Improving Therapeutic Options for Multiple Sclerosis

Improving Therapeutic Options for Multiple Sclerosis: An Interview With Edward Fox, MD, PhD

Elizabeth Samander, PhD

Medscape Neurology & Neurosurgery. 2008; ©2008 Medscape
Posted 10/16/2008

Editor's Note

New data from key trials in multiple sclerosis (MS) regarding novel therapeutic approaches were presented at the World Congress on Treatment and Research in Multiple Sclerosis held from September 17-20, 2008, in Montreal, Canada. Medscape Scientific Director Elizabeth Samander, PhD, interviewed Edward Fox, MD, PhD, about the results of these trials and what implications these results may have on clinical practice and the future management of patients with MS.

Medscape: Dr. Fox, in your opinion, what were the most compelling research findings presented at the World Congress on Treatment and Research in Multiple Sclerosis (WCTRIMS) meeting this year?

Dr. Fox: The overall message from the meeting this year was that a number of medications are currently being investigated that hold great promise for the treatment of multiple sclerosis (MS). Research was presented from numerous trials involving novel therapies, including monoclonal antibody and oral products. There was a substantial amount of evidence presented on both of those categories, including further data from completed phase 2 trials and descriptions of ongoing phase 3 trials. The number of medications that we have under current investigation is really quite large, so it is difficult to see the timeline for these medicines actually being brought to market. We had hoped that these studies would fully enroll quickly, so that we would have finalized data coming within the next few years. However, it is likely that there will be some delays because of the large number of competing trials with slower-than-expected enrollment.

Monoclonal antibody agents discussed at the meeting included alemtuzumab, rituximab, and daclizumab.[1-6] Those antibodies have certainly been well-tested in phase 2 trials, and plans are ongoing for phase 3 trials in relapsing-remitting MS. There was also a phase 3 trial regarding rituximab[1,5,7] for the treatment of primary progressive MS. The primary endpoint of time to confirmed disease progression did not show a statistically significant difference between rituximab and placebo. However, subcohort analysis suggested a benefit for those patients with active magnetic resonance imaging (MRI) at entry into the study. I think that the overall feeling about B-cell depletion in the treatment of MS is very positive. We are looking forward to other studies, including ones on ocrelizumab,[8] another monoclonal antibody, which can selectively deplete B cells and thereby reduce MS disease activity.

The data presented on the alemtuzumab trial was further information from the phase 2 trial, which showed a highly significant decrease in the number of relapses seen in patients on alemtuzumab compared with patients receiving interferon beta-1a subcutaneously 3 times weekly.[4] The data presented were on a 3 year follow-up trial designed to evaluate the percentage of patients who were clinically disease-free. These were patients who did not have relapses and did not have a progression of disability during the course of the trial. The superiority of alemtuzumab compared with beta-interferon was sustained throughout the 3 years on study. Within the third year it was found that 71% of the patients who were on alemtuzumab were clinically disease-free compared with 38% of those who were receiving interferon beta-1a. These findings have led to the development of 2 phase 3 trials currently enrolling patients.

Medscape: What other novel therapeutic approaches are undergoing clinical trials?

Dr. Fox: The oral medications discussed at this meeting included cladribine,[9-11] fingolimod,[12-14] BG-00012,[15,16] teriflunomide,[1,13,17] and laquinimod.[18] All of these oral agents, as well as several others, are showing promise for the treatment of MS. It may be that any or all of these products will have success in the treatment of MS, but at this time we're still in the discovery phase for the safety as well as for the efficacy of these medications.

The phase 2 trials that have been performed have primarily been based on looking for a reduction in new MRI activity in patients with multiple sclerosis. They all have shown various degrees of benefit in reducing gadolinium-enhancing lesions on MRIs during the course of the phase 2 trials. However, these trials were rather short and generally were not powered to show significant clinical outcomes. An exception was the phase 2 trial on fingolimod, which did show a substantial reduction in relapse rate as well.

