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Original Article Rituximab versus Cyclophosphamide for ANCA-Associated Vasculitis John H. Stone, M.D., M.P.H., Peter A. Merkel, M.D., M.P.H., Robert Spiera, M.D., Philip Seo, M.D., M.H.S., Carol A.

Langford, M.D., M.H.S., Gary S. Hoffman, M.D., Cees G.M.

Kallenberg, M.D., Ph.D., E. Clair, M.D., Anthony Turkiewicz, M.D., Nadia K. Tchao, M.D., Lisa Webber, R.N., Linna Ding, M.D., Ph.D., Lourdes P. Sejismundo, R.N., B.S.N., Kathleen Mieras, C.C.R.P., David Weitzenkamp, Ph.D., David Ikle, Ph.D., Vicki Seyfert-Margolis, Ph.D., Mark Mueller, B.S., C.C.R.P., Paul Brunetta, M.D., Nancy B.

Allen, M.D., Fernando C. Fervenza, M.D., Ph.D., Duvuru Geetha, M.D., Karina A. Keogh, M.D., Eugene Y. Kissin, M.D., Paul A.

Monach, M.D., Ph.D., Tobias Peikert, M.D., Coen Stegeman, M.D., Ph.D., Steven R. Ytterberg, M.D., and Ulrich Specks, M.D., for the RAVE−ITN Research Group N Engl J Med 2010; 363:221-232 DOI: 10.1056/NEJMoa0909905. Results Nine centers enrolled 197 ANCA-positive patients with either Wegener's granulomatosis or microscopic polyangiitis.

Baseline disease activity, organ involvement, and the proportion of patients with relapsing disease were similar in the two treatment groups. Sixty-three patients in the rituximab group (64%) reached the primary end point, as compared with 52 patients in the control group (53%), a result that met the criterion for noninferiority (P. Figure 1 Randomization and Inclusion in the Analysis at 6 Months. Patients were randomly assigned, in a 1:1 ratio, to the treatment and control groups. The study groups were balanced with respect to ANCA type.

The majority of patients (84 patients in the rituximab group and 81 patients in the control group) completed 6 months of the treatment to which they were assigned. The remainder had one or more events that led to withdrawal from the study. Data related to the primary analysis were available for all patients. Five patients who withdrew voluntarily from the trial (1 patient in the rituximab group and 4 patients in the control group) were regarded as having had a treatment failure with respect to the primary end point. Figure 2 Treatment Effect According to Prednisone Dose at 6 Months.

Point estimates and 95.1% confidence intervals are shown for the treatment effect, defined as the difference in rates of complete remission between the treatment groups. The criterion for the noninferiority of rituximab was a difference in remission rates of 20 percentage points, and the criterion for superiority was a difference of 0 percentage points.

For both complete remission with 0 mg of prednisone per day and complete remission with less than 10 mg per day, the difference in remission rates was above 20 percentage points, meaning that the criterion for the noninferiority of rituximab was met (P. Wegener's granulomatosis and microscopic polyangiitis are classified as antineutrophil cytoplasmic antibody (ANCA)−associated vasculitides because most patients with generalized disease have antibodies against proteinase 3 or myeloperoxidase. The ANCA-associated vasculitides affect small-to-medium-size blood vessels, with a predilection for the respiratory tract and kidneys.

Cyclophosphamide and glucocorticoids have been the standard therapy for remission induction for nearly four decades. This regimen transformed the usual treatment outcome of severe ANCA-associated vasculitis from death to a strong likelihood of disease control and temporary remission. However, not all patients have a remission with this combination of drugs, and those who do often have disease flares that require repeated treatment. Moreover, side effects of cyclophosphamide, including infertility, cytopenias, infections, bladder injury, and cancer, as well as the multiple adverse effects of lengthy courses of glucocorticoid treatment, are major causes of long-term disease and death. B lymphocytes play an important role in the pathogenesis of autoimmune diseases, including ANCA-associated vasculitis. In ANCA-associated vasculitis, the percentage of activated peripheral-blood B lymphocytes correlates with disease activity, and certain effects of cyclophosphamide on B lymphocytes are associated with treatment efficacy. Rituximab, an anti-CD20 monoclonal antibody, depletes B lymphocytes through a variety of mechanisms.

