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Are biologics more effective than classical disease-modifying antirheumatic drugs?

Abstract

Major achievements have been reached in the treatment of rheumatoid arthritis during past decades due to the recognition of methotrexate as an anchor drug for treatment of rheumatoid arthritis, due to the notion of a treatment window of opportunity in patients with recent-onset rheumatoid arthritis necessitating early aggressive therapy, due to the development of biologics and due to remission as a treatment target. Most biologics have a much faster onset of action than synthetic disease-modifying anti-rheumatic drugs, but presently there is no convincing evidence that biologic drugs have a superior clinical efficacy in comparison with the synthetic drugs. Biologics are, however, accompanied by less radiological deterioration.

Rheumatoid arthritis (RA) and other inflammatory arthritis diseases are systemic inflammatory diseases of unknown aetiology, which untreated may lead to joint destruction and dysfunction, to disability and to a decreased life expectancy. The treatment goal is therefore to control the underlying inflammatory process in order to slow, or even prevent, joint damage.

Until the mid-1980s pharmacological treatment was performed according to the pyramid approach. The sequence was to start with a nonsteroidal anti-inflammatory drug, with or without corticosteroids, and then to add a disease-modifying anti-rheumatic drug (DMARD). In the case of failure of one DMARD, it was replaced by another one – sequential monotherapy.

From the early 1980s low-dose methotrexate has been increasingly considered a very effective and safe drug [1], and the pyramid approach was reversed into a much earlier use of DMARDs. In the past decade it has been proven that early, immediate treatment with DMARDs results in better clinical as well as radiological outcomes in comparison with delayed treatment, which was a major step forward in the treatment of RA [2].

The synthetic DMARDs that are commonly used include methotrexate, sulfasalazine, leflunomide and hydroxychloroquine. Several combination therapies with these drugs have been studied, and some of these investigations suggest that combination therapy is superior to monotherapy whereas other studies do not [3].

Two trials in early-RA patients indicated a superior efficacy when corticosteroids, in a step-down approach, are included in the combination therapy. In one investigation the combination sulfasalazine, methotrexate, hydroxychloroquine and low-dose prednisolone was compared with sulfasalazine alone, which could be replaced by methotrexate [4]. The clinical results showed the remission rate after 2 years to be twice as high in the combination group in comparison with the sulfasalazine-alone group. Clinical improvement was also in favour of the combination group. In the other trial, the combination sulfasalazine, methotrexate and initially high-dose prednisolone (COBRA scheme) was compared with sulfasalazine treatment alone (COBRA trial) [5]. Prednisolone and methotrexate were tapered and stopped after 28 weeks and 40 weeks, respectively. This investigation was also in favour of the combined treatment group. Together these two studies indicate that the initial addition of corticosteroids improves the clinical efficacy and might have long-term structural benefits [6].

Another major step forward in the treatment of RA (and other inflammatory arthritis diseases) was the introduction of biologics. The first class of biologic drugs that came available were the TNFα-blockers infliximab, etanercept and adalimu-mab, and the recombinant human IL-1 receptor antagonist anakinra [7]. TNFα-blockers are clinically as effective as methotrexate but with a much faster onset of action. Anakinra appears to be significantly less potent than TNFα-blockers, and three other classes of drugs have emerged recently as (potential) treatment options: rituximab, an anti-CD20 antibody; abatacept, a costimulation inhibitor; and tocilizumab, an anti-IL-6 receptor [8].

With the introduction of biologics the question arises of whether these – far more expensive – drugs are more effective than synthetic DMARDs. This topic was recently addressed in a well-designed systematic review of the currently available synthetic DMARDs and biologic agents [9]. A total of 143 articles reporting on 101 studies were included in this review. Three trials were identified comparing the efficacy of TNFα blockade and methotrexate in methotrexate-naïve RA patients [10–12].

Etanercept monotherapy was compared with methotrexate in a trial with 632 early-RA patients who were either treated with etanercept twice weekly (10 mg, n = 208, or 25 mg, n = 207) or with methotrexate once weekly (up to 20 mg/week, n = 217) [10]. At 12 months, 72% of the 25 mg etanercept-treated group and 65% of the methotrexate-treated group had an American College of Rheumatology 20 response (P = 0.62). There were only very modest radiological deteriorations in these two treatment groups of 1.0 Sharp units and 1.6 Sharp units, respectively (the Sharp scale measures bony erosion and joint space narrowing, and the scale ranges from 0 to 398). In another trial the combination of etanercept with methotrexate (up to 20 mg/week) was compared with treatment with the two drugs alone, in patients with a mean disease duration of up to 7 years, and demonstrated superior efficacy of the combination, whereas there were no relevant differences between the two separate drugs [11]. A similar trial in which adalimumab with or without methotrexate was compared with methotrexate in 799 early-RA patients revealed comparable results [12].