The phase 3 trials are going to be looking not only at reduction in MRI activity, but will also be looking at the important clinical measures that will be required for these medications to be licensed. Those include a reduction in relapse rate and prevention of sustained accumulation of disability compared with placebo. These clinical outcome measures may or may not be found despite the MRI evidence that has been seen in the past, because there has been a disconnect between MRI activity and clinical activity seen in several previous agents tested for MS.

Medscape: There is evidence that disease-modifying treatments, although partially effective, are associated with injection-related side effects and suboptimal patient adherence. These findings may suggest that novel therapeutic strategies, including oral therapies, monoclonal antibodies, symptomatic treatments, and combination regimens, are warranted. What is the role of these novel agents in the therapeutic armamentarium with respect to first-line use, add-on treatment for failed first-line therapy, or as an effective induction agent?

Dr. Fox: Certainly our hope is that there's going to be an increased number of agents available for the treatment of MS, but it's going to be necessary to determine at what stage of disease we would use these medications.[19] The strategy of phase 3 trials is typically in first-line treatment of relapsing-remitting MS, in a placebo-controlled trial evaluating medication over a period of 2 years. This certainly gives us an idea as to what its overall effectiveness can be, and the newer treatments will be evaluated for the ability to reduce relapses and accumulation of disability. Phase 3 trials will also have to show an acceptable safety profile and risk management plan. The first-line agents that we currently have on the market, glatiramer acetate and the beta interferons, will likely continue to have a role in first-line therapy when we look at long-term efficacy and safety measures of the newer medicines. It will likely take a number of years to determine the true safety of the monoclonal and oral agents, and their overall use as first-line therapies will depend on these data.

The concern that we have about using any of the new agents as an add-on treatment for failed first-line therapy is again, a safety issue. If it's being used in a combination with other immunomodulatory or immunosuppressive therapy, we cannot currently define the safety of such an approach. This has been a major concern lately with the findings of opportunistic infections such as progressive multifocal leukoencephalopathy in patients who are immunosuppressed. Switching from ineffective first-line therapy to a new therapy is going to be the most likely use in clinical practice soon after these agents reach the market.

Using any of these agents as an effective induction agent is going to require more data from trials where this has been specifically tried. Older medications such as mitoxantrone have been tested as induction therapies with some very favorable results, but the novel agents that are being investigated right now have not been similarly tested.[20-24] Therefore, I believe that the novel agents are likely to be used as first-line or second-line agents rather than initially as induction agents.

Medscape: What is the evidence for agents optimized for neuroprotection and neurorepair?

Dr. Fox: Ideally, any medication that we use as a preventive medicine for MS would have neuroprotective and neurorepair abilities. Research has shown a frequent association of better clinical outcomes if there's prevention of atrophy. The concept of neuroprotection is that we are preventing axonal loss and neuronal loss during the early stages of MS prior to the onset of disability. All of the trials that are looking at atrophy measures are addressing this issue to some degree, but we would like to have advanced imaging metrics to look more directly at the preservation of axonal and neuronal function.

The World Congress and Treatment for Research of Multiple Sclerosis Meeting had a substantial amount of data that were presented regarding these advanced imaging metrics, including magnetic resonance spectroscopy (MRS) and magnetization transfer imaging (MTR). Measurement of neuronal loss by optical coherence tomography (OCT) is also a very promising method of evaluating the degree of atrophy seen in MS.[25] It is likely that the novel therapies currently being investigated will also be tested in a similar manner. It is reassuring to know that we are seeing some positive data on neuroprotection. Improving repair mechanisms may require a new type of medication that would stimulate the production of new myelin growth rather than working as an immunosuppressant medication.

Medscape: What are the limitations and benefits of these novel therapeutic agents, with respect to safety and efficacy, compared with long-approved therapies such as interferon beta and glatiramer acetate?

Dr. Fox: The-first line therapies that we are currently using for the treatment of MS have been on the market for a number of years. The users of these medicines have a certain comfort level with these medications now and the understanding that the long-term data have indicated a relatively good safety profile.

