MS disease activity in RESTORE: a randomized 24-week natalizumab treatment interruption study.

Objective: RESTOREwas a randomized, partially placebo-controlled exploratory study evaluating multiple sclerosis (MS) disease activity during a 24-week interruption of natalizumab. Methods: Eligible patients were relapse-free through the prior year on natalizumab and had no gadolinium-enhancing lesions on screening brain MRI. Patients were randomized 1:1:2 to continue natalizumab, to switch to placebo, or to receive alternative immunomodulatory therapy (other therapies: IM interferon b-1a [IM IFN-b-1a], glatiramer acetate [GA], or methylprednisolone [MP]). During the 24-week randomized treatment period, patients underwent clinical and MRI assessments every 4 weeks. Results: Patients (n 5 175) were randomized to natalizumab (n 5 45), placebo (n 5 42), or other therapies (n 5 88: IM IFN-b-1a, n 5 17; GA, n 5 17; MP, n 5 54). Of 167 patients evaluable for efficacy, 49 (29%) had MRI disease activity recurrence: 0/45 (0%) natalizumab, 19/41 (46%) placebo, 1/14 (7%) IM IFN-b-1a, 8/15 (53%) GA, and 21/52 (40%) MP. Relapse occurred in 4% of natalizumab patients and in 15%–29% of patients in the other treatment arms. MRI disease activity recurred starting at 12 weeks (n5 3 at week 12) while relapses were reported as early as 4–8 weeks (n5 2 in weeks 4–8) after the last natalizumab dose. Overall, 50/167 patients (30%), all in placebo or other-therapies groups, restarted natalizumab early because of disease activity. Conclusions: MRI and clinical disease activity recurred in some patients during natalizumab interruption, despite use of other therapies. Classification of evidence: This study provides Class II evidence that for patients with MS taking natalizumab who are relapse-free for 1 year, stopping natalizumab increases the risk of MS relapse or MRI disease activity as compared with continuing natalizumab. Neurology® 2014;82:1491–1498 GLOSSARY EDSS 5 Expanded Disability Status Scale; GA 5 glatiramer acetate; Gd1 5 gadolinium-enhancing; IFN-b-1a 5 interferon b-1a;MP5methylprednisolone;MS5multiple sclerosis; PML5 progressive multifocal leukoencephalopathy;QOL5 quality of life; SDMT 5 Symbol Digit Modalities Test; VAS 5 Visual Analogue Scale. Natalizumab (Tysabri, Biogen Idec Inc., Cambridge, MA) has demonstrated efficacy in the treatment of multiple sclerosis (MS). In patients who are anti–JC virus antibody–positive, natalizumab treatment duration increases the risk of progressive multifocal leukoencephalopathy (PML), although PML in patients with MS may have a better prognosis than PML in HIVinfected patients. Planned dosage interruption has been proposed, hypothetically, as a way to mitigate PML risk. To date, there have been no prospective controlled studies of the effects of natalizumab treatment interruption. Some studies suggest that withdrawal of natalizumab treatment for $3 months may be associated with return of MS disease activity. Following natalizumab From the Mellen Center for Multiple Sclerosis (R.J.F.), Cleveland Clinic, OH; University of California San Francisco Multiple Sclerosis Center (B.A.C.C.); Hopital Civil (J.D.S.), Strasbourg, France; St. Josef Hospital (R.G.), Ruhr University, Bochum; Department of Neurology (H.-P.H.), Heinrich-Heine-University, Düsseldorf, Germany; The MS Center at Advance Neurology at Cornerstone Health Care (D.J.), Advance, NC; Departments of Neurology and Biomedicine (L.K.), University Hospital Basel, Switzerland; MS Center (M.K.), Carolinas Medical Center, Charlotte, NC; Vall d Hebron University Hospital (X.M.), Barcelona, Spain; Jacobs MS Center and Pediatric MS Center of Excellence (B.W.-G.), Jacobs Neurological Institute, Buffalo, NY; Infusion Communications (B.A.), Haddam, CT; and Biogen Idec Inc. (A.N., B.T., P.D.), Weston, MA. Go to Neurology.org for full disclosures. Funding information and disclosures deemed relevant by the authors, if any, are provided at the end of the article. The Article Processing Charge was paid by Biogen Idec Inc. This is an open access article distributed under the terms of the Creative Commons Attribution-Noncommercial No Derivative 3.0 License, which permits downloading and sharing the work provided it is properly cited. The work cannot be changed in any way or used commercially. © 2014 American Academy of Neurology 1491 discontinuation, MS disease activity exceeded prenatalizumab disease activity in some studies but not in others. The timing of the return of disease activity and optimal monitoring and treatment strategies for patients discontinuing natalizumab are not known. The objectives of RESTORE, a randomized, partially placebo-controlled study, were to explore