Altogether these three trials indicate no clinically significant differences between monotherapy biologics (that is, adalimu-mab and etanercept) and methotrexate, whereas the combination of these drugs appears to be clinically (confirmed by a recent meta-analysis [13]) as well as radiologically superior to methotrexate monotherapy. Whether this small difference in radiological scores ultimately results in clinically significant differences in disability remains to be proven – although a recent trial in early-RA patients demonstrated a difference >2 Sharp units in favour of 1-year etanercept/methotrexate combination therapy versus methotrexate monotherapy [14], which might be clinically significant when extrapolated to 5 years or more [15].

Nevertheless, the methotrexate dose in the above-mentioned studies was limited to a maximum 20 mg/week, which is sometimes considered too low since doses up to 25–30 mg/week might be used in clinical practice before methotrexate is considered a treatment failure. This clearly further limits the conclusions that can be drawn when addressing the (radiological) efficacy of TNFα-blocking agents versus methotrexate from the currently available investigations.

The number of therapeutic drug options for the treatment of RA has increased substantially during the past decades, and it has become clear that antirheumatic treatment should start as soon as possible in patients presenting with RA – but the question remains of what is the best therapeutic strategy in these early RA patients as well as the choice of the first antirheumatic agent. These questions are partially addressed in the BeSt (Dutch acronym for Behandel-Strategieën treatment strategies) study, a randomized clinical trial in 508 early-RA patients where four commonly used treatment strategies were compared: sequential monotherapy, step-up combination therapy, initial combination therapy with methotrexate with tapered high-dose prednisone, or the TNF antagonist infliximab combined with methotrexate [16]. Treatment adjustments were made every 3 months to achieve low disease activity. This BeSt trial revealed that both initial combination therapies resulted in earlier functional improvement and less radiographic damage after 1 year than did sequential mono-therapy or step-up combination therapy. The radiological difference was sustained at 2 years [17].

The conclusion from the BeSt study is that, with intensive and objective monitoring of disease activity and adjustments of therapy, low disease activity is a realistic goal that can be achieved with all treatment strategies. The BeSt authors conclude after 2 years of the BeSt trial that initial combination treatment with tapered high-dose prednisone, methotrexate and sulfasalazine or initial combination treatment with infliximab and methotrexate seems the best choice to rapidly achieve this goal in patients with active RA of recent onset. As indicated by O'Dell, however, the costs of the strategies varied substantially between the groups and, as the clinical results for all groups were comparable at 2 years of therapy, one may argue to start with a single synthetic DMARD with escalation to biologics only in patients with persistent active disease. To address this essential issue, it is necessary to take into account not only the costs related to joint damage but also the loss of productivity and quality of life and other potential consequences of a delay in starting therapy with combined synthetic and biologic drugs [18]. Such data are not yet available, but preliminary evidence indeed indicates that the use of biologics is associated with less work loss and with improved productivity.

On the basis of the present evidence it therefore cannot be concluded definitively that biologics are more clinically effective than synthetic DMARDs, although a radiological difference in favour of biologics is plausible. What should therefore be done in clinical practice? The available literature points towards a combination of synthetic DMARDs (with initial corticosteroids) instead of a biologic as a first treatment choice for patients with early RA, particularly when cost-effectiveness issues are also considered [18, 19]. Moreover, a synthetic DMARD combination is preferred over DMARD monotherapy as there is increasing evidence of a window of opportunity in patients with early RA in which the antirheumatic therapy should be as intense as possible, also indicating a need for early identification of these patients. When low disease activity is not reached, treatment should be switched to another strategy.

From the available literature, final conclusions about the long-term safety – particularly malignancies and other rare serious adverse event of biologics – cannot be reached, and large-scale observational investigations are obviously needed to address these risks.

It is relevant to realize that nowadays disease remission, rather than low disease activity, should be the treatment target [20].

Recent data from the BeSt investigation reveal that, after 5 years of treatment, remission could be reached in 48% of all patients and 19% of patients achieved drug-free remission [21]. This latter finding is important as it might render biologic therapy more cost-effective.

Finally, further research should unravel biomarkers that can identify those patients who will receive most benefit from a particular treatment strategy, and such studies are currently ongoing [22].

Abbreviations

DMARD:

disease-modifying antirheumatic drug

IL:

interleukin

RA:

rheumatoid arthritis

TNF:

tumour necrosis factor.

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Correspondence to Michael T Nurmohamed.

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Nurmohamed, M.T., Dijkmans, B.A. Are biologics more effective than classical disease-modifying antirheumatic drugs?. Arthritis Res Ther 10, 118 (2008). https://doi.org/10.1186/ar2491

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