Immunomodulating therapies do not appear to cause the degree of risk that the immunosuppressant therapies may cause. We understand the risk-benefit ratios of the medicines that have been on the market for a number of years, but the novel therapies that are currently under investigation will undoubtedly have a higher degree of uncertainty as to their safety for many years to come. It is quite possible that the novel therapies are going to have immunosuppressant activity that could lead to increased risk for opportunistic infections, limiting their use as first-line therapies.

The efficacy measures, on the other hand, may show direct or indirect evidence of superiority to the first-line therapies. If indeed the therapeutic abilities of these novel therapies are great enough, then we may accept a higher risk potential with these medications and use them as first-line therapy. However, I don't think that the true measure of a medication's safety will be known at the time it enters the market.

Medscape: Does the increase of potential therapeutic agents complicate how to choose first-line therapy?

Dr. Fox: I think with the advent of more choices, we're going to have a greater divide among practicing neurologists as to how they approach the disease. Right now there's fairly good uniformity among neurologists in terms of how to treat early MS. There are differences in opinion about the optimal medication strategies for people with aggressive or chronic disease. But early active disease is currently treated by a limited number of agents that have relatively similar outcome measures in terms of their ability to control the disease. If we have new medicines available to us over the next several years that have a much different risk-benefit ratio with greater promise of disease control but increased risk, I feel that there's likely to be a group of neurologists who will use these medications first line. But there will be a number of other neurologists who are much more conservative in their acceptance of the new medications and will limit the new medicines only to those patients who have failed existing therapies.

Medscape: The fields of genetics and proteomics are beginning to play a large part in the discovery of novel therapeutic targets. How do these newly identified targets impact the development of individualized therapeutic strategies?

Dr. Fox: As we understand the pathology of MS better, we may find that certain medications are tailored for some patients more than others. For example, the biomarkers that may eventually be used for MS would determine whether we would want to use therapies that were depleters of B cells, T cells, monocytes, or a wide-spectrum immunosuppressant.[26,27] Critical to this line of thinking is the understanding of the mechanism of action of our current medications, which remains somewhat murky to this day, because MS is a highly variable and unpredictable disease with different pathologies among different patients. If we understood the pharmacogenomics of MS better, we might be able to tailor appropriate therapies much more accurately.

Medscape: What are some of the outstanding challenges in the treatment of MS that need to be addressed in the future?

Dr. Fox: Balancing the risks and benefits of medications in the treatment of MS has become increasingly important in the last few years. The major challenge in understanding the nature of this disease is elucidating the prognostic factors for an individual patient, so that we may prevent the development of permanent disability that at this point cannot be alleviated. If we can determine which patients have early, aggressive MS before the development of axonal loss and atrophy, we stand a much greater chance of being able to appropriately determine who might require stronger immunosuppressant. Our challenge going forward is to address both the inflammatory and the degenerative nature of MS with medications that effectively control the disease. Data presented at the World Congress on Treatment and Research in Multiple Sclerosis suggests we are now closer to that goal.

Medscape: Thank you Dr. Fox for sharing this information and your insights with us today.

This activity is supported by an independent educational grant from Teva.
References

