R. P. Kinkel

A longitudinal study of brain atrophy in relapsing multiple sclerosis

Objective: To determine if progressive brain atrophy could be detected over 1- and 2-year intervals in relapsing MS, based on annual MR studies from the Multiple Sclerosis Collaborative Research Group (MSCRG) trial of interferon β-1a (Avonex). Methods: All subjects had mild to moderate disability, with baseline expanded disability status scores ranging from 1.0 to 3.5, and at least two relapses in the 3 years before study entry. Atrophy measures included third and lateral ventricle width, brain width, and corpus callosum area. Results: Significant increases were detected in third ventricle width at year 2 and lateral ventricle width at 1 and 2 years. Significant decreases in corpus callosum area and brain width were also observed at 1 and 2 years. Multiple regression analyses suggested that the number of gadolinium-enhancing lesions at baseline was the single significant contributor to change in third ventricle width. Atrophy over 1 and 2 years as indicated by enlargement of the third and lateral ventricle and shrinkage of the corpus callosum was greater for patients entering the trial with enhancing lesions. Greater disability increments over 1 and 2 years were associated with more severe third ventricle enlargement. Conclusion: In patients with relapsing MS and only mild to moderate disability, significant cerebral atrophy is already developing that can be measured over periods of only 1 to 2 years. The course of cerebral atrophy in MS appears to be influenced by prior inflammatory disease activity as indicated by the presence of enhancing lesions. Brain atrophy measures are important markers of MS disease progression because they likely reflect destructive and irreversible pathologic processes.

Axonal loss in normal-appearing white matter in a patient with acute MS

Background: Brain imaging studies detect abnormalities in normal-appearing white matter in patients with MS. Objective: To investigate the histopathologic basis for these changes in autopsy tissue from a patient with MS with 9 months’ disease duration and a terminal brain stem lesion. Methods: The brain stem and spinal cord were analyzed ultrastructurally and immunocytochemically for axons, myelin, and activated microglia/macrophages. Results: Pathologic findings were consistent with a terminal inflammatory demyelinated lesion at the cervicomedullary junction. The ventral spinal cord column, containing descending tracts, exhibited 22% axonal loss at segment C7, but grossly normal immunostaining for myelin. Confocal and electron microscopy revealed myelin sheaths without axonal content and initial stages of myelin degradation by activated microglia/macrophages among intact myelinated axons. Axonal number and appearance was normal in ascending sensory tracts. Conclusions: These studies confirm axonal degeneration in the absence of myelin loss as one histopathologic correlate to abnormal MR findings in patients with MS.

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.

A Wallerian degeneration pattern in patients at risk for MS

Background: Demyelination alone may not explain the progressive disability that frequently develops in MS. An alternative explanation for irreversible disability assumes a contribution from axonal injury or loss. In theory, axonal injury may occur in the focal areas characterized by early inflammation, or can be more distant, as in Wallerian degeneration. However, Wallerian degeneration is thought of as a rare or a late finding in MS. Methods: Studies showing a classic Wallerian degeneration pattern in the corticospinal tract were selected from a review of MR studies from patients enrolled in a longitudinal treatment trial. Entry was based on first occurrence of an isolated neurologic syndrome consistent with MS and a positive MRI. Results: This report is based on five cases followed longitudinally who showed development of a classic T2-hyperintense lesion along the ipsilateral corticospinal tract, subsequent to an initial inciting event located in the white matter located in the superior aspect of the corona radiata. Lesions were evident as T2-hyperintensity persisting throughout the 12 to 18 months of observation. Conclusions: This series suggests that Wallerian degeneration, implying axonal injury, may occur as a sequela of acute demyelinating lesions in patients presenting with their first symptoms suggestive of MS. This can produce a component of the increasing burden of T2-hyperintense lesions temporally and spatially dissociated from inflammatory or demyelinating activity. Further studies are required to determine if Wallerian degeneration is an important factor contributing to disability progression in MS.

A longitudinal study of T1 hypointense lesions in relapsing MS MSCRG trial of interferon β-1a

Background: T1 hypointense lesions (T1 black holes) are focal areas of relatively severe CNS tissue damage detected by MRI in patients with MS. Objective: To determine the natural history of T1 hypointense lesions in relapsing MS and the utility of T1 hypointense lesions as outcome measures in MS clinical trials. Methods: MR studies were from the Multiple Sclerosis Collaborative Research Group trial. Longitudinal results are reported in 80 placebo- and 80 interferon β-1a (IFNβ-1a)–treated patients with mild to moderate disability relapsing-remitting MS. Results: There was a small but significant correlation between T1 hypointense lesion volume and disability at baseline and on trial (r = 0.22, r = 0.28). In placebo patients there was a 29.2% increase in the mean volume of T1 hypointense lesions (median 124.5 mm3) over 2 years (p < 0.001 for change from baseline), as compared to an 11.8% increase (median 40 mm3) in the IFNβ-1a–treated patients (change from baseline not significant). These treatment group comparisons did not quite reach significance. The most significant contributor to change in T1 hypointense lesions was the baseline number of enhancing lesions (model r2 = 0.554). Placebo patients with more active disease, defined by enhancing lesions at baseline, were the only group to show a significant increase in T1 hypointense lesion volume from baseline. Conclusion: The development of T1 hypointense lesions is strongly influenced by prior inflammatory disease activity, as indicated by enhancing lesions. These results suggest that treatment with once weekly IM IFNβ-1a (30 mcg) slows the 2-year accumulation of these lesions in the brain.

