural effusions with temporary alternate-sided hemiplegia; high-tone deafness; visual defect with pseudopapilloedema; slowing intellectual development; recurrent acute polyarthritis; erythema marginatum, splenomegaly and iron-resistant hypochromic anaemia”. Proceedings of the Royal Society of Medicine. 66 (11): 1070–1071. PMID 4777015. Unknown parameter
|month=ignored (help) - ↑ Hoffman, Hal M.; Mueller, James L.; Broide, David H.; Wanderer, Alan A.; Kolodner, Richard D. (2001). “Mutation of a new gene encoding a putative pyrin-like protein causes familial cold autoinflammatory syndrome and Muckle–Wells syndrome”. Nature Genetics. 29 (3): 301–305. doi:10.1038/ng756. ISSN 1061-4036.
- ↑ Feldmann, Jérôme; Prieur, Anne-Marie; Quartier, Pierre; Berquin, Patrick; Certain, Stéphanie; Cortis, Elisabetta; Teillac-Hamel, Dominique; Fischer, Alain; Basile, Geneviève de Saint (2002). “Chronic Infantile Neurological Cutaneous and Articular Syndrome Is Caused by Mutations in CIAS1, a Gene Highly Expressed in Polymorphonuclear Cells and Chondrocytes”. The American Journal of Human Genetics. 71 (1): 198–203. doi:10.1086/341357. ISSN 0002-9297.
Classification
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
The cryopyrin-associated periodic syndrome may be classified according to clinical phenotype into three subtypes: familial cold autoinflammatory syndrome (FCAS), Muckle-Wells syndrome (MWS) and neonatal-onset multisystem inflammatory disease (NOMID)
Classification
- The cryopyrin-associated periodic syndrome may be classified according to clinical phenotype into three subtypes:[1]
- Familial cold autoinflammatory syndrome (FCAS)
- Muckle-Wells syndrome (MWS)
- Neonatal-onset multisystem inflammatory disease (NOMID)
References
- ↑ Aksentijevich, Ivona; Nowak, Miroslawa; Mallah, Mustapha; Chae, Jae Jin; Watford, Wendy T.; Hofmann, Sigrun R.; Stein, Leonard; Russo, Ricardo; Goldsmith, Donald; Dent, Peter; Rosenberg, Helene F.; Austin, Frances; Remmers, Elaine F.; Balow, James E.; Rosenzweig, Sergio; Komarow, Hirsh; Shoham, Nitza G.; Wood, Geryl; Jones, Janet; Mangra, Nadira; Carrero, Hector; Adams, Barbara S.; Moore, Terry L.; Schikler, Kenneth; Hoffman, Hal; Lovell, Daniel J.; Lipnick, Robert; Barron, Karyl; O’Shea, John J.; Kastner, Daniel L.; Goldbach-Mansky, Raphaela (2002). “De novoCIAS1 mutations, cytokine activation, and evidence for genetic heterogeneity in patients with neonatal-onset multisystem inflammatory disease (NOMID): A new member of the expanding family of pyrin-associated autoinflammatory diseases”. Arthritis & Rheumatism. 46 (12): 3340–3348. doi:10.1002/art.10688. ISSN 0004-3591.
Pathophysiology
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
The exact pathogenesis of cryopyrin-associated periodic syndrome is not fully understood. However, it occurs due to the dysregulation of innate immune system. NLRP3 gene encoding a protein called cryopyrin involved in the pathogenesis of this disorder.
Pathophysiology
Physiology
- Inflammation is the complex immunological response of vascular tissues to harmful stimuli. Normally, it protects the organism from the injurious stimuli as well as initiates the healing process for the tissue.
Pathogenesis
- The exact pathogenesis of the cryopyrin-associated periodic syndrome is not completely understood. However, it occurs due to the dysregulation of innate immune system.[1]
- Mutations in the NLRP3 gene cause abnormal activation of the inflammasome, the molecular platform that plays a pivotal role in inflammation.
- This leads to the overexpression of the key proinflammatory cytokine, interleukin (IL)-1β.
- Excessive amounts of IL-1β triggers the uncontrolled release of inflammatory cytokines, which act synergistically with IL-1β inducing the inflammatory process. This process is mainly mediated via the recruitment and activation of neutrophils.
Genetics
- Cryopyrin-associated periodic syndrome is transmitted in the autosomal dominant pattern.[2][3]
- NLRP3 gene encoding a protein called cryopyrin (also known as nacht domain-, leucine-rich repeat- and pyrin domain-containing protein 3 [NALP3] or pyrin domain-containing apoptotic protease activating factor 1-like protein [PYPAF1] involved in the pathogenesis of this disorder.
- Cryopyrin is derived from the Greek words for icy cold and fire. The recurrent episodes of this disease are usually triggered by cold.
