Article Text
Abstract
Objectives Many patients with rheumatoid arthritis (RA) require treatment with tumour necrosis factor inhibitor (TNFi) to reach remission. It is debated whether tapering of TNFi to discontinuation should be considered in sustained remission. The aim of ARCTIC REWIND TNFi was to assess the effect of tapering TNFi to withdrawal compared with stable treatment on the risk of disease activity flares in patients with RA in remission ≥1 year.
Methods This randomised, open-label, non-inferiority trial was undertaken at nine Norwegian rheumatology departments. Patients with RA in remission ≥12 months on stable TNFi therapy were allocated by computer-based block-randomisation to tapering to discontinuation of TNFi or stable TNFi. Conventional synthetic disease-modifying antirheumatic co-medication was unchanged. The primary endpoint was disease flare during the 12-month study period (non-inferiority margin 20%), assessed in the per-protocol population.
Results Between June 2013 and January 2019, 99 patients were enrolled and 92 received the allocated treatment strategy. Eighty-four patients were included in the per-protocol population. In the tapering TNFi group, 27/43 (63%) experienced a flare during 12 months, compared with 2/41 (5%) in the stable TNFi group; risk difference (95% CI) 58% (42% to 74%). The tapering strategy was not non-inferior to continued stable treatment. The number of total/serious adverse events was 49/3 in the tapering group, 57/2 in the stable group.
Conclusion In patients with RA in remission for more than 1 year while using TNFi, an increase in flare rate was reported in those who tapered TNFi to discontinuation. However, most regained remission after reinstatement of full-dose treatment.
Trial registration numbers EudraCT: 2012-005275-14 and clinicaltrials.gov: NCT01881308.
- treatment
- tumor necrosis factor inhibitors
- arthritis, rheumatoid
Data availability statement
Data are available upon reasonable request. A de-identified patient data set can be made available to researchers upon reasonable request and in adherence with applicable laws and regulations. The data will only be made available after submission of a project plan outlining the reason for the request and any proposed analyses, and will have to be approved by the ARCTIC REWIND project group.
This is an open access article distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited, appropriate credit is given, any changes made indicated, and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/4.0/.
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WHAT IS ALREADY KNOWN ON THIS TOPIC
The treatment goal for most patients with rheumatoid arthritis (RA) is to reach and sustain remission, with prevention of structural joint damage and disability.
Several studies have assessed tapering or stopping of tumour necrosis factor inhibitor (TNFi) in patients with RA in low disease activity or who fulfil remission criteria based on Disease Activity Score calculated with 28 joints.
There are less data available for the clinically relevant group of patients who have been in prolonged remission and who do not show clinical signs of synovitis.
WHAT THIS STUDY ADDS
The ARCTIC REWIND Trial was conducted in patients with RA where remission had been sustained for at least 1 year on stable medication, and the patient had no swollen joints at inclusion.
Despite the stringent inclusion criteria, there was a large increase in frequency of disease activity flares in patients tapering TNFi to discontinuation versus continuation of stable TNFi dose.
The response to reinstatement of the initial TNFi dose was mostly good without any difference in radiographic joint damage progression.
HOW THIS STUDY MIGHT AFFECT RESEARCH, PRACTICE OR POLICY
Current European Alliance of Associations for Rheumatology recommendations for management and American College of Rheumatology guidelines for treatment of RA outline that tapering of biologic disease modifying antirheumatic drugs could be considered in patients with RA in sustained remission.
Our findings show that the risk of experiencing a flare if TNFi is tapered to discontinuation is significant even in prolonged remission, but that most patients regain remission when the initial dose is started again.
The results may support shared treatment decisions between clinicians and the growing group of patients with RA who attain sustained remission using a TNFi.
Introduction
Rheumatoid arthritis (RA) is an inflammatory disease, and treatment commonly involves tumour necrosis factor inhibitors (TNFis).1 The best clinical approach to treating patients with RA who have been in long-term remission using these medications has not been established.2–4
According to current recommendations, patients with RA will be treated with methotrexate monotherapy after disease onset. In cases of insufficient response or failure to reach remission, therapy will be escalated, typically with the addition of a TNFi.3 4 Such treat-to-target strategies have contributed to a marked increase in the proportion of patients with RA reaching remission, that is, near absence of disease symptoms, but often results in treatment with a combination of more than one disease modifying antirheumatic drug (DMARD).
