130
Views
21
CrossRef citations to date
0
Altmetric
Review

Profile of adalimumab and its potential in the treatment of uveitis

&
Pages 2997-3003 | Published online: 19 Sep 2016

Abstract

Uveitis refers to the presence of intraocular inflammation, and as a strict definition compromises the iris and ciliary body anteriorly and the choroid posteriorly (the uvea). Untreated, uveitis can lead to visual loss or blindness. The etiology of uveitis can include both infectious and noninfectious (usually immune-mediated) causes, the latter of which are often mediated predominantly by Th1 CD4+ T-cells that secrete proinflammatory cytokines. Tumor necrosis factor-alpha (TNF-α) is a proinflammatory cytokine involved in the pathogenesis of uveitis, which at high concentrations can cause excess inflammation and tissue damage. Adalimumab is a recombinant human IgG1 monoclonal antibody specific for human TNF-α. Historically, corticosteroids and methotrexate were used to treat uveitis; however, newer biologic agents such as adalimumab have revolutionized therapy for noninfectious uveitis. Adalimumab has shown efficacy in treating refractory uveitis in multiple settings, including idiopathic disease, juvenile idiopathic arthritis, sarcoidosis, Behçets disease, and uveitis secondary to spondyloarthropathies, among several other noninfectious uveitis conditions. In this paper, we will review the profile of adalimumab, the role of TNF-α in uveitis, discuss safety data, and summarize key articles evaluating the efficacy of adalimumab in treating uveitis secondary to the most commonly associated autoimmune diseases.

Introduction

Uveitis refers to the presence of intraocular inflammation, and as a strict definition compromises the iris and ciliary body anteriorly and the choroid posteriorly (the uvea).Citation1 The most feared complication of uveitis is visual loss, and in severe cases, blindness. Historically, corticosteroids and methotrexate were used to treat uveitis; however, newer biologic agents such as adalimumab have revolutionized therapy for noninfectious uveitis. In this paper, we will review the profile of adalimumab, the role of tumor necrosis factor-alpha (TNF-α) in uveitis, and summarize key articles evaluating the efficacy and safety of adalimumab in treating uveitis secondary to the most commonly associated autoimmune diseases.

Uveitis

Due to the heterogeneity in terminology used to describe uveitis, as well as differences in grading anterior chamber cells, anterior chamber flare, and definitions of disease activity, the Standardization of Uveitis Nomenclature (SUN) Working Group has proposed helpful terminology for classifying uveitis and grading the number of anterior chamber cells and flare.Citation2 The SUN classification suggests using an anatomic classification based on the site of inflammation, and this classification will be used in this review (). The SUN criteria also further classify uveitis based on the onset (sudden or insidious), duration (limited or persistent), and course (acute, recurrent, or chronic).

Table 1 The SUN Working Group classification of uveitis

The etiology of uveitis can include both infectious and noninfectious (usually immune-mediated) causes. When caused by autoimmune disease, chemical mediators may result in vascular dilation, increased vascular permeability, and infiltration of cells in the eye; respectively, this corresponds to conjunctival injection, aqueous flare, and visible inflammatory cells in the eye.Citation3 The most common immune-mediated causes of uveitis that can be treated with adalimumab include juvenile idiopathic arthritis (JIA), sarcoidosis, Behçets disease, inflammatory bowel disease, and the spondyloarthropathies (often associated with human leukocyte antigen-B27), as well as noninfectious idiopathic uveitis. Less commonly, adalimumab has been used in the treatment of other rare diseases, such as Vogt–Koyanagi–Harada disease. The prevalence of associated systemic disease varies widely depending on age group, sex, and ethnicity. For example, in children, a majority (as high as 70%–80% in some references) of uveitis is idiopathic, with JIA being the most commonly associated systemic disease.Citation1 This paper will not specifically focus on uveitis from infectious causes, nor other causes for which adalimumab is not routinely used (ie, systemic lupus erythematosus, multiple sclerosis, etc).