Associated Conditions
- Conditions associated with Familial Cold Autoinflammatory Syndrome (FCAS) include:[4]
- Mild hearing loss
- Conditions associated with Muckle-Wells Syndrome include:[5]
- Hearing loss
- Secondary amyloidosis
- Conditions associated with Neonatal Onset Multi-system Autoinflammatory Disease (NOMID) include:[6][4]
- Developmental delay
- Seizure
- Hydrocephalus
- Chronic aseptic meningitis
- Uveitis
- Pericarditis
- Destructive arthropathy
- Secondary amyloidosis
Gross Pathology
Microscopic pathology
- Histology of urticarial lesions consists of dense neutrophilic infiltrate in perivascular area and interstitium.[7]
References
- ↑ Hoffman, Hal M.; Simon, Anna (2009). “Recurrent febrile syndromes—what a rheumatologist needs to know”. Nature Reviews Rheumatology. 5 (5): 249–256. doi:10.1038/nrrheum.2009.40. ISSN 1759-4790.
- ↑ Hoffman, Hal M.; Mueller, James L.; Broide, David H.; Wanderer, Alan A.; Kolodner, Richard D. (2001). “Mutation of a new gene encoding a putative pyrin-like protein causes familial cold autoinflammatory syndrome and Muckle–Wells syndrome”. Nature Genetics. 29 (3): 301–305. doi:10.1038/ng756. ISSN 1061-4036.
- ↑ Manthiram, Kalpana; Zhou, Qing; Aksentijevich, Ivona; Kastner, Daniel L (2017). “The monogenic autoinflammatory diseases define new pathways in human innate immunity and inflammation”. Nature Immunology. 18 (8): 832–842. doi:10.1038/ni.3777. ISSN 1529-2908.
- ↑ 4.0 4.1 Almeida de Jesus, Adriana; Goldbach-Mansky, Raphaela (2013). “Monogenic autoinflammatory diseases: Concept and clinical manifestations”. Clinical Immunology. 147 (3): 155–174. doi:10.1016/j.clim.2013.03.016. ISSN 1521-6616.
- ↑ Yu, Justin R.; Leslie, Kieron S. (2010). “Cryopyrin-Associated Periodic Syndrome: An Update on Diagnosis and Treatment Response”. Current Allergy and Asthma Reports. 11 (1): 12–20. doi:10.1007/s11882-010-0160-9. ISSN 1529-7322.
- ↑ Kim, Hanna; Montealegre Sanchez, Gina A.; Chapelle, Dawn C.; Plass, Nicole; Dwyer, Andrew; Goldbach-Mansky, Raphaela; Hill, Suvimol (2014). “A80: Skeletal Features of Neonatal-Onset Multisystem Inflammatory Disease (NOMID) on Anakinra Treatment: Long-Term Follow-up”. Arthritis & Rheumatology. 66: S113–S113. doi:10.1002/art.38496. ISSN 2326-5191.
- ↑ 7.0 7.1 Kolivras, Athanassios; Theunis, Anne; Ferster, Aline; Lipsker, Dan; Sass, Ursula; Dussart, Anneliese; André, Josette (2011). “Cryopyrin-associated periodic syndrome: an autoinflammatory disease manifested as neutrophilic urticarial dermatosis with additional perieccrine involvement”. Journal of Cutaneous Pathology. 38 (2): 202–208. doi:10.1111/j.1600-0560.2010.01638.x. ISSN 0303-6987.
Causes
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
Cryopyrin-associated periodic syndrome is caused by a mutation in the NLRP3, also known as CIAS1, gene.
Causes
Genetic Causes
- Cryopyrin-associated periodic syndrome is caused by a mutation in the NLRP3, also known as CIAS1, gene.[1][2][3]
References
- ↑ Hoffman, Hal M.; Mueller, James L.; Broide, David H.; Wanderer, Alan A.; Kolodner, Richard D. (2001). “Mutation of a new gene encoding a putative pyrin-like protein causes familial cold autoinflammatory syndrome and Muckle–Wells syndrome”. Nature Genetics. 29 (3): 301–305. doi:10.1038/ng756. ISSN 1061-4036.
- ↑ Dodé, Catherine; Le Dû, Nathalie; Cuisset, Laurence; Letourneur, Frank; Berthelot, Jean-Marie; Vaudour, Gérard; Meyrier, Alain; Watts, Richard A; David Scott, G.I.; Nicholls, Anne; Granel, Brigitte; Frances, Camille; Garcier, François; Edery, Patrick; Boulinguez, Serge; Domergues, Jean-Paul; Delpech, Marc; Grateau, Gilles (2002). “New Mutations of CIAS1 That Are Responsible for Muckle-Wells Syndrome and Familial Cold Urticaria: A Novel Mutation Underlies Both Syndromes”. The American Journal of Human Genetics. 70 (6): 1498–1506. doi:10.1086/340786. ISSN 0002-9297.
- ↑ Feldmann, Jérôme; Prieur, Anne-Marie; Quartier, Pierre; Berquin, Patrick; Certain, Stéphanie; Cortis, Elisabetta; Teillac-Hamel, Dominique; Fischer, Alain; Basile, Geneviève de Saint (2002). “Chronic Infantile Neurological Cutaneous and Articular Syndrome Is Caused by Mutations in CIAS1, a Gene Highly Expressed in Polymorphonuclear Cells and Chondrocytes”. The American Journal of Human Genetics. 71 (1): 198–203. doi:10.1086/341357. ISSN 0002-9297.
