Ten-year follow-up of the 'minimal MRI lesion' subgroup from the original CHAMPS Multiple Sclerosis Prevention Trial.

BACKGROUND: Patients with clinically isolated syndrome (CIS) and characteristic magnetic resonance imaging (MRI) lesions are at high risk for multiple sclerosis (MS). However, patients with a minimal MRI lesion burden (a low T2-hyperintense [low T2] lesion count) may have borderline formal diagnostic criteria, presenting a clinical management challenge. OBJECTIVE: Compare the 10-year disease progression of patients with low and higher T2 lesion counts treated over most intervals. METHODS: CIS patients from the original CHAMPS MS trial were retrospectively assigned to low-T2 (first quartile; 2-8 lesions) or higher-T2 (second through fourth quartiles; ≥ 9 lesions) groups using baseline T2 lesion counts. The 5- and 10-year open-label extension of CHAMPS (CHAMPIONS) evaluated conversion to clinically definite MS (CDMS), MRI activity, relapses, and disability. RESULTS: The vast majority of patients showed new disease activity by MRI and/or clinical criteria at 10 years (low-T2 86%; higher-T2 98%). Fewer low-T2 than higher-T2 patients developed CDMS (40% vs. 63%; p = 0.013); low-T2 patients also had fewer new brain lesions, less brain volume loss, and less disability progression. CONCLUSION: CIS patients with low T2 lesion counts show continued disease activity. However, all assessments of disease progression over 10 years indicated a significantly less severe disease course for low-T2 patients.

Early MRI activity predicts treatment nonresponse with intramuscular interferon beta-1a in clinically isolated syndrome.

OBJECTIVE: Determine whether MRI activity 6 months after treatment initiation in the Controlled High-Risk Subjects Avonex® Multiple Sclerosis Prevention Study (CHAMPS) predicted progression to clinically definite multiple sclerosis (CDMS) over the subsequent 30 months in intramuscular interferon beta-1a (IM IFNß-1a)-treated patients vs placebo-treated patients. METHODS: CHAMPS patients were randomized to once-weekly IM IFNß-1a 30 µg or placebo for up to 36 months. MRI was performed every 6 months until CDMS confirmation. Patient groups were defined based on new T2 and/or Gd+ lesions at 6 months. RESULTS: Thirteen IM IFNß-1a patients (6.7%) and 24 placebo patients (12.6%) developed CDMS prior to month 6 and did not undergo the 6-month MRI. At 6 months, 29.7% of IM IFNß-1a-treated patients vs 40.9% of placebo-treated patients were defined as having high MRI activity levels (≥2 new T2 and/or ≥2 Gd+ lesions). In this subgroup, estimated cumulative probabilities of CDMS were similar between groups (HR=0.88 [0.44-1.77], p=0.7227). A significant treatment response was seen for patients with <2 new T2 and <2 Gd+ lesions at 6 months (HR=0.39 [0.19-0.82], p=0.0120). CONCLUSION: MRI scans 6 months after IM IFNß-1a initiation in CIS patients predict early treatment non-response. Standardized scanning and monitoring may facilitate early disease management.

In vivo evidence of disseminated subpial T2* signal changes in multiple sclerosis at 7 T: a surface-based analysis.

Cortical subpial demyelination is frequent in multiple sclerosis (MS) and is closely associated with disease progression and poor neurological outcome. Although cortical lesions have been difficult to detect using conventional MRI, preliminary data using T2*-weighted imaging at ultra-high field 7T MRI showed improved sensitivity for detecting and categorizing different histological types of cortical MS lesions. In this study we combined high-resolution 7T MRI with a surface-based analysis technique to quantify and map subpial T2*-weighted signal changes in seventeen patients with MS. We applied a robust method to register 7T data with the reconstructed cortical surface of each individual and used a general linear model to assess in vivo an increase in subpial T2*-weighted signal in patients versus age-matched controls, and to investigate the spatial distribution of cortical subpial changes across the cortical ribbon. We also assessed the relationship between subpial T2* signal changes at 7T, Expanded Disability Status Scale (EDSS) score and white matter lesion load (WMLL). Patients with MS showed significant T2*-weighted signal increase in the frontal lobes (parsopercularis, precentral gyrus, middle and superior frontal gyrus, orbitofrontal cortex), anterior cingulate, temporal (superior, middle and inferior temporal gyri), and parietal cortices (superior and inferior parietal cortex, precuneus), but also in occipital regions of the left hemisphere. We found significant correlations between subpial T2*-weighted signal and EDSS score in the precentral gyrus (ρ=0.56, P=0.02) and between T2*-weighted signal and WMLL in the lateral orbitofrontal, superior parietal, cuneus, precentral and superior frontal regions. Our data support the presence of disseminated subpial increases in T2* signal in subjects with MS, which may reflect the diffuse subpial pathology described in neuropathology.

