Traditional disease-modifying anti-rheumatic drugs (DMARDs), including methotrexate (MTX), sulfasalazine, and leflunomide, have been the cornerstone of the treatment of rheumatoid arthritis (RA). Recently biological agents (biologics), especially tumor necrosis factor antagonists (anti-TNFs, TNF-i), have demonstrated considerable efficacy in treating patients with RA who do not respond or show intolerance to traditional DMARDs [1-3]. Many randomized controlled trials (RCTs) comparing their efficacy with placebo treatment in DMARD-refractory patients have been published, as well as systematic reviews (SRs) and overviews of SRs of these RCTs [4]. Because of their high costs and long-term adverse effects, however, biologics have been under strict regulatory control in many countries, including Korea. One study showed that the majority of RA patients satisfying the American College of Rheumatology (ACR), British Society for Rheumatology, and Japan College of Rheumatology guidelines for use of the TNF-α blockers did not meet the Korean National Health Insurance reimbursement criteria [5]. Because the cost of biologics is much higher than traditional DMARDs, discretion in their use is warranted even in patients refractory to MTX.

Although some DMARD combinations, such as leflunomide or sulfasalazine with MTX, have been shown to be effective in RA patients not responding to MTX monotherapy [5], few studies have compared biologics and combination DMARDs head-to-head in patients refractory to MTX. In the absence of head-to-head trials with relevant comparators, it is possible to compare multiple treatment groups simultaneously by using all the outcomes from direct and indirect comparisons [6]. Mixed treatment comparison (MTC) is one methodology for indirect comparisons, requiring at least one ‘closed loop’ between non-head-to-head trials and trials should be connected by a common control group (usually, placebo). The similarity and comparability of study designs and other elements should be considered for appropriate use of MTC. However, studies that have applied the MTC methodology to compare DMARDs or biologics in RA patients are few because of the diversity of medications and target outcomes. Thus, the purpose of this study was to find the most effective treatment, including biologics and DMARDs, for MTX-refractory RA patients using the MTC methodology.

In this study, we sought to compare the efficacy of various biologics and traditional DMARDs for MTX-refractory RA patients using a MTC methodology. Unfortunately, the number of traditional DMARD studies was not sufficient to allow an appropriate MTC analysis. The results showed that the combinations of golimumab with MTX and certolizumab with MTX were the most effective treatments in terms of DAS28 remission and ACR 70 responses for RA patients who did not respond to MTX treatment alone. For traditional DMARDs, only one trial was available for analysis of ACR 70 response, and the result showed that MTX combined with sulfasalazine and hydroxychloroquine was substantially inferior to biologics combinations (Table 6).

MTC analysis enables a comparison of the efficacy of biologic and DMARD treatment for MTX-refractory patients, even in the absence of direct comparisons. Indirect comparisons were unavoidable, because head-to-head trials for the medications of interest are rare, and often, biologics were compared with placebo, not to DMARDs or even other biologics [29]. While a ‘traditional’ meta-analysis summarizes the results of trials that have evaluated the same treatment/placebo combination, an MTC analysis consists of a network of treatment effects for all possible pairwise comparisons from RCTs, including both direct and indirect comparisons. A common comparator should exist, on which the treatment effects compared are anchored [30].

Previously, many studies have reported direct comparisons of a biological agent combined with MTX and MTX monotherapy in MTX-refractory patients, which came to the conclusion that biologics are significantly more effective in these patients [31]. However, studies reporting the results of indirect comparisons of the efficacy of different biologics in RA found no statistically significant difference between them [2,32]. Certolizumab pegol was found superior to infliximab in some studies [33], which is partly in line with our results, showing that certolizumab combined with MTX improved both HAQ scores and ACR 70 most effectively. Certolizumab pegol consists of a humanized Fab fragment fused to a polyethylene glycol (PEG) moiety. The addition of the PEG structure increases the half-life up to 14 days and facilitates distribution into inflamed tissues in animal models. This different structure may be the basis of the additional effectiveness [34,35]. However, the RAPID trials, which were included in our analysis, withdrew non-responsive patients at weeks 12 and 14, and accordingly showed a high early withdrawal rate in the placebo group, which could have resulted in the high OR rate of certolizumab pegol compared with the placebo [31]. Recent meta-analysis updates of the comparative safety of TNF inhibitors suggest a higher risk of serious infection associated with certolizumab pegol, as well as adalimumab and infliximab, guiding clinical decision-making in balancing efficacy and safety in the management of RA.

At the time of preparation of this manuscript, randomized trials directly comparing the combination of a biologic agent plus MTX with a combination of traditional DMARDs [36] had been published, showing no difference between the two treatments. The combination of traditional DMARDs versus biologics has rarely been reported in systemic reviews, despite the huge implications concerning the cost differences between treatments with and without biologics. A recent meta-analysis of 38 RCTs showed that combination treatment with a biologic agent (a TNF-i or abatacept) and a DMARD was not superior to two or three DMARDs in combination, including or excluding low-dose glucocorticoids, in preventing structural joint damage [30].

While the effectiveness of biologics in RA patients unresponsive to MTX has been settled in many clinical trials and meta-analyses thereof, therapeutic equivalence and noninferiority continue to be debated. In an equivalence analysis of seven RCTs, MTX plus adalimumab or certolizumab led to superior ACR 50 responses in comparison with MTX monotherapy, but not for MTX with etanercept or golimumab [37]. Head-to-head indirect comparisons between individual biologics showed no significant difference, but failed to demonstrate equivalence. The high degree of clinical heterogeneity in the included trials and short duration of follow-up, compromising external validity, were considered the main reasons for the failure to demonstrate equivalence.

Our study has several limitations. Although we included only RCTs, the MTC analysis still showed statistical heterogeneity and inconsistency. Indirect comparison requires similarity, homogeneity of trials, and consistency of evidence [38]. Study procedures, such as blinding and allocation concealment, may affect the heterogeneity [6,39]. Additionally, differences in disease duration and medication dose between trials might affect trial homogeneity. A second limitation of this study was publication bias, because only published studies were included. Although a comprehensive search was done, the final RCT studies included in the MTC analysis for comparison were more numerous for trials testing biologics than traditional DMARDs. Because of the timeframe, most recent studies comparing biologics and traditional DMARDs were not included.

In conclusion, based on an MTC analysis using data from published RCTs, the combinations of certolizumab or golimumab with MTX are most effective in improving HAQ, DAS28-ESR < 2.6, and ACR 70 response in MTX-refractory RA patients.