Update: Rheumatoid Arthritis

1. ACR/ARHP2008 Update:Rheumatoid Arthritis

2. ACR/ARHP 2008:Update on Rheumatoid Arthritis • Efficacy and safety of repeat treatment courses of rituximab in rheumatoid arthritis patients with inadequate response to tumour necrosis factor inhibitors: long-term experience from the REFLEX study • Long-term safety of rituximab: a six-year follow-up of the rheumatoid arthritis clinical trials and re-treatment population • Efficacy and safety of various dosing regimens of rituximab in patients with active rheumatoid arthritis: results of a phase III randomized study (MIRROR) • Safety of other biologic therapies following rituximab treatment in RA patients • Improved quality of life with rituximab as first-line biologic therapy in patients with active rheumatoid arthritis: results from a phase III, randomized, controlled study (SERENE) • Prospective follow-up of rituximab treatment in 965 patients with refractory rheumatoid arthritis: tolerance and efficacy data from the French Registry AIR (Autoimmunity and Rituximab) • ACR and DAS 28 response over 24 weeks in rheumatoid arthritis patients treated with rituximab after an inadequate response to one tumour necrosis factor inhibitor • Efficacy, safety, and dose frequency of re-treatment with rituximab in rheumatoid arthritis: results from a randomized, controlled trial (SUNRISE) ACR = American College of Rheumatology ARHP = Association of Rheumatology Health Professionals

3. Efficacy and safety of repeat treatment courses of rituximab (RTX) in RA patients (pts) with inadequate response (IR) to tumour necrosis factor (TNF) inhibitors: long-term experience from the REFLEX study Keystone EC, et al. ACR/ARHP 2008; Abstract 367.

4. Background • Clinical trials using rituximab as selective B-cell–targeted therapy have demonstrated significant efficacy and safety in modifying the signs and symptoms of rheumatoid arthritis (RA).1,2,3 • In the phase III REFLEX study, Cohen and colleagues demonstrated the efficacy and safety of rituximab in RA patients who had an inadequate response to at least one tumour necrosis factor (TNF) inhibitor.1 • ACR/ARHP 2008: Keystone and colleagues presented updated interim data from an open-label extension of the REFLEX study designed to evaluate long-term safety and efficacy of rituximab in this patient population.4 1. Cohen SB, et al. Arthritis Rheum 2006;54(9):2793–2806. 2. Edwards JC, et al. N Engl J Med 2004;350(25):2572–2581. 3. Emery P, et al. Arthritis Rheum 2006;54(5):1390–1400. 4. Keystone EC, et al. ACR/ARHP 2008; Abstract 367. ACR = American College of Rheumatology ARHP = Association of Rheumatology Health Professionals

5. Study design: REFLEX extension study • Criteria for re-treatment with rituximab included: • reduction of ≥20% in both swollen joint count (SJC) and tender joint count (TJC) during any follow-up visit from week 16, following initial treatment in REFLEX; • active RA with SJC ≥8 (66 joint count) and TJC ≥8 (68 joint count); • need for repeated course as determined at the discretion of the physican. • Patients who received placebo in the initial treatment arm received open-label rituximab (2 x 1000 mg). • All treatment courses with rituximab consisted of two 1000 mg IV infusions separated by 2 weeks. Keystone EC, et al. ACR/ARHP 2008; Abstract 367.

6. Study design: REFLEX extension study (cont’d)

7. Study design: REFLEX extension study (cont’d) • Rituximab infusions were all premedicated with IV glucocorticoids (100 mg methylprednisolone). • A 14-day course of oral prednisone was also administered. • All patients continued to receive MTX (10–25 mg per week), with allowance for a dose reduction due to intolerance. • Primary and secondary efficacy measures included the ACR 20%, 50%, and 70% improvement criteria (ACR20/50/70), the EULAR responses (moderate/good), DAS28, low disease activity, and DAS remission. • Efficacy was calculated relative to the original baseline assessed prior to the administration of the first course of rituximab. ACR = American College of Rheumatology DAS = Disease Activity Score EULAR = European League Against Rheumatism Keystone EC, et al. ACR/ARHP 2008; Abstract 367.

