Adult-onset Still's disease pathophysiology: Difference between revisions
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__NOTOC__ | __NOTOC__ | ||
{{Adult-onset Still’s disease}} | |||
{{Adult-onset | {{CMG}}; {{AE}} {{HK}} | ||
{{CMG}}; {{AE}} | |||
==Overview== | ==Overview== | ||
Adult-onset Still's disease (AOSD) is an [[Autoimmunity|autoimmune]] inflammatory arthritis that typically affects adolescents and adults ranging from age 16-40 years. Major [[Etiology|etiological]] mechanisms behind cause a dysfunction of the [[Innate immunity|innate]] and [[cellular immunity]] (limited) leading to activation of effector [[Cells (biology)|cells]] of the disease. Although the [[pathogenesis]] of adult-onset Still's disease is largely knwon to be [[idiopathic]]. Triggers of AOSD lead to activation of [[toll-like receptors]] (TLR) and activation of [[immune system]]. [[Pathogen-associated molecular pattern|Pathogen-associated molecular patterns]] ([[Pathogen-associated molecular pattern|PAMPs]]) and danger-associated molecular patterns (DAMPs) play an important role in the etiopathogenesis of AOSD. They lead to release of various [[cytokines]] in the body such as [[Interleukin 1 beta|interleukin-1 beta]] ([[IL-1]]), [[interleukin-6]] ([[Interleukin 6|IL-6]]), [[Interleukin 17|interleukin-17]], [[Interleukin 18|interleukin-18]], interferon-alpha (IFN-alpha) and tumor necrosis factor (TNF-alpha). These cytokines play major roles in modifying the normal working of the body and produce the typical clinical pictiure associated with AOSD. Some distinct HLA alleles have been shown to be associated with AOSD such as [[HLA-DR4]], HLA-Bw35 (associated with good [[prognosis]]), [[HLA-DRB1]], HLA-DRw6 ([[joint]] root involvement), HLA-B17, HLA-B35 and HLA-DR2. On gross examination, the involved joints may exhibit [[soft tissue]] swelling, [[cartilage]] loss, [[joint]] erosions and [[carpal]] [[ankylosis]] (late during the disease process). On microscopic examination of the joint fluid, typical features associated with inflammatory joint disease may be observed. | |||
==Pathophysiology== | ==Pathophysiology== | ||
Adult-onset Still's disease is an | Adult-onset Still's disease is an [[autoimmune]] [[inflammatory]] [[arthritis]] that typically affects adolescents and adults ranging from age 16-40 years. Major etiological mechanisms behind cause a dysfunction of the [[Innate immunity|innate]] and [[cellular immunity]] (limited) leading to activation of [[Effector cell|effector cells]] of the disease. | ||
=== Putative triggers === | === Putative triggers === | ||
Although the pathogenesis of adult-onset Still's disease is | Although the [[pathogenesis]] of adult-onset Still's disease is largely known to be [[idiopathic]]. Triggers of AOSD lead to activation of [[toll-like receptors]] (TLR) and activation of [[immune system]]. The following triggers may be implicated as factors responsible for generating key [[pathological]] processes occurring in adult-onset Still's disease (AOSD):<ref name="pmid11247732">{{cite journal |vauthors=Perez C, Artola V |title=Adult Still's disease associated with Mycoplasma pneumoniae infection |journal=Clin. Infect. Dis. |volume=32 |issue=6 |pages=E105–6 |date=March 2001 |pmid=11247732 |doi=10.1086/319342 |url=}}</ref><ref name="pmid21918897">{{cite journal |vauthors=Dua J, Nandagudi A, Sutcliffe N |title=Mycoplasma pneumoniae infection associated with urticarial vasculitis mimicking adult-onset Still's disease |journal=Rheumatol. Int. |volume=32 |issue=12 |pages=4053–6 |date=December 2012 |pmid=21918897 |doi=10.1007/s00296-011-2107-4 |url=}}</ref><ref name="pmid10885978">{{cite journal |vauthors=Escudero FJ, Len O, Falcó V, de Sevilla TF, Sellas A |title=Rubella infection in adult onset Still's disease |journal=Ann. Rheum. Dis. |volume=59 |issue=6 |pages=493 |date=June 2000 |pmid=10885978 |pmc=1753159 |doi= |url=}}</ref><ref name="pmid16949136">{{cite journal |vauthors=Efthimiou P, Georgy S |title=Pathogenesis and management of adult-onset Still's disease |journal=Semin. Arthritis Rheum. |volume=36 |issue=3 |pages=144–52 |date=December 2006 |pmid=16949136 |doi=10.1016/j.semarthrit.2006.07.001 |url=}}</ref><ref name="pmid3178317">{{cite journal |vauthors=Wouters JM, van der Veen J, van de Putte LB, de Rooij DJ |title=Adult onset Still's disease and viral infections |journal=Ann. Rheum. Dis. |volume=47 |issue=9 |pages=764–7 |date=September 1988 |pmid=3178317 |pmc=1003594 |doi= |url=}}</ref><ref name="pmid48775">{{cite journal |vauthors=Ogra PL, Chiba Y, Ogra SS, Dzierba JL, Herd JK |title=Rubella-virus infection in juvenile rheumatoid arthritis |journal=Lancet |volume=1 |issue=7917 |pages=1157–61 |date=May 1975 |pmid=48775 |doi= |url=}}</ref><ref name="pmid1081377">{{cite journal |vauthors=Linnemann CC, Levinson JE, Buncher CR, Schiff GM |title=Rubella antibody levels in juvenile rheumatoid arthritis |journal=Ann. Rheum. Dis. |volume=34 |issue=4 |pages=354–8 |date=August 1975 |pmid=1081377 |pmc=1006427 |doi= |url=}}</ref><ref name="pmid737022">{{cite journal |vauthors=Blotzer JW, Myers AR |title=Echovirus-associated polyarthritis. Report of a case with synovial fluid and synovial histologic characterization |journal=Arthritis Rheum. |volume=21 |issue=8 |pages=978–81 |date=1978 |pmid=737022 |doi= |url=}}</ref> | ||
'''Pathogen-associated molecular patterns (PAMPs)''' | '''Pathogen-associated molecular patterns (PAMPs)''' | ||
* Bacteria | * ''Bacteria'' | ||
** Yersinia enterocolitica | ** [[Yersinia enterocolitica]] | ||
** Chlamydophila pneumoniae | ** [[Chlamydophila pneumoniae]] | ||
** Brucella abortus | ** [[Brucellosis|Brucella abortus]] | ||
** Borrelia burgdorferi | ** [[Borrelia burgdorferi]] | ||
* Viruses | * ''Viruses'' | ||
** Rubella | ** [[Rubella]] | ||
** Echovirus 7 | ** [[Echovirus]] 7 | ||
** Mumps | ** [[Mumps]] | ||
** Cytomegalovirus (CMV) | ** [[Cytomegalovirus]] ([[Cytomegalovirus infection|CMV]]) | ||
* Fungi | * ''Fungi'' | ||
'''Danger-associated molecular patterns (DAMPs)''' | '''Danger-associated molecular patterns (DAMPs)''' | ||
* Chemicals | * Chemicals | ||
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=== Immune dysfunction === | === Immune dysfunction === | ||
