Effectiveness of a Third Tumor Necrosis Factor-α-blocking Agent Compared with Rituximab After Failure of 2 TNF-blocking Agents in Rheumatoid Arthritis

Patients

RA patients with failure of 2 TNF-blocking agents who received either a third TNF-blocking agent or rituximab with a followup of at least 12 months were selected from the Dutch RhEumatoid Arthritis Monitoring (DREAM) register. This register includes RA patients who started treatment with biologics for the first time in daily clinical practice, and began in 1997 in 1 hospital (Radboud University Nijmegen Medical Centre). Since February 2003, the register contains data from 11 hospitals¹¹.

All patients were at least 18 years of age and fulfilled the 1987 American College of Rheumatology criteria for RA at inclusion¹². They satisfied the Dutch criteria for reimbursement of TNF-blocking therapy, i.e., moderate to high disease activity [Disease Activity Score of 28 joints (DAS28) ≥ 3.2] and failure of at least 2 disease-modifying antirheumatic drugs (DMARD) including optimal doses of methotrexate (MTX; 25 mg per week, combined with folic acid). In The Netherlands, treatment with rituximab is allowed in patients who had failed at least 1 TNF-blocking agent or if TNF-blocking therapy was contraindicated.

The data collection protocol for the register was submitted to the ethics committee. Since the register contains data from daily clinical practice, the ethics committee determined that no ethical approval according to the Dutch law was required.

Treatment

The choice of treatment and the dosing schemes were at the discretion of the attending rheumatologist. TNF-blocking therapy was in general given following Dutch labeled doses: infliximab 3 mg/kg intravenously (IV) every 8 weeks after a loading dose at Weeks 0, 2, and 6; etanercept either 25 mg biweekly or 50 mg once weekly subcutaneously; or adalimumab 40 mg subcutaneously every other week. Rituximab was given as 2 infusions of 1000 mg with a 2-week interval. Patients received 50 or 100 mg methylprednisolone IV, 2 mg clemastine IV, and 1000 mg oral acetaminophen as premedication to prevent adverse events during the infusions. Patients could receive retreatment with rituximab according to the international consensus statement, which advises retreating patients after at least 24 weeks in case of increasing disease activity after initial clinical response or in responders who have considerable residual disease activity (DAS28 > 3.2)¹³.

TNF-blocking therapy or rituximab could be combined with DMARD and/or corticosteroids. Start and stop dates of the TNF-blocking therapy, rituximab, DMARD and corticosteroids, doses, and reasons for changes were recorded. Retreatment with rituximab was recorded. Unlike other biologics, it is difficult to define an exact stop date for rituximab. The patients who started a new DMARD or biological after 3 months of initiation of rituximab therapy and who were not retreated with rituximab were considered patients who discontinued rituximab therapy.

Outcome measures

Baseline characteristics were recorded, including age, sex, disease duration, number of previous DMARD, and rheumatoid factor (RF) status. Patients were assessed at the start of TNF-blocking therapy or rituximab and every 3 months thereafter. Assessments included tender (TJC) and swollen joint counts (SJC), erythrocyte sedimentation rates (ESR), C-reactive protein (CRP) levels, and the visual analog scale for general health (VASGH). The DAS28 was calculated to evaluate disease activity¹⁴. If the DAS28 was missing because of a missing value for ESR, the ESR was imputed by linear multivariate regression using the patient’s values for TJC, SJC, and VASGH. Response was defined as good and/or moderate using the European League Against Rheumatology (EULAR) response criteria¹⁵. Functional disability was assessed by the Health Assessment Questionnaire (HAQ)^16,17.

Analyses

Data of the first 12 months after start of the third TNF-blocking agent or rituximab were used. Analyses were on an intention-to-treat (ITT) basis: patients were analyzed in the treatment group in which they first started, irrespective of whether they discontinued or continued this treatment during the first 12 months of followup. Such an ITT was possible because data collection was continued when patients had stopped using their initial therapy.

Baseline characteristics were expressed as mean (± SD) or as median (interquartile range) values as appropriate and compared between the 2 treatment groups using Pearson’s chi-square test for categorical data and the unpaired Student t test or the nonparametric Mann-Whitney U test for continuous data. A description was given of the treatments during the first 12 months of followup after start of the third TNF-blocking agent or rituximab. The percentage of patients receiving rituximab who received a retreatment was described. If patients discontinued therapy, the reason for discontinuation was given.

The primary outcome was the course of the DAS28 over the first 12 months of followup. The secondary outcomes were the course of the HAQ and the separate components of the DAS28 (SJC, TJC, VASGH, ESR, and CRP) over the first 12 months of followup. We used a mixed model to accommodate the dependencies caused by repeated measurements. After evaluating several error structures, we found that a compound symmetry error structure gave the best fit. The independent variables in the full model were treatment, followup time, the square of followup time, and the interactions between treatment and followup time, and treatment and the square of followup time. In the restricted model the interaction terms were dropped. Since maximum likelihood was used as the estimation criterion, we used a likelihood ratio test to evaluate whether the full model gave a superior fit, thus indicating that the development over time was different in the 2 treatment conditions.

To check for possible confounding factors, we tested whether known predictors for treatment outcomes were different between the 2 treatment groups, such as sex, age, disease duration, RF status, concomitant DMARD use, and number of previous DMARD. Univariate analyses showed that none of these factors was different between the 2 treatment groups.