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13. Kappos L, Polman C, Radue E, et al. Oral fingolimod (FTY 720) in relapsing-remitting multiple sclerosis: baseline patient demographics and disease characteristics from a 2-year phase III trial (FREEDOMS). Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P73.
14. Montalban X, Comi G, Anel J, et al. Oral fingolimod (FTY 720) in relapsing multiple sclerosis: impact on health-related quality of life in a phase II study Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P400.
15. MacManus D, Miller D, Kappos L, R. Gold, et al. The effect of BG00012 on conversion of gadolinium-enhancing lesions to T1-hypointense lesions. Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P459.
16. Gold R, Kappos L, Miller D, et al. Safety profile of BG00012, an oral formulation of dimethyl fumarate for patients with relapsing MS. Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P50.
17. Tallantyre E, Evangelou N, Constantinescu CS. Spotlight on terfilunomide. Int MS J. 2008;15:62-68. Abstract
18. Comi G, Abramsky O, Arbizu T, et al., for the LAQ/5062 Clinical Advisory Board and Study Group. Oral laquinimod in patients with relapsing-remitting multiple sclerosis: 9-month double-blind active extension of the multi-center, randomized, double-blind, parallel-group placebo-controlled study. Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P31.
19. Gold R. Combination therapies in multiple sclerosis. Neurology. 2008;255 Suppl 1:51-60.
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21. Le Page E, Leray E, Taurin G, et al. Mitoxantrone as induction treatment in aggressive relapsing remitting multiple sclerosis: treatment response factors in a 5 year follow-up observational study of 100 consecutive patients. J Neurol Neurosurg Psychiatry. 2008;79:52-56. Abstract
22. Filippi M, Le Page E, Leray E, Edan G, Comi G. Magnetic resonance imaging results of a 3-year randomized trial comparing two therapeutic strategies in aggressive relapsing-remitting multiple sclerosis: mitoxantrone as induction for 6 months followed by interferon-b-1b versus interferon-b-1b. Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P254.
23. Perumal J, Hreha S, Caon C, et al. Intense immunosuppression as the initial disease-modifying therapy in clinically active relapsing multiple sclerosis. Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P490.
24. Ramathal J, Boggild M. Glatiramer acetate following mitoxantrone induction in relapsing-remitting multiple sclerosis: extended experience. Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P498.
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26. Garcia-Montojo M, Alvarez-Lafuente R, Dominguez-Mozo M, De las Hera V, Bartolome F, Arroyo R. MxA and MMP-9/TI MP-1 ratio as biomarkers of treatment efficacy and disease activity in multiple sclerosis patients. Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster 452.
27. Melnikov A, Scholtens D, Reder A, Balabanov R, Stefoski D, Levenson V. Composite methylation profiles of blood DNA as biomarkers for multiple sclerosis. Disease-modifying therapy-part 2. Program and abstracts of the World Congress on Treatment and Research in Multiple Sclerosis; September 17-20, 2008; Montreal, Quebec, Canada. Poster P869.


Interviewer: Elizabeth Samander, PhD, Scientific Director, Medscape LLC

Interviewee: Edward J. Fox, MD, PhD, Clinical Assistant Professor, University of Texas Medical Branch, Round Rock, Texas

Disclosure for Interviewer: Elizabeth Samander, PhD, is a member of the professional editorial group at Medscape and has reported no relevant financial relationships.

Disclosure for Interviewee: Edward J. Fox, MD, PhD, has disclosed that he has received grants for clinical research from Biogen-Idec, BioMS, EMD-Serono, Genzyme, Opexa Therapeutics, Sanofi-Aventis, and Teva Neuroscience. Dr. Fox has also disclosed that he has received grants for educational activities from Bayer, Biogen-Idec, EMD-Serono, Pfizer, and Teva Neuroscience. Dr. Fox has also disclosed that he has served as an advisor or consultant to Bayer, Biogen-Idec, EMD-Serono, Genzyme, Opexa Therapeutics, and Teva Neuroscience.

Genentech and Biogen Idec Announce Top-Line Results from a Phase II/III Clinical Trial of Rituxan in Primary-Progressive Multiple Sclerosis

South San Francisco, Calif. and Cambridge, Mass. -- April 14, 2008 -- Genentech, Inc. (NYSE: DNA) and Biogen Idec, Inc. (Nasdaq: BIIB) today announced that a Phase II/III study of Rituxan® (rituximab) for primary-progressive multiple sclerosis (PPMS) did not meet its primary endpoint as measured by the time to confirmed disease progression during the 96-week treatment period. Genentech and Biogen Idec will continue to analyze the study results and will submit the data for presentation at an upcoming medical meeting.