In vivo imaging of cortical pathology in multiple sclerosis using ultra-high field MRI.

OBJECTIVE: We used ultra-high field MRI to visualize cortical lesion types described by neuropathology in 16 patients with multiple sclerosis (MS) compared with 8 age-matched controls; to characterize the contrast properties of cortical lesions including T2*, T2, T1, and phase images; and to investigate the relationship between cortical lesion types and clinical data. METHODS: We collected, on a 7-T scanner, 2-dimensional fast low-angle shot (FLASH)-T2*-weighted spoiled gradient-echo, T2-weighted turbo spin-echo (TSE) images (0.33 x 033 x 1 mm(3)), and a 3-dimensional magnetization-prepared rapid gradient echo. RESULTS: Overall, 199 cortical lesions were detected in patients on both FLASH-T2* and T2-TSE scans. Seven-tesla MRI allowed for characterization of cortical plaques into type I (leukocortical), type II (intracortical), and type III/IV (subpial extending partly or completely through the cortical width) lesions as described histopathologically. Types III and IV were the most frequent type of cortical plaques (50.2%), followed by type I (36.2%) and type II (13.6%) lesions. Each lesion type was more frequent in secondary progressive than in relapsing-remitting MS. This difference, however, was significant only for type III/IV lesions. T2*-weighted images showed the highest, while phase images showed the lowest, contrast-to-noise ratio for all cortical lesion types. In patients, the number of type III/IV lesions was associated with greater disability (p < 0.02 by Spearman test) and older age (p < 0.04 by Spearman test). CONCLUSIONS: Seven-tesla MRI detected different histologic cortical lesion types in our small multiple sclerosis (MS) sample, suggesting, if validated in a larger population, that it may prove a valuable tool to assess the contribution of cortical MS pathology to clinical disability.

Efficacy of intramuscular interferon beta-1a in patients with clinically isolated syndrome: analysis of subgroups based on new risk criteria.

Approximately 85% of multiple sclerosis (MS) cases begin as clinically isolated syndromes (CIS). Results from the Controlled High-Risk Subjects Avonex((R)) Multiple Sclerosis Prevention Study (CHAMPS) demonstrated that, in patients with CIS, treatment with intramuscular (IM) interferon beta-1a (IFNbeta-1a) 30 mug once weekly delayed conversion to clinically definite MS (CDMS) in the total population and in subgroups based on presenting syndromes and baseline magnetic resonance imaging (MRI) characteristics. Changes to clinical and MRI risk classification of presenting symptoms in recent studies prompted reanalysis of CHAMPS data. Presenting syndromes were assessed using a derived algorithm that stratifies patients into mono- or multifocal categories based on functional system scores. The ability of IM IFNbeta-1a to delay progression to CDMS in subgroups based on clinical presentation and MRI characteristics was assessed. Reanalysis of CHAMPS patients showed that 30% could be classified by clinical criteria as having multifocal disease at baseline. IM IFNbeta-1a initiated at a first demyelinating attack delayed CDMS in monofocal patients (P = 0.0013), patients with or without gadolinium-enhancing lesions (P = 0.0007, P = 0.0405) and patients with at least nine T2 lesions at baseline (P = 0.0044). These data confirm that IM IFNbeta-1a delays conversion to CDMS in patients with CIS.

Working-age persons with multiple sclerosis and access to disease-modifying medications.

US residents can face serious financial barriers to obtaining prescription medications, including disease-modifying medications for multiple sclerosis (MS). We conducted 30-min telephone surveys with 983 persons with MS nationwide, 21-64 years old, to explore how financial and health insurance concerns affect access to services including MS drugs. Almost everyone (96.3%) had some health insurance. Multivariable logistic regression analyses accounted for demographic, disease and insurance characteristics. Only 10.8% of those <40 years old had never received disease-modifying medications, compared with 41.1% of persons aged 60-64. Among the uninsured, 36.8% reported having never taken these medications, compared with 21.2% of persons with health insurance. Adjusted odds ratio (95% CI) of using these drugs in prior 12 months among the uninsured (compared with insured persons) was 0.28 (0.08, 0.95). Just over 16% of persons with public health plans reported that their insurer initially denied coverage for MS medication. When asked about MS medications in general, 22.3% reported having not filled prescriptions, skipping doses or splitting pills because of cost concerns; 22.4% worried ;a lot' about getting MS medications when they needed them. Substantial fractions of persons with MS confront financial and health plan-related barriers to obtaining MS drugs.

Steroid-responsive neurologic relapses in a child with a proteolipid protein-1 mutation.