Posthoc, the changes from baseline in DAS28, HAQ, and the separate components of the DAS28 at 3 and at 6 months within the groups were analyzed by paired Student t test. The response rates and percentages of patients who achieved a DAS28 score ≤ 3.2 at 3 and 6 months were described. P values < 0.05 were considered significant. Analyses were performed using SPSS version 17.0 (SPSS Inc., Chicago, IL, USA).

Baseline characteristics

In total, 64 patients with RA received a third TNF-blocking agent and 90 received rituximab after failure of 2 TNF-blocking agents prior to July 2010. Table 1 shows the baseline characteristics. Except for a higher ESR value in the patients receiving rituximab (p = 0.049), there were no differences in baseline characteristics between the 2 treatment groups.

In both groups, most patients had failed a monoclonal antibody (infliximab or adalimumab) and a soluble receptor (etanercept): 80% in the rituximab group and 66% in the third TNF-blocking agent group, respectively.

Treatment during the first 12 months of followup

Figure 1 describes the therapies patients received during the first 12 months after start of the third TNF-blocking agent or rituximab. Of the patients receiving a third TNF-blocking agent, 48% (31/64) still received this treatment up to 12 months. On the other hand, 52% (33/64) of the patients had discontinued therapy. The reason for discontinuation was ineffectiveness in 45% (15/33), adverse events in 42% (14/33), and other reasons in 12% (4/33).

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Figure 1.

Therapies patients received during the first 12 months after start of the third TNF-blocking agent (A) or rituximab (B) after failure of 2 TNF-blocking agents. Other therapy: no new treatment started, continuation of concomitant DMARD therapy, or information about new treatment is missing. DMARD: disease-modifying antirheumatic drugs.

In the rituximab group, 88% (79/90) continued therapy up to 12 months. Of these patients, 54% (43/79) received a retreatment with rituximab. The median time to retreatment was 8.3 months (interquartile range 3.3). In 12% (11/90) of the patients, rituximab therapy was discontinued at 12 months. The main reason for discontinuation in this group was ineffectiveness, in 91% (10/11). One patient discontinued because of adverse events.

Effectiveness on disease activity and functional disability

Figure 2A shows the mean DAS28 at baseline and 3, 6, 9, and 12 months. At 6 months, the mean DAS28 was significantly lower in the rituximab patients [3.91 (SD 1.25) vs 4.54 (SD 1.40), p = 0.021]. Longitudinal analyses showed that the course of the DAS28 over the first 12 months was significantly better in the rituximab patients (p = 0.0044). In the patients receiving rituximab, the DAS28 showed a slight increase from a mean of 3.9 (SD 1.3) at 6 months to a mean of 4.2 (SD 1.4) at 12 months, which was not significant (p = 0.140).

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Figure 2.

The mean DAS28 scores (A) and the mean HAQ scores (B) over the first 12 months. Bars indicate 95% CI. *Significantly different. DAS28: Disease Activity Score of 28 joints; HAQ: Health Assessment Questionnaire.

Figure 2B shows the mean HAQ over the first 12 months of followup. There was a trend to a better course of the HAQ over the first 12 months in the rituximab group, although longitudinal analyses showed a borderline significance (p = 0.0537). The course of the separate components of the DAS28 over time (baseline, 3, 6, 9, 12 mo) showed a pattern similar to the course of the DAS28 over the same period, with an initial decrease up to 6 months and a slight increase thereafter in the rituximab group (data not shown). Longitudinal analyses of the separate components of the DAS28 showed that the course over the first 12 months of followup was better in the rituximab patients for the ESR and CRP (p = 0.0008 and p = 0.0287, respectively). For SJC, the analyses showed a borderline significance (p = 0.0547) in favor of the rituximab group. No difference was observed between the 2 treatment groups for the TJC and VASGH (p = 0.1764, p = 0.348, respectively).

Posthoc analyses showed that the improvement in disease activity was statistically significant at 3 and 6 months in contrast to baseline within both treatment groups. At 3 months this change was −1.01 (SD 1.55, p = 0.001) in the patients receiving a third TNF-blocking agent and −1.35 (SD 1.18, p < 0.0001) in the patients receiving rituximab. At 6 months the change in DAS28 from baseline was −0.58 (SD 1.87, p = 0.024) in the patients receiving a third TNF-blocking agent and −1.39 (SD 1.31, p < 0.0001) in the patients receiving rituximab. The change from baseline in the HAQ was only significant in the rituximab patients at 3 months [−0.23 (SD 0.63), p = 0.009], but not at 6 months [−0.17 (SD 0.58), p = 0.053]. In the patients receiving a third TNF-blocking agent no significant improvement of the HAQ was observed at 3 and at 6 months [−0.17 (SD 0.47), p = 0.070, and 0.09 (SD 0.46), p = 0.309, respectively]. At 3 months and at 6 months, all separate components of the DAS28 improved significantly within the rituximab group (p ≤ 0.007). However, within the patients receiving a third TNF-blocking agent, only the TJC and SJC improved significantly at 3 months (p = 0.045, p = 0.013, respectively) and only the SJC at 6 months (p = 0.034). At 3 months, 60.6% (20/33) of the patients receiving a third TNF-blocking agent and 69.2% (45/65) of the patients receiving rituximab reached a moderate or good EULAR response. At 6 months, these percentages were 48.4% (15/31) and 67.2% (45/67), respectively. The percentage of patients with a DAS28 ≤ 3.2 at 3 and at 6 months in the group receiving a third TNF-blocking agent was 16.2% (6/37) and 18.4% (6/35), respectively. In the rituximab patients, at 3 months 30.4% (21/69) and at 6 months 29.0% (20/69) reached a DAS28 ≤ 3.2.