Several studies have assessed tapering or stopping of TNFi in patients with RA in low disease activity or who fulfil the least stringent remission criteria based on Disease Activity Score calculated with 28 joints (DAS28). However, according to the European Alliance of Associations for Rheumatology (EULAR) treatment recommendations DMARDs should not be tapered unless the patient has been in a state of stringent remission for at least 6 months, and there is less evidence regarding this clinically relevant group of patients.4–7 In studies when patients were not required to be in remission before reducing the TNFi dose, tapering of TNFi increased the risk of experiencing a disease worsening, especially when tapering TNFi to withdrawal.8–11 If patients were treated with a combination of methotrexate and TNFi at disease onset, without failing methotrexate monotherapy first, results indicate that dose reduction or withdrawal of TNFi can be effective.12–15 Data on stepwise lengthening of the TNFi administration intervals among patients with RA in remission and low disease activity (LDA) are mixed.16 17
The primary objective of this study was to compare the effect of tapering and withdrawal of TNFi versus continuing stable TNFi on the risk of flares among patients with RA in sustained clinical remission for at least a year.
Methods
Study design
This randomised, open-label non-inferiority trial was designed to evaluate the effect of tapering of TNFi on disease flares in patients with RA who had been in sustained remission for at least 1 year. The ARCTIC REWIND (REmission in Rheumatoid Arthritis - Assessing WIthrawal of Disease-modifying Antirheumatic Drugs in a Non-inferiority Design) study consisted of two randomised clinical trials, assessing tapering of TNFi (the current study) and tapering of conventional synthetic DMARDs (csDMARDs),18 19 respectively. Enrolment of patients took place at nine hospital-based rheumatology practices in Norway (online supplemental table 1). The study was performed in accordance with the Declaration of Helsinki and the International Conference on Harmonization Guidelines for Good Clinical Practice. The Regional Ethical Committee and the Norwegian Medicines Agency approved the protocol (online supplemental file 1) and patient consent.
Supplemental material
Patients
Participants were 18–80 years, fulfilled the American College of Rheumatology (ACR)/EULAR classification criteria for RA, had been in sustained remission for ≥12 months, and were in remission at inclusion with no swollen joints and fulfilment of the Disease Activity Score (DAS) remission criteria. DAS is a disease activity composite measure (range 0–1020), which incorporates evaluation of swelling in 44 joints, the Ritchie Articular Index, erythrocyte sedimentation rate (ESR) and patient global assessment of disease activity on a Visual Analogue Scale. Higher scores indicate more disease activity, remission is defined by DAS<1.6. For inclusion into the study, treatment with standard dosages of TNFi had to be unchanged in the last 12 months, with stable csDMARD co-medication (online supplemental appendix 1). The initial protocol required symptom duration less than 5 years; this was removed in a protocol update. The reasons included that some patients could not be included due to difficulties in determining symptom duration, and that the protocol update increased the number of patients eligible for enrolment. All patients provided a written informed consent before inclusion.
Randomisation
Patients were randomly assigned 1:1 to either continued stable TNFi treatment or to tapering of TNFi treatment (computer-based block randomisation with a block size of 4 and stratification for study centre). Inclusion and randomisation of patients were performed by study nurses and investigators at the individual study sites. The allocated treatment group was revealed in the electronic case report form (Viedoc V.3, Uppsala, Sweden) after randomisation.
Procedures
If a patient was randomised to tapering, the TNFi was reduced to half dose for 4 months, and withdrawn at the 4-month visit if the patient was still in remission. Any co-medication with csDMARDs was kept stable throughout the study. According to the protocol, patients with flares in the tapering group restarted their baseline TNFi treatment, while flares in the stable group were managed according to current recommendations. If a patient regained remission after a flare, no further attempts were made to taper medication. Patients were examined every 4 months, and additional visits scheduled within a week if the patient experienced increasing symptoms.
