Multiple Sclerosis: Frank JA

Simon JH, Li D, Traboulsee A, Coyle PK, Arnold DL, Barkhof F, Frank JA, Grossman R, Paty DW, Radue EW, Wolinsky JS. · Department of Radiology, University of Colorado Health Sciences Center, Denver, Colorado 80262, USA. · AJNR Am J Neuroradiol. · Pubmed #16484429 links to  free full text

This publication has no abstract.

Frohman EM, Goodin DS, Calabresi PA, Corboy JR, Coyle PK, Filippi M, Frank JA, Galetta SL, Grossman RI, Hawker K, Kachuck NJ, Levin MC, Phillips JT, Racke MK, Rivera VM, Stuart WH, Anonymous00118. · University of Texas Southwestern Medical Center at Dallas, USA. · Neurology. · Pubmed #12963748 No free full text.

Abstract: Advancements in imaging technologies and newly evolving treatments offer the promise of more effective management strategies for MS. Until recently, confirmation of the diagnosis of MS has generally required the demonstration of clinical activity that is disseminated in both time and space. Nevertheless, with the advent of MRI techniques, occult disease activity can be demonstrated in 50 to 80% of patients at the time of the first clinical presentation. Prospective studies have shown that the presence of such lesions predicts future conversion to clinically definite (CD) MS. Indeed, in a young to middle-aged adult with a clinically isolated syndrome (CIS), once alternative diagnoses are excluded at baseline, the finding of three or more white matter lesions on a T2-weighted MRI scan (especially if one of these lesions is located in the periventricular region) is a very sensitive predictor (>80%) of the subsequent development of CDMS within the next 7 to 10 years. Moreover, the presence of two or more gadolinium (Gd)-enhancing lesions at baseline and the appearance of either new T2 lesions or new Gd enhancement on follow-up scans are also highly predictive of the subsequent development of CDMS in the near term. By contrast, normal results on MRI at the time of clinical presentation makes the future development of CDMS considerably less likely.

Kirk S, Frank JA, Karlik S. · Department of Pathology, University of Western Ontario, Ontario, London, Canada. · J Neurol Sci. · Pubmed #14706213 No free full text.

Abstract: Characteristic pathological features of multiple sclerosis (MS) include inflammation, demyelination and axonal and oligodendrocyte loss. In addition, lesions can also have a significant vascular component. In this review, morphological, biochemical and radiological evidence is presented suggesting angiogenesis as a potential focus for investigation in MS. We hypothesize that angiogenesis plays a significant role in the MS lesion, perpetuating disease progression. Thus, treatment strategies that inhibit angiogenesis may decrease clinical and pathological signs of disease. Several approaches for testing this hypothesis are outlined.

Bagnato F, Frank JA. · Neuroimmunology Branch, National Institutes for Neurological Disease and Stroke, National Institutes of Health, Building 10, Room 5B16, 10 Center Drive MSC 1400, Bethesda, MD 20892-1400, USA. · Curr Neurol Neurosci Rep. · Pubmed #12691629 No free full text.

Abstract: The use of nonconventional magnetic resonance imaging techniques (eg, magnetization transfer, magnetic resonance spectroscopy, and diffusion weighted imaging) allows for an accurate characterization of lesions as compared with conventional or standard approaches in demyelinating diseases. Magnetization transfer, magnetic resonance spectroscopy, and diffusion weighted imaging have revolutionized our understanding of demyelinating diseases because these techniques have been used to identify pathologic changes of normal-appearing brain tissue and characterize the differences in lesions. Metrics derived from these methods correlate with clinical disability and provide more accurate tools for monitoring disease activity and treatment effect over time. Quantitative T1 and T2 relaxation time maps provide additional information on demyelinating diseases, allowing for the evaluation of myelin water and distribution of water within tissues. Finally, the measurement of central nervous system atrophy has become a valuable element in determining the course of multiple sclerosis.

