Michele Mass

Randomized controlled trial of yoga and exercise in multiple sclerosis

Objective: To determine the effect of yoga and of aerobic exercise on cognitive function, fatigue, mood, and quality of life in multiple sclerosis (MS). Methods: Subjects with clinically definite MS and Expanded Disability Status Score less than or equal to 6.0 were randomly assigned to one of three groups lasting 6 months: weekly Iyengar yoga class along with home practice, weekly exercise class using a stationary bicycle along with home exercise, or a waiting-list control group. Outcome assessments performed at baseline and at the end of the 6-month period included a battery of cognitive measures focused on attention, physiologic measures of alertness, Profile of Mood States, State-Trait Anxiety Inventory, Multi-Dimensional Fatigue Inventory (MFI), and Short Form (SF)-36 health-related quality of life. Results: Sixty-nine subjects were recruited and randomized. Twelve subjects did not finish the 6-month intervention. There were no adverse events related to the intervention. There were no effects from either of the active interventions on either of the primary outcome measures of attention or alertness. Both active interventions produced improvement in secondary measures of fatigue compared to the control group: Energy and Fatigue (Vitality) on the SF-36 and general fatigue on the MFI. There were no clear changes in mood related to yoga or exercise. Conclusion: Subjects with MS participating in either a 6-month yoga class or exercise class showed significant improvement in measures of fatigue compared to a waiting-list control group. There was no relative improvement of cognitive function in either of the intervention groups.

Eight-year follow-up study of brain atrophy in patients with MS

Objective: To characterize whole-brain atrophy in relapsing-remitting MS (RRMS) patients over an 8-year period. The specific goals of this study were to determine if brain atrophy is related to subsequent disability status and to identify MRI correlates of atrophy progression. Methods: A follow-up study was conducted to reassess patients from a phase III trial of interferon β-1a (IFNβ-1a) 8 years after randomization. Clinical and MRI data from 172 patients followed over 2 years in the original trial were used as baseline data. Follow-up data were obtained on 160 patients, including 134 patients with follow-up MRI examinations. Brain atrophy was estimated by automated calculation of brain parenchymal fraction. The relation between atrophy during the original trial and disability status at follow-up was determined. Correlations were also determined between lesion measurements from the original trial and the brain parenchymal fraction at follow-up. Results: Brain atrophy was correlated with subsequent disability status. Atrophy rate during the original trial was the most significant MRI predictor of disability status at follow-up. Brain atrophy at follow-up was related to lesion volumes measured during the original trial. Conclusions: The relation between atrophy progression and subsequent neurologic disability status suggests that atrophy progression during RRMS is clinically relevant. Therefore, atrophy progression may be a useful marker for disease progression in clinical trials. The relation between lesions and subsequent atrophy indicates that brain atrophy may be related to focal tissue damage at earlier points in time, but important predisposing or other factors contributing to atrophy remain undefined.

Incidence and significance of neutralizing antibodies to interferon beta-1a in multiple sclerosis

Background: Interferon beta is an effective treatment for relapsing multiple sclerosis(MS). As with other protein drugs, neutralizing antibodies (NAB) can develop that reduce the effectiveness of treatment. Objectives: To determine the incidence and biological significance of NAB to interferon beta-1a (IFN-β-1a; Avonex; Biogen, Cambridge, MA) in MS patients. Methods: A two-step assay for NAB to IFN-β-1a was developed and used to assay serum samples from participants in the phase III clinical trial of IFN-β-1a, and from patients in an ongoing open-label study of IFN-β1a. The biological significance of NAB to IFN-β-1a was determined by relating the NAB assay result to in vivo induction of the IFN-inducible molecules neopterin and β-2 microglobulin, and the clinical significance was determined by comparing clinical and MRI measures of disease activity after 2 years of IFN-β-1a therapy in patients who were NAB+ and NAB-. The incidence of NAB was compared in MS patients who had used only IFN-β-1a with the incidence in MS patients who had used only IFN-β-1b. Results: In patients in the open-label study, development of NAB to IFN-β-1a resulted in a titer-dependent reduction in neopterin induction after interferon injections. In patients in the phase III study, development of NAB was associated with a reduction in β-2 microglobulin induction. In the phase III study, a trend toward reduced benefit of IFN-β-1a on MRI activity in NAB+ versus NAB- patients was observed. The incidence of NAB to IFN-β-1a in the open-label study was approximately 5% over 24 months of treatment of IFN-β-1a therapy, but was four- to sixfold higher using the same assay for patients exposed only to IFN-β-1b for a similar duration. There were no clinical, MRI, or CSF characteristics that were predictive of which patients would develop NAB. Conclusions: NAB directed against IFN-β have in vivo biological consequences in patients with MS. The frequency with which MS patients develop NAB against IFN-β is significantly greater with IFN-β-1b therapy compared with IFN-β-1a therapy. Treatment decisions in MS patients treated withIFN-β should take into account development of NAB.

