Clinical-MRI correlations in a European trial of interferon beta-1b in secondary progressive MS.

BACKGROUND: The recently completed placebo-controlled multicenter randomized trial of interferon beta-1b (Betaferon) in 718 patients with secondary progressive MS shows significant delay of disease progression and reduction of relapse rate. This study provides an opportunity to assess the level of relationship between clinical and MRI outcomes in this cohort of patients with secondary progressive MS. METHODS: Brain T2-weighted lesion volume was measured annually in all available patients, with visual analysis to identify any new or enlarging (active) T2 lesions at each annual time point. A subgroup of 125 patients had monthly gadolinium-enhanced, T1-weighted imaging at months 0 to 6 and 18 to 24. Relapses were documented and expanded disability status scale (EDSS) was measured every 3 months. RESULTS: For the annual MRI outcomes, a significant but modest correlation was identified between the change in T2 lesion volume from baseline to the final scan and the corresponding change from baseline in EDSS (r = 0.17, p < 0.0001). There were significant correlations between the cumulative number of active T2 lesions and 1) change in EDSS (r = 0.18, p < 0.0001) and 2) relapse rate (r = 0.24, p < 0.0001). In the subgroup of 125 patients undergoing monthly imaging, MRI lesion activity was correlated with relapse rate over months 0 to 24 (r = 0.24, p = 0.006) but not with change in EDSS. CONCLUSIONS: These results confirm that the clinical-MRI relationships previously identified in relapsing-remitting MS still are apparent in the secondary progressive phase of the disease and support the use of MRI as a relevant outcome measure. In view of the relatively modest nature of the correlations, it seems unwise to rely on such MRI measures alone as primary efficacy variables in secondary progressive MS trials.     

Open trial of the effectiveness of interferon beta 1a (Avonex) in the treatment of multiple sclerosis in Poland: MRI results

OBJECTIVE: To assess the effect of interferon-beta 1A (IFNb 1A, Avonex) treatment on magnetic resonance (MR) image in patients with remitting-relapsing multiple sclerosis (RR MS) who participated in the Polish Avonex trial. PATIENTS AND METHODS: RR MS patients (N = 126) participated in a two-year randomized open trial of Avonex treatment administered in the dose of 30 mcg once a week. MRI was performed twice in each case: shortly before the patient's enrollment in the study and within a month from the study completion. Changes in T2-weighted lesion volume and T1-weighted gadolinium-enhanced lesion volume, as well as the number of new T2-weighted and T1-weighted gadolinium-enhanced lesions were measured. RESULTS: Over the two-year treatment period the mean volume of T2-weighted lesions decreased by 3.9% (p = 0.83) while that of T1-weighted gadolinium-enhanced lesions decreased by 79% (p = 0.084%) as compared to the baseline MRI evaluation. The mean number of enhanced lesions after two years of Avonex therapy was reduced by 46.1% (p = 0.0035). The total number of enhanced lesions decreased by 49.8% (p = 0.0078). Both the number of new T2-weighted lesions, 3.7 per patient, and that of new T1-weighted gadolinium-enhanced lesions, 0.7 per patient, were comparable with the results obtained in other Avonex trials. CONCLUSION: The results confirmed that interferon beta-1a (Avonex) has a significant effect in MS patients, slowing down the progress of their disease. This effect is particularly visible in T1-weighted contrast-enhanced images, indicating an impact of the treatment particularly on the inflammatory stage of the demyelination process.     

The effect of IFNbeta-1b on the evolution of enhancing lesions in secondary progressive MS.

BACKGROUND: After the resolution of contrast enhancement, the majority of new MS lesions become isointense with surrounding white matter on T1-weighted MRI. Less commonly, a hypointense T1 lesion develops, representing the development of more severe focal tissue damage. Interferon beta (IFNbeta) reduces both the number of new enhancing lesions and the duration of contrast enhancement. OBJECTIVE: To determine if IFNbeta affects the degree of tissue damage within new lesions and if its effects are related to lesion size. METHODS: One hundred twenty-five patients with secondary progressive MS from seven European sites were randomized to receive either IFNbeta-1b or placebo. Monthly, contrast-enhanced T1-weighted MR images were acquired at baseline, at months 1 to 6, and at months 19 to 24. The size of all new enhancing lesions developing between months 1 and 6 was recorded and their appearance at follow-up documented. RESULTS: In the first 6 months, fewer new enhancing lesions occurred in the IFNbeta-1b arm. This difference was greater for small (70% decrease) than for large (46% decrease) lesions. Hypointense T1 lesions were more likely to form from large (25%) than from small (9%) enhancing lesions in both treatment arms. Patients taking IFNbeta-1b developed fewer hypointense T1 lesions; however, the proportion of enhancing lesions developing into hypointense T1 lesions was similar in both arms. CONCLUSION: IFNbeta-1b reduced the number of new enhancing lesions, with a greater effect on small lesions. However, when a new enhancing lesion did become established, treatment with IFNbeta-1b did not alter its subsequent course.     