Miller DH, Barkhof F, Frank JA, Parker GJ, Thompson AJ. · Department of Neuroinflammation, Institute of Neurology, London, UK. · Brain. · Pubmed #12135961 links to  free full text

Abstract: MRI methods are widely used to follow the pathological evolution of multiple sclerosis in life and its modification by treatment. To date, measures of the number and volume of macroscopically visible lesions have been studied most often. These MRI outcomes have demonstrated clear treatment effects but without a commensurate clinical benefit, suggesting that there are other aspects of multiple sclerosis pathology that warrant investigation. In this context, there has been considerable interest in measuring tissue loss (atrophy) as a more global marker of the adverse outcome of multiple sclerosis pathology, whether it arises in macroscopic lesions or in the normal appearing tissues. An International Workshop recently considered the measurement of atrophy in multiple sclerosis and provided the basis for this review. Brain white matter bulk consists predominantly of axons (46%) followed by myelin (24%), and progressive atrophy implies loss of these structures, especially axons, although variable effects on tissue volumes may also arise from glial cell proliferation or loss, gliosis, inflammation and oedema. Significant correlations found between brain volume and other putative MR neuronal markers also indicate that atrophy reflects axonal loss. Numerous methods are available for the measurement of global and regional brain volumes and upper cervical cord cross-sectional area that are highly reproducible and sensitive to changes within 6-12 months. In general, 3D-T(1)-weighted acquisitions and largely automated segmentation approaches are optimal. Whereas normalized volumes are desirable for cross-sectional studies, absolute volume measures are adequate for serial investigation. Atrophy is seen at all clinical stages of multiple sclerosis, developing gradually following the appearance of inflammatory lesions. This probably reflects both inflammation-induced axonal loss followed by Wallerian degeneration and post-inflammatory neurodegeneration that may be partly due to failure of remyelination. One component of atrophy appears to be independent of focal lesions. Existing immunomodulatory therapies have had limited effects on progressive atrophy, concordant with their modest effects on progressive disability. Atrophy provides a sensitive measure of the neurodegenerative component of multiple sclerosis and should be measured in trials evaluating potential anti-inflammatory, remyelinating or neuroprotective therapies.

Frank JA, McFarland HF. · Laboratory of Diagnostic Radiology Research, Clinical Center, National Institutes of Health, 10 Center Drive MSC 1074, Bethesda, MD 20892, USA. · Neuroimaging Clin N Am. · Pubmed #11359727 No free full text.

Abstract: MR imaging has made a significant contribution to the understanding of the natural history of multiple sclerosis (MS). MR imaging is an important technique for investigating the pathologic process in the MS patient's brain and spinal cord, and it is now considered an essential part of all clinical trials being performed on new agents in the treatment of MS. This article provides an overview for those wishing to become involved in MS clinical research. Discussion includes the use of conventional and newer MR imaging techniques in clinical trials, current thoughts regarding the role of MR imaging as a surrogate outcome measure, and various types of trial designs.

Butman JA, Frank JA. · Department of Diagnostic Radiology, Imaging Sciences Program, Clinical Center, National Institutes of Health, 9000 Rockville Pike, Bethesda, MD 20892, USA. · Neuroimaging Clin N Am. · Pubmed #11359718 No free full text.

Abstract: MR imaging is the dominant paraclinical test for evaluating multiple sclerosis (MS) because of its exquisite sensitivity to white matter pathology. Knowledge of the signal characteristics of MS lesions, anatomic distribution of lesions, differential diagnosis, and most important, the clinical context, markedly improve the specificity of the MR examination. MR imaging findings can be used to predict future conversion to clinically definite MS before a second clinical exacerbation.

Richert ND, Frank JA. · Laboratory of Diagnostic Radiology Research, Clinical Center, Bethesda, MD 20892-1074, USA. · Neurology. · Pubmed #10496208 No free full text.

Abstract: Magnetization transfer imaging (MTI) is a sensitive magnetic resonance scanning technique for detecting disease activity and monitoring disease progression in multiple sclerosis (MS) patients. To date, MTI has not been used as an outcome measure in early phase and pivotal clinical trials. Magnetization transfer ratio, a quantitative measure of MT, can be used to follow the evolution of individual MS plaques as well as microscopic disease in normal-appearing white matter (NAWM). Volumetric whole brain MT ratios of every voxel in the brain can be expressed as a histogram, providing an estimate of cerebral atrophy and a global disease activity including "occult" disease in NAWM, thus providing a quantitative measure of a therapeutic response. This report will briefly focus on how MTI could be used to monitor a therapeutic response in a treatment trial and address some of the pitfalls/limitations of MTI that can be encountered even in a well-designed longitudinal study.