Both innate and adaptive immunity play roles in the pathological evolution of adult-onset Still's disease with the dysfunction occurring in the innate immunity predominating the picture. The following dysfunctions are involved: | Both [[Innate immunity|innate]] and [[Adaptive immune system|adaptive immunity]] play roles in the [[pathological]] evolution of adult-onset Still's disease with the dysfunction occurring in the [[innate immunity]] predominating the picture. The following dysfunctions are involved: | ||
'''Changes in the innate immunity''' | '''Changes in the innate immunity''' | ||
* Natural killer cells have been found to be decreased in patients with | * [[Natural killer cells]] have been found to be decreased in patients with AOSD. The mechanism underlying dysfunctional [[NK cells]] is a defect in [[Interleukin-18 receptor|IL-18 receptor]] β [[phosphorylation]].<ref name="de JagerVastert2009">{{cite journal|last1=de Jager|first1=Wilco|last2=Vastert|first2=Sebastiaan J.|last3=Beekman|first3=Jeffrey M.|last4=Wulffraat|first4=Nico M.|last5=Kuis|first5=Wietse|last6=Coffer|first6=Paul J.|last7=Prakken|first7=Berent J.|title=Defective phosphorylation of interleukin-18 receptor β causes impaired natural killer cell function in systemic-onset juvenile idiopathic arthritis|journal=Arthritis & Rheumatism|volume=60|issue=9|year=2009|pages=2782–2793|issn=00043591|doi=10.1002/art.24750}}</ref> | ||
* Neutrophil and macrophage activation lie at the heart of pathogenesis of | * [[Neutrophil]] and [[macrophage]] activation lie at the heart of [[pathogenesis]] of AOSD due to the effects of the proinflammatory [[Interleukin-18 receptor|interleukin-18]] ([[Interleukin 18|IL-18]]) signalling. | ||
* CD64, a marker of neutrophil activation has been found to be upregulated in active | * [[CD64 (biology)|CD64]], a marker of [[neutrophil]] activation has been found to be upregulated in active AOSD.<ref name="pmid22420333">{{cite journal |vauthors=Komiya A, Matsui T, Nogi S, Iwata K, Futami H, Takaoka H, Arinuma Y, Hashimoto A, Shimada K, Ikenaka T, Nakayama H, Furukawa H, Tohma S |title=Neutrophil CD64 is upregulated in patients with active adult-onset Still's disease |journal=Scand. J. Rheumatol. |volume=41 |issue=2 |pages=156–8 |date=March 2012 |pmid=22420333 |doi=10.3109/03009742.2011.644325 |url=}}</ref> | ||
* Macrophage colony stimulating factor (MCSF), intercellular adhesion molecule-1 (ICAM-1) and calprotectin are elevated and act as markers of active disease.<ref name="pmid15934126">{{cite journal |vauthors=Chen DY, Lan JL, Lin FJ, Hsieh TY |title=Association of intercellular adhesion molecule-1 with clinical manifestations and interleukin-18 in patients with active, untreated adult-onset Still's disease |journal=Arthritis Rheum. |volume=53 |issue=3 |pages=320–7 |date=June 2005 |pmid=15934126 |doi=10.1002/art.21164 |url=}}</ref><ref name="pmid10371293">{{cite journal |vauthors=Matsui K, Tsuchida T, Hiroishi K, Tominaga K, Hayashi N, Hada T, Higashino K |title=High serum level of macrophage-colony stimulating factor (M-CSF) in adult-onset Still's disease |journal=Rheumatology (Oxford) |volume=38 |issue=5 |pages=477–8 |date=May 1999 |pmid=10371293 |doi= |url=}}</ref> | * [[Macrophage]] colony stimulating factor (MCSF), [[intercellular adhesion molecule-1]] ([[ICAM-1]]) and calprotectin are elevated and act as markers of active disease.<ref name="pmid15934126">{{cite journal |vauthors=Chen DY, Lan JL, Lin FJ, Hsieh TY |title=Association of intercellular adhesion molecule-1 with clinical manifestations and interleukin-18 in patients with active, untreated adult-onset Still's disease |journal=Arthritis Rheum. |volume=53 |issue=3 |pages=320–7 |date=June 2005 |pmid=15934126 |doi=10.1002/art.21164 |url=}}</ref><ref name="pmid10371293">{{cite journal |vauthors=Matsui K, Tsuchida T, Hiroishi K, Tominaga K, Hayashi N, Hada T, Higashino K |title=High serum level of macrophage-colony stimulating factor (M-CSF) in adult-onset Still's disease |journal=Rheumatology (Oxford) |volume=38 |issue=5 |pages=477–8 |date=May 1999 |pmid=10371293 |doi= |url=}}</ref> | ||
'''Changes in the adaptive immunity''' | '''Changes in the adaptive immunity''' | ||
* T cell activation has also been shown to play role in the pathogenesis of | * [[T cell]] activation has also been shown to play role in the [[pathogenesis]] of AOSD with [[T helper cell|Th1]] ([[Cytotoxic T cell|cytotoxic]]) subset prevailing over [[Th2 cell|Th2 CD4+ T cells]]. | ||
* Increased number of Th17 cells derived from the differentiation of | * Increased number of [[T helper 17 cell|Th17 cells]] derived from the differentiation of naive [[CD4+ T cells]] due to to activation by [[interleukin-1]] beta, [[Transforming growth factor-β|transforming growth factor-beta]] and [[Interleukin 6|interleukin- 6]] is also seen in active AOSD. <ref name="pmid20837500">{{cite journal |vauthors=Chen DY, Chen YM, Lan JL, Lin CC, Chen HH, Hsieh CW |title=Potential role of Th17 cells in the pathogenesis of adult-onset Still's disease |journal=Rheumatology (Oxford) |volume=49 |issue=12 |pages=2305–12 |date=December 2010 |pmid=20837500 |doi=10.1093/rheumatology/keq284 |url=}}</ref><ref name="pmid16200068">{{cite journal |vauthors=Park H, Li Z, Yang XO, Chang SH, Nurieva R, Wang YH, Wang Y, Hood L, Zhu Z, Tian Q, Dong C |title=A distinct lineage of CD4 T cells regulates tissue inflammation by producing interleukin 17 |journal=Nat. Immunol. |volume=6 |issue=11 |pages=1133–41 |date=November 2005 |pmid=16200068 |pmc=1618871 |doi=10.1038/ni1261 |url=}}</ref> | ||
=== Role of interleukin-1 beta (IL-1), interleukin-6 (IL-6), interferon-alpha (IFN-alpha) and tumor necrosis factor (TNF-alpha) === | === Role of interleukin-1 beta (IL-1), interleukin-6 (IL-6), interferon-alpha (IFN-alpha) and tumor necrosis factor (TNF-alpha) === | ||