European/Canadian multicenter, double-blind, randomized, placebo-controlled study of the effects of glatiramer acetate on magnetic resonance imaging--measured disease activity and burden in patients with relapsing multiple sclerosis. European/Canadian Glatiramer Acetate Study Group

Two prior double-blind, placebo-controlled, randomized trials demonstrated that glatiramer acetate (GA) reduces relapse rates in patients with relapsing remitting multiple sclerosis (RRMS). This study was designed to determine the effect, onset, and durability of any effect of GA on disease activity monitored with magnetic resonance imaging (MRI) in patients with RRMS. Two hundred thirty-nine eligible patients were randomized to receive either 20 mg GA (n = 119) or placebo (n = 120) by daily subcutaneous injection. Eligibility required one or more relapses in the 2 years before entry and at least one enhancing lesion on a screening MRI. The study was a randomized, double-blind, placebo-controlled phase during which all patients studied underwent monthly MRI scans and clinical assessments over 9 months. The primary outcome measure was the total number of enhancing lesions on T1-weighted images. Secondary outcome measures included the proportion of patients with enhancing lesions, the number of new enhancing lesions and change in their volume; the number of new lesions detected on T2-weighted images and change in their volume, and the change in volume of hypointense lesions seen on unenhanced T1-weighted images. Clinical measures of disease activity were also evaluated. The active treatment and placebo groups were comparable at entry for all demographic, clinical, and MRI variables. Treatment with GA showed a significant reduction in the total number of enhancing lesions compared with placebo (-10.8, 95% confidence interval -18.0 to -3.7; p = 0.003). Consistent differences favoring treatment with GA were seen for almost all secondary end points examined: number of new enhancing lesions (p < 0.003), monthly change in the volume of enhancing lesions (p = 0.01), and change in volume (p = 0.006) and number of new lesions seen on T2-weighted images (p < 0.003). The relapse rate was also significantly reduced by 33% for GA-treated patients (p = 0.012). All effects increased over time. Glatiramer acetate significantly reduced MRI-measured disease activity and burden.     

Every-other-day interferon beta-1b versus once-weekly interferon beta-1a for multiple sclerosis (INCOMIN Trial) II: analysis of MRI responses to treatment and correlation with Nab

BACKGROUND: In RRMS, clinical exacerbations are usually associated with different types of active lesions at MRI, including: hyperintense lesions on T1-weighted post-gadolinium sequences; new hyperintense lesions or enlarging old lesions on PD/T2-weighted scans; or new hypointense lesions on T1-weighted pre-Gd sequences. OBJECTIVE/METHODS: Primary outcome was the occurrence of patients with at least one active MRI lesion of the different types indicated above during treatment with 250 microg every other day (EOD) interferon beta (IFNbeta)-1b or 30 microg once weekly (OW) IFNbeta-1a in outpatients with RRMS (INCOMIN Trial). RESULTS: The number of patients with at least one 'active' lesion, evaluated over the two-year follow-up, was significantly (P = 0.014) lower in the EOD IFNbeta-1 b arm (1 3/76, 17%) then in the OW IFNbeta-1a arm (25/73, 34%). NAb frequency over two-year follow-up was 22/65 (33.8%) in the EOD IFNbeta-1b arm and 4/62 (6.5%) in the OW IFNbeta-1a arm, significantly greater in the EOD IFNbeta-1b arm. CONCLUSIONS: The development of MRI active lesions is strongly reduced by EOD-IFNbeta-1b compared with OW-IFNbeta-1a, indicating that EOD-IFNbeta-1b is more effective than OW-IFNbeta-1a in reducing ongoing inflammation and demyelination in MS. Logistic regression showed that NAb status did not affect the risk of MRI activity.     