the course of MS disease activity and the effects on pharmacokinetic, pharmacodynamic, and immune parameters in patients undergoing an interruption of natalizumab therapy for up to 24 weeks as compared with those in patients remaining on natalizumab. It also assessed the effects of alternate therapies during natalizumab interruption. RESTORE was an exploratory study and was neither designed nor powered for any specific endpoint or to detect an effect of natalizumab treatment interruption on PML occurrence. We present the clinical and MRI outcomes during natalizumab treatment interruption and after restarting natalizumab in RESTORE. METHODS Study design. In this phase 4, randomized, multicenter, partially placebo-controlled, parallel-group exploratory study, patients with MS receiving natalizumab were randomized into 3 treatment arms in a 1:1:2 ratio: natalizumab:placebo:alternate immunomodulatory therapy (other therapies: IM interferon b-1a [IM IFN-b-1a] [Avonex, Biogen Idec Inc., Cambridge, MA], glatiramer acetate [GA] [Copaxone, Teva Neuroscience, Kansas City, MO], or methylprednisolone [MP]). In the other-therapies group, patients and their neurologist selected the immunomodulatory therapy on an individual basis; as such, the distribution of patients receiving IM IFN-b-1a, GA, and MP was not randomized, and the groups were unbalanced (figure 1). Planned enrollment was approximately 160 patients randomized 1:1:2 natalizumab:placebo:other therapies. As an exploratory study, the sample and randomization allocation were chosen to evaluate trends in radiologic and clinical disease recurrence in each group. Patients from 31 sites in North America and Europe were randomized using a centralized interactive voice response system at the baseline visit, and randomization was stratified by country and pretreatment disease activity (high vs low). High disease activity was defined as $2 relapses within 12 months prior to initiating natalizumab therapy. The study was performed between March 2010 and November 2011. Standard protocol approvals, registrations, and patient consents. Each site’s institutional review board reviewed and approved the study protocol and amendments, and all participants provided written informed consent. The study was Figure 1 Study design Patients provided signed consent at week 24 and underwent screening. Patients were enrolled at their next monthly visit (day/week 0) if they did not have subclinical disease activity as evidenced by gadolinium-enhancing lesions on MRI and met all other eligibility criteria. At day/week 0, natalizumab-treated patients were randomized into 1 of 3 treatment arms in a 1:1:2 ratio: natalizumab (no natalizumab treatment interruption), placebo (natalizumab treatment interruption), or other therapies (IM interferon b-1a [IFN-b-1a], glatiramer acetate [GA], or methylprednisolone [MP] as determined by the patient or the investigator; natalizumab treatment interruption). All patients received natalizumab infusion on day 0. IM IFN-b-1a or GA was started on day 0, following natalizumab infusion, and MP was started at week 12 (other-therapies group). Placebo infusions began (placebo group) or natalizumab infusions continued (natalizumab group) at week 4. If a patient in any treatment arm developed protocol-defined multiple sclerosis disease recurrence, treatment with high-dose corticosteroids or restarting natalizumab, at the investigators’ discretion, was permitted. Following the 28-week randomized treatment period, placebo and other therapies were discontinued and natalizumab was restarted in the placebo and other-therapies groups and continued through week 52 (study end) in the follow-up period. Clinical, MRI, and laboratory evaluations were performed every 4 weeks during the randomized treatment period starting at week 0, at the time of suspected relapse, and at the week 52 follow-up visit. Expanded Disability Status Scale was assessed at day 0, at week 28, at the time of suspected relapse, and at the week 52 follow-up visit. 