"We are disappointed in the outcome of the primary endpoint, but not surprised given the significant clinical challenges presented by PPMS," said Hal Barron, M.D., Genentech senior vice president, development and chief medical officer. "There was some evidence of biologic activity, and we will continue to review all the data to better understand the role of B cells in MS."

"While the primary results are not what we had hoped, we continue to believe in the potential of B cell therapy for patients living with MS," said Michael Panzara, M.D., MPH, Vice President and Chief Medical Officer, Neurology Strategic Business Unit, Biogen Idec. "PPMS is widely considered a difficult form of MS to treat and historically no therapy has proven efficacy in this disease state."

About the Study
This Phase II/III randomized, double-blind, placebo-controlled, multi-center study was designed to evaluate the efficacy, safety and tolerability of four courses of Rituxan in patients with PPMS. A total of 439 patients from approximately 60 sites in the U.S. and Canada were randomized 2:1 to receive either four treatment courses of Rituxan six months apart or placebo. MRI evaluations were conducted at baseline, weeks 6, 48, 96 and 122.

Detailed safety data from the study is currently being evaluated. The incidence of overall adverse events was comparable between Rituxan and placebo treatment groups. Serious adverse events were 16.4 percent in the Rituxan arm versus 13.6 percent in the placebo arm, with an incidence of serious infections of 4.5 percent compared with <1.0 percent respectively. Infectious events reported in at least 10 percent of patients in either group included upper respiratory and urinary tract infections. Most infectious events in the Rituxan arm were reported as mild to moderate in severity, though events of greater severity were reported more frequently in patients receiving Rituxan. There were more infusion-related reactions with Rituxan, the majority of which were mild to moderate in severity. The companies continue to monitor the long-term safety of Rituxan treatment.

About MS and PPMS
MS is a chronic autoimmune disease where the body's immune system attacks the myelin sheath causing inflammation and destruction of this fatty, protective substance. The myelin sheath surrounds the body's nerve fibers in the central nervous system, which includes the brain, optic nerves and spinal cord. There are four generally accepted disease courses of MS with a wide variety of symptoms and variations of disease progression.

Symptoms of the disease vary from patient-to-patient. Neurological disability typically accumulates over time and may include weakness or fatigue; numbness or tingling; blurred vision, impaired color perception or visual loss; poor coordination of muscle movements; difficulty with bladder or bowel control; muscle stiffness (spasticity); speech problems and challenges with cognitive skills.

PPMS affects approximately 10 percent of the MS population and is evident by the slow and continuous progression of the disease. People with PPMS can experience plateaus in the progression of their disability, but generally do not experience distinct periods of relapse or remissions. The progressive nature of PPMS and severe debilitation associated with the disease can have a devastating impact on a patient's quality of life and ability to function.

About Rituxan
Rituxan, discovered by Biogen Idec, is a therapeutic antibody that first received Food and Drug Administration (FDA) approval in November 1997 for the treatment of relapsed or refractory, low-grade or follicular, CD20-positive, B cell non-Hodgkin's lymphoma (NHL). It was also approved in the European Union under the trade name MabThera® in June 1998. In February 2006, Rituxan also received FDA approval in combination with methotrexate to reduce signs and symptoms and, in January 2008, to slow the progression of structural damage in adult patients with moderately-to-severely active RA who have had an inadequate response to one or more TNF-antagonist therapies. Rituxan is the first treatment for RA that selectively targets immune cells known as CD20-positive B cells. Rituxan does not target the entire immune system.

CD20 is not found on stem cells, pro-B cells (B cell precursors), normal plasma cells, or other normal tissues. Rituxan does not target plasma cells. These cells make antibodies that help fight infections.

Rituxan does not target stem cells in the bone marrow, and B cells can usually regenerate and gradually return to normal levels after treatment with Rituxan in about 12 months for most patients.