Interleukin- | [[Interleukin-1]] beta plays a key role in producing major characteristic features of adult-onset Still's disease. [[Pathogen-associated molecular pattern|PAMPs]] and DAMPs lead to stimulation of protein complex nucleotide-binding oligomerization-domain-([[NOD1|NOD]]-) like receptor family, pyrin domain containing 3 (NLRP3) inflammasome (expressed in myeloid cells). The consequence of all these trigger-stimulated [[NOD1|NOD]] and NLRP increasing interactions is an increased production of [[interleukin-1]] beta.<ref name="pmid15851489">{{cite journal |vauthors=Pascual V, Allantaz F, Arce E, Punaro M, Banchereau J |title=Role of interleukin-1 (IL-1) in the pathogenesis of systemic onset juvenile idiopathic arthritis and clinical response to IL-1 blockade |journal=J. Exp. Med. |volume=201 |issue=9 |pages=1479–86 |date=May 2005 |pmid=15851489 |pmc=2213182 |doi=10.1084/jem.20050473 |url=}}</ref>The following processes are affected by an increased production of this key [[interleukin]] of AOSD: | ||
'''(a) Hypothalamic-pituitary axis influence''' | '''(a) Hypothalamic-pituitary axis influence''' | ||
Activation of the | Activation of the [[hypothalamic]]-[[Pituitary gland|pituitary]] axis by [[Interleukin 1 beta|interleukin-1 beta]] lead to the following changes: | ||
'''''Hormonal''''' | '''''Hormonal''''' | ||
* An increased secretion of | * An increased secretion of [[Adrenocorticotropic hormone|adrenocorticotrophic hormone]] ([[Adrenocorticotropic hormone|ACTH]]) and [[anti-diuretic hormone]] ([[Antidiuretic hormone|ADH]]). | ||
* A decreased secretion of growth hormone (GH) and somatostatin.<ref name="pmid5915585">{{cite journal |vauthors=Ward DJ, Hartog M, Ansell BM |title=Corticosteroid-induced dwarfism in Still's disease treated with human growth hormone. Clinical and metabolic effects including hydroxyproline excretion in two cases |journal=Ann. Rheum. Dis. |volume=25 |issue=5 |pages=416–21 |date=September 1966 |pmid=5915585 |pmc=2453455 |doi= |url=}}</ref> | * A decreased secretion of [[growth hormone]] ([[Growth hormone|GH]]) and [[somatostatin]].<ref name="pmid5915585">{{cite journal |vauthors=Ward DJ, Hartog M, Ansell BM |title=Corticosteroid-induced dwarfism in Still's disease treated with human growth hormone. Clinical and metabolic effects including hydroxyproline excretion in two cases |journal=Ann. Rheum. Dis. |volume=25 |issue=5 |pages=416–21 |date=September 1966 |pmid=5915585 |pmc=2453455 |doi= |url=}}</ref> | ||
'''''Systemic''''' | '''''Systemic''''' | ||
* Disturbance of the | * Disturbance of the [[Thalamus|thalamic]] temperature regulating centres leading to [[fever]].<ref name="urlonlinelibrary.wiley.com">{{cite web |url=https://onlinelibrary.wiley.com/doi/pdf/10.1002/art.1780090112 |title=onlinelibrary.wiley.com |format= |work= |accessdate=}}</ref> | ||
* Fatigue<ref name="pmid22611516">{{cite journal |vauthors=Rossi-Semerano L, Koné-Paut I |title=Is Still's Disease an Autoinflammatory Syndrome? |journal=Int J Inflam |volume=2012 |issue= |pages=480373 |date=2012 |pmid=22611516 |pmc=3350968 |doi=10.1155/2012/480373 |url=}}</ref> | * [[Fatigue]]<ref name="pmid22611516">{{cite journal |vauthors=Rossi-Semerano L, Koné-Paut I |title=Is Still's Disease an Autoinflammatory Syndrome? |journal=Int J Inflam |volume=2012 |issue= |pages=480373 |date=2012 |pmid=22611516 |pmc=3350968 |doi=10.1155/2012/480373 |url=}}</ref> | ||
* Anorexia<ref name="pmid226115162">{{cite journal |vauthors=Rossi-Semerano L, Koné-Paut I |title=Is Still's Disease an Autoinflammatory Syndrome? |journal=Int J Inflam |volume=2012 |issue= |pages=480373 |date=2012 |pmid=22611516 |pmc=3350968 |doi=10.1155/2012/480373 |url=}}</ref> | * [[Anorexia]]<ref name="pmid226115162">{{cite journal |vauthors=Rossi-Semerano L, Koné-Paut I |title=Is Still's Disease an Autoinflammatory Syndrome? |journal=Int J Inflam |volume=2012 |issue= |pages=480373 |date=2012 |pmid=22611516 |pmc=3350968 |doi=10.1155/2012/480373 |url=}}</ref> | ||
'''(b) Liver synthesis and secretion of acute phase proteins''' | '''(b) Liver synthesis and secretion of acute phase proteins''' | ||
Both interleukin-1 beta, interleukin-6 and interferon-alpha (IFN-alpha) lead to increased production of acute phase reactants by the liver due to inflammatory and oxidative stress occurring during active | Both [[Interleukin 1 beta|interleukin-1 beta]], [[interleukin-6]] and [[interferon-alpha]] ([[Interferon alpha|IFN-alpha]]) lead to increased production of [[Acute phase reactant|acute phase reactants]] by the [[liver]] due to [[inflammatory]] and [[oxidative stress]] occurring during active AOSD. The following [[Acute phase reactant|acute phase reactant proteins]] are elevated in AOSD as a result of increased [[liver]] production:<ref name="pmid12184429">{{cite journal |vauthors=Fautrel B |title=Ferritin levels in adult Still's disease: any sugar? |journal=Joint Bone Spine |volume=69 |issue=4 |pages=355–7 |date=June 2002 |pmid=12184429 |doi= |url=}}</ref><ref name="pmid118864362">{{cite journal |vauthors=Stam TC, Swaak AJ, Kruit WH, Eggermont AM |title=Regulation of ferritin: a specific role for interferon-alpha (IFN-alpha)? The acute phase response in patients treated with IFN-alpha-2b |journal=Eur. J. Clin. Invest. |volume=32 Suppl 1 |issue= |pages=79–83 |date=March 2002 |pmid=11886436 |doi= |url=}}</ref> | ||
* C-reactive protein (CRP) | * [[C-reactive protein (CRP)|C-reactive protein]] ([[C-reactive protein|CRP]]) | ||
* Ferritin | * [[Ferritin]] | ||
* Serum amyloid protein (SAA) | * [[Serum amyloid A|Serum amyloid protein]] (SAA) | ||
'''(c) Osteoclasts activation and matrix metalloproteinases (MMPs) synthesis''' | '''(c) Osteoclasts activation and matrix metalloproteinases (MMPs) synthesis''' | ||
Interleukin-1 and TNF-alpha have been shown to inhibit chondrogenesis leading to decreased repair process of bone and cartilage in | [[Interleukin-1]] and [[TNF-alpha]] have been shown to inhibit [[chondrogenesis]] leading to decreased repair process of [[bone]] and [[cartilage]] in AOSD.<ref name="WehlingPalmer2009">{{cite journal|last1=Wehling|first1=N.|last2=Palmer|first2=G. D.|last3=Pilapil|first3=C.|last4=Liu|first4=F.|last5=Wells|first5=J. W.|last6=Müller|first6=P. E.|last7=Evans|first7=C. H.|last8=Porter|first8=R. M.|title=Interleukin-1β and tumor necrosis factor α inhibit chondrogenesis by human mesenchymal stem cells through NF-κB-dependent pathways|journal=Arthritis & Rheumatism|volume=60|issue=3|year=2009|pages=801–812|issn=00043591|doi=10.1002/art.24352}}</ref> | ||
'''(d) Innate immune system cells activation''' | '''(d) Innate immune system cells activation''' | ||