8. Key findings Baseline characteristics and disposition • Of the 502 patients randomized to REFLEX, a total of 480 patients were treated with rituximab, either as randomized treatment or following a switch from placebo (n = 172, 35.8%). • Of these patients, 307 received two courses (C2), 235 patients received three courses (C3), 146 patients received four courses (C4), and 58 patients received five courses (C5) • Over four courses, a total of 230 patients withdrew from treatment. The primary reason for withdrawal was lack of efficacy/other reasons (192 patients, 40%), with 26 patients (5.4%) withdrawing because of adverse events (AEs). • The majority of the withdrawals (157 patients, 33%) occurred during the first course (C1). Of the remaining patients, 12%, 9%, and 11% withdrew following C2, C3, and C4, respectively. • Of the 235 patients who received a third course, 179 had an efficacy analysis at 24 weeks, following C3, and were included in the efficacy analysis. Keystone EC, et al. ACR/ARHP 2008; Abstract 367.

9. Key findings (cont’d) Efficacy • Of the 408 patients treated with rituximab, 235 patients received ≥3 courses. Of these, 179 patients had completed 24 weeks of follow-up after each treatment course, which permits a within-patient analysis by course. • Within-patient comparison of ACR 20, 50, and 70 scores at 24 weeks following C1, C2, and C3 showed that repeated treatment with rituximab was effective over multiple courses. • ACR 20 responses at week 24 following each course were maintained or increased with subsequent courses, while ACR 50 and 70 responses improved. ACR70 responses increased from 14% following C1 to 26% following C3. • The proportion of patients with a EULAR response was comparable for C1 to C3, with over 80% of patients achieving a EULAR good/moderate response with each course. • The proportion of patients receiving a EULAR good response showed an increase with each treatment (C1, 17%; C2, 26%; C3 34%). • Sustained improvement in DAS2 low disease activity and remission was observed during C2 and C3, with remission rates increasing from 8.8% to 17.6% from C1 to C3. ACR = American College of Rheumatology C = course EULAR = European League Against Rheumatism Keystone EC, et al. ACR/ARHP 2008; Abstract 367.

10. Figure 1. ACR response at week 24 after three rituximab treatment courses versus original baseline

11. Figure 2. EULAR response at week 24 after three rituximab treatment courses versus original baseline

12. Figure 3. Percentage of patients achieving DAS28 low disease activity or remission at week 24 after three rituximab treatment courses versus original baseline

13. Key findings (cont’d) Safety • AE rates per 100 patient-years (95% CIs) in each treatment course remained relatively stable between courses (377–399 events per 100 patient years). • Majority of AEs reported were mild to moderate (grade 1/2) in severity, with an observed reduction in reported AEs over treatment courses. • AE rate leading to withdrawal decreased significantly from C1 (3.5%) to C3 (1.7%). • Incidence of commonly reported AEs remained stable with each treatment course, although incidences of RA exacerbations declined over subsequent courses. • SAE rates per 100 patient-years did not vary significantly between courses. • Incidence of infusion-related reactions (IRRs) decreased with each repeat course, with 26% of patients experiencing an IRR during C1, 17% during C2, and 12% during C3. • IRRs were most frequent during the initial infusion of the first course (22%). • The rate of all infections showed a general increase from C1 (96.8 events/100 patient years) to C3 (119.9 events/100 patient years), although confidence intervals (CIs) were wide and overlapping. • In total, 87 serious infection events (SIEs) were reported, providing an overall rate of 6.75 events/100 patient-years. The SIE rate remained stable from C1 to C3, with wide and overlapping CIs. • No opportunistic infections or cases of tuberculosis were reported. Keystone EC, et al. ACR/ARHP 2008; Abstract 367.

15. Key conclusions • In patients with active RA and an IR to TNF inhibitors, repeated courses of rituximab showed a comparable degree of sustained efficacy relative to the original baseline. • The safety profile observed over this extended observation period is consistent with that previously reported for rituximab, with no evidence of newly emerging safety concerns. Keystone EC, et al. ACR/ARHP 2008; Abstract 367.