In uncontrolled studies, rituximab has shown promise as a remission-induction agent in ANCA-associated vasculitis. We conducted the Rituximab in ANCA-Associated Vasculitis (RAVE) trial, a multicenter, randomized, double-blind, double-dummy, noninferiority trial to compare rituximab with standard cytotoxic therapy for the induction of complete remission by 6 months in patients with severe ANCA-associated vasculitis. We hypothesized that treatment with rituximab plus glucocorticoids would not be inferior to daily cyclophosphamide plus glucocorticoids for remission induction and would permit discontinuation of prednisone by 6 months. A related article on a randomized trial of rituximab versus cyclophosphamide in ANCA-associated vasculitis (RITUXVAS; Current Controlled Trials number, ISRCTN28528813) to assess the treatment response and rates of severe adverse events with a rituximab-based regimen appears elsewhere in this issue of the Journal. Study Design and Patients The first and last authors designed the trial in collaboration with the clinical development team at the Immune Tolerance Network and clinical investigators of the RAVE research group. The site investigators gathered the data, and the data were analyzed by the RAVE data committee, which consisted of the two coprincipal investigators and representatives of the Immune Tolerance Network, the National Institute of Allergy and Infectious Diseases, and the coordinating center (Rho).

The data committee did not include representatives of either Genentech or Biogen Idec, which provided funding and medications for the study. The manuscript was drafted and written by the first and last authors, with input as appropriate from members of the RAVE data committee and the clinical investigators. The RAVE data committee made the decision to submit the manuscript for publication, and the first and last authors vouch for the accuracy and completeness of the data and analyses.

Both the full study-entry criteria, included in the, and the trial are available with the full text of this article at NEJM.org. Briefly, patients with Wegener's granulomatosis or microscopic polyangiitis were eligible to participate in the study if they had positive serum assays for proteinase 3–ANCA or myeloperoxidase-ANCA, manifestations of severe disease, and a Birmingham Vasculitis Activity Score for Wegener's Granulomatosis (BVAS/WG) of 3 or more (scores range from 0 to 63, with higher scores indicating more active disease). Patients with either newly diagnosed or relapsing disease were eligible for enrollment. The RAVE trial was approved by the institutional review board at each participating site. All patients provided written informed consent.

Patients were randomly assigned, in a 1:1 ratio, to investigational therapy (the rituximab group) or standard therapy (the control group). Randomization was stratified according to clinical site and ANCA type. Treatments The remission-induction period was 6 months. The rituximab group received intravenous rituximab (Rituxan, Genentech) (at a dose of 375 mg per square meter of body-surface area once weekly for 4 weeks) plus daily placebo−cyclophosphamide. The control group received placebo−rituximab infusions plus daily cyclophosphamide (2 mg per kilogram of body weight, adjusted for renal insufficiency).

Patients in the control group who had a remission between 3 and 6 months were eligible to switch from cyclophosphamide to azathioprine (2 mg per kilogram per day). Patients in the rituximab group with a remission during the same 3-to-6-month period were switched from placebo−cyclophosphamide to placebo−azathioprine. The two treatment groups received the same glucocorticoid regimen: one to three pulses of methylprednisolone (1000 mg each), followed by prednisone at a dose of 1 mg per kilogram per day.

The dose was tapered so that by 5 months, all patients who had a remission without disease flares had discontinued glucocorticoids (see the ). Assessments Study visits occurred at baseline; at weeks 1, 2, 3, and 4; and at 2, 4, and 6 months. Disease activity was measured on the basis of the BVAS/WG and the physician's global assessment. Damage related to disease or treatment was scored according to the Vasculitis Damage Index (scores for this index range from 0 to 64, with higher scores indicating more severe damage). Health-related quality of life was scored with the use of the Medical Outcomes Study 36-Item Short-Form Health Survey (SF-36). Scores on this scale range from 0 to 100, with higher scores indicating better health. Ezmix Expansion Keygen. Serial serum samples were tested for proteinase 3–ANCA and myeloperoxidase-ANCA by means of a direct enzyme-linked immunosorbent assay (ELISA).

End Points The primary end point was a BVAS/WG of 0 and successful completion of the prednisone taper at 6 months. Secondary end points included rates of disease flares, a BVAS/WG of 0 during treatment with prednisone at a dose of less than 10 mg per day, cumulative glucocorticoid doses, rates of adverse events, and SF-36 scores. A disease flare was defined as an increase in the BVAS/WG of 1 point or more. Patients who had severe flares during the first 6 months were eligible for crossover to the other treatment group in a blinded fashion.