Effector cells of the innate immune system such as macrophages and neutrophils are activated mainly due to interleukin-1. The neutrophil to lymphocyte count ratio is increased due to elevated neutrophils.<ref name="pmid28723775">{{cite journal |vauthors=Seo JY, Suh CH, Jung JY, Kim AR, Yang JW, Kim HA |title=The neutrophil-to-lymphocyte ratio could be a good diagnostic marker and predictor of relapse in patients with adult-onset Still's disease: A STROBE-compliant retrospective observational analysis |journal=Medicine (Baltimore) |volume=96 |issue=29 |pages=e7546 |date=July 2017 |pmid=28723775 |pmc=5521915 |doi=10.1097/MD.0000000000007546 |url=}}</ref> | [[Effector cell|Effector cells]] of the [[innate immune system]] such as [[macrophages]] and [[neutrophils]] are activated mainly due to [[interleukin-1]]. The [[neutrophil]] to [[lymphocyte]] count ratio is increased due to elevated [[neutrophils]].<ref name="pmid28723775">{{cite journal |vauthors=Seo JY, Suh CH, Jung JY, Kim AR, Yang JW, Kim HA |title=The neutrophil-to-lymphocyte ratio could be a good diagnostic marker and predictor of relapse in patients with adult-onset Still's disease: A STROBE-compliant retrospective observational analysis |journal=Medicine (Baltimore) |volume=96 |issue=29 |pages=e7546 |date=July 2017 |pmid=28723775 |pmc=5521915 |doi=10.1097/MD.0000000000007546 |url=}}</ref> | ||
'''(e) Increased gene transcription of proinflammatory molecules''' | '''(e) Increased gene transcription of proinflammatory molecules''' | ||
The following proinflammatory factors are produced in an increased concentration in | The following proinflammatory factors are produced in an increased concentration in AOSD: | ||
* Inducible nitric oxide synthase (iNOS)<ref name="pmid10952018">{{cite journal |vauthors=Zamora R, Vodovotz Y, Billiar TR |title=Inducible nitric oxide synthase and inflammatory diseases |journal=Mol. Med. |volume=6 |issue=5 |pages=347–73 |date=May 2000 |pmid=10952018 |pmc=1949959 |doi= |url=}}</ref> | * Inducible nitric oxide synthase (iNOS)<ref name="pmid10952018">{{cite journal |vauthors=Zamora R, Vodovotz Y, Billiar TR |title=Inducible nitric oxide synthase and inflammatory diseases |journal=Mol. Med. |volume=6 |issue=5 |pages=347–73 |date=May 2000 |pmid=10952018 |pmc=1949959 |doi= |url=}}</ref> | ||
* | * [[Interleukin 1]], [[Interleukin 6|6]] and [[Tumor necrosis factor-alpha|TNF-alpha]] induced [[COX2|cyclo-oxygenase 2]] ([[COX2]])<ref name="pmid10704080">{{cite journal |vauthors=García JE, López AM, de Cabo MR, Rodríguez FM, Losada JP, Sarmiento RG, López AJ, Arellano JL |title=Cyclosporin A decreases human macrophage interleukin-6 synthesis at post-transcriptional level |journal=Mediators Inflamm. |volume=8 |issue=4-5 |pages=253–9 |date=1999 |pmid=10704080 |pmc=1781800 |doi=10.1080/09629359990423 |url=}}</ref> | ||
* Phospholipase A2<ref name="pmid480373">{{cite journal |vauthors=Woese CR |title=A proposal concerning the origin of life on the planet earth |journal=J. Mol. Evol. |volume=13 |issue=2 |pages=95–101 |date=July 1979 |pmid=480373 |doi= |url=}}</ref> | * [[Phospholipase A2]]<ref name="pmid480373">{{cite journal |vauthors=Woese CR |title=A proposal concerning the origin of life on the planet earth |journal=J. Mol. Evol. |volume=13 |issue=2 |pages=95–101 |date=July 1979 |pmid=480373 |doi= |url=}}</ref> | ||
* Intracellular adhesion molecules<ref name="pmid159341262">{{cite journal |vauthors=Chen DY, Lan JL, Lin FJ, Hsieh TY |title=Association of intercellular adhesion molecule-1 with clinical manifestations and interleukin-18 in patients with active, untreated adult-onset Still's disease |journal=Arthritis Rheum. |volume=53 |issue=3 |pages=320–7 |date=June 2005 |pmid=15934126 |doi=10.1002/art.21164 |url=}}</ref> | * [[Intracellular]] adhesion molecules<ref name="pmid159341262">{{cite journal |vauthors=Chen DY, Lan JL, Lin FJ, Hsieh TY |title=Association of intercellular adhesion molecule-1 with clinical manifestations and interleukin-18 in patients with active, untreated adult-onset Still's disease |journal=Arthritis Rheum. |volume=53 |issue=3 |pages=320–7 |date=June 2005 |pmid=15934126 |doi=10.1002/art.21164 |url=}}</ref> | ||
* Colony-stimulating factors ( | * [[Colony-stimulating factor|Colony-stimulating factors]] (C-SF)<ref name="pmid10707007">{{cite journal |vauthors=Takeshita A, Takeuchi T, Nakagawa A, Tsuda Y, Fukuda A, Nariyama K, Shibayama Y |title=Adult onset Still's disease with hemophagocytic syndrome and severe liver dysfunction |journal=Hepatol. Res. |volume=17 |issue=2 |pages=139–144 |date=May 2000 |pmid=10707007 |doi= |url=}}</ref> | ||
=== Role of interleukin-18 === | === Role of interleukin-18 === | ||
It is produced by macrophages and monocytes as a consequence of bacterial and viral infections (which are thought to be triggers of | It is produced by [[macrophages]] and [[monocytes]] as a consequence of [[bacterial]] and [[viral]] infections (which are thought to be triggers of AOSD).<ref name="pmid12355506">{{cite journal |vauthors=Maeno N, Takei S, Nomura Y, Imanaka H, Hokonohara M, Miyata K |title=Highly elevated serum levels of interleukin-18 in systemic juvenile idiopathic arthritis but not in other juvenile idiopathic arthritis subtypes or in Kawasaki disease: comment on the article by Kawashima et al |journal=Arthritis Rheum. |volume=46 |issue=9 |pages=2539–41; author reply 2541–2 |date=September 2002 |pmid=12355506 |doi=10.1002/art.10389 |url=}}</ref> A defective [[phosphorylation]] of [[Interleukin-18 receptor|IL-18 receptor]] is though to give rise to this dysfunction.<ref name="pmid19714583">{{cite journal |vauthors=de Jager W, Vastert SJ, Beekman JM, Wulffraat NM, Kuis W, Coffer PJ, Prakken BJ |title=Defective phosphorylation of interleukin-18 receptor beta causes impaired natural killer cell function in systemic-onset juvenile idiopathic arthritis |journal=Arthritis Rheum. |volume=60 |issue=9 |pages=2782–93 |date=September 2009 |pmid=19714583 |doi=10.1002/art.24750 |url=}}</ref> | ||
=== Role of interleukin-17 === | === Role of interleukin-17 === | ||