16. Long-term safety of rituximab:6-year follow-up of the RA clinical trials and re-treatment population Van Vollenhoven RF,et al. ACR/ARHP 2008; Abstract 361.

17. Background • Rituximab has been shown to be effective and well tolerated in the treatment of patients with active rheumatoid arthritis (RA).1–3 • Rituximab acts by selectively depleting CD20-positive B cells. This novel mode of action differs from that of other biologic agents and DMARDs.1–3 • Treatment with rituximab produces peripheral B-cell depletion, which is either maintained or re-induced with multiple courses. The safety of long-term B-cell depletion is currently being evaluated in open-label studies with rituximab.1–3 • ACR/ARHP 2008: van Vollenhoven and colleagues presented a pooled analysis of safety data collected from RA patients treated with rituximab in combination with methrotrexate (MTX) from several of the international clinical trials such as the phase II DANCER and SIERRA trials, and the phase III SERENE, SUNRISE, MIRROR, and REFLEX studies.4 1. Cohen SB, et al. Arthritis Rheum 2006;54(9):2793–2806. 2. Edwards JC, et al. N Engl J Med 2004;350(25):2572–2581. 3. Emery P, et al. Arthritis Rheum 2006;54(5):1390–1400. 4. Van Vollenhoven RF, et al. ACR/ARHP 2008; Abstract 361. ACR = American College of Rheumatology ARHP = Association of Rheumatology Health Professionals DMARD = disease-modifying anti-rheumatic drug

18. Study design • The safety data for this analysis was collected from RA patients treated with rituximab in combination with methrotrexate (MTX) in an international clinical trials program • Patients initially randomized to placebo and subsequently treated with rituximab were also included in the analysis, from the start of treatment with rituximab. • Prior to each infusion of rituximab, patients received peri-infusional corticosteroids (methylprednisolone 100 mg IV), and, in some cases, additional oral corticosteroids, depending on the specific study. • Data were available from 2578 patients, accounting for 5013 patient-years of exposure to rituximab. • A total of 2244 patients were observed for ≥1 year, 851 for ≥2 years, 720 for ≥3 years, 317 for ≥4 years, and 97 for ≥ 5 years. • All 2578 patients received at least one treatment course, and a total of 1890, 1043, 425, and 133 patients received ≥2, ≥3, ≥4, and ≥5 courses, respectively. • The maximum number of courses administered was 10 (n = 1). RA = rheumatoid arthritis Van Vollenhoven RF, et al. ACR/ARHP 2008; Abstract 361.

19. Key findings • The rate of adverse events (AEs) by rituximab course decreased after the first course (C1), and subsequently stabilized, following multiple courses of rituximab. • The most commonly reported AEs were those associated with infusion reactions, especially during C1. Infusion reactions • Infusion reactions during the first infusion of each course decreased from 25% in C1 to 13%, 9%, 9%, and 3% in C2, C3, C4, and C5, respectively. • The most common events reported during infusions were headache, pruritus, throat irritation, flushing, rash, uticaria, hypertension, and pyrexia. Most reactions were mild or moderate in severity. • Thirteen patients (0.5%) experienced a total of 18 serious infusion reactions. These reactions were variable in nature and included rash, headache, blood pressure changes, anaphylactic reactions, and edema. Twelve of these 18 events occurred following the first infusion of C1. There were no serious infusion-related reactions (IRRs) beyond C2. • The proportion of patients who reported IRRs that required slowing, stopping, or interruption of treatment with rituximab was the highest after C1 (9%), and subsequently decreased to 5%, 3%, and 2% after C2, C3, and C4, respectively. • Overall, <1% of patients withdrew because of IRRs. C = course Van Vollenhoven RF, et al. ACR/ARHP 2008; Abstract 361.