There is no standardized protocol for the treatment of noninfectious uveitis. In general, a stepwise approach is often used beginning with corticosteroids and progressing to additional immunosuppressive agents as needed.Citation1 Commonly used nonbiologic agents include methotrexate, azathioprine, and, less commonly, mycophenolate mofetil. Even more rarely, calcineurin inhibitors and alkylating agents such as cyclophosphamide have been used. Biologic agents such as adalimumab are increasingly being used due to their efficacy and corticosteroid-sparing effect, which can reduce treatment-related ocular adverse events such as glaucoma and cataracts. As of June 2016, the US Food and Drug Administration (FDA) approved adalimumab as the first noncorticosteroid medication for the treatment of noninfectious intermediate, posterior, and panuveitis in adults.

Pathogenesis and link with TNF-&#x003b1

TNF-α is a proinflammatory cytokine that can be secreted by several different immune (most commonly macrophages and lymphocytes) and nonimmune cells, and is a key mediator of the body’s normal inflammatory response to infection or tissue injury. At high concentrations, however, it can lead to excess inflammation and tissue damage.Citation4 It has been detected in several tissues affected by active inflammation, including the synovial fluid in patients with rheumatoid arthritis (RA), as well as the gut in patients with inflammatory bowel disease and the aqueous humor in patients with uveitis.Citation5 It exists as a homotrimer that is initially present on cell surfaces, but can be cleaved to release a soluble cytokine.Citation4 Both membrane-bound and soluble TNF-α are biologically active and can interact with one of two receptors: TNFR1 (p55, CD120a) and TNFR2 (p75, CD120b), causing several biologic effects.Citation4 The most pertinent downstream effect of binding to the TNF receptors includes the rapid induction of cytokines (such as interleukin [IL]-1 and IL-6) and subsequent initiation of a proinflammatory cascade that can lead to tissue damage and destruction.Citation6

Autoimmune uveitis is mediated predominantly by Th1 CD4+ T-cells, and activated T-cells have been detected in patients with uveitis.Citation7 Activation of these T-cells increases the production of proinflammatory cytokines such as IL-2, interferon gamma, and TNF-α, among others.Citation7 Studies have also shown increased levels of proinflammatory cytokines in the aqueous humor of patients with uveitis,Citation8 and in general, there is a positive correlation between several inflammatory cytokines and cellular infiltrate in the aqueous humor. Interestingly, while one study of cytokine profiles of uveitis in humans showed low levels of TNF-α in uveitis, animal models have conversely showed an increase in TNF-α in uveitis.Citation8,Citation9 In a rabbit animal model, intravitreal injection of homologous TNF-α caused a rapid cellular inflammatory response and protein leakage; subsequent administration of anti-TNF-α reduced the number of infiltrating neutrophils by 50%, mononuclear cells by 58%, and protein leakage by 42%.Citation9 This, in combination with the data implicating Th1 CD4+ T-cells as the predominant mediators of disease, forms a rational basis for targeting TNF-α therapeutically in uveitis.

Profile of adalimumab

Adalimumab (Humira®; AbbVie Inc., North Chicago, IL, USA) is a recombinant human IgG1 monoclonal antibody specific for human TNF-α (). This antibody has human-derived heavy and light chain variable regions and human IgG1κ constant regions and is produced by recombinant DNA technology in mammalian cells.Citation10 It consists of 1,330 amino acids and has a molecular weight of 148 kDa.Citation10 Other FDA approved indications for adalimumab include treatment for RA, JIA, psoriatic arthritis, ankylosing spondylitis, adult and pediatric Crohn’s disease, ulcerative colitis, plaque psoriasis, and hidradenitis suppurativa.Citation10

Figure 1 Structure of adalimumab.

Figure 1 Structure of adalimumab.

Adalimumab has two predominant mechanisms of action: 1) it binds specifically to TNF-α and blocks its interaction with the p55 and p75 cell surface TNF receptors, and 2) it lyses cells with surface TNF in the presence of complement, although other mechanisms such as reverse signaling may contribute to cytokine suppression and initiation of apoptosis.Citation4,Citation10