Outcomes
The primary efficacy endpoint was the proportion of patients with a disease flare between baseline and 12 months, defined as a combination of DAS >1.6 (remission cut point), an increase in DAS score ≥0.6 points from the previous visit (measurement error for DAS),21 and at least two swollen joints on examination of 44 joints at the same visit, with all components having to be present to fulfil the definition. A patient could also be considered to have a flare if the patient and investigator agreed that a clinically significant flare had occurred. In a sensitivity analysis, we assessed the primary outcome according to fulfilment of the definition solely based on DAS and swollen joint count. Secondary endpoints for disease activity included changes and area under the curve (0–12 months) for the composite indices DAS, Simplified Disease Activity Index (SDAI, range 0–86), Clinical Disease Activity Index (CDAI; range 0–76) and DAS28 (range 0–9.4). For all disease activity composite indices, higher scores reflect higher disease activity. Disease activity remission was defined according to cut-offs for DAS, SDAI (<3.3),22 CDAI (<2.8)22 as well as ACR/EULAR Boolean remission (combination of ≤1 swollen joints, ≤1 tender joints, patient global assessment of disease activity ≤1 (0–10 scale) and C reactive protein (CRP, mg/dL) ≤1).22 Individual measures of disease activity included tender joints (Ritchie Articular Index, range 0–78),23 swollen joints (0–44), patient and physician global assessment of disease activity (0–100), ESR (mm/hour) and CRP (mg/L). Joint pain and fatigue were recorded by VAS (0–100), and physical function by the Patient-Reported Outcomes Measurement Information 20-item short form (transformed to a T-score with mean 50 and SD of 10). Additionally, the following questionnaires were completed; The EuroQol-5 Dimension, the Rheumatoid Arthritis Impact of Disease and the 36-Item Short-Form Survey. Prednisolone use and intra-articular injections were recorded consecutively.
Ultrasound examinations (baseline and 12 months) were performed by a 32-joint scoring system,24 with joints scored 0–3 for grey scale (total score 0–96) and power Doppler (total score 0–96).24 Radiographs of hands and feet (baseline and 12 months, known chronological order) were scored by two readers blinded for clinical information and treatment according to the van der Heijde modified Sharp Score (vdHSS).25 The smallest detectable change (SDC) was calculated to be 1.38, calculations made with an SD of the differences between change-scores of two reading sessions.26 Progression of joint damage was defined as a change of ≥1 unit per year (average score of the readers), sensitivity analysis with cut-offs of ≥0.5, ≥2 and ≥5 units per year, as well as the SDC.
Response to treatment was assessed by ACR 20/50/70/90 response, EULAR good and moderate response, the US Food and Drug Administration major clinical response,27 as well as disease activity measures in patients who experienced a flare. Safety was evaluated at each visit by assessment of clinical and laboratory adverse events, coded by the Medical Dictionary for Regulatory Activities (V.21.1E).
Data on work productivity and MRI were not yet available.
Statistical analyses
A sample size of 126 patients (63 in each group) was determined assuming a common flare rate of 20% (estimate based on data from the Norwegian Antirehumatic Drug Register, NOR-DMARD),28 with 80% power to conclude the non-inferiority of tapering. The non-inferiority margin was set to a difference in flare risk of 20%, and non-inferiority would be concluded on if the 95% CI could exclude a difference of this magnitude. After adjustments for a potential dropout rate of up to 20%, the aim was to include 80 patients in each group. The non-inferiority margin was based on discussions with clinicians, researchers and health economists regarding the upper limit of increased flare rate that would be acceptable when tapering TNFi treatment, guided by the Food and Drug Administration guidance document for non-inferiority clinical trials.29
The main analyses were predefined in the statistical analysis plan signed prior to the database lock (online supplemental file 1). If non-inferiority could not be shown it was prespecified to assess if there were more statistically significant flares in one of the groups compared with the other. Baseline characteristics were described by n (%), median (IQR) or mean (SD). The inferiority null hypothesis was tested in the per-protocol population. The primary analysis was performed by mixed-effects logistic regression, with any disease flare during the 12-month follow-up as response, and treatment group as fixed factor. Randomisation was stratified by centre, and thus was included as a random effect in the model. The difference in flare rate was estimated as the marginal probability of flare under tapered therapy minus that of stable therapy, with 95% CI estimated by the delta method. A sensitivity analysis was performed in the population initiating treatment, and repeated in patients with csDMARD co-medication in a post hoc sensitivity analysis. In post hoc analyses we repeated the analysis in the restricted definition of the primary outcome and for the first 4-month period, corresponding to the treatment period for half-dose TNFi.