Th17 cells lead to an increased production of interleukin-17. The stimulaton of Th17 cells is drived by interleukin-1, transforming growth factor beta (TGF-beta) and interleukin-6.<ref name="pmid23497717">{{cite journal |vauthors=Chen DY, Lin CC, Chen YM, Lan JL, Hung WT, Chen HH, Lai KL, Hsieh CW |title=Involvement of TLR7 MyD88-dependent signaling pathway in the pathogenesis of adult-onset Still's disease |journal=Arthritis Res. Ther. |volume=15 |issue=2 |pages=R39 |date=March 2013 |pmid=23497717 |pmc=3672755 |doi=10.1186/ar4193 |url=}}</ref><ref name="pmid162000682">{{cite journal |vauthors=Park H, Li Z, Yang XO, Chang SH, Nurieva R, Wang YH, Wang Y, Hood L, Zhu Z, Tian Q, Dong C |title=A distinct lineage of CD4 T cells regulates tissue inflammation by producing interleukin 17 |journal=Nat. Immunol. |volume=6 |issue=11 |pages=1133–41 |date=November 2005 |pmid=16200068 |pmc=1618871 |doi=10.1038/ni1261 |url=}}</ref> | [[T helper 17 cell|Th17 cells]] lead to an increased production of [[Interleukin 17|interleukin-17]]. The stimulaton of [[T helper 17 cell|Th17 cells]] is drived by [[interleukin-1]], [[transforming growth factor beta]] ([[TGF-beta]]) and [[Interleukin 6|interleukin-6]].<ref name="pmid23497717">{{cite journal |vauthors=Chen DY, Lin CC, Chen YM, Lan JL, Hung WT, Chen HH, Lai KL, Hsieh CW |title=Involvement of TLR7 MyD88-dependent signaling pathway in the pathogenesis of adult-onset Still's disease |journal=Arthritis Res. Ther. |volume=15 |issue=2 |pages=R39 |date=March 2013 |pmid=23497717 |pmc=3672755 |doi=10.1186/ar4193 |url=}}</ref><ref name="pmid162000682">{{cite journal |vauthors=Park H, Li Z, Yang XO, Chang SH, Nurieva R, Wang YH, Wang Y, Hood L, Zhu Z, Tian Q, Dong C |title=A distinct lineage of CD4 T cells regulates tissue inflammation by producing interleukin 17 |journal=Nat. Immunol. |volume=6 |issue=11 |pages=1133–41 |date=November 2005 |pmid=16200068 |pmc=1618871 |doi=10.1038/ni1261 |url=}}</ref> | ||
=== Role of interferon gamma === | === Role of interferon gamma === | ||
Imblanced production of interferon-gamma is thought to be associated with | Imblanced production of [[interferon-gamma]] is thought to be associated with AOSD.<ref name="pmid24470448">{{cite journal |vauthors=Canna SW |title=Editorial: interferon-γ: friend or foe in systemic juvenile idiopathic arthritis and adult-onset Still's Disease? |journal=Arthritis Rheumatol |volume=66 |issue=5 |pages=1072–6 |date=May 2014 |pmid=24470448 |pmc=4181835 |doi=10.1002/art.38362 |url=}}</ref> Levels of the [[Interferon gamma|IFN-γ]]-induced [[chemokines]], [[CXCL9]], [[CXCL10]] and [[CXCL11]] are increased during active phase of AOSD.<ref name="pmid28436448">{{cite journal |vauthors=Han JH, Suh CH, Jung JY, Ahn MH, Han MH, Kwon JE, Yim H, Kim HA |title=Elevated circulating levels of the interferon-γ-induced chemokines are associated with disease activity and cutaneous manifestations in adult-onset Still's disease |journal=Sci Rep |volume=7 |issue= |pages=46652 |date=April 2017 |pmid=28436448 |pmc=5402387 |doi=10.1038/srep46652 |url=}}</ref> | ||
=== | ===Reactive hemophagocytic lymphohistiocytosis === | ||
[[Hemophagocytic lymphohistiocytosis]] (also known as [[Macrophage-activation syndrome|macrophage activation syndrome]]- MAS) is a severe life-threatening complication that may develop in patients of Still's disease.<ref name="pmid24290661">{{cite journal |vauthors=Ramos-Casals M, Brito-Zerón P, López-Guillermo A, Khamashta MA, Bosch X |title=Adult haemophagocytic syndrome |journal=Lancet |volume=383 |issue=9927 |pages=1503–1516 |date=April 2014 |pmid=24290661 |doi=10.1016/S0140-6736(13)61048-X |url=}}</ref><ref name="pmid25634183">{{cite journal |vauthors=Bae CB, Jung JY, Kim HA, Suh CH |title=Reactive hemophagocytic syndrome in adult-onset Still disease: clinical features, predictive factors, and prognosis in 21 patients |journal=Medicine (Baltimore) |volume=94 |issue=4 |pages=e451 |date=January 2015 |pmid=25634183 |pmc=4602979 |doi=10.1097/MD.0000000000000451 |url=}}</ref> [[Interleukin 1 beta|Interleukin 1-beta]] and [[interleukin 18]] mediated activation of [[macrophages]] eventually leads to secretion of [[interferon-gamma]] by the [[NK-cells|NK]] and [[CD8+ T cells]]. There is increased activation of [[T cells]] leading to hypersecretion of [[proinflammatory]] [[cytokines]], including [[interferon gamma]], [[Interleukin 1|interleukin (IL)-1]], [[Interleukin 6|IL-6]], [[Interleukin 18|IL-18]], and [[tumor necrosis factor alpha]] ([[TNF-alpha]]).<ref name="pmid15003190">{{cite journal |vauthors=Larroche C, Mouthon L |title=Pathogenesis of hemophagocytic syndrome (HPS) |journal=Autoimmun Rev |volume=3 |issue=2 |pages=69–75 |date=February 2004 |pmid=15003190 |doi=10.1016/S1568-9972(03)00091-0 |url=}}</ref><ref name="pmid22089101">{{cite journal |vauthors=Canna SW, Behrens EM |title=Not all hemophagocytes are created equally: appreciating the heterogeneity of the hemophagocytic syndromes |journal=Curr Opin Rheumatol |volume=24 |issue=1 |pages=113–8 |date=January 2012 |pmid=22089101 |pmc=3285509 |doi=10.1097/BOR.0b013e32834dd37e |url=}}</ref> | |||
==Genetics== | ==Genetics== | ||
Some distinct HLA alleles have been shown to be associated with AOSD. The following are the major HLA alleles:<ref name="WoutersReekers1986">{{cite journal|last1=Wouters|first1=Jacques M. G. W.|last2=Reekers|first2=Paul|last3=van de Putte|first3=Levinus B. A.|title=Adult-onset still's disease. Disease course and HLA associations|journal=Arthritis & Rheumatism|volume=29|issue=3|year=1986|pages=415–418|issn=00043591|doi=10.1002/art.1780290316}}</ref><ref name="pmid2005777">{{cite journal |vauthors=Pouchot J, Sampalis JS, Beaudet F, Carette S, Décary F, Salusinsky-Sternbach M, Hill RO, Gutkowski A, Harth M, Myhal D |title=Adult Still's disease: manifestations, disease course, and outcome in 62 patients |journal=Medicine (Baltimore) |volume=70 |issue=2 |pages=118–36 |date=March 1991 |pmid=2005777 |doi= |url=}}</ref> | |||
== | * [[HLA-DR4]] | ||
* HLA-Bw35 (associated with good [[prognosis]]) | |||
* [[HLA-DRB1]] | |||
* HLA-DRw6 (joint root involvement) | |||
* HLA-B17 | |||
* [[HLA-B35]] | |||
* [[HLA-DR2]] | |||
Genetic polymorphisms in genes encoding the following factors are known to be asosicated with AOSDL: | |||
* [[Interleukin 6|IL-6]] | |||
* [[IL-1]] | |||
* Macrophage inhibitory factor (MIF), or TNF i | |||
==Gross Pathology== | ==Gross Pathology== | ||
On gross examination, the involved joints may exhibit the following features:<ref name="pmid20057772">{{cite journal |vauthors=Pouchot J, Sampalis JS, Beaudet F, Carette S, Décary F, Salusinsky-Sternbach M, Hill RO, Gutkowski A, Harth M, Myhal D |title=Adult Still's disease: manifestations, disease course, and outcome in 62 patients |journal=Medicine (Baltimore) |volume=70 |issue=2 |pages=118–36 |date=March 1991 |pmid=2005777 |doi= |url=}}</ref> | |||