1492 Neurology 82 April 29, 2014 performed in accordance with the Declaration of Helsinki and International Conference on Harmonisation Guideline on Good Clinical Practice and is registered with ClinicalTrials.gov, number NCT01071083. Primary research question. This analysis of patients with MS who were relapse-free for 1 year on natalizumab therapy was conducted to compare clinical and MRI outcomes during natalizumab treatment interruption with those in patients remaining on natalizumab. While the effects of alternative therapies during natalizumab interruption were also assessed, RESTORE was not designed to compare the efficacy of the different alternative therapies. Classification of evidence. This study provides Class II evidence that for patients with MS taking natalizumab who are relapse-free for 1 year, stopping natalizumab increases the risk of MS relapse or MRI disease activity as compared with continuing natalizumab. Because of differences in baseline characteristics and the open-label design, the comparisons with the alternative immunotherapies group provide Class IV evidence. Patients. RESTORE enrolled patients between 18 and 60 years of age with relapsing forms of MS who had been treated with natalizumab for at least 12 months prior to randomization and who had no relapses during those 12 months. Exclusion criteria included the presence of gadoliniumenhancing (Gd1) lesions on screening MRI; presence of antinatalizumab antibodies at screening; history of significant infectious illness or significant disease other than MS; and inability to undergo monthly MRI scans for 6 months. Patients were also excluded if they received immunosuppressive treatment within 24 months prior to randomization; treatment with IV immunoglobulin, plasmapheresis, or cytapheresis within 12 months prior to randomization; or treatment with systemic corticosteroids within 3 months prior to randomization. Interventions. At the baseline visit (day 0), all patients received a standard 300-mg natalizumab infusion. Starting at week 4, patients randomized to natalizumab or placebo received infusions every 4 weeks through week 24 in a double-blind fashion. Patients randomized to other therapies who chose IM IFN-b-1a or GA received their first injections on day 0. Patients randomized to other therapies who chose MP received infusions every 4 weeks starting at week 12. All 3 other therapies were administered open-label. Clinical, MRI, and laboratory evaluations were performed every 4 weeks during the randomized treatment period starting at week 0, at the time of suspected relapse, and at the final visit. At week 28, patients resumed open-label infusions of natalizumab and stopped placebo or other therapy. Participants were followed for an additional 24 weeks, concluding the study at week 52. Treatment for MS disease recurrence. If a patient experienced protocol-defined evidence of MS disease recurrence during the randomized treatment period, the investigator had the option of administering high-dose corticosteroid treatment as per local standard of care or restarting open-label natalizumab infusions. Because natalizumab discontinuation has been linked to severe clinical relapses in some studies, disease recurrence criteria incorporated subclinical measures of radiographic disease activity as detected by every-4-week brain MRI scans. This method allowed physicians to use radiographic criteria to initiate treatment with corticosteroids or restart natalizumab. Disease recurrence criteria were (1) 1 Gd1 lesion of .0.8 cm in volume, (2) 2 or more Gd1 lesions of any size, as reported by the Central MRI Reading Center (NeuroRx Research, Montreal, Canada), or (3) a relapse defined as new or recurrent neurologic symptoms not associated with fever or infection, lasting at least 24 hours and associated with any of the following: an increase of $1 grade in $2 functional scales of the Expanded Disability Status Scale (EDSS); an increase of $2 grades in one functional scale of the EDSS; an increase of $1.0 in the overall EDSS score if the previous overall EDSS score was 0.0–5.5; or an increase of $0.5 if the previous overall EDSS score was .5.5. Patients who restarted natalizumab during the randomized treatment period entered the follow-up period immediately and were followed on open-label natalizumab for 24 weeks. The end of the follow-up period for these patients was considered “week 52,” even though their total study time may have been less than 52 weeks. Assessments. The objective of this study was to assess radiographic and clinical disease activity in patients with MS undergoing up to a 24-week interruption of natalizumab therapy. The time course to return of radiologic or clinical evidence of MS activity was assessed by Gd1 lesions on cranial MRI and clinical relapse. Evaluations of quality of life (QOL) using a Visual Analogue Scale (VAS), fatigue using the Modified Fatigue Impact Scale, and cognition using the Symbol Digit Modalities Test (SDMT) were performed at the same time points as clinical, MRI, and laboratory evaluations (every 4 weeks during the randomized treatment period starting at week 0, at the time of suspected relapse, and at the final visit). EDSS was assessed at day 0, at week 28, at the time of suspected relapse, and at the final visit. EDSS and SDMT evaluations were performed by clinical staff blinded to treatment