The dosage of adalimumab varies by indication and age. In adults, the standard dosage of adalimumab is 40 mg subcutaneous (SC) every other week for RA, psoriatic arthritis, and ankylosing spondylitis.Citation10 For the treatment of JIA in children aged 2–17 years, the standard dosage for adalimumab ranges from 10 mg SC every other week (10 to <15 kg) to 20 mg every other week (15 to <30 kg) and 40 mg every other week (≥30 kg).Citation10 For uveitis in children aged ≥6 years and adolescents, some authors have suggested a dose of 24 mg/m2 every 2 weeks with a maximum dose of 40 mg.Citation11 Additionally, some others have used weekly dosage of adalimumab for pediatric uveitis.Citation12 A recent open-label, prospective pilot study also evaluated the use of intravitreal adalimumab for noninfectious uveitis at a dose of 1.5 mg given at weeks 0 and 2 and every 4 weeks thereafter for a total of 26 weeks, with promising results.Citation13 When used at doses of 40 mg SC every other week, the average concentration at steady state was about 5.5±2.5 mg/L.Citation14,Citation15 The half-life of a single 40 mg dose is approximately 14 days (range 10–20 days), and the volume of distribution is estimated to be 4.7–6.1 L.Citation14,Citation15 At the appropriate dosing frequencies, administration of adalimumab yields smooth and uniform time–concentration profiles due to the slow absorption rate from the SC tissue in combination with a slow elimination rate.Citation14

Once adalimumab is administered SC, absorption from the SC tissue to the circulation begins, at which point the drug then distributes to other tissue compartments, binding both soluble and cell-bound TNF-α.Citation14 It has been noted that binding part or all the TNF at various tissues may create concentration gradients, leading to TNF redistribution and alteration of drug pharmacokinetics.Citation14 How much TNF is bound depends on the “on and off rate” of the drug for TNF, as well as molar concentrations, binding affinity, and the binding stoichiometry.Citation4,Citation14 Tissue penetration appears to be high, as the concentration of adalimumab in synovial fluid from patients with RA ranged from 31% to 96% of serum concentration.Citation10

The concept of the “therapeutic window” for TNF antagonists suggests that since TNF is an important mediator of host defense against infectious organisms, abnormally low TNF levels in the body may lead to increased risk of opportunistic infections.Citation15 It has been suggested that the therapeutic goal for TNF antagonists should not reduce levels below physiologic values that could compromise the individual’s immunocompetency.Citation15 Data from Granneman et alCitation16 suggest that the steady-state serum concentration of adalimumab in typical doses (40 mg SC every other week) was about three to seven times greater than the necessary effective concentrations, which falls within the proposed therapeutic window.Citation4,Citation15

Clinical efficacy

Pediatric uveitis

JIA is the most common form of identifiable uveitis in pediatric patients, accounting for 20%–40% of cases in most cohorts.Citation17 JIA-associated uveitis is most commonly in the anterior chamber, is bilateral, presents insidiously without symptoms, and is chronic in the majority of cases.Citation18

Ramanan et alCitation19,Citation20 presented data from the first randomized controlled trial of adalimumab in JIA-associated uveitis in abstract form in 2015. In this study, pediatric patients with active JIA-associated uveitis despite methotrexate use were randomly assigned to either placebo or adalimumab and followed for 2 years. The trial was stopped early for efficacy after 90 patients had been randomized, and the authors found the number of treatment failures were significantly reduced in the adalimumab group (hazard ratio 0.27, 95% confidence interval [CI] 0.13–0.52). Publication of the trial is still pending, and the majority of additional data are limited to retrospective case series and observational studies. There is also heterogeneity in many of the published reports, as most include multiple disease processes and different outcome measures. Despite these limitations, Simonini et alCitation21 published a 2012 systematic review and meta-analysis on anti-TNF therapy in childhood chronic uveitis, of which most patients had JIA, using the SUN Working Group grading scheme as the primary outcome measure. This study included five papers evaluating adalimumab (n=31) and found a pooled response rate of 87% (95% CI 75%–98%) for improving intraocular inflammation. Additionally, 20 of 25 children were reported to obtain remission, and 22 of 31 were able to either taper or discontinue systemic corticosteroids. provides a summary of additional selected studies evaluating adalimumab in pediatric uveitis.

Table 2 Adalimumab for pediatric uveitis

One open-label, prospective trial for refractory noninfectious childhood uveitis compared the ability of adalimumab (24 mg/m2 every 2 weeks) and infliximab (5 mg/kg at weeks 0, 2, and 6, then every 6–8 weeks thereafter, which is lower than is commonly used in the United States) to maintain remission.Citation11 This study included 33 children: 22 with JIA, eight with idiopathic disease, two with Behçets, and one with sarcoidosis. In this study, there was no significant difference in time to achieve remission (15/16 children achieved disease remission in the first year with adalimumab) or discontinue corticosteroids; however, adalimumab had a higher probability of maintaining remission when compared to this low-dose infliximab. The National Italian Registry also evaluated the safety and efficacy of adalimumab and infliximab in 91 patients with refractory uveitis secondary to JIA and found that adalimumab had a higher remission rate (67.4% vs 42.8%); however, doses of infliximab were lower than those that are standardly used for treatment in the USA.Citation22