* [[Soft tissue]] swelling | |||
* [[Cartilage]] loss | |||
* [[Joint]] erosions | |||
* [[Carpal]] [[ankylosis]] | |||
==Microscopic Pathology== | ==Microscopic Pathology== | ||
On microscopic examination of the [[synovial fluid]], typical findings of [[inflammatory arthritis]] may be observed. The following table outlines the typical findings on [[synovial fluid]] examination of joints affected by AOSD: | |||
{| class="wikitable" | |||
! align="center" style="background:#4479BA; color: #FFFFFF;" + |Test | |||
! align="center" style="background:#4479BA; color: #FFFFFF;" + |Normal | |||
! align="center" style="background:#4479BA; color: #FFFFFF;" + |Inflammatory arthritis (AOSD, RA, crystal arthritis, spondyloarthritis) | |||
|- | |||
|Appearance | |||
|Clear | |||
|Clear to opaque (yellow white) | |||
|- | |||
|[[White blood cells|White blood cell]] count/mm3 | |||
|< 200 | |||
|> 2000 | |||
|- | |||
|[[Polymorphonuclear cells]] | |||
|< 25% | |||
|Greater than equal to 50% | |||
|- | |||
|Culture | |||
|Negative | |||
|Negative | |||
|- | |||
|[[Intracellular]] crystals | |||
|Negative | |||
|Positive only in crystal induced arthritis | |||
|} | |||
==References== | ==References== |
Latest revision as of 13:45, 3 May 2018
Adult-onset Still's disease |
Differentiating Adult-onset Still’s Disease from other Diseases |
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Diagnosis |
Treatment |
Case Studies |
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Syed Hassan A. Kazmi BSc, MD [2]
Overview
Adult-onset Still's disease (AOSD) is an autoimmune inflammatory arthritis that typically affects adolescents and adults ranging from age 16-40 years. Major etiological mechanisms behind cause a dysfunction of the innate and cellular immunity (limited) leading to activation of effector cells of the disease. Although the pathogenesis of adult-onset Still's disease is largely knwon to be idiopathic. Triggers of AOSD lead to activation of toll-like receptors (TLR) and activation of immune system. Pathogen-associated molecular patterns (PAMPs) and danger-associated molecular patterns (DAMPs) play an important role in the etiopathogenesis of AOSD. They lead to release of various cytokines in the body such as interleukin-1 beta (IL-1), interleukin-6 (IL-6), interleukin-17, interleukin-18, interferon-alpha (IFN-alpha) and tumor necrosis factor (TNF-alpha). These cytokines play major roles in modifying the normal working of the body and produce the typical clinical pictiure associated with AOSD. Some distinct HLA alleles have been shown to be associated with AOSD such as HLA-DR4, HLA-Bw35 (associated with good prognosis), HLA-DRB1, HLA-DRw6 (joint root involvement), HLA-B17, HLA-B35 and HLA-DR2. On gross examination, the involved joints may exhibit soft tissue swelling, cartilage loss, joint erosions and carpal ankylosis (late during the disease process). On microscopic examination of the joint fluid, typical features associated with inflammatory joint disease may be observed.
Pathophysiology
Adult-onset Still's disease is an autoimmune inflammatory arthritis that typically affects adolescents and adults ranging from age 16-40 years. Major etiological mechanisms behind cause a dysfunction of the innate and cellular immunity (limited) leading to activation of effector cells of the disease.
Putative triggers
Although the pathogenesis of adult-onset Still's disease is largely known to be idiopathic. Triggers of AOSD lead to activation of toll-like receptors (TLR) and activation of immune system. The following triggers may be implicated as factors responsible for generating key pathological processes occurring in adult-onset Still's disease (AOSD):[1][2][3][4][5][6][7][8]
Pathogen-associated molecular patterns (PAMPs)
- Bacteria
- Viruses
- Fungi
Danger-associated molecular patterns (DAMPs)
- Chemicals
- Toxins
- Stress
Immune dysfunction
Both innate and adaptive immunity play roles in the pathological evolution of adult-onset Still's disease with the dysfunction occurring in the innate immunity predominating the picture. The following dysfunctions are involved:
Changes in the innate immunity
- Natural killer cells have been found to be decreased in patients with AOSD. The mechanism underlying dysfunctional NK cells is a defect in IL-18 receptor β phosphorylation.[9]
- Neutrophil and macrophage activation lie at the heart of pathogenesis of AOSD due to the effects of the proinflammatory interleukin-18 (IL-18) signalling.
- CD64, a marker of neutrophil activation has been found to be upregulated in active AOSD.[10]
- Macrophage colony stimulating factor (MCSF), intercellular adhesion molecule-1 (ICAM-1) and calprotectin are elevated and act as markers of active disease.[11][12]
Changes in the adaptive immunity
- T cell activation has also been shown to play role in the pathogenesis of AOSD with Th1 (cytotoxic) subset prevailing over Th2 CD4+ T cells.
- Increased number of Th17 cells derived from the differentiation of naive CD4+ T cells due to to activation by interleukin-1 beta, transforming growth factor-beta and interleukin- 6 is also seen in active AOSD. [13][14]
Role of interleukin-1 beta (IL-1), interleukin-6 (IL-6), interferon-alpha (IFN-alpha) and tumor necrosis factor (TNF-alpha)
Interleukin-1 beta plays a key role in producing major characteristic features of adult-onset Still's disease. PAMPs and DAMPs lead to stimulation of protein complex nucleotide-binding oligomerization-domain-(NOD-) like receptor family, pyrin domain containing 3 (NLRP3) inflammasome (expressed in myeloid cells). The consequence of all these trigger-stimulated NOD and NLRP increasing interactions is an increased production of interleukin-1 beta.[15]The following processes are affected by an increased production of this key interleukin of AOSD:
(a) Hypothalamic-pituitary axis influence
Activation of the hypothalamic-pituitary axis by interleukin-1 beta lead to the following changes:
Hormonal
- An increased secretion of adrenocorticotrophic hormone (ACTH) and anti-diuretic hormone (ADH).
