Kryshani Fernando

Modification of MRI criteria for multiple sclerosis in patients with clinically isolated syndromes

Background: The McDonald criteria include MRI evidence for dissemination in space and dissemination in time for the diagnosis of multiple sclerosis in young adult patients who present with clinically isolated syndromes (CIS) typical of the disease. Although a major advance, the criteria have limited sensitivity for making an early diagnosis. Objective: To compare the performance of McDonald criteria and modified McDonald criteria for dissemination in space and time for assessing the development of clinically definite multiple sclerosis. Methods: McDonald criteria were modified using the combination of a less stringent definition for dissemination in space and allowing a new T2 lesion per se after three months as evidence for dissemination in time. Modified and McDonald criteria were applied in 90 CIS patients at baseline and at three month follow up scans. Results: Both criteria were highly specific (>90%) but the modified criteria were more sensitive (77% v 46%) and more accurate (86% v 73%). Conclusions: These modified criteria should be evaluated in other CIS cohorts.

MRI criteria for dissemination in space in patients with clinically isolated syndromes: a multicentre follow-up study

BACKGROUND The McDonald International Panel accepted the Barkhof/Tintoré criteria for providing MRI evidence of dissemination in space to allow a diagnosis of multiple sclerosis in patients with clinically isolated syndromes (CIS). We applied these criteria in a large cohort of patients with CIS, representative of those seen in a general diagnostic setting, to assess their accuracy in predicting conversion to definite multiple sclerosis and to identify factors that affect this risk. METHODS In a collaborative study of seven centres, baseline MRI and clinical follow-up data for 532 patients with CIS were studied, with the development of a second clinical event used as the main outcome. All scans were scored for lesion counts and spatial lesion distribution to assess the fulfilment--ie, at least three out of four--of the Barkhof/Tintoré criteria. We used survival analysis and 2x2 tables to assess the test characteristics of the criteria at baseline. FINDINGS Overall conversion rate was 32.5% with a median survival time of 85.3 months. Fulfilment of the criteria at baseline showed, after a survival time of 2 years, a conversion rate of about 45% (95% CI 37-53) versus about 10% (6-16) in those with no asymptomatic lesions at baseline (p<0.0001). For patients with a follow-up of at least 2 years, the fulfilment of the MRI criteria showed an accuracy of 68% (sensitivity 49%, specificity 79%) for predicting conversion and an increase in risk of nearly four times for conversion compared with those not fulfilling the criteria (odds ratio 3.7, 95% CI 2.3-5.9; p<0.0001). Cox proportional hazards regression analysis accorded with this increased risk. No effects were recorded on the performance of the criteria by sex, presenting symptoms, or centre. Age at baseline did have a small but significant effect as predictor (hazard ratio 0.97, 0.95-0.99; p=0.002), but did not affect the prognostic value of the MRI criteria. INTERPRETATION MRI abnormalities have important prognostic value. The cut-off, based on the Barkhof/Tintoré criteria, as incorporated in the McDonald diagnostic scheme yields acceptable specificity, but could have lower sensitivity than previously reported.

Anti-myelin antibodies do not allow earlier diagnosis of multiple sclerosis.

This study investigates whether the presence of serum and plasma anti-myelin oligodendrocyte glycoprotein (MOG) and anti-myelin basic protein (MBP) in patients presenting with a clinically isolated syndrome compatible with demyelination (CIS) predicts early conversion to multiple sclerosis (MS). Forty-seven patients with CIS (46 with optic neuritis) had anti-MOG and anti-MBP antibodies analysed at baseline, and clinical and magnetic resonance imaging assessments. There was no evidence that the MS status based on either the McDonald or Poser criteria relates to the antibody status.