20. Figure 1. Incidence of acute infusion reactions by treatment course of rituximab

21. Key findings (cont’d) Infections1 • A total of 1663 patients (65%) experienced ≥1 infection (both non-serious and serious), with an overall rate of infection of 97.7 events/100 patient-years (95% CI, 95–100.5). • The most common infections were upper respiratory tract infections (19%), nasopharyngitis (13%), urinary tract infections (11%), bronchitis (10%), diarrhea (9%), sinusitis (8%), and influenza (5%). • A total of 170 (7%) patients experienced a serious infection event (SIE), providing an SIE rate of 4.31/100 patient-years (95% CI, 3.77–4.92). • The most common serious infection was pneumonia, affecting 2 (1%) patients. No cases of tuberculosis were reported in this population. • Rates of overall and serious infections were stable between courses. • Analysis of infections during consecutive twelve-month intervals, irrespective of multiple courses, showed no evidence of increased risk of infection over time. • The rate of overall, but not serious, infection was highest in the initial year of treatment with rituximab. • The overall rate of infection for rituximab-treated patients was similar to that previously reported for other therapies in patients with RA.2,3 1. Van Vollenhoven RF, et al. ACR/ARHP 2008; Abstract 361. 2. Dixon WG, et al. Arthritis Rheum 2006;54(8):2368–2376. 3. Listing J, et al. Arthritis Rheum 2005;52:3403–3412. CI = confidence interval RA = rheumatoid arthritis

22. Figure 2. Overall rate of infections per 100 patient-years

23. Figure 3. Rate of serious infections per 100 patient-years

24. Figure 4. Incidence of serious infections per 100 patient-years

25. Key findings (cont’d) Immunoglobulins • At baseline, prior to receiving rituximab, 38 (1.5%) and 41 (1.7%) patients had IgM and IgG below the lab lower limit of normal (LLN), respectively. • Serum immunoglobulins (Ig), expecially IgM, decreased following multiple courses of rituximab; 620 (23%) and 141 (5%) of patients developed IgM and IgG below the LLN, respectively. • Median Ig levels were >LLN during the entire follow-up period. There were no cases of undetectable Ig levels. • IgG decreases were often transient and sustained low IgG (<LLN for at least one year) was observed in 32 (1.2%) of patients. Decreases in IgG were related to corticosteroidal use and older age. • Older age was an independent predictor of sustained low IgG (HR 1.43; 95% CI, 1.24–1.63, p <0.001 for every 10 years of increased baseline age). • Serious infection rates were similar prior to and after the detection of low IgM or IgG. • Patients with low IgM did not have increased rates of serious infection. Patients with low IgG had increased point estimates of infection rates, both prior to and after detection of low levels. • It is unclear if rituximab-treated patients with low IgG are at increased risk of infection. CI = confidence interval HR = hazard ratio Van Vollenhoven RF, et al. ACR/ARHP 2008; Abstract 361.

26. Key findings (cont’d) Malignancies1 • The overall incidence of malignancies (excluding non-melanoma skin cancer) was 1.06/100 patient-years, of which 41 were reported as serious adverse events (SAEs) (0.82/100 patient-years). • The incidence of malignancy did not increase with multiple courses or rituximab. • There was no difference in the overall rate of pattern of malignancy in patients treated with rituximab, when compared with other patients with RA described in epidemiologic studies.2–4 1. Van Vollenhoven RF, et al. ACR/ARHP 2008; Abstract 361. 2. Mellemkjaer L, et al. Eur J Cancer 1996;32(10):1753–1757. 3. Watson K, et al. Rheumatology 2006;45(Suppl 1):i10. 4. Wolfe F , et al. Arthritis Rheum 2007;56:2886–2895. RA = rheumatoid arthritis

27. Key conclusions • In this update on safety in RA clinical trials, rituximab was well tolerated over multiple courses and consistent with previous studies. No new safety concerns were identified. • The overall rates for AEs and SAEs were stable over time and subsequent treatment courses. • Infections, including serious infections—a potential concern for prolonged B-cell depletion—did not increase over time, or with multiple courses of rituximab. • Ig levels, in particular IgM, decreased with multiple courses of rituximab, although this was not associated with increased risk of infection. • The rate of malignancies was consistent with previous studies and with the incidence of malignancy in patients with RA. AE = adverse event; Ig = immunoglobulin RA = rheumatoid arthritis; SAE = serious adverse event Van Vollenhoven RF, et al. ACR/ARHP 2008; Abstract 361.