Impact of interferon beta-1a on neurologic disability in relapsing multiple sclerosis

Background and Objective: A phase III double-blind, placebo-controlled clinical trial demonstrated that interferon beta-la (IFNβ-1a) (Avonex, Biogen) significantly delayed progression of disability in relapsing MS patients. The primary clinical outcome was time from study entry until disability progression, defined as≥1.0 point worsening from baseline Kurtzke Expanded Disability Status Scale (EDSS) score persisting for at least two consecutive scheduled visits separated by 6 months. The objective of this study was to examine the magnitude of benefit on EDSS and its clinical significance. Methods: Post hoc analyses related to disability outcomes using data collected during the double-blind, placebo-controlled phase III clinical trial. Results: (1) Clinical efficacy related to disability did not depend on the definition of disability progression. A significant benefit in favor of IFNβ-1a was observed when ≥2.0 point worsening from baseline EDSS was required or when worsening was required to persist for ≥1.0 year. (2) Placebo recipients who reached the primary clinical outcome worsened by a larger amount from baseline EDSS than did IFNβ-1a recipients who reached the primary study outcome. (3) Significantly fewer IFNβ-1a recipients progressed to EDSS milestones of 4.0 (relatively severe impairment) or 6.0(unilateral assistance needed to walk). (4) Cox proportional hazards models demonstrated that the only baseline characteristic strongly correlated with longer time to disability progression was IFNβ-1a treatment. Conclusions: The primary clinical outcome for the IFNβ-1a clinical trial underestimated clinical benefits of treatment. Results in this report demonstrate that IFNβ-1a treatment is associated with robust, clinically important beneficial effects on disability progression in relapsing MS patients.

Treatment of multiple sclerosis with T–cell receptor peptides: Results of a double–blind pilot trial

A T–cell receptor (TCR) peptide vaccine from the Vβ5.2 sequence expressed in multiple sclerosis (MS) plaques and on myelin basic protein (MBP)–specific T cells boosted peptide–reactive T cells in patients with progressive MS. Vaccine responders had a reduced MBP response and remained clinically stable without side effects during one year of therapy, whereas nonresponders had an increased MBP response and progressed clinically. Peptide–specific T helper 2 cells directly inhibited MBP–specific T helper 1 cells in vitro through the release of interleukin–10, implicating a bystander suppression mechanism that holds promise for treatment of MS and other autoimmune diseases.

Relationship between brain atrophy and disability: an 8-year follow-up study of multiple sclerosis patients

Brain atrophy measurement can provide an estimate of the amount of tissue destruction due to the pathologic processes in multiple sclerosis. The potential usefulness of atrophy as a marker of disease progression depends upon the concurrent and predictive relationships between atrophy and disability. A follow-up study was performed to measure atrophy and disability scores in patients from the Multiple Sclerosis Collaborative Research Groups phase III trial of IFNbeta-1a (Avonex) in relapsing- remitting multiple sclerosis. New data were obtained on 160 out of 172 eligible patients from the original trial were enrolled in the follow-up study approximately 8 years after randomization. The follow-up visit consisted of several tests and questionnaires including a clinical exam to determine Expanded Disability Status Score (EDSS) and Multiple Sclerosis Functional Composite (MSFC), and a magnetic resonance imaging exam to calculate the brain parenchymal fraction. Brain parenchymal fraction was correlated with both EDSS and MSFC at each of the four time points for which data were available (baseline 1, 2 and 8 years). Furthermore, the change in BPF was correlated with the changes in disability scores from the end of the phase III trial to the follow-up exam. These data suggest that brain atrophy may be a useful and clinically relevant marker of disease progression in relapsing--remitting MS.

Low-contrast letter acuity testing captures visual dysfunction in patients with multiple sclerosis