As noted above, the collective weight of the evidence suggests that adalimumab is very effective in treating childhood noninfectious uveitis. Consistent with this, the American Academy of Ophthalmology (AAO) has recommended adalimumab be considered as a second-line agent after methotrexate for JIA-associated uveitis (good quality evidence).Citation23

Behçets

Behçets classically causes a relapsing-remitting uveitis that can affect all parts of the uvea. Most patients present with bilateral disease, and inflammation of the entire uvea (panuveitis) is the most common manifestation of uveitis overall.Citation24

An expert panel from the AAO has made a strong recommendation in favor of treatment with anti-TNF therapy with infliximab or adalimumab (moderate quality evidence) as first- or second-line corticosteroid-sparing agents for patients with ophthalmic manifestations of Behçets.Citation23 We briefly summarize a few key papers supporting this recommendation, as well as more recently published data.

In a 2010 literature review, adalimumab was documented in several case reports to show improvement in a total of 16/16 (100%) patients with ocular involvement from Behçets.Citation25 In a large multicenter retrospective study published in 2015, the French Behçets Network investigated the efficacy of anti-TNF agents for severe or refractory Behçets, including 47 patients having ocular manifestations treated with adalimumab.Citation26 The authors found improvement with adalimumab in 23/24 (95.7%) patients with uveitis, 3/4 (75%) patients with macular edema, and 9/10 (90%) patients with retinal vasculitis.

Sarcoidosis

Sarcoidosis is a multisystem inflammatory disease that can have ophthalmic involvement in 10%–80% of cases.Citation27 Although any part of the eye can be affected, uveitis is the most common manifestation, occurring in 20%–30% of patients with sarcoidosis.Citation28 Of those with uveitis, the most common location is in the anterior chamber.Citation29 Several studies have evaluated the efficacy of adalimumab for the treatment of uveitis in sarcoidosis. In one study, 26 patients with sarcoidosis and refractory posterior uveitis were followed for 12 months after initiation of adalimumab 40 mg SC weekly. The authors found that intraocular inflammation improved in 22/26 (85%) of patients, with choroidal involvement resolving in 10/15, vasculitis resolving in 1/1, papillitis resolving in 7/8, and complete clearing of the vitreous in 5/5 patients.Citation30

Despite adalimumab showing very promising results for the treatment of sarcoid-related uveitis, some authors have reported that refractory uveitis in sarcoidosis is very unusual and advise clinicians to consider medication noncompliance, infection, or lymphoma as a cause for refractory disease.Citation31

Spondyloarthropathies

The seronegative spondyloarthropathies (often associated with HLA-B27) are a heterogeneous group of inflammatory diseases that can involve the axial skeleton, the most common of which include psoriatic arthritis, inflammatory bowel disease, reactive arthritis, and ankylosing spondylitis. Due to this heterogeneity, the prevalence of uveitis varies by condition. According to one systematic review, the prevalence of uveitis can range from 13% with undifferentiated disease to 33% with ankylosing spondylitis.Citation32 It is worth noting, however, that other estimates of prevalence differ significantly.Citation33 Unlike many other forms of uveitis, the spondyloarthropathies classically cause an acute symptomatic uveitis involving the anterior chamber.Citation33 Unfortunately, the recurrence of uveitis is frequently encountered in clinical practice, and rarely, the uveitis can take a more chronic form.Citation23

Due to the heterogeneity of this category, we will briefly summarize evidence regarding adalimumab for treatment of uveitis in ankylosing spondylitis, as this is generally felt to have the highest prevalence of uveitis as already noted. A subanalysis of a previously published multinational, open-label clinical trial evaluated adalimumab for the treatment of uveitis in 1,250 patients with active ankylosing spondylitis and found that treatment decreased the overall flare rate by 51%.Citation34

The AAO has strongly recommended that infliximab or adalimumab may be used as a corticosteroid-sparing agent for chronic uveitis resulting from seronegative spondyloarthropathies. The AAO has also made a discretionary recommendation using these same agents for severe, vision-threatening disease, or as an adjunct to corticosteroid treatment in acute disease.Citation23