- A decreased secretion of growth hormone (GH) and somatostatin.[16]
Systemic
- Disturbance of the thalamic temperature regulating centres leading to fever.[17]
- Fatigue[18]
- Anorexia[19]
(b) Liver synthesis and secretion of acute phase proteins
Both interleukin-1 beta, interleukin-6 and interferon-alpha (IFN-alpha) lead to increased production of acute phase reactants by the liver due to inflammatory and oxidative stress occurring during active AOSD. The following acute phase reactant proteins are elevated in AOSD as a result of increased liver production:[20][21]
(c) Osteoclasts activation and matrix metalloproteinases (MMPs) synthesis
Interleukin-1 and TNF-alpha have been shown to inhibit chondrogenesis leading to decreased repair process of bone and cartilage in AOSD.[22]
(d) Innate immune system cells activation
Effector cells of the innate immune system such as macrophages and neutrophils are activated mainly due to interleukin-1. The neutrophil to lymphocyte count ratio is increased due to elevated neutrophils.[23]
(e) Increased gene transcription of proinflammatory molecules
The following proinflammatory factors are produced in an increased concentration in AOSD:
- Inducible nitric oxide synthase (iNOS)[24]
- Interleukin 1, 6 and TNF-alpha induced cyclo-oxygenase 2 (COX2)[25]
- Phospholipase A2[26]
- Intracellular adhesion molecules[27]
- Colony-stimulating factors (C-SF)[28]
Role of interleukin-18
It is produced by macrophages and monocytes as a consequence of bacterial and viral infections (which are thought to be triggers of AOSD).[29] A defective phosphorylation of IL-18 receptor is though to give rise to this dysfunction.[30]
Role of interleukin-17
Th17 cells lead to an increased production of interleukin-17. The stimulaton of Th17 cells is drived by interleukin-1, transforming growth factor beta (TGF-beta) and interleukin-6.[31][32]
Role of interferon gamma
Imblanced production of interferon-gamma is thought to be associated with AOSD.[33] Levels of the IFN-γ-induced chemokines, CXCL9, CXCL10 and CXCL11 are increased during active phase of AOSD.[34]
Reactive hemophagocytic lymphohistiocytosis
Hemophagocytic lymphohistiocytosis (also known as macrophage activation syndrome- MAS) is a severe life-threatening complication that may develop in patients of Still's disease.[35][36] Interleukin 1-beta and interleukin 18 mediated activation of macrophages eventually leads to secretion of interferon-gamma by the NK and CD8+ T cells. There is increased activation of T cells leading to hypersecretion of proinflammatory cytokines, including interferon gamma, interleukin (IL)-1, IL-6, IL-18, and tumor necrosis factor alpha (TNF-alpha).[37][38]
Genetics
Some distinct HLA alleles have been shown to be associated with AOSD. The following are the major HLA alleles:[39][40]
- HLA-DR4
- HLA-Bw35 (associated with good prognosis)
- HLA-DRB1
- HLA-DRw6 (joint root involvement)
- HLA-B17
- HLA-B35
- HLA-DR2
Genetic polymorphisms in genes encoding the following factors are known to be asosicated with AOSDL:
Gross Pathology
On gross examination, the involved joints may exhibit the following features:[41]
- Soft tissue swelling
- Cartilage loss
- Joint erosions
- Carpal ankylosis
Microscopic Pathology
On microscopic examination of the synovial fluid, typical findings of inflammatory arthritis may be observed. The following table outlines the typical findings on synovial fluid examination of joints affected by AOSD:
Test | Normal | Inflammatory arthritis (AOSD, RA, crystal arthritis, spondyloarthritis) |
---|---|---|
Appearance | Clear | Clear to opaque (yellow white) |
White blood cell count/mm3 | < 200 | > 2000 |
Polymorphonuclear cells | < 25% | Greater than equal to 50% |
Culture | Negative | Negative |
Intracellular crystals | Negative | Positive only in crystal induced arthritis |
References
- ↑ Perez C, Artola V (March 2001). "Adult Still's disease associated with Mycoplasma pneumoniae infection". Clin. Infect. Dis. 32 (6): E105–6. doi:10.1086/319342. PMID 11247732.
- ↑ Dua J, Nandagudi A, Sutcliffe N (December 2012). "Mycoplasma pneumoniae infection associated with urticarial vasculitis mimicking adult-onset Still's disease". Rheumatol. Int. 32 (12): 4053–6. doi:10.1007/s00296-011-2107-4. PMID 21918897.
- ↑ Escudero FJ, Len O, Falcó V, de Sevilla TF, Sellas A (June 2000). "Rubella infection in adult onset Still's disease". Ann. Rheum. Dis. 59 (6): 493. PMC 1753159. PMID 10885978.
- ↑ Efthimiou P, Georgy S (December 2006). "Pathogenesis and management of adult-onset Still's disease". Semin. Arthritis Rheum. 36 (3): 144–52. doi:10.1016/j.semarthrit.2006.07.001. PMID 16949136.
- ↑ Wouters JM, van der Veen J, van de Putte LB, de Rooij DJ (September 1988). "Adult onset Still's disease and viral infections". Ann. Rheum. Dis. 47 (9): 764–7. PMC 1003594. PMID 3178317.
- ↑ Ogra PL, Chiba Y, Ogra SS, Dzierba JL, Herd JK (May 1975). "Rubella-virus infection in juvenile rheumatoid arthritis". Lancet. 1 (7917): 1157–61. PMID 48775.
- ↑ Linnemann CC, Levinson JE, Buncher CR, Schiff GM (August 1975). "Rubella antibody levels in juvenile rheumatoid arthritis". Ann. Rheum. Dis. 34 (4): 354–8. PMC 1006427. PMID 1081377.
- ↑ Blotzer JW, Myers AR (1978). "Echovirus-associated polyarthritis. Report of a case with synovial fluid and synovial histologic characterization". Arthritis Rheum. 21 (8): 978–81. PMID 737022.
- ↑ de Jager, Wilco; Vastert, Sebastiaan J.; Beekman, Jeffrey M.; Wulffraat, Nico M.; Kuis, Wietse; Coffer, Paul J.; Prakken, Berent J. (2009). "Defective phosphorylation of interleukin-18 receptor β causes impaired natural killer cell function in systemic-onset juvenile idiopathic arthritis". Arthritis & Rheumatism. 60 (9): 2782–2793. doi:10.1002/art.24750. ISSN 0004-3591.
- ↑ Komiya A, Matsui T, Nogi S, Iwata K, Futami H, Takaoka H, Arinuma Y, Hashimoto A, Shimada K, Ikenaka T, Nakayama H, Furukawa H, Tohma S (March 2012). "Neutrophil CD64 is upregulated in patients with active adult-onset Still's disease". Scand. J. Rheumatol. 41 (2): 156–8. doi:10.3109/03009742.2011.644325. PMID 22420333.
- ↑ Chen DY, Lan JL, Lin FJ, Hsieh TY (June 2005). "Association of intercellular adhesion molecule-1 with clinical manifestations and interleukin-18 in patients with active, untreated adult-onset Still's disease". Arthritis Rheum. 53 (3): 320–7. doi:10.1002/art.21164. PMID 15934126.
- ↑ Matsui K, Tsuchida T, Hiroishi K, Tominaga K, Hayashi N, Hada T, Higashino K (May 1999). "High serum level of macrophage-colony stimulating factor (M-CSF) in adult-onset Still's disease". Rheumatology (Oxford). 38 (5): 477–8. PMID 10371293.
- ↑ Chen DY, Chen YM, Lan JL, Lin CC, Chen HH, Hsieh CW (December 2010). "Potential role of Th17 cells in the pathogenesis of adult-onset Still's disease". Rheumatology (Oxford). 49 (12): 2305–12. doi:10.1093/rheumatology/keq284. PMID 20837500.
- ↑ Park H, Li Z, Yang XO, Chang SH, Nurieva R, Wang YH, Wang Y, Hood L, Zhu Z, Tian Q, Dong C (November 2005). "A distinct lineage of CD4 T cells regulates tissue inflammation by producing interleukin 17". Nat. Immunol. 6 (11): 1133–41. doi:10.1038/ni1261. PMC 1618871. PMID 16200068.
- ↑ Pascual V, Allantaz F, Arce E, Punaro M, Banchereau J (May 2005). "Role of interleukin-1 (IL-1) in the pathogenesis of systemic onset juvenile idiopathic arthritis and clinical response to IL-1 blockade". J. Exp. Med. 201 (9): 1479–86. doi:10.1084/jem.20050473. PMC 2213182. PMID 15851489.