Mixed-effects logistic regression was used to assess dichotomous secondary outcomes, and linear mixed models (adjusted for the baseline value) were used for continuous outcomes. For outcomes assessed repeatedly, fixed factors for treatment group, time and their interaction were included, in addition to centre and patient-level random effects. Examination of model residuals were used for model validity checks. The results for analyses of secondary endpoints should be interpreted as exploratory, given the potential for type 1 errors due to multiple comparisons. The variables included in the primary endpoint were fully monitored during the study. All analyses were performed in Stata v14.0 (StataCorp). The trial was registered in EudraCT with identification number: 2012-005275-14, and in clinicaltrials.gov with identification number NCT01881308.
Role of the funding source
ARCTIC REWIND was an investigator-initiated trial, fully funded by governmental research grants as outlined under Acknowledgements. The funder of the study had no role in study design, data collection, data analysis, data interpretation or writing of the report. The corresponding author had full access to all the data in the study and had final responsibility for the decision to submit for publication.
Patient and public involvement
Patient representatives were involved in the interpretation of the results.
Results
During the period from 17 June 2013 to 4 January 2019, 99 patients were randomly assigned to the two groups. Forty-seven patients tapered TNFi treatment and 45 received stable TNFi treatment (figure 1). Four patients in each group were excluded from the per-protocol data set due to major protocol violations. Baseline characteristics were overall well balanced, but with more patients on infliximab in the tapering group (table 1). Mean DAS was 0.8 (0.3) in the tapering group and 0.9 (0.4) in the stable group, 45/47 (96%) and 34/45 (76%) were in ACR/EULAR SDAI remission, while ultrasound power Doppler was absent in 44/47 (94%) and 42/44 (96%) of patients, respectively. In the tapering TNFi group, 42/47 (89%) received csDMARD co-medication, compared with 41/45 (91%) in the stable TNFi group, predominantly methotrexate monotherapy. In methotrexate users, the mean (SD) baseline dose was 16.3 (5.2) mg/week in the tapering group and 17.8 (5.3) mg/week in the stable group.
Twenty-seven of 43 (63%) patients treated by tapered TNFi therapy experienced a flare during the 12-month follow-up, compared with 2/41 (5%) in the stable TNFi treatment group, risk difference 58% (95% CI 42% to 74%); p value for comparison <0.0001 (figure 2, figure 3A). The lower limit of the CI exceeded the non-inferiority margin, and non-inferiority was not shown.
At 12 months, 37/42 (88%) patients in the tapering group and 34/40 (85%) patients in the stable group were in DAS remission (figure 3B and C). Composite DAS, physical function and the number of patients in remission according to different criteria were similar in the two groups at 12 months (online supplemental table 2, figure 3D). The mean (SE) DAS at time of flare was 2.2 (0.8) in the tapering group and 1.9 (0.2) in the stable group (figure 3F), corresponding to low disease activity. Flares occurred in patients treated with all types of TNFi (online supplemental table 3). In patients with at least one visit postflare, 23/26 (88%) in the tapering group were in DAS remission at the subsequent visit (online supplemental table 4). At the time of flare, patients in the tapering group had higher median CRP and swollen joint count than at the visit before and after flare (online supplemental figure 1).