Chiu AW, Richert N, Ehrmantraut M, Ohayon J, Gupta S, Bomboi G, Gaindh D, Cantor FK, Frank JA, McFarland HF, Bagnato F. · Neuroimmunology Branch, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD 20892-1400, USA. · Arch Neurol. · Pubmed #19001157 No free full text.

Abstract: OBJECTIVES: To investigate the heterogeneity in magnetic resonance image (MRI) patterns of response to interferon beta across patients with multiple sclerosis or within an individual patient over time. DESIGN, SETTING, AND PATIENTS: Fifteen patients with relapsing-remitting multiple sclerosis underwent monthly MRIs and clinical examinations (6-month pretherapy phase and 36-month therapy phase) and bimonthly neutralizing antibody tests. On each MRI, the total number of contrast-enhancing lesions was noted. Therapy MRI responders were defined as those with a reduction of 60% or more in the total number of contrast-enhancing lesions during each semester of therapy. INTERVENTION: Subcutaneous administration of interferon beta-1b, 250 microg, every other day for 3 years. MAIN OUTCOME MEASURE: Reduction in the number of contrast-enhancing lesions. RESULTS: Eight patients (53.3%) were MRI responders and 7 (46.7%) were nonresponders. Of those 7, 3 (20.0%) had only an initial optimal reduction of the total number of contrast-enhancing lesions, 2 (13.3%) never reached an optimal response, and 2 (13.3%) had a delayed optimal response. No clear association between neutralizing antibody profile and MRI response was evident. CONCLUSIONS: Multiple MRI evaluations disclose that approximately only half of the patients treated with interferon beta achieve and maintain a full response to the drug over time, although an additional small number of individuals may still restore an optimal response to the drug after an initial failure.

Gupta S, Solomon JM, Tasciyan TA, Cao MM, Stone RD, Ostuni JL, Ohayon JM, Muraro PA, Frank JA, Richert ND, McFarland HF, Bagnato F. · Neuroimmunology Branch, National Institute of Neurological Disorders and Stroke, NIH, Bethesda, MD 20892, USA. · Mult Scler. · Pubmed #16320725 No free full text.

Abstract: Interferon-beta (IFNbeta) reduces the number and load of new contrast-enhancing lesions (CELs) in patients with multiple sclerosis (MS). However, the ability of IFNbeta to reduce lesion sizes and re-enhancements of pre-existing CELs has not been examined extensively. Activity of contrast re-enhancing lesions (Re-CELs) and contrast single-enhancing lesions (S-CELs) were monitored in ten patients with relapsing-remitting (RR) MS. These patients underwent monthly post-contrast magnetic resonance imaging (MRIs) for an 18-month natural history phase and an 18-month therapy phase with subcutaneous IFNbeta-1b, totaling 37 images per patient. The activity was analysed using the first image as a baseline and registering subsequent active monthly images to the baseline. There was a 76.4% reduction in the number of CELs with IFNbeta therapy. The decrease was greater (P = 0.003) for S-CELs (82.3%) than for Re-CELs (57.4%). S-CELs showed no changes in durations of enhancement and maximal lesion sizes with treatment. Exclusively for Re-CELs, IFNbeta-1b significantly decreased maximal lesion sizes, total number of enhancement periods and total months of enhancement. Thus, IFNbeta appears to be effective in reducing the degree of severity of inflammation among Re-CELs, as reflected by their reduced maximal lesion sizes and durations of enhancement.

Bagnato F, Gupta S, Richert ND, Stone RD, Ohayon JM, Frank JA, McFarland HF. · Neuroimmunology Branch, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD 20892-1400, USA. · Arch Neurol. · Pubmed #16157739 No free full text.

Abstract: BACKGROUND: Chronic, hypointense black holes (BHs) are recognized as a sign of permanent damage in patients with multiple sclerosis. Although the effects of interferon beta-1b in reducing the formation of new BHs are established, it is not clear whether the drug may reduce BH duration after these lesions are formed. OBJECTIVE: To analyze the effects of interferon beta-1b in reducing the duration of T1 BHs in patients with multiple sclerosis. DESIGN: Patients were clinically assessed and imaged monthly over a 36-month natural history phase and 36-month therapy phase. Numbers of contrast-enhanced lesions and newly formed BHs were counted on each scan. Each BH was counted until it was no longer seen. SETTING: Outpatient service of the Neuroimmunology Branch at the National Institutes of Health, Bethesda, Md. PATIENTS: Six patients with relapsing-remitting multiple sclerosis were included. One patient did not form any BHs during the therapy phase. Analyses were performed on the remaining 5 individuals. INTERVENTIONS: Interferon beta-1b at the dosage of 8 million international units every other day. MAIN OUTCOME MEASURES: Number and duration (in months) of newly formed BHs. RESULTS: Rate of BH accumulation decreased with treatment (P = .01), but Kaplan-Meier models revealed that the duration of BHs did not shorten (chi2(1) = 2.47, P = .12). CONCLUSIONS: Interferon beta-1b reduces the frequency of new BH formation but does not appear to decrease their duration in time. Analyses with larger patient cohorts are needed to confirm these preliminary findings.