Differentiating cryopyrin-associated periodic syndrome from other Diseases
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
Cryopyrin-associated periodic syndrome must be differentiated from other diseases that cause fever, fatigue, weight loss, arthralgia, myalgia, rash and soft tissue swelling.
Differential diagnosis
- Cryopyrin-associated periodic syndrome (CAPS) should be differentiated from other autoinflammatory disorders presenting with fever, fatigue, weight loss, arthralgia, myalgia, rash and soft tissue swelling. The differentials include the following:
| Category of Disease | Diseases | Signs and symptoms | Laboratory findings | |||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Inheritance pattern | Fever duration | Frequency of attacks | Abdominal pain | Arthralgia/Arthritis | Chest pain | Skin rash | Myalgia/Body pain | Diarrhea/Vomiting | Neurologic manifestations | Conjunctivitis | Aphthous stomatitis | Lymphadenopathy | Splenomegaly | Complete blood count (CBC) | C- reactive protein (CRP) | |||||
| Erythrocyte sedimentation rate (ESR) | Other findings | Genetic analysis | ||||||||||||||||||
Autoinflammatory diseases |
Familial mediterranean fever[1][2] |
|
|
+ | + | + |
|
+ | + | -/+ | -/+ | -/+ | + | ↑ | ↑ |
|
||||
| Hyper IgD with recurrent fever[2][3][4] |
|
|
+ | + | + |
|
+ | + | – | +/- | +/- | +/- | ↑ | ↑ |
|
|||||
| TNF receptor-associated periodic syndrome[5][6] |
|
|
+ | + | – | – | – | + | – | +/- | + | ↑ | ↑ | |||||||
| Muckle-Wells Syndrome[7][8] |
|
|
+ | + | – | + | + | + | + | – | – | ↑ | ↑ |
|
||||||
| Familial cold urticaria[2][9] |
|
|
– | + | – | – | – |
|
+ | +/- | – | – | ↑ | ↑ |
|
|||||
| Neonatal onset multisystem inflammatory disease[2][10][11] |
|
|
+ | + | + | + | + | +/- | + | ↑ | ↑ |
|
||||||||
| PSTPIP1-associated Arthritis, pyoderma gangrenosum and acne (PAPA)[12][13] |
|
|
+/- |
|
+/- | +/- | +/- | – | – | – | – | – | ↑ | ↑ |
|
|||||
| Periodic Fever, Aphthous Stomatitis, Pharyngitis, and Cervical Adenitis (PFAPA)[14][15][16] |
|
|
|
+ | + | – | – | + | + | – | – | + |
|
– | ↑ | ↑ |
|
| ||
| Blau syndrome[17][18] |
|
|
+/- | + | +/- |
|
+ | +/- |
|
– | + | +/- | + | ↑ | ↑ |
|
||||
- Neonatal onset multi-system inflammatory disease (NOMID) causes a destructive arthropathy and bone disease which must be differentiated from other disorders affecting the joints such as :[19]
- Juvenile Rheumatoid Arthritis (JRA)
- Chronic Recurrent Multifocal Osteomyelitis (CRMO)
- Rickets
- Table below differentiates the aforementioned conditions:
| Disease name | Age of onset | Signs/Symptoms | X-ray findings | MRI findings |
|---|---|---|---|---|
| NOMID/CINCA[19][8] |
|
|
|
|
| Juvenile Rheumatoid Arthritis (JRA)[20][21] |
|
|
|
|
| Chronic Recurrent Multifocal Osteomyelitis (CRMO)[22][23][24] |
|
|
||
| Rickets[25][26] |
|
|
|
|
- Familial cold autoinflammtory syndrome must be differentiated from other diseases that cause urticaria, and rash, such as:
- Cold Contact Urticaria
- Schnitzler Syndrome
- Deficiency in Interleukin-1 Receptor Antagonist
- Systemic-Onset Juvenile Idiopathic Arthritis
- Adult-Onset Still’s Disease
- Table below differentiates the aforementioned conditions:
| Disease name | Age of onset | Signs/Symptoms | Diagnostic feature(s) | Other features |
|---|---|---|---|---|
| Cold Contact Urticaria[27][28] |
|
|
|
|
| Familial Cold Autoinflammatory Syndrome[2] |
|
|
|
|
| Schnitzler Syndrome[29] |
|
| ||
| Deficiency in Interleukin-1 Receptor Antagonist[30] |
|
|
| |
| Systemic-Onset Juvenile Idiopathic Arthritis[31] |
|
| ||
| Adult-Onset Still’s Disease[32] |
|
|
|
References
- ↑ M. Medlej-Hashim, I. Petit, S. Adib, E. Chouery, N. Salem, V. Delague, M. Rawashdeh, I. Mansour, G. Lefranc, R. Naman, J. Loiselet, J. C. Lecron, J. L. Serre & A. Megarbane (2001). “Familial Mediterranean Fever: association of elevated IgD plasma levels with specific MEFV mutations”. European journal of human genetics : EJHG. 9 (11): 849–854. doi:10.1038/sj.ejhg.5200725. PMID 11781702. Unknown parameter
|month=ignored (help) - ↑ 2.0 2.1 2.2 2.3 2.4 Kastner, D. L. (2005). “Hereditary Periodic Fever Syndromes”. Hematology. 2005 (1): 74–81. doi:10.1182/asheducation-2005.1.74. ISSN 1520-4391.