assignment. The Central MRI Reading Center that performed MRI assessments was blinded to treatment allocation. Investigators assessed patient safety by physical examination (including vital signs), concomitant therapy and procedure recording, laboratory tests, and adverse event and serious adverse event recording. Statistical analysis. All efficacy analyses were performed on an evaluable population that completed the study through at least week 4 and did not incur any of the following major protocol deviations: testing positive for anti-IFN-b-1a antibodies and choosing IFN-b-1a as an alternative immunomodulatory therapy, not receiving the day 0 (baseline) natalizumab dose, and being previously randomized into the study. Baseline comparisons were performed using a 1-way analysis of variance for continuous variables and Fisher exact test for proportions. Other proportions are presented with exact binomial confidence intervals and were compared using Fisher exact test. Kaplan-Meier analyses were performed and p values from logrank tests are provided. RESULTS Patient demographics and disease characteristics. A total of 175 patients were enrolled. Forty-five patients (26%) were randomized to natalizumab, 42 patients (24%) were randomized to placebo, and 88 patients (50%) were randomized to other therapies. In the other-therapies group, 17 of 88 patients (19%) received IM IFN-b-1a, 17 of 88 patients (19%) received GA, and 54 of 88 patients (61%) received MP. Forty-three of 45 natalizumab patients (96%), 35 of 42 placebo patients (83%), and 73 of 88 other-therapies patients (83%) completed the study. Reasons for withdrawing from the study included withdrawal of consent, refusal to Neurology 82 April 29, 2014 1493 return for the protocol-defined monthly visits, and inclusion/exclusion criteria violations. Except for baseline EDSS score, baseline demographics and disease characteristics were similar across the groups (table 1). Seventy-three percent of RESTORE patients had prior IFN-b-1a use, 37% had prior GA use, and 33% had prior IFN-b-1b use. MRI disease activity. During the randomized treatment period, 49 of 122 patients (40%) randomized to placebo or other therapies had MRI activity meeting disease recurrence criteria, while none of the patients randomized to natalizumab had MRI activity meeting the criteria (p , 0.001). Thirty-four percent (23/68) of patients with high disease activity prior to natalizumab treatment had MRI activity meeting criteria during the randomized treatment period; the proportion was 26% (26/99) for those with low disease activity prior to natalizumab treatment (p 5 0.305; table 2). No MRI activity meeting defined disease recurrence criteria was detected prior to week 12. A total of 49 patients developed MRI findings that met defined criteria for disease recurrence; 3 patients (6%) at week 12, 37 patients (76%) at week 16 or 20, and 9 patients (18%) after week 20 (figure 2A). Relapse. Twenty-three of 122 patients (19%) off natalizumab and 2 of 45 patients (4%) on natalizumab experienced relapses during the randomized treatment period (p5 0.026). Relapses occurred in 21% (14/68) of patients with high disease activity and in 11% (11/ 99) of patients with low disease activity prior to starting natalizumab (p 5 0.122; table 2). Of 25 relapses occurring during the randomized treatment period, 2 (8%) occurred between weeks 4 and 8, 9 (44%) occurred between weeks 8 and 16, and 14 (56%) occurred between weeks 16 and 28 (figure 2B). Two patients with high disease activity (in GA and MP groups) experienced a relapse in both the randomized treatment period and in the follow-up period. Natalizumab restart. During the randomized treatment period, 50 patients restarted open-label natalizumab, including 12 patients who experienced a clinical relapse without MRI activity and 7 patients who had both a clinical relapse and MRI activity. Thirty-one of 40 patients (78%) who met MRI criteria without experiencing a clinical relapse restarted natalizumab; an additional 2 patients were treated with steroids. Time to restarting natalizumab is shown in figure 2C. QOL, fatigue, and cognition. Measures of QOL, fatigue, and cognition were exploratory measures and analyzed separately for patients who continued on their randomized treatment through week 28 and for those who restarted natalizumab earlier due to disease recurrence. Patients experiencing disease activity showed a mean decrease from baseline in VAS score at the time of relapse (results are provided in table e-1 and figure e-1 on theNeurology®Web site at Neurology.org). Follow-up. At the week 52 follow-up visit, after 24 weeks of open-label natalizumab, one patient in the placebo group