Morgen K, Crawford AL, Stone RD, Martin R, Richert ND, Frank JA, McFarland HF. · National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD, USA · Mult Scler. · Pubmed #15794386 No free full text.

Abstract: T1 black holes (BH) have been found to represent focal areas of substantial central nervous system tissue damage in multiple sclerosis (MS) patients. We examined the development of T1 BH over a three-year period of treatment with interferon (IFN)beta-1b in a group of 20 patients with relapsing-remitting MS. The number of contrast-enhancing lesions (CEL) after one year of treatment predicted a change in the T1 BH volume in the following two years. In patients without CEL, the T1 BH volume remained stable, whereas it increased in patients with CEL. The occurrence of CEL in patients treated with IFNbeta may indicate a heightened risk of accumulating T1 BH.

Bielekova B, Richert N, Howard T, Blevins G, Markovic-Plese S, McCartin J, Frank JA, Würfel J, Ohayon J, Waldmann TA, McFarland HF, Martin R. · Neuroimmunology Branch, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD 20892, USA. · Proc Natl Acad Sci U S A. · Pubmed #15161974 links to  free full text

Abstract: Identifying effective treatment combinations for MS patients failing standard therapy is an important goal. We report the results of a phase II open label baseline-to-treatment trial of a humanized monoclonal antibody against CD25 (daclizumab) in 10 multiple sclerosis patients with incomplete response to IFN-beta therapy and high brain inflammatory and clinical disease activity. Daclizumab was very well tolerated and led to a 78% reduction in new contrast-enhancing lesions and to a significant improvement in several clinical outcome measures.

Frank JA, Richert N, Bash C, Stone L, Calabresi PA, Lewis B, Stone R, Howard T, McFarland HF. · Experimental Neuroimaging Section, Lab of Diagnostic Radiology Research, NINDS, NIH, Uniformed Services University of Health Sciences, Bethesda, USA. · Neurology. · Pubmed #15007120 No free full text.

Abstract: OBJECTIVE: To determine the effect of interferon-beta-1b (IFNbeta-1b) treatment on total contrast-enhancing lesions (CEL), white matter lesion load (WMLL), and cerebral atrophy (CA) in patients with relapsing-remitting multiple sclerosis (RRMS) using serial monthly MRI. METHODS: An open-label baseline-vs-treatment crossover trial was conducted with 30 RRMS patients monitored during a 6-month baseline and up to 36 months on treatment with IFNbeta-1b. Monthly MRI exams and neurologic exams using the Expanded Disability Status Scale (EDSS) were performed. RESULTS: The percentage changes from baseline for years 1, 2, and 3 on IFNbeta-1b were as follows: brain volume (BV) = -1.35, -1.48, and -1.68%; CEL = -76.5, -60.1, and -54.7%; WMLL = -12.2, -9.8, and -10.4%. There was no difference in the BV, CEL, or WMLL for between-year comparisons, and the decrease in BV from year 1 to years 2 and 3 was less than the change from baseline to year 1. EDSS did increase (p < 0.001) when comparing the last 3 months of baseline (2.8 +/- 2.1) and the last 3 months on IFNbeta-1b (3.6 +/- 2.1). Eleven patients developed neutralizing antibody (NAb) during the study. The effect of IFNbeta-1b on CEL and WMLL was significantly reduced in NAb+ patients compared with NAb- patients (p < 0.003). CONCLUSION: IFNbeta-1b decreases contrast-enhancing lesions and white matter lesion load over 3 years on therapy and slows the progression in cerebral atrophy during years 2 and 3.