Those who crossed over received the other induction regimen in full. Limited flares were treated by increasing the dose of prednisone. Patients were classified as having early treatment failure if at 1 month their BVAS/WG had not decreased by at least 1 point or a new manifestation of disease had emerged. Patients with early treatment failure discontinued their assigned treatments, received therapies according to best medical judgment, and were counted as having failure with respect to the primary end point.

Adverse Events All adverse events were graded according to the National Cancer Institute's Common Terminology Criteria. During protocol development, the study team and the Food and Drug Administration identified nine major adverse events, termed selected adverse events, for priority analysis.

These events included deaths (from all causes), malignant conditions, grade 2 or higher leukopenia or thrombocytopenia, grade 3 or higher infections, drug-induced cystitis, venous thromboembolic events, stroke, hospitalizations, and infusion reactions that contraindicated further infusions. Statistical Analysis In calculating the sample size, we assumed that 70% of the patients in both treatment groups would have disease remission after the discontinuation of prednisone at 6 months.

We specified a noninferiority margin of −20 percentage points for the difference in remission rates (the rate in the rituximab group minus the rate in the control group) and a one-sided alpha level of 0.025. Assuming a 10% dropout rate, we calculated that we would need to enroll 100 patients in each group for an 83% statistical power to demonstrate noninferiority. Primary analyses were performed by the intention-to-treat method. Patients who dropped out of the study before 6 months were considered to have a treatment failure with respect to the primary end point. We assessed noninferiority by comparing the lower limit of the 95.1% confidence interval for the mean treatment difference (the rate in the rituximab group minus the rate in the control group) to −20 percentage points and testing the corresponding hypothesis that the difference would be greater than −20 percentage points. Superiority was assessed by means of a one-tailed t-test comparing the mean treatment difference with zero.

To assess the consistency of the study results, analyses were repeated for predefined subgroups based on the following baseline variables: type of ANCA-associated vasculitis, type of ANCA, newly diagnosed disease, relapsing disease, alveolar hemorrhage, and severe renal disease. With analysis of eight subgroups, chance alone would result in 0.39 statistically significant results (P.

Patients Between December 30, 2004, and June 30, 2008, a total of 197 patients with ANCA-associated vasculitis were enrolled at nine clinical sites participating in the study ( Figure 1 Randomization and Inclusion in the Analysis at 6 Months. Patients were randomly assigned, in a 1:1 ratio, to the treatment and control groups. The study groups were balanced with respect to ANCA type. The majority of patients (84 patients in the rituximab group and 81 patients in the control group) completed 6 months of the treatment to which they were assigned. The remainder had one or more events that led to withdrawal from the study. Data related to the primary analysis were available for all patients. Five patients who withdrew voluntarily from the trial (1 patient in the rituximab group and 4 patients in the control group) were regarded as having had a treatment failure with respect to the primary end point.

The baseline characteristics of the patients are listed in Table 1 Baseline Demographic and Clinical Characteristics of the Patients.. Ninety-nine patients were assigned to the rituximab group, and 98 patients were assigned to the control group. The treatment groups were balanced with respect to Wegener's granulomatosis versus microscopic polyangiitis, patients with newly diagnosed disease, disease activity, organ involvement, pre-enrollment therapy, past exposure to cyclophosphamide, and total glucocorticoids administered in the interval from 14 days before informed consent was obtained to the first investigational infusion ( ). Forty-eight patients (24%) had diagnoses of microscopic polyangiitis, and 148 (75%) had diagnoses of Wegener's granulomatosis. The specific diagnosis was indeterminate in 1 patient. Approximately 49% of patients in both groups had a new diagnosis.

The mean (±SD) BVAS/WG scores at entry were 8.5±3.2 in the rituximab group and 8.2±3.2 in the control group. Ninety-seven percent of all patients received at least three study-drug infusions. None were lost to follow-up. Eighty-four of the patients who were randomly assigned to the rituximab group (85%) and 81 of those who were randomly assigned to the control group (83%) completed 6 months of treatment without meeting criteria for early treatment failure, crossing over to the other treatment group, switching to a therapy based on best medical judgment, or withdrawing from the protocol for other reasons ( ). End Points Sixty-three of the 99 patients in the rituximab group (64%) reached the primary end point, as compared with 52 of 98 in the control group (53%).