The mean (SD) increases in total van der Heijde modified Sharp Score was 0.3 (1.2) units in the tapering group, compared with 0.1 (0.6) in the stable group (online supplemental table 2), difference (95% CI) 0.2 (−0.2 to 0.6) units. In the tapering TNFi group, 34/42 (81%) had no progression of radiographic joint damage, compared with 36/40 (90%) of patients in the stable TNFi group, risk difference −9% (95% CI −24% to 6%, figure 3E). Of the patients with flare and radiographic data available, 7/29 (24%) had progression of radiographic joint damage, compared with 5/53 (9%) without a flare, value of p=0.10 for comparison between the groups. The mean (SD) change in vdHSS in patients with flare was 0.44 (1.29), compared with −0.01 (0.61) in those without a flare, value of p=0.03. The median (IQR) change in vdHSS in patients with flare was 0 (0.0–0.5), compared with 0 (0.0–0.0) in those without a flare, value of p for comparison =0.04. At 12 months, 35 (85%) patients in the tapering group and 35 (90%) in the stable group had no power Doppler signal in any joint, risk difference −4% (−19% to 10%, online supplemental table 2).
In the tapering group 49 adverse events were reported, and 57 in the stable group (table 2). Three (6%) of the patients in the tapering group experienced a serious adverse event (including one serious viral infection), versus two (4%) in the stable group. No malignancies or deaths were reported. One of the adverse events in the stable group led to study discontinuation. The most frequently reported adverse event were upper respiratory tract infections (5 in the tapering group, 14 in the stable group).
In a sensitivity analysis of the primary outcome assessing patients who were randomised and initiated treatment, similar results were found as for the main analysis (figure 2). This also applied to the results from a post hoc sensitivity analysis among patients receiving co-medication with csDMARDs.
In post hoc analyses, a higher risk of flare was observed in the tapering group also for the flare definition based solely on DAS and swollen joint counts, with 14/43 (33%) of patients in the tapering group having a flare according to this definition, compared with 1/41 (2%) in the stable group, risk difference 30% (95% CI 15% to 45%) (online supplemental figure 2). During the first 4 months of the follow-up period, when patients in the tapering group received half-dose TNFi, 5/43 (12%) in the tapering group flared, compared with none of the patients in the stable group. Thus, 5 of the total 27 (19%) flares recorded in the tapering to withdrawal group occurred when patients received half-dose TNFi. In the tapering group, 26/27 (96%) adjusted DMARD medication following the flare, compared with 1/2 (50%) in the stable group. Among patients with available data at 12 months, 25 (60%) in the tapering group were using TNFi, compared with 40 (100%) in the stable group. Flare occurred after a mean (SD) time of 192 (76) days in the tapering group and 371 (1) days in the stable group.
Discussion
Among patients with RA in long-standing remission without clinical synovitis at inclusion, significantly higher flare rates during 1 year follow-up were observed in those tapering TNFi to discontinuation, compared with patients continuing stable TNFi treatment. Tapered TNFi therapy was not non-inferior to continued stable TNFi treatment. Patients responded well to reinstated treatment, and remission rates in the two study arms were comparable at 12 months.
According to current treatment recommendations, dose reduction should only be considered if the patient has reached the treatment target (specified as ACR/EULAR remission in the EULAR recommendations), for at least 6 months,3 as also suggested by the results from a post hoc analysis of three etanercept tapering studies.4 30 Patients participating in our study had been in sustained remission for at least 12 months, and clinical and ultrasonographic examination revealed no signs of inflammatory activity, with 81% of those randomised to tapering fulfilling the ACR/EULAR Boolean remission criteria at time of inclusion. Thus, an outcome of non-inferiority of the tapering strategy was perceived realistic. However, an unexpectedly large discrepancy in flare rates between the two study groups was observed despite the low level of disease activity.