Other refractory uveitis

Adalimumab has also shown to be especially promising in cases of refractory uveitis in studies with a very heterogeneous population. A large prospective case series in Spain reported the use of adalimumab in 131 patients with refractory uveitis including both adult and pediatric patients (most with JIA, idiopathic uveitis, pars planitis, and Behçets). In this study, adalimumab was, overall, shown to decrease anterior chamber and vitreous inflammation, macular thickness, and reduce corticosteroid use.Citation35 Another prospective, multicenter trial evaluated the use adalimumab for refractory uveitis in 31 adult patients and found a clinical response in 68% of patients at 10 weeks (defined as well-controlled ocular inflammation and improvement in at least one other parameter with no worsening in any parameters); of these, 39% had continued response after 50 weeks.Citation36 Additionally, investigators for the Systemic Immunosuppressive Therapy for Eye Diseases research group evaluated the use of adalimumab for 32 patients with various ocular inflammatory diseases, most with “stubborn or recalcitrant” anterior uveitis or scleritis, and found that inflammation went from “active” to “inactive” in seven of 15 eyes (47%) at 6 months.Citation37

Safety

At the time of this writing, TNF inhibitors currently have black box warnings for serious infections (including but not limited to mycobacterial and invasive fungal infections) and malignancy, including lymphoma in children and adolescents and postmarketing cases of hepatosplenic T-cell lymphoma. The initial concern for malignancy was based largely on a review of the FDA’s Adverse Event Reporting System in 2009, at which time 48 cases of malignancy were reported in children and adolescents, most of whom had inflammatory bowel disease.Citation38 A causal relationship is very difficult to establish, however, as all but six patients were concomitantly taking other immune-suppressing medications (most commonly azathioprine or 6-mercaptopurine). Subsequent studies in adults have not confirmed an increased risk of malignancy in patients treated with TNF inhibitors, with the exception of nonmelanoma skin cancers.Citation39 For example, a 2011 systematic review and meta-analysis of TNF inhibitors in RA found no increased risk of lymphoma with the use of TNF inhibitors.Citation40

The safety of adalimumab is also well informed by data from large registries. Data from the National Italian Registry evaluated the safety of adalimumab in 43 patients with JIA-associated uveitis over a 3-year period and found there were no major adverse events and only two minor adverse events (one rash and one prolonged menses), though others point out this frequency was less than observed in other studies.Citation22 In the German JIA registry, 48 of 289 patients experienced a total of 222 adverse events, only 11 of which were defined as serious (2.5 per 100 patient-years). There were no deaths, malignancies, opportunistic infections, demyelinating disease, or lupus-like reactions.Citation41

Conclusion

Adalimumab and other biologic agents have revolutionized the treatment for noninfectious uveitis. In this paper, we present pharmacologic data regarding the TNF-α inhibitor adalimumab, as well as the role of TNF-α in uveitis. Adalimumab has shown efficacy in treating refractory uveitis in multiple settings, including idiopathic disease, JIA, sarcoidosis, Behçets, and uveitis secondary to spondyloarthropathies, among several other noninfectious uveitis conditions. In our experience, the side effect profile and safety of adalimumab is felt to be, overall, quite acceptable in clinical practice. Although the precise timing of initiation of biologic agents for uveitis is an area of ongoing investigation, these agents are increasingly being used due to their efficacy and corticosteroid-sparing effect, which can reduce treatment-related ocular adverse events and improve outcomes.

Disclosure

C Egla Rabinovich: Research grants from Janssen Research & Development, L.L.C.; UCB Pharma, Inc.; Hoffmann-La Roche, Inc.; and AbbVie, Inc. The authors report no other conflicts of interest in this work.