Objective: To evaluate concurrent and predictive validity for low-contrast letter acuity (L-CLA) testing as a candidate visual component for the Multiple Sclerosis Functional Composite (MSFC). Methods: L-CLA testing was conducted in two MS patient cohorts. In the MSFC Validation Study, 137 participants from a Phase III trial of inteferon beta-1a (Avonex) for relapsing–remitting MS were followed. A second cohort included 65 patients with secondary progressive MS who participated in a substudy of the International MS Secondary Progressive Avonex Controlled Trial (IMPACT). The total number of letters read correctly at four contrast levels (100, 5, 1.25, and 0.6%) was correlated with Expanded Disability Status Scale (EDSS), MSFC, Sickness Impact Profile, Multiple Sclerosis Quality of Life Inventory, and brain parenchymal fraction (BPF), as determined by MRI. Results: Low- and high-contrast letter acuity scores correlated with BPF at follow-up in the MSFC Validation Study (5%: r = 0.40, p < 0.0001; 100%: r = 0.31, p = 0.0002). L-CLA also correlated with EDSS (5%: r = −0.35, p < 0.0001; 1.25%: r = −0.26, p = 0.0003) and MSFC (5%: r = 0.47, p < 0.0001; 1.25%: r = 0.45, p < 0.0001). In the IMPACT Substudy, change in L-CLA scores from baseline to year 1 predicted subsequent change in the EDSS from year 1 to 2 at the 5% (p = 0.0142) and the 1.25% (p = 0.0038) contrast levels, after adjusting for change in MSFC scores from baseline to year 1. Conclusions: Low-contrast letter acuity (L-CLA) scores demonstrate concurrent and predictive validity in patients with relapsing–remitting and secondary progressive multiple sclerosis (MS). L-CLA testing provides additional information relevant to the MS disease process that is not entirely captured by the Multiple Sclerosis Functional Composite.

Use of the Multiple Sclerosis Functional Composite to predict disability in relapsing MS

Objective: To determine whether the MS Functional Composite (MSFC) can predict future disease progression in patients with relapsing remitting MS (RR-MS). Background: The MSFC was recommended by the Clinical Outcomes Assessment Task Force of the National MS Society as a new clinical outcome measure for clinical trials. The MSFC, which contains a test of walking speed, arm dexterity, and cognitive function, is expressed as a single score on a continuous scale. It was thought to offer improved reliability and responsiveness compared with traditional clinical MS outcome measures. The predictive value of MSFC scores in RR-MS has not been determined. Methods: The authors conducted a follow-up study of patients with RR-MS who participated in a phase III study of interferon β-1a (AVONEX) to determine the predictive value of MSFC scores. MSFC scores were constructed from data obtained during the phase III trial. Patients were evaluated by neurologic and MRI examinations after an average interval of 8.1 years from the start of the clinical trial. The relationships between MSFC scores during the clinical trial and follow-up status were determined. Results: MSFC scores from the phase III clinical trial strongly predicted clinical and MRI status at the follow-up visit. Baseline MSFC scores, and change in MSFC score over 2 years correlated with both disability status and the severity of whole brain atrophy at follow-up. There were also significant correlations between MSFC scores during the clinical trial and patient-reported quality of life at follow-up. The correlation with whole brain atrophy at follow-up was stronger for baseline MSFC than for baseline EDSS. Conclusion: MSFC scores in patients with RR-MS predict the level of disability and extent of brain atrophy 6 to 8 years later. MSFC scores may prove useful to assign prognosis, monitor patients during early stages of MS, and to assess treatment effects.

A phase III trial of intramuscular recombinant interferon beta as treatment for exacerbating-remitting multiple sclerosis: design and conduct of study and baseline characteristics of patients

The design and conduct of a randomized, double-blinded, placebo-controlled, multicenter, phase III study of recombinant interferon beta-1a (IFN-β-1a) as treatment for exacerbating-remitting MS are described, as are baseline characteristics of the study population. The purpose of the study was to determine if 6.0 × 106 IU (30 μg) of IFN-β-1a, administered by weekly intramuscular (i.m.) injections, was effective in delaying the onset of sustained disability. The primary outcome measure was time to onset of treatment failure, defined as a worsening on the Kurtzke Expanded Disability Status Scale (EDSS) of greater than or equal to 1.0 point compared with baseline, persisting for at least 6 months. An intent-to-treat design was used. The primary outcome measure was analyzed using the Mantel-Cox log-rank statistic and Kaplan-Meier survival curves. Secondary outcomes included quantitative measures of upper and lower extremity function, neuropsychological test performance, functional and quality of life assessments and several measures derived from annual brain MRI studies. Entry criteria included prestudy exacerbation rates of at least 0.67 per year and EDSS scores of 1.0–3.5. A total of 301 MS patients were randomly assigned to receive weekly i.m. injections of IFN-β-1a or placebo. The average age of the study population at entry was 37 years; 92% were Caucasian and 73% were women. The mean prestudy disease duration was 6.5 years, mean prestudy exacerbation rate was 1.2 per year and the mean EDSS score was 2.3. The randomization yielded well-balanced treatment arms. Various aspects of the study are discussed, including: (1) the decision to focus study design on sustained disability; (2) the rationale for the treatment regimen; (3) measures taken to assure the reliability of the primary outcome measure; and (4) a description of the secondary outcome measures.