Treatment of active secondary progressive multiple sclerosis with treosulfan

Abstract Objective To study the safety and efficacy of treosulfan, a cytotoxic alkylating agent, in patients with active secondary progressive multiple sclerosis. Background Treosulfan (L-threitol-1,4-bis(methanesulfonate)) is a bifunctional alkylating agent with a favorable profile of side effects, approved for the treatment of ovarian cancer. Treosulfan has previously been shown to reduce the severity of experimental allergic encephalomyelitis under pre-therapeutic and therapeutic conditions. In human peripheral blood mononuclear cells, treosulfan reduces proliferative capacity and increases apoptosis. Study design This is a nonrandomized, open label study conducted in two centers. Eleven patients with active secondary progressive MS that failed to or did not qualify for approved disease modifying drugs were treated with treosulfan for 1 year. Patients received intravenous infusions of 7 g/m² every 4 weeks for 3 months (cycles 1–4, induction phase) with a predefined one-step dose escalation, thereafter every 3 months for the following 9 months (cyles 5–7, maintainance phase). Cranial MRI was performed every 3 months, EDSS and MSFC as well as physical examination were assessed at each clinical visit. Results Treatment with treosulfan was safe and well tolerated. Nine of 11 patients remained on study drug over the complete treatment period and showed clinical stabilisation or improvement as determined by EDSS and MSFC. Two patients discontinued study drug because of leukocytopenia and withdrawal of consent, respectively. No clinical relapses were observed during the treatment period. Thus, the median number of relapses per year was reduced signifi- cantly by 1.5 (range –3 to 0), p < 0.016, compared to prestudy. Therapy with treosulfan lead to a clear reduction of MRI activity as revealed by a reduced number of Gd + enhancing lesions on T1 weighted images. The mean number and volume of T2 lesions remained unchanged over 1 year. Four out of 9 patients under treosulfan showed no detectable disease activity (no Gd enhancing lesions, no new or newly enlarging T2 lesions). Conclusions Application of treosulfan in MS was safe and well tolerated. Further studies are warranted to evaluate the efficacy of this treatment in secondary progressive MS.     

Short-term evolution of new multiple sclerosis lesions enhancing on standard and triple dose gadolinium-enhanced brain MRI scans.

We compared the short-term magnetic resonance imaging (MRI) evolution of new multiple sclerosis (MS) lesions enhancing after single dose (SD) (0.1 mmol/kg) or triple dose (TD) (0.3 mmol/kg) gadolinium-DTPA (Gd) to explore possible differences in the pathological substrates of acute MS lesions. Brain MRI scans were obtained at baseline and every 4 weeks for a 3-month period in 18 relapsing-remitting MS patients. At each time point, using two separate sessions, we obtained dual echo and T1-weighted scans before and after SD and TD of Gd. New enhancing lesions detected at month 1 and 2 were entered into the analysis. The presence of corresponding hypointense lesions on unenhanced T1-weighted scans and hyperintense lesions on T2/proton density (PD)-weighted images was assessed on the same scan and on the scans performed 1 month before and 1 month after the new lesion development. Persistence of enhancement was evaluated on the SD and TD scans obtained 1 month after new lesion appearance. One-hundred and sixty lesions were studied. Of these, 97 lesions were enhancing after both SD and TD (group A) and 63 lesions only after TD (group B). Thirty (31%) of the lesions enhancing after both SD and TD and ten (16%) of the lesions enhancing only after TD had corresponding T1-weighted lesions (P = 0.03). Of these lesions, 87% in group A and 40% in group B (P = 0.003) were not hypointense on the previous scans. No differences were found in the frequencies of corresponding T2/PD-weighted abnormalities (92% in Group A vs. 87% in Group B lesions). Of these hyperintense areas, 62% in group A and 56% in group B were not present on the previous scans. On follow-up scans, 52% of the lesions enhancing after SD and TD and 70% of the lesions enhancing only after TD did not show enhancement after the injection of both the doses of Gd (P = 0.02). The frequencies of corresponding T2/PD and T1-weighted abnormalities were higher in Group A than in Group B lesions, but the differences were not statistically significant. Our findings suggest that the pathological process is less severe in MS lesions enhancing only after TD injection than in those enhancing after the SD.     