28. Efficacy and safety of various dosing regimens of rituximab in patients with active RA: results of a phase III randomized study (MIRROR) Rubbert-Roth A, et al.ACR/ARHP 2008; Abstract 363.

29. Background • Rituximab (2 x 1000 mg) has been shown to successfully treat patients with an intolerance or an inadequate response (IR) to tumour necrosis factor (TNF) inhibitor therapies.1 • Significant clinical improvements in disease symptoms have also been reported in patients with an IR to disease-modifying anti-rheumatic drugs (DMARDs) treated with rituximab (2 x 500 mg and 2 x 1000 mg) in combination with methotrexate (MTX).2 • The effects of repeat treatment and of dose escalation were not explored. • ACR/ARHP 2008: Rubbert-Roth and colleagues presented the results of the phase III, randomized MIRROR study to evaluate the efficacy and safety of three dosing regimens of rituximab in combination with MTX in patients with active RA who respond inadequately to MTX and who had been previously treated with no more than one biologic agent approved for use in RA.3 1. Cohen SB, et al. Arthritis Rheum 2006;54(9):2793–2806. 2. Emery P, et al. Arthritis Rheum 2006;54(5):1390–1400. 3. Rubbert-Roth A, et al. ACR/ARHP 2008; Abstract 363. RA = rheumatoid arthritis

30. Study design • Key inclusion criteria were as follows: • patients ≥18 years old who had been diagnosed with RA for ≥6 months; • Swollen joint count (SWC) ≥8 (66 joint count), and tender joint count (TJC) ≥8 (68 joint count) at screening and baseline; • elevated baseline values of C-reactive protein (CRP) ≥0.6 mg/dL (6 mg/L), or erythrocyte sedimentation rate (ESR) ≥28 mm/h; • Inadequate response to methotrexate (MTX) at 10–25 mg/week for ≥12 weeks; • Absolute neutrophil count ≥1500/μL, hemoglobin level ≥8 g/dL, immunoglobin (Ig)M and IgG levels ≥40 and 500 mg/dL. • A total of 30% of the study population were permitted to have received ≤1 previous biologic agent approved for use in RA. RA = rheumatoid arthritis Rubbert-Roth A, et al. ACR/ARHP 2008; Abstract 363.

31. Study design (cont’d) • Patients were randomized to three treatment groups. All patients received a first course of two infusions of rituximab on days 1 and 15, with a second course administered between weeks 24 and 26 according to the treatment group: • reduced dose group (RD) (2 x 500 mg at baseline and week 24); • dose escalation group (DE) (2 x 500 mg at baseline and 2 x 1000 at week 24); • standard dose group (SD) (2 x 1000 mg at baseline and week 24). • Primary endpoint was ACR20 response at week 48. • Secondary endpoints included ACR50/70 and EULAR moderate/good responses. ACR = American College of Rheumatology EULAR = European League Against Rheumatism Rubbert-Roth A, et al. ACR/ARHP 2008; Abstract 363.

32. Study design (cont’d)

33. Key findings • Because of errors in a medication pack list which rendered an intent-to-treat (ITT) analysis as randomized invalid, results presented are from a modified ITT analysis performed with patients analyzed by treatment received (mITT population). • Sensitivity analyses using the standard ITT as randomized were conducted and were consistent with the modified ITT presented. • Demographic and baseline disease activity were well balanced across the 3 treatment groups. • Of the 378 patients recruited, 346 patients were treated with a protocol-defined regimen, and 334 (88%) patients completed 24 weeks of follow-up. From all three treatment groups, 321 (85%) patients received a second treatment course, and 314 (83%) patients completed the full 48-week period of the study. • A majority of patients (66%) across all three treatment arms achieved at least an ACR20 response at week 48. • Response rates in the SD group were somewhat higher than those in both the RD and DE arms, but the difference was not statistically significant. • The proportion of patients achieving ACR50 and ACR70 was also higher in the SD arm, but no statistically significant difference between the treatment arms was achieved. • Distribution of EULAR responses was significantly better in the SD group, compared with the RD group, with 89.2% versus 73% achieving a EULAR good or moderate response, respectively (p = 0.0495). ACR = American College of Rheumatology; DE = dose escalation group; EULAR = European League Against Rheumatism RD = reduced dose group; SD = standard dose group Rubbert-Roth A, et al. ACR/ARHP 2008; Abstract 363.