Markovic-Plese S, Bielekova B, Kadom N, Leist TP, Martin R, Frank JA, McFarland HF. · Neuroimmunology Branch, National Institute of Neurological Diseases and Stroke, NIH, Bethesda, MD 20892-1400, USA. · Neurology. · Pubmed #12796549 No free full text.

Abstract: An open-label study was performed to assess the effectiveness of oral azathioprine (AZA) on augmenting the response to interferon beta-1b (IFNbeta-1b) in patients with treatment-refractory relapsing-remitting MS. Six IFNbeta-1b-treated MS patients with continued disease activity were studied on IFNbeta-1b and AZA therapy for a median period of 15 months. A 69% reduction in the number of contrast-enhancing lesions was observed during the combination therapy (p = 0.002).

Rao AB, Richert N, Howard T, Lewis BK, Bash CN, McFarland HF, Frank JA. · Laboratory of Diagnostic Radiology Research, Clinical Center, NIH, Bethesda, MD 20892, USA. · Neurology. · Pubmed #12221158 No free full text.

Abstract: OBJECTIVE: To determine the effect of IV methylprednisolone (IVMP) on brain fraction volume (BFV), contrast-enhancing (CE) lesions, and white matter lesion load (WMLL) in patients with relapsing-remitting MS treated for acute exacerbations. BACKGROUND: MRI metrics of MS disease activity are being used as outcome measures in early phase treatment trials, however the short-term effects of IVMP treatment on cerebral atrophy are unknown. METHODS: Serial monthly MRI were performed in 26 patients enrolled in a baseline vs treatment trial with interferon beta-1b (IFNbeta-1b) who were followed for 3 months before and after IVMP. All 26 patients were evaluated while receiving IFNbeta-1b, and 12 patients were also studied during the baseline stage of the trial (NHx). Acute exacerbations were treated with IVMP (1 g/d) for 3 to 5 days. Precontrast and postcontrast T1-weighted and proton density T2-weighted fast spin-echo images were analyzed. RESULTS: Fifty-six acute exacerbations were evaluated. For the 3 months before IVMP, there was no difference in WMLL or BFV compared to month IVMP was administered. There was a significant decrease in BFV at month 1 after IVMP in the IFNbeta-1b and NHx groups. Compared to the month IVMP was administered, there was a difference in the CE lesions for months -3 and -1 prior (p < 0.039) in NHx patients. Following IVMP, CE lesions decreased (p < 0.0004) for months 1, 2, and 3 in both groups, but there was no effect on WMLL. CONCLUSIONS: BFV and CE lesions were significantly decreased for 1 month (BFV) and 3 months (CE lesions) following IVMP. Therefore, MRI studies should be delayed by probably at least 2 months following IVMP to avoid a possible confounding steroid effect in a clinical trial.

Frank JA, Richert N, Lewis B, Bash C, Howard T, Civil R, Stone R, Eaton J, McFarland H, Leist T. · Laboratory of Diagnostic Radiology Research, National Institutes of Health, Bethesda, Maryland 20892-1074, USA. · Mult Scler. · Pubmed #11936485 No free full text.

Abstract: The purpose of this open-label, crossover study was to determine the safety and efficacy of recombinant insulin-like growth factor-1 (rhIGF-1) using magnetic resonance imaging (MRI) and clinical measures of disease activity in seven multiple sderosis (MS) patients. Monthly clinical and MPI examinations were performed during a 24-week baseline and a 24-week treatment period with rhIGF-1. The primary outcome measure was contrast enhancing lesion (CEL) frequency on treatment compared to baseline. Secondary outcome measures included dinical and MRI measures of disease activity including: white matter lesion load (WMLL), magnetization transfer ratio (MTR), T1-Hypointensity volume, cervical spine cross-sectional area and proton magnetic resonance spectroscopic (MRS) imaging for determining regional metabolite ratios. rhIGF-1 (Cephalon) was administered at a dose of 50 mg subcutaneously twice a day for 6 months. rhIGF-1 was safe and well tolerated with no severe adverse reactions. There was no significant difference between baseline and treatment periods for any MRI or clinical measures of disease activity. Although rhIGF-1 did not alter the course of disease in this small cohort of MS patients, the drug was well tolerated. Further studies using rhIGF-1 alone or in combination with other therapies may be of value because of the proposed mechanism of action of this growth factor on the oligodendrocyte and remyelination.