One year follow up study of primary and transitional progressive multiple sclerosis

OBJECTIVE: To document clinical and magnetic resonance imaging (MRI) characteristics of a large cohort of primary and transitional progressive multiple sclerosis (PP and TP MS) patients over one year. INTRODUCTION: Patients with PP or TP MS have been shown to have low brain T2 and T1 lesion loads and slow rates of new lesion formation with minimal gadolinium enhancement, despite their accumulating disability. Serial evaluation of these patients is needed to elucidate the pathological processes responsible for disease progression and to identify clinical and MRI measures which can monitor these processes in treatment trials. METHOD: Patients, recruited from six European centres, underwent two assessments on the expanded disability status scale (EDSS) and MRI of the brain and spinal cord, 1 year apart. RESULTS: Of the 167 patients studied (137 with PP MS and 30 with TP MS), 41 (25%; 35 PP and six TP) showed a one step increase in the EDSS. The mean number of new brain lesions seen was 0.88 in the PP group and 0.47 in the TP MS group. Both groups demonstrated change in T2 lesion load over the year (p< or =0.002), with median percentage changes of 7.3% in the PP group and 10. 8% in the TP MS group. The PP group also showed a significant change in T1 load (p< 0.001, median change 12.6%). The number of new cord lesions seen was small (mean of 0.14 in the PP group and no new cord lesions in the TP group). Both groups demonstrated a decrease in cord cross sectional area (p< 0.001, median changes; PP 3.8%, TP 4. 9%), but only the PP group showed evidence of significant brain atrophy (p<0.001, 0.95%). CONCLUSION: Although the monitoring of disease progression in this patient group is difficult, this study demonstrates changes in both lesion load and atrophy, which, if shown to correlate with clinical change over a longer time will facilitate therapeutic trial design.     

Interferon-β-1a in relapsing-remitting multiple sclerosis: effect on hypointense lesion volume on T1 weighted images

OBJECTIVE: Recently, a strong correlation between the increase in hypointense lesion load on T1 weighted spin echo images, and the increase in disability was reported. Although the effect of interferon-beta has been demonstrated both in reducing exacerbation rate, frequency of enhancing lesions, and accumulation of disease burden on T2 weighted images, the impact on the accumulation of hypointense lesions has not yet been evaluated. The aims of the present study were: (a) to assess for the first time the effect of interferon-beta-1a on T1 weighted MRI hypointense lesion volume; and (b) to evaluate the relation between changes on hypointense, hyperintense, and enhancing lesion volume before and during interferon-beta-1a treatment in relapsing-remitting multiple sclerosis. METHODS: After a baseline scan and 6 month pretreatment period, 67 patients with relapsing-remitting multiple sclerosis were treated with interferon-beta-1a by subcutaneous injection three times a week during a 12 month treatment period. All patients had MRI every month during the 6 month pretreatment period and for the first 9 months of the treatment period. A final MRI was also performed at the end of the 12 month treatment period. RESULTS: There was a significant increase in the mean hyperintense lesion volume during the pretreatment phase (6 months) and a slight decrease during the treatment period (12 months), whereas the hypointense lesion volume increased significantly before treatment and remained substantially stable during treatment. There was a significant correlation between changes in hypointense and hyperintense lesion volume during the observation period, but not during treatment. The monthly mean volume of Gadolinium-DTPA enhancing lesions was significantly higher during the pretreatment than the treatment period, and the enhancing lesion volume correlated with changes of hyperintense and hypointense lesion volumes only during the observation period. CONCLUSION: These data suggest that interferon-beta-1a has a stabilising effect on T1 weighted hypointense lesion volume.     

Relationship between MRI lesion activity and response to IFN-beta in relapsing-remitting multiple sclerosis patients