In addition, Rituxan received FDA approval in February 2006 for first-line treatment of previously-untreated patients with follicular NHL in combination with CVP (cyclophosphamide, vincristine and prednisolone) chemotherapy and in September 2006, also was approved for the treatment of non-progressing low-grade, CD20-positive, B cell NHL as a single agent, in patients with stable disease or who achieve a partial or complete response following first-line treatment with CVP chemotherapy, and for previously untreated diffuse large B cell, CD20-positive, NHL in combination with CHOP or other anthracycline-based chemotherapy regimens.

Over the past ten years, there have been more than 1 million patient exposures to Rituxan.

Important Safety Information
Rituxan has been associated with fatal infusion reactions, tumor lysis syndrome (TLS), severe mucocutaneous reactions and progressive multifocal leukoencephalopathy (PML). Hepatitis B reactivation and cardiac arrhythmias and angina have also been observed. Patients should be closely observed for signs of infection if biologic agents and/or disease modifying anti-rheumatic drugs other than methotrexate are used concomitantly. Common adverse reactions (≥ 5%): hypertension, nausea, upper respiratory tract infection, arthralgia, pruritus, and pyrexia.

In addition to PPMS, for which there is currently no FDA-approved therapy, Rituxan is also being studied in other autoimmune diseases for significant unmet medical needs, including systemic lupus erythematosus, lupus nephritis and antineutrophil cytoplasmic antibodies (ANCA)-associated vasculitis.

Genentech and Biogen Idec co-market Rituxan in the United States, and Roche markets MabThera in the rest of the world, except Japan, where Rituxan is co-marketed by Chugai and Zenyaku Kogyo Co. Ltd. For a copy of the Rituxan full prescribing information, including Boxed Warning, please call 1-800-821-8590 or visit http://www.gene.com.

About Genentech
Founded more than 30 years ago, Genentech is a leading biotechnology company that discovers, develops, manufactures and commercializes biotherapeutics for significant unmet medical needs. A considerable number of the currently approved biotechnology products originated from or are based on Genentech science. Genentech manufactures and commercializes multiple biotechnology products and licenses several additional products to other companies. The company has headquarters in South San Francisco, California and is listed on the New York Stock Exchange under the symbol DNA. For additional information about the company, please visit http://www.gene.com.

About Biogen Idec
Biogen Idec creates new standards of care in therapeutic areas with high unmet medical needs. Founded in 1978, Biogen Idec is a global leader in the discovery, development, manufacturing and commercialization of innovative therapies. Patients in more than 90 countries benefit from Biogen Idec's significant products that address diseases such as lymphoma, multiple sclerosis and rheumatoid arthritis. For product labeling, press releases and additional information about the company, please visit http://www.biogenidec.com.

This press release contains a forward-looking statement regarding the potential of B cell therapy for patients living with MS. Such statement is a prediction and involves risks and uncertainties such that actual results may differ materially. Actual results may be affected by a number of factors including, but not limited to, unexpected safety, efficacy or manufacturing issues, the need for additional data or clinical studies, FDA actions or delays, failure to obtain or maintain FDA approval, competition, pricing, reimbursement, the ability to supply product, product withdrawals and new product approvals and launches, and intellectual property or contract rights. Please also refer to the risk factors described in Genentech and Biogen Idec's periodic reports filed with the Securities and Exchange Commission. Genentech and Biogen Idec disclaim, and do not undertake, any obligation to update or revise any forward-looking statements in this press release.

# # #

Rituximab in Adults With Relapsing-Remitting Multiple Sclerosis: Presented at ECTRIMS

By Chris Berrie

PRAGUE, CZECH REPUBLIC -- October 17, 2007 -- A single course of rituximab is safe and well tolerated, and compared with placebo, significantly reduces magnetic resonance imaging (MRI) and clinical evidence of inflammatory activity in patients with relapsing-remitting multiple sclerosis (RRMS), according to a multicenter, randomized, placebo-controlled, phase 2 trial.