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.

Managing side effects of interferon-beta in patients with relapsing-remitting multiple sclerosis

In separate clinical trials, two preparations of recombinant interferon (IFN)-beta, IFN beta-1a and IFN beta-1b, reduced exacerbation rates in relapsing-remitting multiple sclerosis (RR-MS). Further, IFN beta-1a slows the progression of disability in patients with RR-MS. Although they are effective in the treatment of MS, use of these drugs is associated with both class-specific and agent-specific side effects. Class-specific side effects include fever, chills, myalgias, arthralgias, and other flulike symptoms beginning 2 to 6 hours after injection and resolving within 24 hours of injection. Transient worsening of preexisting MS symptoms also occurs infrequently. Agent-specific side effects include injection-site reactions with IFN beta-1b. Simple management strategies can be used to minimize these reactions, including patient education; tailoring the dose and time of administration of IFN-beta; and prescribing appropriate combinations of acetaminophen, non-steroidal anti-inflammatory drugs, and steroids. Although side effects tend to diminish with treatment, successful management allows long-term administration of these drugs to achieve a reduction in disease activity and commensurate improvement in outcomes.

Treatment of fulminant multiple sclerosis with intravenous cyclophosphamide

BACKGROUNDThe role of intravenous (IV) cyclophosphamide (CTX) for patients with progressive multiple sclerosis (MS) remains controversial, despite numerous controlled and uncontrolled clinical trials. OBJECTIVETo present the results of open label treatment with CTX and intravenous methylprednisolone (MP) in 17 consecutive patients with corticosteroid-resistant, fulminant MS. METHODOpen-label, nonblind, noncontrolled consecutive series of patients meeting the following criteria were treated with CTX and MP. Fulminant MS was defined as objectively documented, continuous deterioration by ≥1.5 points on the Kurtzke Expanded Disability Status Scale (EDSS) for ≥ 3 months. Corticosteroid resistance was defined as continued deterioration for 2 months after high-dose IV MP. After completion of the CTX/MP treatment protocol, all patients were subsequently treated with maintenance immunotherapy at the discretion of their treating neurologist. Each patient was followed by a single neurologist, who determined the EDSS according to a standard protocol at successive visits. RESULTSBaseline EDSS scores at the time of CTX/MP treatment ranged from 6.0 to 8.5. There were no serious complications of treatment. Follow-up time ranged from 12 to 24 months (median 24 months, mean 22 months). At 12 months, 1 3 of 1 7 (75.5%) patients were stable or improved by ≥1.0 EDSS point. At 24 months, 9 of 13 (69%) of patients were stable or improved. CONCLUSIONThis consecutive case series suggests that CTX/MP represents an effective therapeutic option for those rare MS patients with a fulminant progressive course who are refractory to corticosteroid therapy. The limitations related to the uncontrolled nature of the study and comparisons with other CTX studies are discussed.

Recovery following acute exacerbations of multiple sclerosis: from impairment to quality of life

To observe the pattern of recovery after treatment with intravenous Methylprednisolone (i.v. MP) for a relapse of multiple sclerosis (MS), and to determine the best time to plan further interventions such as rehabilitation, we assessed consecutive outpatients (n=24) treated with i.v. MP for a relapse over a period of 12 weeks. Outcomes measures used were the Expanded Disability Status Scale (EDSS), the Incapacity Status Scale (ISS), the MOS Short Form-36 (SF-36), the Mental Health Inventory (MHI), and the MS-Related Symptom Checklist (MSSCL). There was statistically significant early improvement of EDSS and ISS scores, which was sustained until week 12, and significant improvement of MHI and MSSCL scores between 4 and 12 weeks. Although trends for improvement of scores reflecting the same pattern of recovery were observed with the SF-36 physical and mental composites, these changes did not reach statistical significance. Our results suggest that improvement of impairments and disability after treatment with i.v. MP for a relapse of MS occurs early, while improvement of subjective health status is delayed. Even after maximum improvement is reached, patients are left with multiple symptoms and functional limitations, and may benefit from additional rehabilitative interventions.