Cognitive impairment in multiple sclerosis can be predicted by imaging early in the disease

Background: Cognitive impairment is common in multiple sclerosis (MS) and adds significantly to the burden of the disease. The ability to predict future cognitive impairment from imaging obtained at disease onset has not been investigated. Methods: 62 patients imaged within 3 months of a clinically isolated syndrome were assessed neuropsychologically 7 years later. Baseline and periodic MRI measures of lesions, atrophy and normal-appearing white and grey matter were regressed against neuropsychological scores to explore the best predictors of cognitive outcome. Results: 28 patients had developed clinically definite MS at follow-up and a further nine met revised McDonald criteria for MS. Deficits in speed of information processing and executive function were the most common abnormalities. Poor performance correlated with high anxiety ratings. Baseline T1 lesion metrics predicted executive deficits, and new T2 lesions at the 3-month follow-up predicted slowed information processing. An increase in myo-inositol concentration in normal-appearing white matter over the first 3 years was associated with poor executive function. Conclusions: MRI variables obtained at the onset of a clinically isolated syndrome can predict future development of cognitive abnormalities. Our findings may have implications in monitoring and treating patients.

New T2 lesions enable an earlier diagnosis of multiple sclerosis in clinically isolated syndromes.

In clinically isolated syndromes, the new McDonald criteria for multiple sclerosis diagnosis require new gadolinium‐enhancing lesions for dissemination in time at a 3‐month follow‐up magnetic resonance imaging scan. In a cohort of 56 patients, these criteria were specific (95%) but less sensitive (58%) for clinically definite multiple sclerosis at 3 years. If new T2 lesions were allowed as an alternative for dissemination in time, sensitivity increased (74%) with maintained specificity (92%), enabling an accurate diagnosis of multiple sclerosis in more patients. Ann Neurol 2003;53:673–676

Spinal cord MRI in clinically isolated optic neuritis

Background/methods: One hundred and fifteen patients with clinically isolated optic neuritis underwent magnetic resonance imaging (MRI) of the brain and spinal cord within 3 months of the onset of symptoms. Results: Eighty one (70%) patients had brain lesions and 31 (27%) had cord lesions. Cord lesions were seen in 12% with a normal brain MRI, 21% with between one and eight brain lesions, and 45% with nine or more brain lesions. When the new diagnostic criteria for MS were applied, MRI cord imaging used for evidence of dissemination in time and space allowed a diagnosis of MS in only one additional asymptomatic patient at 1 year, two additional asymptomatic patients at 3 years. Conclusions: Using existing criteria, spinal cord imaging rarely contributes to the diagnosis in patients with clinically isolated optic neuritis.

Early MRI in optic neuritis: the risk for disability.

Background: MRI findings influence the risk of patients with optic neuritis (ON) developing clinically definite (CD) multiple sclerosis (MS) but their influence on future disability is less clear. Objective: To investigate in patients with ON the influence of lesion number, location and activity, and non-lesion MRI measures obtained on early scans on disability. Methods: A total of 106 of 143 prospectively recruited patients with ON had reached a scheduled 5-year follow-up, of whom 100 were evaluated clinically. Lesion number, location, and activity measures were analyzed at baseline (within 3 months of onset) and lesion activity measures were studied at 3-month follow-up. Brain atrophy, magnetization transfer ratio, and spectroscopy measures were also analyzed. Ordinal logistic regression assessed the association between early MRI findings and subsequent disability. Results: At median 6 years follow-up, 48% had converted to CDMS and 52% remained with clinically isolated syndrome (median Expanded Disability Status Scale 2 and 1). In the final models, both the presence and the number of spinal cord lesions at baseline (odds ratios [OR] 3.30, 1.94) and new T2 lesions at follow-up (OR 7.12, 2.06) were significant independent predictors of higher disability. Disability was also predicted by the presence at baseline of gadolinium-enhancing lesions (OR 2.78) and number of infratentorial lesions (OR 1.82). Only spinal cord lesions predicted disability in patients converting to CDMS. Conclusion: Spinal cord, infratentorial, and gadolinium lesions within 3 months of optic neuritis onset and new T2 lesions after 3 months predicted disability after 6 years; only spinal cord lesions were predictive of disability in those developing clinically definite multiple sclerosis. BPF = brain parenchymal fraction; CD = clinically definite; CI = confidence interval; CIS = clinically isolated syndrome; EDSS = Expanded Disability Status Scale; FOV = field of view; Gd = gadolinium; GM = gray matter; GMF = gray matter parenchymal fraction; IQR = interquartile range; LR = likelihood ratio; MS = multiple sclerosis; MTI = magnetization transfer imaging; MTR = MT ratio; NAGM = normal-appearing gray matter; NAWM = normal-appearing white matter; ON = optic neuritis; OR = odds ratio; PRESS = point resolved spectroscopy; RRMS = relapsing remitting MS; SPMS = secondary progressive MS; TE = echo time; TR = repetition time; WM = white matter; WMF = white matter parenchymal fraction.