References

  • DunnJPUveitisPrim Care201542330532326319340
  • JabsDANussenblattRBRosenbaumJTStandardization of Uveitis Nomenclature Working GroupStandardization of uveitis nomenclature for reporting clinical data. Results of the First International WorkshopAm J Ophthalmol2005140350951616196117
  • PasadhikaSRosenbaumJTUpdate on the use of systemic biologic agents in the treatment of noninfectious uveitisBiologics20148678124600203
  • TraceyDKlareskogLSassoEHSalfeldJGTakPPTumor necrosis factor antagonist mechanisms of action: a comprehensive reviewPharmacol Ther2008117224427918155297
  • NeriPZucchiMAllegriPLettieriMMariottiCGiovanniniAAdalimumab (Humira): a promising monoclonal anti-tumor necrosis factor alpha in ophthalmologyInt Ophthalmol201131216517321287227
  • FeldmannMDevelopment of anti-TNF therapy for rheumatoid arthritisNat Rev Immunol20022536437112033742
  • DickADImmune mechanisms of uveitis: insights into disease pathogenesis and treatmentInt Ophthalmol Clin200040211810791254
  • CurnowSJFalcianiFDurraniOMMultiplex bead immunoassay analysis of aqueous humor reveals distinct cytokine profiles in uveitisInvest Ophthalmol Vis Sci200546114251425916249505
  • MoJSMatsukawaAOhkawaraSYoshinagaMInvolvement of TNF alpha, IL-1 beta and IL-1 receptor antagonist in LPS-induced rabbit uveitisExp Eye Res19986655475579628802
  • Humira® (adalimumab) [prescribing information]IllinoisAbbVie, Inc2016
  • SimoniniGTaddioACattaliniMPrevention of flare recurrences in childhood-refractory chronic uveitis: an open-label comparative study of adalimumab versus infliximabArthritis Care Res (Hoboken)201163461261821452272
  • Vazquez-CobianLBFlynnTLehmanTJAdalimumab therapy for childhood uveitisJ Pediatr2006149457257517011337
  • HamamRNBarikianAWAntoniosRSIntravitreal adalimumab in active noninfectious uveitis: a pilot studyOcul Immunol Inflamm201624331932625549063
  • NestorovIClinical pharmacokinetics of tumor necrosis factor antagonistsJ Rheumatol Suppl200574131815742459
  • NestorovIClinical pharmacokinetics of TNF antagonists: how do they differ?Semin Arthritis Rheum2005345 Suppl 1121815852249
  • GrannemanRGZhangYNoertersheuserPAVelagapudiRBAwniWMLockeCSPharmacokinetic/Pharmacodynamic (PK/PD) Relationships of Adalimumab (HUMIRA™) in Rheumatoid Arthritis (RA) Patients During Phase II/III Clinical Trials (Poster 2562003)Poster presented at: ACR Annual Scientific MeetingOctober 24–28, 2003Orlando, FL
  • RabinovichCEUse of tumor necrosis factor inhibitors in uveitisCurr Opin Rheumatol200719548248617762615
  • HeinzCMingelsAGoebelCFuchslugerTHeiligenhausAChronic uveitis in children with and without juvenile idiopathic arthritis: differences in patient characteristics and clinical courseJ Rheumatol20083571403140718484686
  • RamananAVDickADBentonDA randomised controlled trial of the clinical effectiveness, safety and cost-effectiveness of adalimumab in combination with methotrexate for the treatment of juvenile idiopathic arthritis associated uveitis (SYCAMORE Trial)Trials2014151424405833
  • RamananAVDickADMcKayAA randomised controlled trial of the clinical effectiveness, safety and cost-effectiveness of adalimumab in combination with methotrexate for the treatment of juvenile idiopathic arthritis associated uveitis [abstract]Arthritis Rheumatol201567Suppl 10
  • SimoniniGDruceKCimazRMacfarlaneGJJonesGTCurrent evidence of anti-tumor necrosis factor alpha treatment efficacy in childhood chronic uveitis: a systematic review and meta-analysis approach of individual drugsArthritis Care Res (Hoboken)20146671073108424740981
  • ZanninMEBiroloCGerloniVMSafety and efficacy of infliximab and adalimumab for refractory uveitis in juvenile idiopathic arthritis: 1-year follow up data from the Italian RegistryJ Rheumatol2013401747923118110
  • Levy-ClarkeGJabsDAReadRWRosenbaumJTVitaleAVan GelderRNExpert panel recommendations for the use of anti-tumor necrosis factor biologic agents in patients with ocular inflammatory disordersOphthalmology20141213785796.e324359625