- ↑ Kraus, Courtney L; Culican, Susan M (2009). “Nummular keratopathy in a patient with Hyper-IgD Syndrome”. Pediatric Rheumatology. 7 (1). doi:10.1186/1546-0096-7-14. ISSN 1546-0096.
- ↑ Mulders-Manders, C. M.; Simon, A. (2015). “Hyper-IgD syndrome/mevalonate kinase deficiency: what is new?”. Seminars in Immunopathology. 37 (4): 371–376. doi:10.1007/s00281-015-0492-6. ISSN 1863-2297.
- ↑ Toro, Jorge R.; Aksentijevich, Ivona; Hull, Keith; Dean, Jane; Kastner, Daniel L. (2000). “Tumor Necrosis Factor Receptor–Associated Periodic Syndrome”. Archives of Dermatology. 136 (12). doi:10.1001/archderm.136.12.1487. ISSN 0003-987X.
- ↑ Lachmann, H J; Papa, R; Gerhold, K; Obici, L; Touitou, I; Cantarini, L; Frenkel, J; Anton, J; Kone-Paut, I; Cattalini, M; Bader-Meunier, B; Insalaco, A; Hentgen, V; Merino, R; Modesto, C; Toplak, N; Berendes, R; Ozen, S; Cimaz, R; Jansson, A; Brogan, P A; Hawkins, P N; Ruperto, N; Martini, A; Woo, P; Gattorno, M (2014). “The phenotype of TNF receptor-associated autoinflammatory syndrome (TRAPS) at presentation: a series of 158 cases from the Eurofever/EUROTRAPS international registry”. Annals of the Rheumatic Diseases. 73 (12): 2160–2167. doi:10.1136/annrheumdis-2013-204184. ISSN 0003-4967.
- ↑ Hawkins, Philip N.; Lachmann, Helen J.; Aganna, Ebun; McDermott, Michael F. (2004). “Spectrum of clinical features in Muckle-Wells syndrome and response to anakinra”. Arthritis & Rheumatism. 50 (2): 607–612. doi:10.1002/art.20033. ISSN 0004-3591.
- ↑ 8.0 8.1 Ahmadi, Neda; Brewer, Carmen C.; Zalewski, Christopher; King, Kelly A.; Butman, John A.; Plass, Nicole; Henderson, Cailin; Goldbach-Mansky, Raphaela; Kim, H. Jeffrey (2011). “Cryopyrin-Associated Periodic Syndromes”. Otolaryngology–Head and Neck Surgery. 145 (2): 295–302. doi:10.1177/0194599811402296. ISSN 0194-5998.
- ↑ Stych, Beate; Dobrovolny, Diana (2008). “Familial cold auto-inflammatory syndrome (FCAS): characterization of symptomatology and impact on patients’ lives”. Current Medical Research and Opinion. 24 (6): 1577–1582. doi:10.1185/03007990802081543. ISSN 0300-7995.
- ↑ Goldbach-Mansky, Raphaela; Dailey, Natalie J.; Canna, Scott W.; Gelabert, Ana; Jones, Janet; Rubin, Benjamin I.; Kim, H. Jeffrey; Brewer, Carmen; Zalewski, Christopher; Wiggs, Edythe; Hill, Suvimol; Turner, Maria L.; Karp, Barbara I.; Aksentijevich, Ivona; Pucino, Frank; Penzak, Scott R.; Haverkamp, Margje H.; Stein, Leonard; Adams, Barbara S.; Moore, Terry L.; Fuhlbrigge, Robert C.; Shaham, Bracha; Jarvis, James N.; O’Neil, Kathleen; Vehe, Richard K.; Beitz, Laurie O.; Gardner, Gregory; Hannan, William P.; Warren, Robert W.; Horn, William; Cole, Joe L.; Paul, Scott M.; Hawkins, Philip N.; Pham, Tuyet Hang; Snyder, Christopher; Wesley, Robert A.; Hoffmann, Steven C.; Holland, Steven M.; Butman, John A.; Kastner, Daniel L. (2006). “Neonatal-Onset Multisystem Inflammatory Disease Responsive to Interleukin-1β Inhibition”. New England Journal of Medicine. 355 (6): 581–592. doi:10.1056/NEJMoa055137. ISSN 0028-4793.
- ↑ Kim, Hanna; Montealegre Sanchez, Gina A.; Chapelle, Dawn C.; Plass, Nicole; Dwyer, Andrew; Goldbach-Mansky, Raphaela; Hill, Suvimol (2014). “A80: Skeletal Features of Neonatal-Onset Multisystem Inflammatory Disease (NOMID) on Anakinra Treatment: Long-Term Follow-up”. Arthritis & Rheumatology. 66: S113–S113. doi:10.1002/art.38496. ISSN 2326-5191.