had 1 Gd1 lesion on MRI; no other patients in any group had MRI activity. Five percent of patients (8/155) had relapses during the Table 1 Baseline demographics, disease characteristics, and prior therapies Characteristic Natalizumab (n 5 45) Placebo (n 5 42) IM IFN-b-1a (n 5 17) GA (n 5 17) MP (n 5 54) Age, y, mean 6 SD 41.2 6 9.7 40.0 6 10.4 45.1 6 9.9 44.1 6 7.9 40.1 6 10.0 Female patients, % 82 74 82 82 72 Race, white, % 82 93 100 100 93 EDSS score at baseline, mean 6 SD 3.0 6 1.8 3.3 6 1.8 2.8 6 1.6 4.5 6 2.1 3.0 6 1.4 High disease activity prior to natalizumab, % 42 45 24 47 35 Disease duration, y, mean 6 SD 10.1 6 5.9 10.1 6 7.2 10.4 6 4.5 7.8 6 4.9 8.9 6 6.7 No. of prior natalizumab infusions, median (range) 29 (12–49) 31 (13–51) 25 (12–46) 25 (13–45) 28 (13–50) Prior therapies, n (%) IFN-b-1a 35 (78) 30 (71) 12 (71) 11 (65) 39 (72) GA 18 (40) 18 (43) 6 (35) 8 (47) 15 (28) IFN-b-1b 13 (29) 11 (26) 6 (35) 5 (29) 22 (41) Corticosteroids 6 (13) 7 (17) 2 (12) 2 (12) 2 (4) Mitoxantrone 6 (13) 4 (10) 0 1 (6) 3 (6) Methotrexate 1 (2) 4 (10) 1 (6) 0 3 (6) Abbreviations: EDSS 5 Expanded Disability Status Scale; GA 5 glatiramer acetate; IFN-b-1a 5 interferon b-1a; MP 5 methylprednisolone. a All baseline characteristics were well-balanced among the study groups (nominal p . 0.05) with the exception of EDSS score at baseline (p 5 0.016). High disease activity was defined as $2 relapses occurring within the 12 months prior to initiating natalizumab therapy. 1494 Neurology 82 April 29, 2014 follow-up period; 5 of the 8 patients were not receiving natalizumab during the randomized treatment period, and 3 patients had a relapse within 4 weeks of reinitiation of open-label natalizumab treatment. Nineteen of 175 patients (11%) did not receive natalizumab during the follow-up period, and one patient was excluded from the analysis. Safety. During the randomized treatment and follow-up periods, the majority of patients in all groups had at least one adverse event: randomized treatment period: natalizumab, 84% (n 5 38); placebo, 83% (n 5 35); IM IFN-b-1a, 88% (n 5 15); GA, 88% (n 5 15); MP, 78% (n 5 42); follow-up period: natalizumab, 58% (n 5 25); placebo, 51% (n 5 19); IM IFN-b-1a, 69% (n 5 9); GA, 73% (n 5 11); MP, 50% (n 5 24). Adverse events were primarily mild or moderate in severity, and the most frequently reported adverse events were generally consistent with MS and disease-modifying therapy product labels, but also included upper respiratory tract infection, nasopharyngitis, and influenza-type illness (table e-2). Four patients withdrew from the study during the randomized treatment period due to severe fatigue (placebo), moderate muscular weakness (placebo), mild hypoesthesia (IM IFN-b-1a), and a serious adverse event of brain abscess (MP). There were no deaths during the study. DISCUSSION Natalizumab is often used to treat patients whose disease has been inadequately controlled with other therapies, and natalizumab-treated patients are at significant risk of disease recurrence following treatment cessation. RESTORE is the largest randomized prospective study to date analyzing MS disease recurrence during natalizumab treatment interruption in a subpopulation of patients who had been stable on natalizumab for over a year with no Gd1 lesions at baseline. Disease recurred in a large proportion of RESTORE patients who discontinued natalizumab treatment, and radiologic disease recurrence was more frequent in patients with high disease activity (based on relapses) prior to natalizumab therapy than in patients with low disease activity prior to starting natalizumab. The safety evaluations were generally consistent with the labeled risk profile for each of the respective marketed products, notably for natalizumab. Similar to smaller observational studies and retrospective analyses, RESTORE demonstrated that natalizumab treatment interruption resulted in occurrence of MRI disease activity as early as 12 weeks, and of clinical disease activity as early as 4–8 weeks, after the last natalizumab dose. The earlier recurrence of clinical disease vs radiologic disease may also reflect the more subjective nature of clinical relapse reporting, although our study design required objective EDSS changing for defining a clinical Table 2 Patients with disease recurrence during the randomized treatment period All patients, n (%) (95% CI) High disease activity, n (%) (95% CI) Low disease activity, n (%) (95% CI) Patients with MRI disease recurrence Total 49/167 (29) (22.6–36.9) 23/68 (34) (22.8–46.3) 26/99 (26) (17.9–36.1) Natalizumab 0/45 (0) (0–7.9) 0/19 (0) (0–17.6) 0/26 (0) (0–13.2) Placebo 19/41 (46) (30.7–62.8) 11/19 (58) (33.5–79.7) 8/22 (36) (17.2–59.3)