A 10-year-old boy developed corticosteroid-responsive relapsing neurologic signs, including nystagmus and ataxia. MRI revealed multifocal T2 white matter hyperintensities; several were gadolinium-enhancing. CSF contained oligoclonal bands. Although the patient met criteria for multiple sclerosis (MS), the proteolipid protein-1 gene (PLP1) contained a mutation in exon 3B (c.409C>T), predicting a tryptophan-for-arginine substitution. This case raises questions about the role of inflammation in PLP1-related disorders and, conversely, PLP1 mutations in MS.

Transcallosal bands: a sign of neuronal tract degeneration in early MS?

A pattern of injury observed in patients at high risk for MS described as transcallosal bands (TCB) is hypothesized to be the result of neuronal tract degeneration in earliest MS, extending from typical acute, focal demyelinating lesions located along the lateral borders of the corpus callosum. The TCB, a T2-hyperintense lesion traversing the corpus callosum is recognized on 3-mm thick, T2-weighted imaging, develops over months and persists over years.

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.

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.

Intramuscular interferon beta-1a therapy initiated during a first demyelinating event in multiple sclerosis. CHAMPS Study Group.

BACKGROUND: Treatment with interferon beta has been shown to help patients with established multiple sclerosis, but it is not known whether initiating treatment at the time of a first clinical demyelinating event is of value. METHODS: We conducted a randomized, double-blind trial of 383 patients who had a first acute clinical demyelinating event (optic neuritis, incomplete transverse myelitis, or brain-stem or cerebellar syndrome) and evidence of prior subclinical demyelination on magnetic resonance imaging (MRI) of the brain. After initial treatment with corticosteroids, 193 patients were randomly assigned to receive weekly intramuscular injections of 30 microg of interferon beta-1a and 190 were assigned to receive weekly injections of placebo. The study end points were the development of clinically definite multiple sclerosis and changes in findings on MRI of the brain. The trial was stopped after a preplanned interim efficacy analysis. RESULTS: During three years of follow-up, the cumulative probability of the development of clinically definite multiple sclerosis was significantly lower in the interferon beta-1a group than in the placebo group (rate ratio, 0.56; 95 percent confidence interval, 0.38 to 0.81; P=0.002). As compared with the patients in the placebo group, patients in the interferon beta-1a group had a relative reduction in the volume of brain lesions (P<0.001), fewer new or enlarging lesions (P<0.001), and fewer gadolinium-enhancing lesions (P<0.001) at 18 months. CONCLUSIONS: Initiating treatment with interferon beta-1a at the time of a first demyelinating event is beneficial for patients with brain lesions on MRI that indicate a high risk of clinically definite multiple sclerosis.

Traumatic intracerebral venous thrombosis associated with an abnormal golf swing.

OBJECTIVES: To describe the occurrence of cerebral venous thrombosis in a 40-year-old man whose cerebral event was induced by a poor golf swing, to review the literature on possible mechanisms producing venous thrombosis, and to compare this case with the literature. BACKGROUND: Headache is the most frequent symptom in patients with cerebral venous thrombosis. However, patients presenting with a headache due to cerebral venous thrombosis are uncommon. The known risk factors for thrombosis include both acquired and genetic factors. When the interaction of these two groups occurs, the magnitude of this interaction is thought to produce a dynamic state that can favor thrombosis. Our case report illustrates that moderate levels of anticardiolipin antibodies together with the mild trauma of a golf swing can induce a cerebral venous thrombosis. This case also suggests that although headache is rarely due to cerebral venous thrombosis, it should be excluded by good medical acumen and testing. RESULTS: Minor trauma induced by a poor golf swing was chronologically related to the development of a progressive cerebral venous thrombosis. The patient had none of the risk factors associated with a predisposition to venous thrombosis: hypercoagulable state, concurrent infection, pregnancy/puerperium, collagen vascular disorder, malignancy, migraine, false-positive VDRL, previous deep vein thrombosis, renal disease, factor V Leiden, or a hematological disorder. There was no anatomical abnormality that would predispose the patient to a cerebral venous thrombosis. The only laboratory abnormality was a moderate anticardiolipin antibody level (25 GPL). The patient was placed on warfarin sodium therapy and is currently without clinical sequela from the venous thrombotic event. CONCLUSIONS: Under certain circumstances, minor trauma can induce cerebral venous thrombosis. A review of the literature indicates that cerebral venous thrombosis in the presence of anticardiolipin antibodies and in the absence of systemic lupus erythematosus is a rare event. Previously, only major traumatic events have been reported to be associated with cerebral venous thromboses. The chronological development of cerebral venous thrombosis after a faulty golf swing strongly indicates that given a background of moderate levels of anticardiolipin antibodies, even minor trauma can induce a venous thrombotic event.