  • Tugal-TutkunIOnalSAltan-YayciogluRHuseyin AltunbasHUrganciogluMUveitis in Behcet disease: an analysis of 880 patientsAm J Ophthalmol2004138337338015364218
  • AridaAFragiadakiKGiavriESfikakisPPAnti-TNF agents for Behcet’s disease: analysis of published data on 369 patientsSemin Arthritis Rheum2011411617021168186
  • ValletHRiviereSSannaAEfficacy of anti-TNF alpha in severe and/or refractory Behcet’s disease: multicenter study of 124 patientsJ Autoimmun201562677426162757
  • Riancho-ZarrabeitiaLCalvo-RioVBlancoRAnti-TNF-alpha therapy in refractory uveitis associated with sarcoidosis: multicenter study of 17 patientsSemin Arthritis Rheum201545336136826092330
  • BodaghiBTouitouVFardeauCChapelonCLeHoangPOcular sarcoidosisPresse Med2012416 Pt 2e349e35422595776
  • LeeSYLeeHGKimDSKimJGChungHYoonYHOcular sarcoidosis in a Korean populationJ Korean Med Sci200924341341919543502
  • ErckensRJMostardRLWijnenPASchoutenJSDrentMAdalimumab successful in sarcoidosis patients with refractory chronic noninfectious uveitisGraefes Arch Clin Exp Ophthalmol2012250571372022119879
  • JamillouxYKodjikianLBroussolleCSevePSarcoidosis and uveitisAutoimmun Rev201413884084924704868
  • ZeboulonNDougadosMGossecLPrevalence and characteristics of uveitis in the spondyloarthropathies: a systematic literature reviewAnn Rheum Dis200867795595917962239
  • RosenbaumJTUveitis in spondyloarthritis including psoriatic arthritis, ankylosing spondylitis, and inflammatory bowel diseaseClin Rheumatol2015346999100225953065
  • RudwaleitMRodevandEHolckPAdalimumab effectively reduces the rate of anterior uveitis flares in patients with active ankylosing spondylitis: results of a prospective open-label studyAnn Rheum Dis200968569670118662932
  • Diaz-LlopisMSalomDGarcia-de-VicunaCTreatment of refractory uveitis with adalimumab: a prospective multicenter study of 131 patientsOphthalmology201211981575158122525047
  • SuhlerEBLowderCYGoldsteinDAAdalimumab therapy for refractory uveitis: results of a multicentre, open-label, prospective trialBr J Ophthalmol201397448148623376607
  • DurraniKKempenJHYingGSAdalimumab for ocular inflammationOcul Immunol Inflamm20161827003323
  • DiakPSiegelJLa GrenadeLChoiLLemerySMcMahonATumor necrosis factor alpha blockers and malignancy in children: forty-eight cases reported to the Food and Drug AdministrationArthritis Rheum20106282517252420506368
  • ParkHJRanganathanPTNF-alpha antagonism and cancer risk in rheumatoid arthritis: is continued vigilance warranted?Discov Med2012137022923422463799
  • MarietteXMatucci-CerinicMPavelkaKMalignancies associated with tumour necrosis factor inhibitors in registries and prospective observational studies: a systematic review and meta-analysisAnn Rheum Dis201170111895190421885875
  • SchmelingHMindenKFoeldvariIGanserGHospachTHorneffGEfficacy and safety of adalimumab as the first and second biologic agent in juvenile idiopathic arthritis: the German Biologics JIA RegistryArthritis Rheumatol20146692580258924942886
  • BiesterSDeuterCMichelsHAdalimumab in the therapy of uveitis in childhoodBr J Ophthalmol200791331932417035274
  • Bravo-LjubeticLPeralta-CalvoJNovalSPastora-SalvadorNAbelairas-GomezJMerinoRAdalimumab therapy for refractory childhood uveitisJ AAPOS201317545645924160962
  • TynjalaPKotaniemiKLindahlPAdalimumab in juvenile idiopathic arthritis-associated chronic anterior uveitisRheumatology (Oxford)200847333934418238789
  • KotaniemiKSailaHKautiainenHLong-term efficacy of adalimumab in the treatment of uveitis associated with juvenile idiopathic arthritisClin Ophthalmol201151425142922034564
  • SenESSharmaSHinchcliffeADickADRamananAVUse of adalimumab in refractory non-infectious childhood chronic uveitis: efficacy in ocular disease – a case cohort interventional studyRheumatology (Oxford)201251122199220322923752
  • LermanMARabinovichCEThe future is now: biologics for non-infectious pediatric anterior uveitisPaediatr Drugs201517428330125893479