Cerebral Atrophy Measurement in Clinically Isolated Syndromes and Relapsing Remitting Multiple Sclerosis: A Comparison of Registration‐Based Methods

Background and Purpose. Brain atrophy is a proposed marker of disease progression in multiple sclerosis (MS). Many magnetic resonance imaging‐based methods of atrophy quantification exist, but their relative sensitivity and precision is unclear. Our aim was to compare atrophy rates from the brain boundary shift integral (BBSI), structural image evaluation, using normalization of atrophy (SIENA) (both registration‐based methods) and segmented brain volume difference, in patients with clinically isolated syndromes (CIS), relapsing remitting MS (RRMS), and controls. Methods. Thirty‐seven CIS patients, 30 with early RRMS and 16 controls had T1‐weighted volumetric imaging at baseline and 1 year. Brain atrophy rates were determined using segmented brain volume difference, BBSI, and SIENA. Results. BBSI and SIENA were more precise than subtraction of segmented brain volumes and were more sensitive distinguishing RRMS subjects from controls. A strong correlation was observed between BBSI and SIENA. Atrophy rates were greater in CIS and RRMS subjects than controls (RRMS P < .001). With all methods, significantly greater atrophy rates were observed in CIS patients who developed clinically definite MS relative to subjects who did not. Conclusion. Registration‐based techniques are more precise and sensitive than segmentation‐based methods in measuring brain atrophy, with BBSI and SIENA providing comparable results.

Early MRI in optic neuritis: the risk for clinically definite multiple sclerosis.

MRI brain lesions at presentation with optic neuritis (ON) increase the risk for developing clinically definite (CD) multiple sclerosis (MS). More detailed early MRI findings may improve prediction of conversion. The objectives of this study were to investigate the influence of number, location and activity of lesions at presentation, new lesions at early follow-up and non-lesion MRI measures on conversion from optic neuritis (ON) to CDMS. 142/143 ON patients, prospectively recruited into a serial MRI and clinical follow-up study, were followed-up at least once. Cox regression analysis determined independent early MRI predictors of time to CDMS from: (i) baseline lesion number, location and activity measures, (ii) three-month lesion activity measures and (iii) brain atrophy, magnetization transfer ratio and spectroscopy measures. 114/142 (80%) had abnormal baseline brain or cord MRI. 57 (40%) developed CDMS (median of 16 months from clinically isolated syndrome onset). Median follow-up of the non-converters was 62 months. Multivariate analysis of baseline parameters revealed gender, periventricular and gadolinium-enhancing lesions as independent predictors of CDMS. Considering both scans together, gender, baseline periventricular and new T2 lesions at follow-up remained significant (hazard ratios 2.1, 2.4 and 4.9, respectively). No non-conventional measure predicted CDMS. It was concluded that new T2 lesions on an early follow-up scan were the strongest independent predictor of CDMS.

Is the frequency of abnormalities on magnetic resonance imaging in isolated optic neuritis related to the prevalence of multiple sclerosis? A global comparison

The link between optic neuritis and multiple sclerosis is well established, as is the increased risk of conversion to multiple sclerosis, with lesions seen at presentation on the magnetic resonance imaging (MRI) scan of the brain. One or more asymptomatic lesions were present in 77% of the optic neuritis cohort from London, UK, a higher proportion than that reported in other large cohorts studied elsewhere, where generally lower prevalence rates for multiple sclerosis are also reported. These observations may support the hypothesis that optic neuritis is more likely to be associated with abnormalities on MRI and to be due to multiple sclerosis in geographical regions where multiple sclerosis is more common.