OBJECTIVE: Our objective in this study is to evaluate whether brain magnetic resonance imaging (MRI) performed at interferon-beta (IFN-beta) onset and after 12 months allow us to identify relapsing-remitting multiple sclerosis (RRMS) patients with a disability increase in the first 2 years of therapy. METHODS: This is a prospective and longitudinal study of patients with RRMS treated with IFN-beta. All patients included underwent brain MRI before the onset of therapy with IFN-beta and 12 months after. MRI measures (T2, unenhanced T1-weighted and gadolinium-enhancing T1-weighted brain lesion load, brain parenchymal fraction) were undertaken at baseline and after 12 months. The number of active lesions (new or enlarging T2 plus gadolinium-enhancing brain lesions) was also assessed on the 12 months MRI scan. Expanded Disability Status Scale (EDSS) was scored every 3 months. We defined an increase in disability as an increase of at least 1 EDSS point confirmed and sustained during the first 2 years of therapy with IFN-beta. Regression analysis was performed in order to identify MRI variables of response. RESULTS: We included 152 patients who were followed-up for at least 2 years. After 2 years of therapy, 24 patients (16%) had an increase in disability. The logistic regression model showed that active lesions in the scan performed at 12 months were the most important factor related with the increase of disability after 2 years of therapy (odds ratio 8.3, 95% confidence interval 3.1-21.9; p < 0.0001). CONCLUSIONS: In RRMS patients treated with IFN-beta the MRI changes occurring during the first year may have a prognostic value for identifying patients with a confirmed increase of disability after 2 years of therapy.     

Randomized controlled trial of interferon-beta-1a in secondary progressive MS: MRI results

OBJECTIVE: To examine MRI changes resulting from treatment of secondary progressive MS (SPMS) with two doses of interferon-beta-1a (Rebif). BACKGROUND: Interferon-beta (IFN-beta) reduces relapses and delays progression in relapsing-remitting MS, but there are conflicting results on its clinical benefit in SPMS. METHODS: In a double-blind, randomized, multicenter, placebo-controlled study (SPECTRIMS), 618 patients received IFN-beta-1a 22 microg, 44 microg, or placebo subcutaneously three times weekly for 3 years. T2 activity and burden of disease (BOD) were measured in 617 patients by using semiannual proton density/T2-weighted (PD/T2) MRI scans. A cohort of 283 patients also had 11 monthly PD/T2 and T1-weighted gadolinium-enhanced (T1-Gd) scans at study start. RESULTS: Treatment reduced median numbers of active lesions per patient per scan (semiannual T2 activity: 0.17, 0.20 and 0.67 for the high dose, low dose, and placebo, p < 0.0001; monthly combined unique activity [T1+T2]: 0.11, 0.22, and 1.00, p < 0.0001) and accumulation of BOD (percent change from baseline to month 36: -1.3, -0.5, and 10.0 for the high dose, low dose, and placebo, respectively; p = 0.0001). MRI benefit was most evident in the subgroup of patients who reported relapses in the 2 years before the study. Neutralizing antibody development was associated with reduction in treatment effect: antibody-positive patients did not show significant differences from placebo at either dose. CONCLUSIONS: Interferon-beta-1a used in SPMS showed significant effects on all MRI measures, particularly in patients with relapses in the 2 years before the study.     

The effect of interferon-β on blood—brain barrier disruptions demonstrated by constrast-enhanced magnetic resonance imaging in relapsing—remitting multiple sclerosis

Magnetic resonance imaging (MRI) has been a valuable tool to understand the pathophysiology and natural history of multiple sclerosis (MS), and increasing attention is focusing on the use of MRI findings as outcome measures in treatment trials in MS. The recently completed trial of interferon-β-1b (IFN-β1b) demonstrated a decrease in accumulation of diseased tissue on T2-weighted images and a reduction in new lsions on T2-weighted images. To examine the effect of IFN-β1b on blood-brain barrier (BBB) breakdown, and to provide additional insights into the usefulness of MRI in the evolution of effectiveness of experimental treatments in MS, we used the contrast-enhanced lesion frequency of 7-month baseline MRIs compared with the enhanced lesion frequency for 6-month treatment period MRIs in 14 relapsing-remitting (RR) MS patients. Longer baselines were also available for analysis in a subset of 8 patients, as these patients had been followed by monthly MRI in a natural history study for up to 4 years prior to the current study. A significant reduction in the total or new enhancing lesion frequency was detected in the patients analyzed as a whole, and 13 of 14 of the patients demonstrated a reduction in enhancing lesion frequency on treatment over the 6 months studied. These findings suggest that IFN-β has a mechanism of action that at least temporarily inhibits the opening of the BBB in RRMS patients. This trial also illustrates the usefulness of a baseline versus treatment trial design to evaluate the effect of drug therapy in MS.     