The treatment difference of 11 percentage points between the groups met the criterion for noninferiority (P. Major Renal Disease at Baseline A subgroup of patients had at least one major renal BVAS/WG item at baseline (i.e., urinary red-cell casts, biopsy-confirmed glomerulonephritis, or an increase in the baseline serum creatinine concentration of more than 30%). Fifty-one of the patients in the rituximab group (52%) had at least one major renal item at baseline, as compared with 51 in the control group (52%). In this subgroup, baseline renal function in the rituximab group was worse than in the control group (mean [±SD] estimated creatinine clearance, 53.8±29.8 ml per minute vs. 68.9±41.6 ml per minute; P=0.04). However, the estimated creatinine clearances increased in parallel in the two groups during the first 6 months (by 11.2 ml per minute in the rituximab group and 10.5 ml per minute in the control group), and the percentages of patients who reached the primary end point were not significantly different (31 of 51 patients in the rituximab group [61%] vs. 32 of 51 patients in the control group [63%], P=0.92).

Peripheral-Blood B-Lymphocyte Counts The number of peripheral-blood CD19+ B cells decreased to less than 10 cells per cubic millimeter after two infusions of rituximab and remained at that level in most patients through 6 months ( Figure 3 Peripheral-Blood B-Cell Counts. Panel A shows the peripheral-blood B-cell counts in the rituximab and control groups according to antineutrophil cytoplasmic antibody (ANCA) type. The counts in most patients who received rituximab decreased to less than 10 CD19+ cells per cubic millimeter after two infusions and remained at that level until 6 months. B-cell counts decreased more slowly in the control group than in the rituximab group and remained detectable, at low levels.

MPO-ANCA denotes ANCA directed against myeloperoxidase, and PR3-ANCA ANCA directed against proteinase 3. Panel B shows box plots of log 2-transformed values for CD19+ B cells at six time points, according to treatment group. The horizontal line within each box indicates the median value; the bottom and top lines of the box depict the 25th and 75th quartiles, respectively; and the whiskers show the upper and lower values at 1.5 times the interquartile range. The open circles represent values outside this range and are considered outliers. Values equaling 0 were converted to the lowest nonzero value of 0.06 before log 2 transformation. In the rituximab group, 87 of 93 patients (94%) had this degree of B-cell depletion at 1 month.

Among the patients who did not have B-cell depletion, 4 patients reached the primary end point and 1 patient did not. In the control group, peripheral-blood CD19+ B-cell counts also decreased, but the rate and magnitude of the decrease were less than in the rituximab group. ANCA Response Among patients who remained in their original treatment groups, 47% in the rituximab group and 24% in the control group became ANCA-negative by 6 months (P=0.004). This difference between the two treatment groups in loss of ANCA reactivity was due to changes in the subgroup of patients who were initially positive for proteinase 3−ANCA.

Fifty percent of such patients in the rituximab group became negative for proteinase 3−ANCA, as compared with only 17% in the control group (P. Adverse Events There were no significant differences between the treatment groups in the numbers of total adverse events, serious adverse events, or non−disease-related adverse events, or in the number of participants with at least one non−disease-related adverse event ( Table 2 Adverse Events at 6 Months. Fourteen patients in the rituximab group (14%) and 17 in the control group (17%) had events leading to discontinuation of treatment. More patients in the control group than in the rituximab group had one or more of the predefined selected adverse events: 32 (33%) versus 22 (22%) (P=0.01) ( ). More episodes of grade 2 or higher leukopenia (white-cell count. Discussion Although a randomized, controlled trial involving patients with severe ANCA-associated vasculitis that compared cyclophosphamide head to head with another agent had long been deemed unethical, uncontrolled studies have suggested that rituximab has efficacy for remission induction in ANCA-associated vasculitis.

Those promising results led to the current study, which suggests that rituximab plus glucocorticoids provides similar results to cyclophosphamide plus glucocorticoids for induction of remission. The observed treatment effects were consistent across all measures of clinical efficacy. A higher percentage of rituximab-treated patients reached the primary end point (64% vs.