- ↑ Yeon, Howard B.; Lindor, Noralane M.; Seidman, J.G.; Seidman, Christine E. (2000). “Pyogenic Arthritis, Pyoderma Gangrenosum, and Acne Syndrome Maps to Chromosome 15q”. The American Journal of Human Genetics. 66 (4): 1443–1448. doi:10.1086/302866. ISSN 0002-9297.
- ↑ Schellevis, M. A.; Stoffels, M.; Hoppenreijs, E. P. A. H.; Bodar, E.; Simon, A.; van der Meer, J. W. M. (2011). “Variable expression and treatment of PAPA syndrome”. Annals of the Rheumatic Diseases. 70 (6): 1168–1170. doi:10.1136/ard.2009.126185. ISSN 0003-4967.
- ↑ Vanoni, Federica; Federici, Silvia; Antón, Jordi; Barron, Karyl S.; Brogan, Paul; De Benedetti, Fabrizio; Dedeoglu, Fatma; Demirkaya, Erkan; Hentgen, Veronique; Kallinich, Tilmann; Laxer, Ronald; Russo, Ricardo; Toplak, Natasa; Uziel, Yosef; Martini, Alberto; Ruperto, Nicolino; Gattorno, Marco; Hofer, Michael (2018). “An international delphi survey for the definition of the variables for the development of new classification criteria for periodic fever aphtous stomatitis pharingitis cervical adenitis (PFAPA)”. Pediatric Rheumatology. 16 (1). doi:10.1186/s12969-018-0246-9. ISSN 1546-0096.
- ↑ Cattalini, Marco; Soliani, Martina; Rigante, Donato; Lopalco, Giuseppe; Iannone, Florenzo; Galeazzi, Mauro; Cantarini, Luca (2015). “Basic Characteristics of Adults with Periodic Fever, Aphthous Stomatitis, Pharyngitis, and Adenopathy Syndrome in Comparison with the Typical Pediatric Expression of Disease”. Mediators of Inflammation. 2015: 1–11. doi:10.1155/2015/570418. ISSN 0962-9351.
- ↑ Gattorno, M.; Caorsi, R.; Meini, A.; Cattalini, M.; Federici, S.; Zulian, F.; Cortis, E.; Calcagno, G.; Tommasini, A.; Consolini, R.; Simonini, G.; Pelagatti, M. A.; Baldi, M.; Ceccherini, I.; Plebani, A.; Frenkel, J.; Sormani, M. P.; Martini, A. (2009). “Differentiating PFAPA Syndrome From Monogenic Periodic Fevers”. PEDIATRICS. 124 (4): e721–e728. doi:10.1542/peds.2009-0088. ISSN 0031-4005.
- ↑ Rosé, Carlos D.; Aróstegui, Juan I.; Martin, Tammy M.; Espada, Graciela; Scalzi, Lisabeth; Yagüe, Jordi; Rosenbaum, James T.; Modesto, Consuelo; Cristina Arnal, Maria; Merino, Rosa; García-Consuegra, Julia; Carballo Silva, María Antonia; Wouters, Carine H. (2009). “NOD2-Associated pediatric granulomatous arthritis, an expanding phenotype: Study of an international registry and a national cohort in spain”. Arthritis & Rheumatism. 60 (6): 1797–1803. doi:10.1002/art.24533. ISSN 0004-3591.
- ↑ Kim, Woojoong; Park, Eujin; Ahn, Yo Han; Lee, Jiwon M.; Kang, Hee Gyung; Kim, Byung Joo; Ha, Il-Soo; Cheong, Hae Il (2016). “A familial case of Blau syndrome caused by a novelNOD2genetic mutation”. Korean Journal of Pediatrics. 59 (Suppl 1): S5. doi:10.3345/kjp.2016.59.11.S5. ISSN 1738-1061.
- ↑ 19.0 19.1 Sridharan, Radhika; Mohd Zaki, Faizah; Sook Pei, Tan; Swee Ping, Tang; Ibrahim, Sharaf (2012). “NOMID: The radiographic and MRI features and review of literature”. Journal of Radiology Case Reports. 6 (3). doi:10.3941/jrcr.v6i3.745. ISSN 1943-0922.
- ↑ Yulish, B S; Lieberman, J M; Newman, A J; Bryan, P J; Mulopulos, G P; Modic, M T (1987). “Juvenile rheumatoid arthritis: assessment with MR imaging”. Radiology. 165 (1): 149–152. doi:10.1148/radiology.165.1.3628761. ISSN 0033-8419.
- ↑ Edward M. Behrens, Timothy Beukelman, Lisa Gallo, Julie Spangler, Margalit Rosenkranz, Thaschawee Arkachaisri, Rosanne Ayala, Brandt Groh, Terri H. Finkel & Randy Q. Cron (2008). “Evaluation of the presentation of systemic onset juvenile rheumatoid arthritis: data from the Pennsylvania Systemic Onset Juvenile Arthritis Registry (PASOJAR)”. The Journal of rheumatology. 35 (2): 343–348. PMID 18085728. Unknown parameter
|month=ignored (help) - ↑ Aygun, Deniz; Barut, Kenan; Camcioglu, Yildiz; Kasapcopur, Ozgur (2015). “Chronic recurrent multifocal osteomyelitis: a rare skeletal disorder”. BMJ Case Reports: bcr2015210061. doi:10.1136/bcr-2015-210061. ISSN 1757-790X.