One-year MRI scan predicts clinical response to interferon beta in multiple sclerosis

Background and purpose:  To define the predictive value of clinical and magnetic resonance imaging (MRI) characteristics in identifying relapsing-remitting multiple sclerosis (RR-MS) patients with sustained disability progression during interferon beta (IFNB) treatment.
Methods:  All patients receiving treatment with one of the available IFNB formulations for at least 1 year were included in this single-centre, prospective and post-marketing study. Demographic, clinical and MRI data were collected at IFNB start and at 1 year of therapy; patients were followed-up at least yearly. Poor clinical response was defined as the occurrence of a sustained disability progression of ≥1 point in the Expanded Disability Status Scale (EDSS) during the follow-up period.
Results:  Out of 454 RR-MS patients starting IFNB therapy, data coming from 394 patients with a mean follow-up of 4.8 (2.4) years were analysed. Sixty patients were excluded because of too short follow-up. Less than 1/3 (30.4%) of the patients satisfied the criterion of 'poor responders'. Patients presenting new lesions on T2-weighted MRI scan after 1 year of therapy (compared with baseline) had a higher risk of being poor responder to treatment with IFNB during the follow-up period (HR 16.8, 95% CI 7.6–37.1, P  < 0.001). An augmented risk increasing the number of lesions was observed, with a 10-fold increase for each new lesion.
Conclusions:  Developing new T2-hyperintense lesions during IFNB treatment was the best predictor of long-term poor response to therapy. MRI scans performed after 1 year of IFNB treatment may be useful in contributing to early identification of poor responders.     

European study on intravenous immunoglobulin in multiple sclerosis: results of magnetization transfer magnetic resonance imaging analysis

BACKGROUND: Magnetization transfer magnetic resonance imaging (MT MRI) can provide in vivo markers reflecting the severity of multiple sclerosis-related brain damage occurring within and outside T2-visible lesions. OBJECTIVE: To investigate the effect of intravenous immunoglobulin (IVIG) treatment on the accumulation of brain damage in patients with secondary progressive multiple sclerosis (SPMS), measured using MT MRI.Design, Patients, and Intervention Seventy patients with SPMS participating in the European, multicenter, randomized, double-blind, placebo-controlled trial of IVIG in SPMS underwent brain T2-weighted and MT MRI at baseline and after 12 and 24 months. The MT MRI scans were post-processed and analyzed to obtain MT ratio values from T2-visible lesions and MT ratio histograms from the normal-appearing brain tissue (NABT). RESULTS: At baseline, a significant difference was found for NABT MT ratio histogram peak height (P =.003) between treated patients and patients receiving placebo. No significant differences between treated patients and those receiving placebo were found for any of the considered MT MRI-derived metrics in terms of treatment x time interaction. Nevertheless, over the 24-month period, the placebo patients experienced a 6.75% reduction of the NABT MT ratio histogram peak height, whereas treated patients experienced only a 0.92% reduction of the NABT MT ratio histogram peak height. CONCLUSIONS: This study did not show any statistically significant effect of IVIG on MT MRI quantities. Nevertheless, the markedly different percentage change of the NABT MT ratio histogram peak height over time between patients receiving placebo and treated patients suggests a possible role of IVIG treatment in preventing the loss of "truly" normal brain tissue in SPMS patients.     

Magnetic resonance outcome of new enhancing lesions in patients with relapsing-remitting multiple sclerosis

The aim of the study was to monitor the natural history of new enhancing lesions in multiple sclerosis (MS) by means of serial gadolinium-enhanced magnetic resonance imaging (MRI). Out of the 63 new enhancing lesions seen on the baseline scan, belonging to 26 relapsing-remitting MS patients, 26 (40%), nine (14%) and four (6%) lesions showed persisting enhancement at first, second and third follow-up scan, respectively. At the end of 5 months of follow-up, 58 (92%) of the new enhancing lesions were detected as T2 hyperintensities, 24 (38%) as T1 hypointensities ('black holes'), and five lesions (8%) disappeared in both T2 and T1 weighted images. Duration of gadolinium enhancement of at least two consecutive scans significantly influenced the development of 'black holes'. No significant correlation was observed between volume, location, configuration of enhancement at baseline and final outcome of the lesion. In individual cases, different evolution of new enhancing lesions was observed at the same time.In conclusion, this study documented that different outcomes of new lesions are unrelated either to the individual patient or to the baseline MRI characteristics. However, prolonged blood-brain-barrier disruption as shown by persisting enhancement significantly influences the lesion outcome.     