A longitudinal study of T1 hypointense lesions in relapsing MS: MSCRG trial of interferon beta-1a. Multiple Sclerosis Collaborative Research Group.

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 beta-1a (IFNbeta-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 IFNbeta-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 IFNbeta-1a (30 mcg) slows the 2-year accumulation of these lesions in the brain.

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.

Epitope spreading: a mechanism for progression of autoimmune disease.

Autoimmune diseases are typically characterized by a persistent inflammatory self-recognition process that ultimately leads to chronic progressive disability. Over the past several years we have addressed the fundamental question of why autoimmune diseases are chronic. Our working hypothesis in these studies has been that autoimmunity involves a continuous acquisition of new self-recognition events, thereby providing an inflammatory steady-state that leads to chronicity. This acquired T cell neoautoreactivity is commonly referred to as epitope spreading. By studying multiple sclerosis (MS) and its related animal model, experimental autoimmune encephalomyelitis (EAE), we have found that chronic progression of autoimmune disease is invariably linked to the development of an epitope-spreading process that manifests as a cascade of inflammatory T cell neoautoreactivities to a sequential series of predictable new target self-antigens. However, our most recent observations indicate that the emergence of epitope spreading is accompanied by a concurrent regression of the established primary autoreactivity associated with disease onset. Thus, our studies indicate that progression of autoimmune disease involves a shifting of T cell autoreactivity from primary initiating self-determinants to defined cascades of secondary determinants that sustain the inflammatory self-recognition process during progression to chronicity. Our data support the view that the natural development of self-recognition during autoimmune disease may best be understood when considered in the temporal context of an "epitope du jour" and "moving target" perspective.

Bimonthly cranial MRI activity following an isolated monosymptomatic demyelinating syndrome: potential outcome measures for future multiple sclerosis 'prevention' trials.

Patients with characteristic white matter lesions on MR imaging are at increased risk for the subsequent development of clinically definite MS (CDMS) following an isolated, monosymptomatic demyelinating syndrome (IMDS). These MR positive first-onset patients are thus candidates for MS prevention trials. Seven consecutive patients with IMDS and two or more periventricular and/or oval lesions on MR imaging were enrolled into a prospective trial based on serial T2-weighted and enhanced MR imaging at two month intervals for 12 - 15 months. Forty-seven new enhancing lesions were detected with triple dose MR contrast compared to 31 lesions using the standard dose. Four of the seven patients accounted for 98% of all enhancing lesions in this study, while the remaining three patients showed little MRI or clinical disease activity. New T2 lesion counts correlated strongly with enhanced lesion counts (r=0.82 - 0.98). We detected 49 new T2-hyperintense (T2) lesions based on short-interval (2 monthly) follow-up, and 31 new T2-lesions comparing exit and entry examinations. These results suggest several potential MR-based strategies for evaluating first onset patients in a phase III MS prevention trial. Since these patients have a small average T2-lesion load, it is quite easy to visually detect new T2 lesions. As a result, at a bimonthly study interval, T2-weighted lesion analysis is an effective measure of cumulative disease activity, provided high-resolution T2-weighted imaging studies are acquired to quantitate new T2-lesions. Enhanced lesion activity remains an important measure of blood - brain - barrier breakdown and may predict short term MRI and clinical disease activity in IMDS patients.

Chronic thalamic stimulation for the tremor of multiple sclerosis.

The authors studied chronic high-frequency stimulation of the ventral intermediate nucleus of the thalamus (Vim) for controlling upper extremity tremor in patients with MS using MRI, CT, and microelectrode recordings and stimulation to locate optimal target sites. Fifteen patients underwent surgery. All patients had reduced tremor but developed tolerance requiring repeated programming of the stimulator. Benefit at optimal stimulator settings was maintained. Two patients experienced complications: intracerebral hematoma and MS exacerbation. Chronic high-frequency stimulation of Vim provides tremor reduction if patients have access to frequent stimulator adjustments. This surgery is relatively safe.

A longitudinal study of brain atrophy in relapsing multiple sclerosis. The Multiple Sclerosis Collaborative Research Group (MSCRG).

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 beta-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.

Therapy of relapsing multiple sclerosis. Treatment approaches for nonresponders.

There is increasing impetus to begin disease-modifying therapy for relapsing multiple (R-MS) early, before the development of irreversible tissue damage and resultant permanent disability. However, all of the currently-approved therapies for relapsing multiple sclerosis are only partially effective for patients as a group. Treatment failure can be due to noncompliance with therapy, intolerable adverse effects, the development of neutralizing antibodies, or non-responsive disease. Neurologists managing patients on disease-modifying therapy for R-MS must remain vigilant for these issues and take appropriate action when necessary.