The findings were presented here on October 13 at the 23rd Congress of the European Committee for Treatment and Research in Multiple Sclerosis (ECTRIMS).

"For a decade or more, people have mostly looked at treatment that affects T cells in MS, although within the past 10 years there has actually been increased interest in B cells and their products," said principal investigator Emmanuelle Waubant, MD, PhD, Associate Professor of Neurology, Department of Neurology, University of California at San Francisco, San Francisco, California.

Past research has shown that the action of the genetically-engineered chimeric monoclonal anti-CD20 antibody rituximab, in its depletion of pre-B and B cells via binding to their CD20 antigen, could provide an alternative approach in the modulation of MS pathophysiology.

"So this is a proof-of-concept study, to determine whether, in human MS, targeting B cells has an impact on the course of the disease," Dr. Waubant said. The design aim was to evaluate the safety and efficacy of a single treatment cycle of rituximab over 48 weeks in patients with RRMS.

Study subjects were 18 to 55 years old and had a confirmed diagnosis of MS, at least one relapse in the previous year, and an expanded disability status scale (EDSS) score of 0 to 5. They were excluded if they had secondary progressive, primary progressive, or progressive-relapsing MS, and patients who had received various previous treatments were also excluded.

The 104 patients with RRMS enrolled were randomized to placebo (n = 35; mean age, 41.5 years; male, 17.1%) or rituximab 1,000 mg IV infusion on days 1 and 15 (n = 69; mean age, 39.6 years; male, 24.6%).

The primary endpoint was the total number of Gd-enhancing T1 brain lesions on serial MRI scans at weeks 12, 16, 20, and 24. A series of exploratory efficacy outcome measures were used as secondary endpoints: proportion of patients relapsing; annualized relapse rate; total number of new Gd-enhancing T1 lesions; and annualized relapse rate and T2 lesion volume change.

Baseline clinical characteristics between placebo and rituximab treatment groups were essentially the same with respect to number of relapses in the previous year (about 75% of patients had one relapse), mean EDSS score (2.7 vs 2.8, respectively), MS therapy in the previous 2 years (generally glatiramer acetate, interferon beta-1a, and methylprednisone), and lesion counts and volumes.

When compared with the placebo group, rituximab treatment satisfied the primary endpoint, with a significant 91% reduction in mean total Gd-enhancing lesion counts at weeks 12, 16, 20, and 24 (5.5 vs 0.5, respectively; P <.001). Significance was reached at week 12 (P =.003) and continued through the full 48 weeks of monitoring (P <.0001).

For the secondary endpoints, rituximab significantly reduced the number of new Gd-enhancing lesions at weeks 12, 16, 20, and 24, as compared with placebo (P <.001). From week 12, rituximab significantly reduced the number of new Gd-enhancing lesions at each assessment (P =.002 to P <.001).

Rituximab treatment also showed a trend in these patients towards lower annualized relapse rates that reached significance compared with placebo by week 24 (0.84 vs 0.37, respectively; P =.04), although this significance did not carry through to week 48.

For the safety assessments, while all other safety aspects examined were the same across the treatment groups, after the first infusion there were significantly greater infusion-associated adverse events with rituximab than placebo (78.3% vs 40.0%, respectively). However, this effect was reversed after the second infusion (40.0% vs. 20.9%, respectively).

Overall, rituximab was safe, well tolerated, and efficacious through the full 48 weeks of follow-up.

"We demonstrate a very rapid effect of depletion of B cells on the course of MS, measured by MRI, and clinical course, which suggests that it is probably not an effect that is promoted by interfering with the antibodies or immunoglobulin in MS, but it's more likely to be through B cells and their direct cellular effects on T cells and cytokines," Dr. Waubant indicated.

Funding for this study was provided by Genentech Inc.


[Presentation title: Safety and Efficacy of Rituximab in Adults With Relapsing-Remitting Multiple Sclerosis: Results of a Phase 2, Placebo-Controlled, Multicentre Trial Through 48 Weeks. Abstract P554]