Brain MRI correlates of magnetization transfer imaging metrics in patients with multiple sclerosis.

Previous studies suggested that magnetization transfer ratio (MTR) histograms are highly correlated with other magnetic resonance imaging (MRI) measures and can be used as a reliable method for quantifying overall disease burden in multiple sclerosis (MS). However, the relative influence of burden and severity of macroscopic MS lesions and degree of brain atrophy on various MTR histogram parameters has not yet been fully elucidated. Aim of the present study was to investigate which MRI measure best predicts the values of MTR histogram parameters in MS patients. Forty-two MS patients underwent brain dual-echo. T1-weighted and magnetization transfer imaging (MTI) MRI scans. Hyperintense lesion load (LL) on proton density (PD)-weighted and hypointense LL on T1-weighted images were measured using a local thresholding technique. A measure of brain atrophy was derived from T1-weighted images by computing the volume of brain tissue segmented from a slab of five consecutive slices rostral to the velum interpositum. On MTI scans, MTR histogram analysis was performed for the whole brain and average lesion MTR was also calculated. PD-weighted LL, T1-weighted LL and brain volume were significantly correlated with several MTI-derived measures. When a multivariate analysis was performed, brain volume alone significantly predicted the values of all the MTR histogram-derived measures (P values ranged from 0.003 to 0.0002). The ratio between hypointense T1-weighted and hyperintense PD-weighted LL significantly predicted average lesion MTR (P<0.05). Our results confirm that MTR can be used as a reliable method to assess both the overall disease burden and the individual lesion intrinsic nature in MS patients. The significant influence of brain atrophy on MTR histogram parameters supports the concept that this method also provides information on the loss of brain parenchyma in MS.     

Multiple sclerosis: interobserver agreement in reporting active lesions on serial brain MRI using conventional spin echo, fast spin echo, fast fluid-attenuated inversion recovery and post-contrast T1-weighted images

Previous studies have addressed the question of the precision in assessing multiple sclerosis (MS) activity by counting enhancing lesions on gadolinium enhanced brain magnetic resonance imaging (MRI). However, counting the active lesions on serial unenhanced MRI obtained by various pulse sequences has not been yet considered. We compared the interobserver levels of agreement in reporting active MS lesions on serial enhanced and unenhanced MRI to assess whether the use of various unenhanced techniques may change the degree of interobserver measurement reproducibility. Dual-echo conventional spin echo (CSE), dual-echo fast spin echo (FSE), fast fluid-attenuated inversion recovery (FLAIR) and Gd-enhanced T1-weighted brain MRI were obtained from five MS patients at baseline and monthly for 2 months. Six experienced observers independently identified and counted active MS lesions on the two follow-up MRI scans. Active lesions were considered to be all the enhancing lesions and any new or enlarging lesion on enhanced and unenhanced scans. Interobserver levels of agreement were calculated by weighted κ values. Very good agreement was reached only for counting total and new Gd-enhancing lesions. Good agreement was achieved for counting new lesions on the three unenhanced techniques, whereas the agreement for counting enlarging lesions was poor with all the MRI techniques. The level of agreement was significantly heterogeneous for various MRI techniques but not for various lesion sites. These results confirm that counting enhancing lesions is the most reliable method for assessing MS activity, but the use of any of the available unenhanced MRI techniques did not result in different levels of interobserver agreement when reporting new and enlarging MS lesions on serial scans. Received: 10 December 1998 Received in revised form: 6 April 1999 Accepted: 26 April 1999     

Magnetic resonance imaging results of the PRISMS trial: A randomized,double-blind,placebo-controlled study of interferon-β1a in relapsing-remitting multiple sclerosis