- ↑ Ferguson, Polly J.; Sandu, Monica (2012). “Current Understanding of the Pathogenesis and Management of Chronic Recurrent Multifocal Osteomyelitis”. Current Rheumatology Reports. 14 (2): 130–141. doi:10.1007/s11926-012-0239-5. ISSN 1523-3774.
- ↑ Khanna, Geetika; Sato, Takashi S. P.; Ferguson, Polly (2009). “Imaging of Chronic Recurrent Multifocal Osteomyelitis”. RadioGraphics. 29 (4): 1159–1177. doi:10.1148/rg.294085244. ISSN 0271-5333.
- ↑ Madhusmita Misra, Daniele Pacaud, Anna Petryk, Paulo Ferrez Collett-Solberg & Michael Kappy (2008). “Vitamin D deficiency in children and its management: review of current knowledge and recommendations”. Pediatrics. 122 (2): 398–417. doi:10.1542/peds.2007-1894. PMID 18676559. Unknown parameter
|month=ignored (help) - ↑ Ecklund, K.; Doria, Andrea S.; Jaramillo, Diego (1999). “Rickets on MR images”. Pediatric Radiology. 29 (9): 673–675. doi:10.1007/s002470050673. ISSN 0301-0449.
- ↑ Siebenhaar, F.; Weller, K.; Mlynek, A.; Magerl, M.; Altrichter, S.; Vieira dos Santos, R.; Maurer, M.; Zuberbier, T. (2007). “Acquired cold urticaria: clinical picture and update on diagnosis and treatment”. Clinical and Experimental Dermatology. 32 (3): 241–245. doi:10.1111/j.1365-2230.2007.02376.x. ISSN 0307-6938.
- ↑ Krause, Karoline; Zuberbier, Torsten; Maurer, Marcus (2010). “Modern Approaches to the Diagnosis and Treatment of Cold Contact Urticaria”. Current Allergy and Asthma Reports. 10 (4): 243–249. doi:10.1007/s11882-010-0121-3. ISSN 1529-7322.
- ↑ de Koning, Heleen D.; Bodar, Evelien J.; van der Meer, Jos W.M.; Simon, Anna (2007). “Schnitzler Syndrome: Beyond the Case Reports: Review and Follow-Up of 94 Patients with an Emphasis on Prognosis and Treatment”. Seminars in Arthritis and Rheumatism. 37 (3): 137–148. doi:10.1016/j.semarthrit.2007.04.001. ISSN 0049-0172.
- ↑ Aksentijevich, Ivona; Masters, Seth L.; Ferguson, Polly J.; Dancey, Paul; Frenkel, Joost; van Royen-Kerkhoff, Annet; Laxer, Ron; Tedgård, Ulf; Cowen, Edward W.; Pham, Tuyet-Hang; Booty, Matthew; Estes, Jacob D.; Sandler, Netanya G.; Plass, Nicole; Stone, Deborah L.; Turner, Maria L.; Hill, Suvimol; Butman, John A.; Schneider, Rayfel; Babyn, Paul; El-Shanti, Hatem I.; Pope, Elena; Barron, Karyl; Bing, Xinyu; Laurence, Arian; Lee, Chyi-Chia R.; Chapelle, Dawn; Clarke, Gillian I.; Ohson, Kamal; Nicholson, Marc; Gadina, Massimo; Yang, Barbara; Korman, Benjamin D.; Gregersen, Peter K.; van Hagen, P. Martin; Hak, A. Elisabeth; Huizing, Marjan; Rahman, Proton; Douek, Daniel C.; Remmers, Elaine F.; Kastner, Daniel L.; Goldbach-Mansky, Raphaela (2009). “An Autoinflammatory Disease with Deficiency of the Interleukin-1–Receptor Antagonist”. New England Journal of Medicine. 360 (23): 2426–2437. doi:10.1056/NEJMoa0807865. ISSN 0028-4793.
- ↑ Gurion, R.; Lehman, T. J. A.; Moorthy, L. N. (2012). “Systemic Arthritis in Children: A Review of Clinical Presentation and Treatment”. International Journal of Inflammation. 2012: 1–16. doi:10.1155/2012/271569. ISSN 2090-8040.
- ↑ Efthimiou, P (2006). “Diagnosis and management of adult onset Still’s disease”. Annals of the Rheumatic Diseases. 65 (5): 564–572. doi:10.1136/ard.2005.042143. ISSN 0003-4967.
Epidemiology and Demographics
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
The incidence cryopyrin-associated periodic syndrome is approximately 0.0343 per 100,000 individuals aged 16 years old or younger worldwide. The prevalence of cryopyrin-associated periodic syndrome is approximately 0.1 per 100,000 individuals worldwide. CAPS is usually first presented in the infancy. There is no racial predilection to cryopyrin-associated periodic syndrome. Cryopyrin-associated periodic syndrome affects men and women equally. The majority of CAPS cases are reported in Europe.