53%); the difference exceeded the prespecified noninferiority margin by 31%. In addition, in a prespecified subgroup analysis, patients who presented with relapsing disease and who received rituximab fared substantially better than did those with relapsing disease who received cyclophosphamide. Among patients with severe renal disease or alveolar hemorrhage, the outcomes were similar with the two treatment regimens. The likelihood of remission at 6 months is affected by whether glucocorticoids have been tapered and discontinued entirely, as well as by the specific definition of remission. Several differences in trial design may explain why the remission rates in this trial were lower than those in some other vasculitis trials. Particularly important is the fact that in other vasculitis trials, patients have generally been permitted to continue to receive glucocorticoids for 1 year or longer. In addition, some of the patients in other trials who were classified as being in remission had the continuation of one or more minor BVAS items (i.e., a score higher than 0).

We anticipated lower rates of certain adverse events in the rituximab group, but we did not observe major differences between the two groups in overall adverse events. There are several possible reasons for this finding. First, adverse events, by their definition, include both disease and treatment complications, including those related to glucocorticoid use. Second, 6 months may have been too short a period in which to detect some of the cyclophosphamide-associated adverse events (e.g., infertility). Third, rigorous monitoring of all patients in our trial may have reduced the incidence of cyclophosphamide-induced leukopenia, which may occur in clinical practice if blood counts are not checked every 2 weeks. Our trial had certain limitations. We enrolled only patients with severe ANCA-associated vasculitis who were ANCA-positive.

Thus, it is not clear whether the treatment effects extend to patients with limited Wegener's granulomatosis or those who are ANCA-negative. Patients with alveolar hemorrhage severe enough to require ventilatory support and those with advanced renal dysfunction (serum creatinine level, >4.0 mg per deciliter [354 μmol per liter]) were excluded. Thus, the comparative efficacy of these two regimens is uncertain in such patients. Our study focused exclusively on remission induction but did not address the question of retreatment with rituximab.

Rituximab was not readministered after the return of peripheral-blood B cells (anticipated by 9 to 12 months). Longer follow-up in the present trial is important to understand the benefits and risks of rituximab therapy for ANCA-associated vasculitis. Evaluations of patients followed for a minimum of 18 months will explore issues such as the need for retreatment, particularly in the context of peripheral B-cell reconstitution. The finding that loss of proteinase 3−ANCA production occurred more frequently with rituximab therapy than with cyclophosphamide therapy suggests that these two treatment strategies modulate proteinase 3−producing cells differently.

Since the ANCA response was not associated with the primary end point, it is possible that the clinical efficacies of both rituximab and cyclophosphamide are due to mechanisms beyond autoantibody suppression. In conclusion, our data suggest that treatment with rituximab and glucocorticoids is not inferior to the standard regimen in patients with severe ANCA-associated vasculitis of recent onset.

Moreover, the regimen may be superior to the standard regimen of cyclophosphamide and glucocorticoids for remission induction in severe relapsing ANCA-associated vasculitis. Source Information From Massachusetts General Hospital (J.H.S.) and Boston University Medical Center (P.A. Merkel, E.Y.K., P.A. Appendix Members of the RAVE-ITN Research Group are as follows: Protocol Cochairs — U. Specks (Mayo Clinic), J.H. Stone (Massachusetts General Hospital); Mayo Clinic — U.

Ytterberg, F.C. Fervenza, K.A. Peikert, J.M. Hummel (Mayo Clinic Eisenberg Research Pharmacy); Boston University — P.A. Clark-Cotton, C.A.

McAlear, J.L. DiMarzio, S.P. Schiller Patel; Johns Hopkins University — P. Sejismundo, C. Goldsborough, A. King; Cleveland Clinic Foundation — C.A. Langford, G.S.

Hoffman, R.A. Hajj-Ali, J.J.

Petrich; Hospital for Special Surgery — R. DiMartino, J.K. Moskowitz, K.A. Samuels, S.A. O'Donohue, A. Patel; University of Groningen — C.G.M. Kallenberg, C.

Kosterink; Duke University — E.W. Tochacek; University of Alabama–Birmingham — A.

Turkiewicz, B. Turner; Coordinating Centers: Rho — D. Weitzenkamp, W. Jacob; National Institute of Allergy and Infectious Diseases — L. Adah; Immune Tolerance Network — N.K. Download Skin Pack Keren Untuk Windows 7 64 Bit there. Seyfert-Margolis, P. Skeeter, C.L.

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