The opportunity to compare flare rates between studies is limited by the application of different inclusion criteria, tapering strategies and flare definitions.31 In clinical trials assessing patients with RA in remission for ≥3 months who continue csDMARDs, tapering of TNFi to half dosages led to disease worsening in 36%–41% of patients,32 33 while 45%–80% experienced a flare within a maximum of 12 months after withdrawal.33–35 The flare rate observed in the tapering group of the current study was thus in the same range as in studies with somewhat less stringent inclusion criteria, while the flare rate in the stable treatment group is much lower than what has been observed in previous studies, resulting in the large risk difference.6
As csDMARDs were kept unchanged in all patients on combination therapy in our study, we do not know whether reduction of these drugs would have been more successful than tapering of the TNFi first. Two studies have compared withdrawal of either csDMARD or TNFi in sustained RA remission on combination therapy; the double-blinded SEAM-RA (Study of Etanercept and Methotrexate in Combination or as Monotherapy in Subjects With Rheumatoid Arthritis) trial, assessing patients in SDAI remission for 24 weeks, showed that significantly more patients continuing combination therapy (53%) or etanercept monotherapy (50%) maintained remission compared with methotrexate monotherapy (29%),36 while the order of tapering did not affect flare rates in the TARA (TApering strategies in Rheumatoid Arthritis) trial.37
Previous studies have supported that reduction of TNFi to half dose has limited effect on flare rates.7 Although the ARCTIC REWIND Trial did not aim to study the isolated effect of tapering TNFi to half dose, explorative data from the first 4 months of the trial indicate an increased flare rate also on half-dose TNFi. The trend of some increase in radiographic joint damage in patients experiencing a flare supports previous data from the PRESERVE (A Randomized, Double-Blind Study Comparing the Safety & Efficacy of Once-Weekly Etanercept 50 mg, Etanercept 25 mg, & Placebo in Combination With Methotrexate in Subjects With Active Rheumatoid Arthritis) trial, where patients with flare had more structural progression, in addition to poorer clinical and functional outcomes.38 This was found across treatment groups (50 mg etanercept weekly in combination with methotrexate, 25 mg etanercept weekly in combination with methotrexate or placebo with methotrexate).38
Our results demonstrate excellent long-term outcomes in patients with RA who have reached remission on TNFi treatment, and show that most patients need continuous TNF inhibition to maintain remission. We also provide data which show very good response to the clinically relevant situation of reinstatement of the initial TNFi treatment in patients who tapered TNFi treatment and flared, with no observed significant difference in radiographic joint damage or functional outcomes at 12 months. Both information about increased flare risk and the possibility of regaining control of the disease are important aspects to address in shared decision making,39 as tapering of TNFi should be decided by the patient and clinician based on the total situation of the patient.40 In patients tapering treatment, the control regimen should take into account the potential of disease activity flare, with an aim to capture and treat significant flares at an early stage. There is a need for further research to personalise medicine within this patient group.
Our study had limitations. First, the open label design might influence the evaluation of flares. Study personnel were continuously instructed about the importance of recording flares in a similar manner in both groups. This pragmatic approach mirrors clinical care where patients know what treatment they are receiving. Second, a clinically significant flare could be recorded without fulfilment of the formal definition. This option was intended to capture increases in disease activity not assessed by the joint count, but could be vulnerable to expectation bias. The increase in CRP, swollen joint count and ultrasound power Doppler at time of flare supports that the flares recorded represented a true increase in inflammation. The findings are strengthened by the consistency in sensitivity analyses restricting the primary outcome to the definition based on DAS and swollen joint count. Third, the patient recruitment was closed before the target number had been reached due to a lower inclusion rate than anticipated, but the conclusions that could be drawn based on the data are still clear (online supplemental appendix 2). Fourth, heterogeneity is present in treatment regimens, but analyses did not highlight large discrepancies in flare rates between the drugs. Fifth, fulfilment of ACR/EULAR Boolean remission criteria was not necessary for inclusion into the study. To ensure that patients did not have significant disease activity in the feet, we required remission according to DAS (based on 44 joints, including feet) at inclusion, in addition to no swollen joints.
In conclusion, tapering TNFi therapy to discontinuation in prolonged RA remission on stable medication was not non-inferior to continuation of stable therapy on the risk of flares. Stable treatment with TNFi was associated with a very low risk of flare, while significantly more flares were observed when tapering of TNFi to discontinuation. However, in those experiencing a flare when tapering TNFi therapy, most regained remission on reinstated full-dose treatment.
Data availability statement
Data are available upon reasonable request. A de-identified patient data set can be made available to researchers upon reasonable request and in adherence with applicable laws and regulations. The data will only be made available after submission of a project plan outlining the reason for the request and any proposed analyses, and will have to be approved by the ARCTIC REWIND project group.
Ethics statements
Patient consent for publication
Ethics approval
This study involves human participants and was approved by REK Sør-Øst2012/2285/REK sør-øst. Participants gave informed consent to participate in the study before taking part.