- ↑ Ward DJ, Hartog M, Ansell BM (September 1966). "Corticosteroid-induced dwarfism in Still's disease treated with human growth hormone. Clinical and metabolic effects including hydroxyproline excretion in two cases". Ann. Rheum. Dis. 25 (5): 416–21. PMC 2453455. PMID 5915585.
- ↑ "onlinelibrary.wiley.com".
- ↑ Rossi-Semerano L, Koné-Paut I (2012). "Is Still's Disease an Autoinflammatory Syndrome?". Int J Inflam. 2012: 480373. doi:10.1155/2012/480373. PMC 3350968. PMID 22611516.
- ↑ Rossi-Semerano L, Koné-Paut I (2012). "Is Still's Disease an Autoinflammatory Syndrome?". Int J Inflam. 2012: 480373. doi:10.1155/2012/480373. PMC 3350968. PMID 22611516.
- ↑ Fautrel B (June 2002). "Ferritin levels in adult Still's disease: any sugar?". Joint Bone Spine. 69 (4): 355–7. PMID 12184429.
- ↑ Stam TC, Swaak AJ, Kruit WH, Eggermont AM (March 2002). "Regulation of ferritin: a specific role for interferon-alpha (IFN-alpha)? The acute phase response in patients treated with IFN-alpha-2b". Eur. J. Clin. Invest. 32 Suppl 1: 79–83. PMID 11886436.
- ↑ Wehling, N.; Palmer, G. D.; Pilapil, C.; Liu, F.; Wells, J. W.; Müller, P. E.; Evans, C. H.; Porter, R. M. (2009). "Interleukin-1β and tumor necrosis factor α inhibit chondrogenesis by human mesenchymal stem cells through NF-κB-dependent pathways". Arthritis & Rheumatism. 60 (3): 801–812. doi:10.1002/art.24352. ISSN 0004-3591.
- ↑ Seo JY, Suh CH, Jung JY, Kim AR, Yang JW, Kim HA (July 2017). "The neutrophil-to-lymphocyte ratio could be a good diagnostic marker and predictor of relapse in patients with adult-onset Still's disease: A STROBE-compliant retrospective observational analysis". Medicine (Baltimore). 96 (29): e7546. doi:10.1097/MD.0000000000007546. PMC 5521915. PMID 28723775.
- ↑ Zamora R, Vodovotz Y, Billiar TR (May 2000). "Inducible nitric oxide synthase and inflammatory diseases". Mol. Med. 6 (5): 347–73. PMC 1949959. PMID 10952018.
- ↑ García JE, López AM, de Cabo MR, Rodríguez FM, Losada JP, Sarmiento RG, López AJ, Arellano JL (1999). "Cyclosporin A decreases human macrophage interleukin-6 synthesis at post-transcriptional level". Mediators Inflamm. 8 (4–5): 253–9. doi:10.1080/09629359990423. PMC 1781800. PMID 10704080.
- ↑ Woese CR (July 1979). "A proposal concerning the origin of life on the planet earth". J. Mol. Evol. 13 (2): 95–101. PMID 480373.
- ↑ Chen DY, Lan JL, Lin FJ, Hsieh TY (June 2005). "Association of intercellular adhesion molecule-1 with clinical manifestations and interleukin-18 in patients with active, untreated adult-onset Still's disease". Arthritis Rheum. 53 (3): 320–7. doi:10.1002/art.21164. PMID 15934126.
- ↑ Takeshita A, Takeuchi T, Nakagawa A, Tsuda Y, Fukuda A, Nariyama K, Shibayama Y (May 2000). "Adult onset Still's disease with hemophagocytic syndrome and severe liver dysfunction". Hepatol. Res. 17 (2): 139–144. PMID 10707007.
- ↑ Maeno N, Takei S, Nomura Y, Imanaka H, Hokonohara M, Miyata K (September 2002). "Highly elevated serum levels of interleukin-18 in systemic juvenile idiopathic arthritis but not in other juvenile idiopathic arthritis subtypes or in Kawasaki disease: comment on the article by Kawashima et al". Arthritis Rheum. 46 (9): 2539–41, author reply 2541–2. doi:10.1002/art.10389. PMID 12355506.
- ↑ de Jager W, Vastert SJ, Beekman JM, Wulffraat NM, Kuis W, Coffer PJ, Prakken BJ (September 2009). "Defective phosphorylation of interleukin-18 receptor beta causes impaired natural killer cell function in systemic-onset juvenile idiopathic arthritis". Arthritis Rheum. 60 (9): 2782–93. doi:10.1002/art.24750. PMID 19714583.
- ↑ Chen DY, Lin CC, Chen YM, Lan JL, Hung WT, Chen HH, Lai KL, Hsieh CW (March 2013). "Involvement of TLR7 MyD88-dependent signaling pathway in the pathogenesis of adult-onset Still's disease". Arthritis Res. Ther. 15 (2): R39. doi:10.1186/ar4193. PMC 3672755. PMID 23497717.
- ↑ Park H, Li Z, Yang XO, Chang SH, Nurieva R, Wang YH, Wang Y, Hood L, Zhu Z, Tian Q, Dong C (November 2005). "A distinct lineage of CD4 T cells regulates tissue inflammation by producing interleukin 17". Nat. Immunol. 6 (11): 1133–41. doi:10.1038/ni1261. PMC 1618871. PMID 16200068.
- ↑ Canna SW (May 2014). "Editorial: interferon-γ: friend or foe in systemic juvenile idiopathic arthritis and adult-onset Still's Disease?". Arthritis Rheumatol. 66 (5): 1072–6. doi:10.1002/art.38362. PMC 4181835. PMID 24470448.
- ↑ Han JH, Suh CH, Jung JY, Ahn MH, Han MH, Kwon JE, Yim H, Kim HA (April 2017). "Elevated circulating levels of the interferon-γ-induced chemokines are associated with disease activity and cutaneous manifestations in adult-onset Still's disease". Sci Rep. 7: 46652. doi:10.1038/srep46652. PMC 5402387. PMID 28436448.
- ↑ Ramos-Casals M, Brito-Zerón P, López-Guillermo A, Khamashta MA, Bosch X (April 2014). "Adult haemophagocytic syndrome". Lancet. 383 (9927): 1503–1516. doi:10.1016/S0140-6736(13)61048-X. PMID 24290661.
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- ↑ Wouters, Jacques M. G. W.; Reekers, Paul; van de Putte, Levinus B. A. (1986). "Adult-onset still's disease. Disease course and HLA associations". Arthritis & Rheumatism. 29 (3): 415–418. doi:10.1002/art.1780290316. ISSN 0004-3591.
- ↑ Pouchot J, Sampalis JS, Beaudet F, Carette S, Décary F, Salusinsky-Sternbach M, Hill RO, Gutkowski A, Harth M, Myhal D (March 1991). "Adult Still's disease: manifestations, disease course, and outcome in 62 patients". Medicine (Baltimore). 70 (2): 118–36. PMID 2005777.
- ↑ Pouchot J, Sampalis JS, Beaudet F, Carette S, Décary F, Salusinsky-Sternbach M, Hill RO, Gutkowski A, Harth M, Myhal D (March 1991). "Adult Still's disease: manifestations, disease course, and outcome in 62 patients". Medicine (Baltimore). 70 (2): 118–36. PMID 2005777.