34. Figure 1. ACR responses at week 48 following treatment with reduced dose, dose escalation, or standard dose rituximab

35. Figure 2. EULAR responses at week 48 following treatment with reduced dose, dose escalation, or standard dose rituximab

36. Key findings (cont’d) • A subgroup analysis examined the effect at week 48 of repeat treatment on patients who had not achieved an ACR20 response to the initial course of rituximab. • In total, 42% to 48% of these patients achieved an ACR20 response after a second course of treatment. The dose regimen did not appear to have a significant impact; however, response rates were higher in those patients who had received initial treatment and repeated treatment with 2 x 1000 mg. • Over 80% of patients who achieved at least an ACR20 response to their first course of treatment maintained this response during the second course of treatment, irrespective of dose. • A comparison of ACRn score by category (<20, >20) using a shift analysis showed that 28% to 37% of patients who achieved an ACRn ≥20 at week 24 improved their ACR response category at week 48. • Conversely, 35% of patients receiving RD had a worse ACR response at week 48, compared with 22% of SD patients. • Regardless of prior biologic therapy, ACR and EULAR outcomes for the SD regimen were consistently higher than those of the RD regimen. But patient numbers are small and no statistical significance was observed. ACR = American College of Rheumatology; DE = dose escalation group; EULAR = European League Against Rheumatism RD = reduced dose group; SD = standard dose group Rubbert-Roth A, et al. ACR/ARHP 2008; Abstract 363.

37. Figure 3. ACR responses at 48 weeks: prior/no prior biologic subgroups (mITT)

38. Figure 4. EULAR moderate/good responses at 48 weeks:prior/no prior biologic subgroups (mITT)

39. Key findings (cont’d) Safety • All three rituximab regimens were well tolerated and demonstrated comparable safety through 48 weeks. • The most common adverse events (AEs) were infusion-related reactions (IRRs) at 39%, 30%, and 30% for RD, DE, and SD, respectively. • The proportion of patients experiencing infusion reactions was highest with the first infusion of the first course, lower with subsequent infusions, and similar across dosing regimens. • Other common AEs included RA flares (18%, 20%, and 15%, for RD, DE, and SD, respectively), and upper respiratory tract infections (12%, 14%, and 11% for RD, DE, and SD, respectively). • Incidences of serious AEs leading to withdrawal, infections, lower gastrointestinal events, cardiac events, vascular events, and malignancies, were similar across treatment arms. • Overall rate of infections (non-serious and serious) across the three treatment groups was 120.81–159.16 infections per 100 patient-years; the rate of serious infection was 2.36–4.73 per 100 patient-years. No clear difference in rates of infections was observed across the dosing regimens. • No deaths were reported during this study. DE = dose escalation group; RA = rheumatoid arthritis RD = reduced dose group; SD = standard dose group Rubbert-Roth A, et al. ACR/ARHP 2008; Abstract 363.

41. Key conclusions • Rituximab is effective and well tolerated in patients with an inadequate response to methotrexate, including patients receiving one prior biologic agent. • The reduced dose and standard dose could not be clearly differentiated after 48 weeks of treatment, although some efficacy outcomes suggest improved outcomes in the standard dose group. • Dose escalation did not appear to be associated with improved responses. • Overall, repeat treatment maintained response to the first course and may have incremental benefits. • Repeat treatment may also elicit response in patients non-responsive to their initial treatments. Rubbert-Roth A, et al. ACR/ARHP 2008; Abstract 363.

42. Safety of other biologic therapies following rituximab treatment in RA patients Genovese M, et al. ACR/ARHP 2008; Abstract 1671.