Epidemiology and Demographics
Incidence
- The incidence cryopyrin-associated periodic syndrome is approximately 0.0343 per 100,000 individuals aged 16 years old or younger worldwide.[1]
Prevalence
- The prevalence of cryopyrin-associated periodic syndrome is approximately 0.1 per 100,000 individuals worldwide.[2]
Age
- CAPS is usually first presented in the infancy. However, due to the vague nature of the symptom, diagnosis may be delayed until childhood or longer.[3]
Race
Gender
- Cryopyrin-associated periodic syndrome affects men and women equally.[4]
Region
- The majority of CAPS cases are reported in Europe.[3]
References
- ↑ Lainka, E.; Neudorf, U.; Lohse, P.; Timmann, C.; Bielak, M.; Stojanov, S.; Huss, K.; Kries, R. von; Niehues, T. (2010). “Analysis of Cryopyrin-Associated Periodic Syndromes (CAPS) in German Children: Epidemiological, Clinical and Genetic Characteristics”. Klinische Pädiatrie. 222 (06): 356–361. doi:10.1055/s-0030-1265181. ISSN 0300-8630.
- ↑ Mehr, Sam; Allen, Roger; Boros, Christina; Adib, Navid; Kakakios, Alyson; Turner, Paul J; Rogers, Maureen; Zurynski, Yvonne; Singh-Grewal, Davinder (2016). “Cryopyrin-associated periodic syndrome in Australian children and adults: Epidemiological, clinical and treatment characteristics”. Journal of Paediatrics and Child Health. 52 (9): 889–895. doi:10.1111/jpc.13270. ISSN 1034-4810.
- ↑ 3.0 3.1 Kastner, D. L. (2005). “Hereditary Periodic Fever Syndromes”. Hematology. 2005 (1): 74–81. doi:10.1182/asheducation-2005.1.74. ISSN 1520-4391.
- ↑ 4.0 4.1 Cuisset, L.; Jeru, I.; Dumont, B.; Fabre, A.; Cochet, E.; Le Bozec, J.; Delpech, M.; Amselem, S.; Touitou, I. (2010). “Mutations in the autoinflammatory cryopyrin-associated periodic syndrome gene: epidemiological study and lessons from eight years of genetic analysis in France”. Annals of the Rheumatic Diseases. 70 (3): 495–499. doi:10.1136/ard.2010.138420. ISSN 0003-4967.
Risk Factors
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
There are no established risk factors for the cryopyrin-associated periodic syndrome.
Risk Factors
- There are no established risk factors for the cryopyrin-associated periodic syndrome.
References
Screening
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
There is insufficient evidence to recommend routine screening for the cryopyrin-associated periodic syndrome.
Screening
- There is insufficient evidence to recommend routine screening for the cryopyrin-associated periodic syndrome.
References
Natural History, Complications and Prognosis
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sahar Memar Montazerin, M.D.[2]
Overview
The symptoms of neonatal-onset multisystem inflammatory disease (NOMID) usually develops during infancy, and start with symptoms such as continuous often low-grade fever, skin rash, neurological involvement, and arthropathy. Some of the possible complications include, renal failure, amyloidosis, and destructive arthropathy. Prognosis of cryopyrin-associated periodic syndrome varies according to the clinical phenotype and other factors.
Natural History, Complications, and Prognosis
Natural History
Neonatal-onset multisystem inflammatory disease (NOMID)
- The symptoms of neonatal-onset multisystem inflammatory disease (NOMID) usually develops during infancy, and start with symptoms such as continuous often low-grade fever, skin rash, neurological involvement, and arthropathy.[1]
Muckle-Wells syndrome (MWS)
- Muckle-Wells syndrome (MWS), a moderate phenotype of cryopyrin-associated periodic syndrome, manifests with a typical urticarial rash and fever.[2]
FCAS
- FCAS, the mildest form of CAPS, present in infancy with recurrent, cold-induced episodes of fever, urticaria-like skin rash, arthralgia and conjunctivitis.[3]
- Symptoms tend to manifest in infancy, but it may present later in life, such as childhood or adolescence.[4]
- Episodes present 1 to 3 hour after cold or cooling exposure and may take 12 to 24 hours or longer.
Complications
- Common complications of neonatal-onset multisystem inflammatory disease (NOMID) include:[5][6]
- Hydrocephalus and increased intracranial pressure
- Optic nerve atrophy and progressive vision loss
- Cognitive delay
- Deforming arthropathy (30-40% 0f the cases)
- Sensorineural hearing loss
- Renal amyloidosis
- The two latter are observed more commonly among those with Muckle-Wells syndrome (MWS).[7]
Prognosis
- Prognosis of cryopyrin-associated periodic syndrome varies according to the clinical phenotype and other factors.[3]
- Factors associated with poor outcomes include:
- Early disease onset (before the age of 6 months)
- Prognosis of NOMID is not generally good, and disabling.[8]
- The presence of amyloidosis is associated with a particularly poor prognosis among patients with CAPS.