Cerebrospinal fluid abnormalities in a phase III trial of Avonex® (IFNβ-1a) for relapsing multiple sclerosis

Abstract Background and objective : This report provides results of CSF analyses done in a subset of relapsing remitting MS patients participating in a placebo-controlled, double-blind, phase III clinical trial of IFNβ-Studies supported by the National Multiple Sclerosis Society (grants RG2019, RG2827),a (Avonex®, Biogen). The clinical trial demonstrated that IFNβ-1a treatment resulted in significantly reduced disability progression, annual relapse rate, and new brain lesions visualized by cranial magnetic resonance imaging. The objectives of the current study were to determine: (a) whether CSF abnormalities in MS patients correlated with disease or MRI characteristics, and (b) effects of IFNβ-1a therapy on these CSF abnormalities. Methods : CSF was analyzed from 262 (87%) of the 301 study subjects at entry into the clinical trial, and a second CSF sample was analyzed from 137 of these 262 subjects after 2 years of therapy. CSF cell counts, oligoclonal bands (OCB), IgG index, and free kappa light chains were measured using standard assays. Baseline CSF results were compared with demographic, disease, and MRI parameters. Differences in on-study relapse rate, gadolinium enhancement, and EDSS change according to baseline CSF status was used to determine the predictive value of CSF for subsequent clinical and MRI disease activity. Change in CSF parameters after 104 weeks were used to determine the effects of treatment. Results : (1) At study baseline, 37% of the subjects had abnormal CSF WBC counts, 61% had abnormal levels of CSF free kappa light chains, 84% had abnormal IgG index values, and 90% were positive for OCB. (2) Baseline IgG index, kappa light chains, and OCB showed weakly positive, statistically significant correlations with Gd-enhanced lesion volume and T2 lesion volume. WBC showed a statistically significant correlation with Gd-enhancing lesion volume but was uncorrelated with T2 lesion volume. (3) There was an associated between baseline CSF WBC counts and on-study clinical and MRI disease activity in placebo recipients. (4) IFNβ-1a treatment resulted in significantly reduced CSF WBC counts, but there was no treatment-related change in CSF IgG index, kappa light chains, or OCB, which remained relatively stable over time in both patient groups. Conclusions : The current study documents significant reductions in CSF WBC counts in patients treated with IFNβ-1a for 104 weeks. This finding is considered relevant to the therapeutic response, since CSF WBC counts were found to be positively correlated with subsequent clinical and MRI disease activity in placebo-treated relapsing MS patients.BACKGROUND AND OBJECTIVE This report provides results of CSF analyses done in a subset of relapsing remitting MS patients participating in a placebo-controlled, double-blind, phase III clinical trial of IFNbeta-Studies supported by the National Multiple Sclerosis Society (grants RG2019, RG2827),a (Avonex , Biogen). The clinical trial demonstrated that IFNbeta-1a treatment resulted in significantly reduced disability progression, annual relapse rate, and new brain lesions visualized by cranial magnetic resonance imaging. The objectives of the current study were to determine: (a) whether CSF abnormalities in MS patients correlated with disease or MRI characteristics, and (b) effects of IFNbeta-1a therapy on these CSF abnormalities. METHODS CSF was analyzed from 262 (87%) of the 301 study subjects at entry into the clinical trial, and a second CSF sample was analyzed from 137 of these 262 subjects after 2 years of therapy. CSF cell counts, oligoclonal bands (OCB), IgG index, and free kappa light chains were measured using standard assays. Baseline CSF results were compared with demographic, disease, and MRI parameters. Differences in on-study relapse rate, gadolinium enhancement, and EDSS change according to baseline CSF status was used to determine the predictive value of CSF for subsequent clinical and MRI disease activity. Change in CSF parameters after 104 weeks were used to determine the effects of treatment. RESULTS (1) At study baseline, 37% of the subjects had abnormal CSF WBC counts, 61% had abnormal levels of CSF free kappa light chains, 84% had abnormal IgG index values, and 90% were positive for OCB. (2) Baseline IgG index, kappa light chains, and OCB showed weakly positive, statistically significant correlations with Gd-enhanced lesion volume and T2 lesion volume. WBC showed a statistically significant correlation with Gd-enhancing lesion volume but was uncorrelated with T2 lesion volume. (3) There was an associated between baseline CSF WBC counts and on-study clinical and MRI disease activity in placebo recipients. (4) IFNbeta-1a treatment resulted in significantly reduced CSF WBC counts, but there was no treatment-related change in CSF IgG index, kappa light chains, or OCB, which remained relatively stable over time in both patient groups. CONCLUSIONS The current study documents significant reductions in CSF WBC counts in patients treated with IFNbeta-1a for 104 weeks. This finding is considered relevant to the therapeutic response, since CSF WBC counts were found to be positively correlated with subsequent clinical and MRI disease activity in placebo-treated relapsing MS patients.