43. Background • ACR/ARHP 2008: Genovese and colleagues presented results of a study to assess the rate of serious infection events (SIEs) in rheumatoid arthritis (RA) patients previously treated with rituximab and who subsequently received a further biologic RA therapy. Genovese M, et al. ACR/ARHP 2008; Abstract 1671.

44. Study design • Patients with moderate-to-severe active RA who had been treated with rituximab plus methotrexate within an international clinical trial program were included in the study. • Following withdrawal from their respective studies, patients entered a safety follow-up (SFU) during which peripheral B-cell counts were monitored at regular intervals for ≥48 weeks. • During SFU, patients were permitted to receive addition biologic therapies. • Data on all serious infection events (SIEs) were collected throughout the SFU period. • SIEs were defined as infections that required intravenous antibiotics or where at least one of the following applied: • patient required hospitalization or existing hospitalization was prolonged; • infection was immediately life-threatening; • infection caused persistent or significant disability or incapacity; • intervention was required to prevent one of the previously mentioned outcomes; • infection was fatal. Genovese M, et al. ACR/ARHP 2008; Abstract 1671.

45. Key findings • At the time of data cut-off (November 2007), 2578 RA patients had received at least one course of rituximab (some patients may have received multiple courses), providing 5013 patient-years of follow-up. • Overall rate of SIE in this population was 4.31 (95% CI, 3.77–4.92) per 100 patient-years. • Of patients who withdrew into SFU, 185 patients were subsequently treated with another biologic (150 received tumour necrosis factor (TNF) inhibitors, 25 received abatacept, and 10 received anakinra or experimental biologics). • Median follow-up time after receipt of the subsequent biologic was 11 months (range: 0–45 months). • Majority of patients had peripheral B-cell depletion with CD19 levels below the lower limit of normal at the time of receiving further RA treatment. • This group of patients reported a total of 13 SIEs in 186.05 patient-years follow-up(6.99 events/100 patient-years; 95% CI, 4.06–12.03) during treatment with rituximab and prior to the receipt of the biologic. • Ten SIEs in 182.31 patient-years were reported following the initiation of the biologic (5.49 events/100 patient-years; 95% CI 2.95–10.19). • Median time to SIE after initiating biologic therapy was 4 months (range: 0–23 months). • Overall, infections were variable and typical for RA patients. • No opportunistic or fatal infections occurred. CI = confidence interval RA = rheumatoid arthritis Genovese M, et al. ACR/ARHP 2008; Abstract 1671.

46. Figure 1. Subsequent treatment with another biologic

48. Key conclusions • In this updated, exploratory analysis, the use of other biologic therapies in RA patients previously treated with rituximab was not associated with an increase in the rate of serious infections. • Controlled trials of combination therapy of rituximab and other biologics is ongoing. Genovese M, et al. ACR/ARHP 2008; Abstract 1671. RA = rheumatoid arthritis

49. Improved quality of life (QoL) with rituximab (RTX) as first-line biologic therapy in patients (pts) with active rheumatoid arthritis (RA): results from a phase III randomized controlled study (SERENE) Deodhar A, et al. ACR/ARHP 2008; Abstract 365.

50. Background • Rituximab, a monoclonal antibody that selectively targets CD20-positive B cells, has demonstrated significant efficacy and a good safety profile in clinical trials conducted in patients with active rheumatoid arthritis (RA).1–3 • RA is associated with progressive functional decline and decreased quality of life (QoL), making the use of patient-reported outcomes (PROs) of interest in evaluating patient response to rituximab. • ACR/ARHP 2008: Deodhar and colleagues presented data from the SERENE study evaluating the effect of rituximab on physical function, disability, and health-related QoL in patients with active RA who have had an inadequate response to methotrexate, and have not received prior biologic therapy.4 1. Edwards JC, et al. N Engl J Med 2004;350(25):2572–2581. 2. Smolen JS, et al. Ann Rheum Dis 2007;66:143–150. 3. Cohen SB, et al. Arthritis Rheum 2006;54(9):2793–2806. 4. Deodhar A, et al. ACR/ARHP 2008; Abstract 365. ACR = American College of Rheumatology ARHP = Association of Rheumatology Health Professionals