References
- ↑ Goldbach-Mansky, Raphaela; Dailey, Natalie J.; Canna, Scott W.; Gelabert, Ana; Jones, Janet; Rubin, Benjamin I.; Kim, H. Jeffrey; Brewer, Carmen; Zalewski, Christopher; Wiggs, Edythe; Hill, Suvimol; Turner, Maria L.; Karp, Barbara I.; Aksentijevich, Ivona; Pucino, Frank; Penzak, Scott R.; Haverkamp, Margje H.; Stein, Leonard; Adams, Barbara S.; Moore, Terry L.; Fuhlbrigge, Robert C.; Shaham, Bracha; Jarvis, James N.; O’Neil, Kathleen; Vehe, Richard K.; Beitz, Laurie O.; Gardner, Gregory; Hannan, William P.; Warren, Robert W.; Horn, William; Cole, Joe L.; Paul, Scott M.; Hawkins, Philip N.; Pham, Tuyet Hang; Snyder, Christopher; Wesley, Robert A.; Hoffmann, Steven C.; Holland, Steven M.; Butman, John A.; Kastner, Daniel L. (2006). “Neonatal-Onset Multisystem Inflammatory Disease Responsive to Interleukin-1β Inhibition”. New England Journal of Medicine. 355 (6): 581–592. doi:10.1056/NEJMoa055137. ISSN 0028-4793.
- ↑ Fingerhutová, Šárka; Fráňová, Jana; Hlaváčková, Eva; Jančová, Eva; Procházková, Leona; Beránková, Kamila; Tesařová, Markéta; Honsová, Eva; Doležalová, Pavla (2019). “Muckle-Wells Syndrome Across Four Generations in One Czech Family: Natural Course of the Disease”. Frontiers in Immunology. 10. doi:10.3389/fimmu.2019.00802. ISSN 1664-3224.
- ↑ 3.0 3.1 Levy, R; Gérard, L; Kuemmerle-Deschner, J; Lachmann, H J; Koné-Paut, I; Cantarini, L; Woo, P; Naselli, A; Bader-Meunier, B; Insalaco, A; Al-Mayouf, S M; Ozen, S; Hofer, M; Frenkel, J; Modesto, C; Nikishina, I; Schwarz, T; Martino, S; Meini, A; Quartier, P; Martini, A; Ruperto, N; Neven, B; Gattorno, M (2015). “Phenotypic and genotypic characteristics of cryopyrin-associated periodic syndrome: a series of 136 patients from the Eurofever Registry”. Annals of the Rheumatic Diseases. 74 (11): 2043–2049. doi:10.1136/annrheumdis-2013-204991. ISSN 0003-4967.
- ↑ Kastner, D. L. (2005). “Hereditary Periodic Fever Syndromes”. Hematology. 2005 (1): 74–81. doi:10.1182/asheducation-2005.1.74. ISSN 1520-4391.
- ↑ Sibley, Cailin H.; Plass, Nikki; Snow, Joseph; Wiggs, Edythe A.; Brewer, Carmen C.; King, Kelly A.; Zalewski, Christopher; Kim, H. Jeffrey; Bishop, Rachel; Hill, Suvimol; Paul, Scott M.; Kicker, Patrick; Phillips, Zachary; Dolan, Joseph G.; Widemann, Brigitte; Jayaprakash, Nalini; Pucino, Frank; Stone, Deborah L.; Chapelle, Dawn; Snyder, Christopher; Butman, John A.; Wesley, Robert; Goldbach-Mansky, Raphaela (2012). “Sustained response and prevention of damage progression in patients with neonatal-onset multisystem inflammatory disease treated with anakinra: A cohort study to determine three- and five-year outcomes”. Arthritis & Rheumatism. 64 (7): 2375–2386. doi:10.1002/art.34409. ISSN 0004-3591.
- ↑ Hill, Suvimol Chirathivat; Namde, Madjimbaye; Dwyer, Andrew; Poznanski, Andrew; Canna, Scott; Goldbach-Mansky, Raphaela (2006). “Arthropathy of neonatal onset multisystem inflammatory disease (NOMID/CINCA)”. Pediatric Radiology. 37 (2): 145–152. doi:10.1007/s00247-006-0358-0. ISSN 0301-0449.
- ↑ Kuemmerle-Deschner, Jasmin B.; Koitschev, Assen; Ummenhofer, Katharina; Hansmann, Sandra; Plontke, Stefan K.; Koitschev, Christiane; Koetter, Ina; Angermair, Eva; Benseler, Susanne M. (2013). “Hearing loss in Muckle-Wells syndrome”. Arthritis & Rheumatism. 65 (3): 824–831. doi:10.1002/art.37810. ISSN 0004-3591.
- ↑ Sridharan, Radhika; Mohd Zaki, Faizah; Sook Pei, Tan; Swee Ping, Tang; Ibrahim, Sharaf (2012). “NOMID: The radiographic and MRI features and review of literature”. Journal of Radiology Case Reports. 6 (3). doi:10.3941/jrcr.v6i3.745. ISSN 1943-0922.
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