Acknowledgments
The authors thank the patients who participated in the ARCTIC REWIND Study for the time and effort they have invested in the project. The authors also thank the investigators, study nurses, patient partners and medical staff at the study centres for their contribution to study. The authors thank Camilla Fongen (PT, MSc) for her contribution to the organisation of the study and the data collection, Department for Immunology and Transfusion medicine at Oslo University Hospital for analyses of serological markers, as well as the funding sources.
References
Supplementary materials
Supplementary Data
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Footnotes
SL, NPS and A-BA are joint first authors.
Handling editor Josef S Smolen
Contributors SL, ABA and EAH designed the study; recruited and enrolled participants; collected, analysed, and interpreted data and wrote the report. NPS collected, analysed and interpreted data, and wrote the report. JS was the trial statistician, analysed and interpreted data, and wrote the report. ICO designed the study, analysed and interpreted data, and reviewed the manuscript. HF, CS, TMM, CAH, GB, ÅL, IMH, HH, EM and TU recruited and enrolled patients, interpreted data, and reviewed the manuscript. DHS, DvdH and TKK designed the study, interpreted data, and reviewed the manuscript. SL is guarantor and accepts full responsibility for the work and the conduct of the study, had access to the data and controlled the decision to publish.
Funding Research Council of Norway and South-Eastern Norway Regional Health Authority.
Competing interests SL, NPS, JS and EM report grants from The Research Council of Norway and from The South-Eastern Norway Regional Health Authority during the conduct of the study. ABA reports personal fees from AbbVie, personal fees from Eli Lilly, personal fees from Novartis, personal fees from Pfizer, outside the submitted work. ICO, HF, CS, ÅL, IMH have nothing to disclose. CAH reports personal fees from Novartis, outside the submitted work. GB reports personal fees from Novartis, personal fees from UCB, outside the submitted work. HH reports personal fees from Novartis, outside the submitted work. TU reports personal fees from Galapagos, personal fees from Lilly, personal fees from Novartis, personal fees from Pfizer, personal fees from UCB, outside the submitted work. DHS reports that Abbvie donated drugs for a trial, that Amgen donated drugs for a trial, grants from Corrona, grants from Janssen, grants from Pfizer, grants from Roche/Genentech, outside the submitted work. DvdH reports personal fees from AbbVie, personal fees from Amgen, personal fees from Astellas, personal fees from AstraZeneca, personal fees from BMS, personal fees from Boehringer Ingelheim, personal fees from Celgene, personal fees from Cyxone, personal fees from Daichii, personal fees from Eisai, personal fees from Eli Lilly, personal fees from Galapagos, personal fees from Gilead, personal fees from GSK, personal fees from Janssen, personal fees from Merck, personal fees from Novartis, personal fees from Pfizer, personal fees from Regeneron, personal fees from Roche, personal fees from Sanofi, personal fees from Takeda, personal fees from UCB Pharma, outside the submitted work; and is Director Imaging Rheumatology BV. TKK reports grants and personal fees from AbbVie, personal fees from Biogen, personal fees from Celltrion, personal fees from Egis, personal fees from Lilly, grants and personal fees from MSD, personal fees from Mylan, personal fees from Hikma, grants and personal fees from Novartis, personal fees from Oktal, personal fees from Orion Pharma, grants and personal fees from Pfizer, personal fees from Roche, personal fees from Sandoz, personal fees from Sanofi, grants and personal fees from UCB, grants from BMS, outside the submitted work. EAH reports grants from The Research Council of Norway, grants from The South-Eastern Norway Regional Health Authority, during the conduct of the study; personal fees from Pfizer, personal fees from AbbVie, personal fees from Janssen-Cilag, personal fees from Gilead, personal fees from UCB Pharma, personal fees from Celgene, personal fees from Lilly, personal fees from Roche, outside the submitted work.
Patient and public involvement Patients and/or the public were involved in the design, or conduct, or reporting, or dissemination plans of this research. Refer to the Methods section for further details.
Provenance and peer review Not commissioned; externally peer reviewed.
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