The PRISMS (Prevention of Relapses and Disability by Interferon-β1a Subcutaneously in Multiple Sclerosis) trial was a double-blind, randomized, multicenter, phase III, placebo-controlled study of interferon-β1a in 560 patients from 22 centers in 9 countries with clinically definite or laboratory-supported relapsing-remitting multiple sclerosis. The patients were randomized to receive recombinant interferon-β1a (Rebif), 22 μg (6 mIU), 44 μg (12 mIU), or placebo, given subcutaneously, three times weekly for 2 years. All patients underwent biannual proton density/T2-weighted magnetic resonance imaging scans to determine the overall magnetic resonance imaging disease activity and burden of disease, and a cohort of 205 patients had 11 initial monthly proton density/T2-weighted and gadolinium-enhanced/T1-weighted magnetic resonance imaging scans. Over the 2 years, the placebo group showed a progressive median increase in burden of disease of 10.9%, whereas the 22-μg group and 44-μg group showed median decreases of 1.2% and 3.8%, respectively. The number of T2 active lesions and percentage of scans showing T2 activity on the biannual scans were also significantly reduced in both treatment groups compared with placebo, with a clear dose–effect favoring the 44-μg dose over the 22-μg dose. In the subgroup undergoing initial monthly scanning, this reduction in activity became statistically significant 2 months after the start of treatment. These results provide strong, objective evidence to support the positive clinical results of reduction in relapses and delay in disease progression. In addition, they also demonstrate a significant dosage effect, favoring the 44-μg dose. Ann Neurol 1999;46:197–206     

The sensitivity of thin-slice fast spin echo, fast FLAIR and gadolinium-enhanced T1-weighted MRI sequences in detecting new lesion activity in multiple sclerosis

Fast fluid-attenuated inversion-recovery (FLAIR) and proton density/T2-weighted fast spin echo (FSE) brain images with 3-mm slices were acquired monthly for 7 months in 37 multiple sclerosis patients. New and enlarging lesions were counted and compared according to the site of lesions seen with each sequence. In addition, the number of new enhancing lesions seen on gadolinium-enhanced T1-weighted brain magnetic resonance imaging at the same time points was counted. All sequences used 3-mm contiguous axial slices. Overall, 126 new or enlarging lesions were seen on FSE and 135 on fast FLAIR (P = 0.25, Wilcoxon signed ranks test). Regional comparisons revealed significantly more fast FLAIR lesions only in the cortical/subcortical areas. There was a total of 295 new enhancing lesions over the same period – a gain in the number of ‘active lesions’ of 234% seen with FSE and 218% with FLAIR. It is concluded that serial thin slice fast FLAIR is only slightly superior to FSE in detecting new and enlarging multiple sclerosis lesions but the difference is not sufficient to recommend that FLAIR should replace FSE in short-term, exploratory trials in MS using monthly scanning. Gadolinium-enhanced imaging is more then twice as sensitive as either FSE or fast FLAIR to new multiple sclerosis lesion activity, and enhancing lesions should provide the primary outcome measure in such studies. Received: 27 April 1999 Received in revised form: 28 July 1999 Accepted: 22 August 1999     

Effect of interferon beta-1b in MS: assessment of annual accumulation of PD/T2 activity on MRI. UBC MS/MRI Analysis Group and the MS Study Group

OBJECTIVE: To determine whether the efficacy of interferon beta-1b (IFNbeta-1b) on lesion activity could be shown with annual analysis of MRI. BACKGROUND: Clinical outcomes and MRI burden of disease changes in MS patients in a multicenter double-blind placebo-controlled 5-year trial of IFNbeta-1b have been reported, together with an analysis of 6-weekly MRI activity in a small subgroup during 2 years. MRI activity measurements based on annual scans have not been documented. METHODS: Patients were randomized into three treatment arms: placebo, 1.6 mIU, and 8 mIU IFNbeta-1b self-administered subcutaneously every other day. Active lesions were identified as new, enlarging, or recurrent on proton density and T2-weighted MRI scans. Gadolinium was not used. An annual accumulation activity index was developed as an additional analysis of lesion activity. RESULTS: During the 5 years, both high- and low-dose IFNbeta-1b groups showed a striking reduction in lesion annual accumulation activity on the activity index versus placebo (p = 0.001). Thirty-five percent of the high-dose patients and 29% of the low-dose patients were MRI inactive by this method of analysis, whereas only 16% of placebo patients were inactive (p = 0.001, placebo versus 8 mIU). CONCLUSIONS: This analysis of the annual accumulation of lesion activity shows that the previously reported treatment effect seen on MRI scanning once every 6 weeks in a subcohort of the patients can also be seen on yearly scans. This annual accumulation activity analysis provides an independent MRI confirmation of a treatment and dose effect for IFNbeta-1b.