Morgen K, Jeffries NO, Stone R, Martin R, Richert ND, Frank JA, McFarland HF. · Neuroimmunology Branch, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland 20892, USA. · Mult Scler. · Pubmed #11475440 No free full text.

Abstract: Correlations between conventional MRI measures of disease activity and clinical disability in multiple sclerosis (MS) have been disappointing. Because ring-enhancing lesions may reflect a more destructive pathology, we tested their potential association with disease severity. We evaluated active lesions with regard to their enhancement pattern on serial magnetic resonance images in a cohort of 28 patients with relapsing-remitting MS. The percentage of ring-enhancing lesions correlated with EDSS, T2 lesion load and duration of disease and predicted the occurrence of relapses during the baseline period of observation as well as after 3 years of follow-up in multiple logistic regression analysis. The findings suggest that the pathological process reflected by ring-enhancing lesions may contribute to more severe clinical disease.

Bielekova B, Goodwin B, Richert N, Cortese I, Kondo T, Afshar G, Gran B, Eaton J, Antel J, Frank JA, McFarland HF, Martin R. · Neuroimmunology Branch, National Institute of Neurological Disorders and Stroke, Bethesda, Maryland 20892-1400, USA. · Nat Med. · Pubmed #11017150 No free full text.

Abstract: Myelin-specific T lymphocytes are considered essential in the pathogenesis of multiple sclerosis. The myelin basic protein peptide (a.a. 83-99) represents one candidate antigen; therefore, it was chosen to design an altered peptide ligand, CGP77116, for specific immunotherapy of multiple sclerosis. A magnetic resonance imaging-controlled phase II clinical trial with this altered peptide ligand documented that it was poorly tolerated at the dose tested, and the trial had therefore to be halted. Improvement or worsening of clinical or magnetic resonance imaging parameters could not be demonstrated in this small group of individuals because of the short treatment duration. Three patients developed exacerbations of multiple sclerosis, and in two this could be linked to altered peptide ligand treatment by immunological studies demonstrating the encephalitogenic potential of the myelin basic protein peptide (a.a. 83-99) in a subgroup of patients. These data raise important considerations for the use of specific immunotherapies in general.

Richert ND, Zierak MC, Bash CN, Lewis BK, McFarland HF, Frank JA. · Laboratory of Diagnostic Radiology Research, Clinical Center, NIH, Bethesda, Maryland, MD 20892, USA. · Mult Scler. · Pubmed #10773853 No free full text.

Abstract: Monthly MRI activity and clinical disability were evaluated in two relapsing-remitting multiple sclerosis (RRMS) patients for 4 years during a cross-over treatment trial with IFNbeta-1b, and for a mean of 21 months after terminating treatment with IFNbeta-1b. Post-treatment MRI activity was compared to baseline activity in these patients. Although contrast enhancing lesions (CEL) and the bulk white matter lesion load (BWMLL) on T2-weighted images eventually returned to baseline values, there was a refractory period of 6 - 10 months after terminating treatment, before baseline MRI activity was restored. Although the mechanism for a sustained effect of IFNbeta-1b is unclear at this time, these results have important implications for enrollment of such patients into new treatment protocols that rely on contrast enhancing lesion frequency as an outcome measure.

Gaindh D, Jeffries N, Ohayon J, Richert ND, Pellicano C, Frank JA, McFarland H, Bagnato F. · Neuroimmunology Branch, National Institute of Neurological Disorders and Stroke, NIH, 10 Center Drive, Bethesda, Maryland 20892, USA. · Expert Opin Biol Ther. · Pubmed #18990070 No free full text.

Abstract: BACKGROUND: Contrast enhancing lesions (CELs) in MRI represent inflammatory events in multiple sclerosis (MS). IFN-beta-1b decreases the formation of CELs. However, the ability of IFN-beta-1b to reduce the size of CELs arising during therapy has not been extensively investigated. METHODS: Thirty patients with relapsing-remitting (RR) MS were followed for a 3-month pre-therapy phase then for a 6-month therapy phase during which treatment with IFN-beta-1b at a dosage of 250 microg subcutaneously injected every other day was employed. Each patient underwent monthly clinical and MRI examinations. For all patients, CELs were identified on postcontrast T1-weighted MRIs. CEL number, size, and volume were computed using Medx software. RESULTS: The average number and total lesion volume of CELs visible during the therapy phase were significantly lower than the number and total lesion volume of CELs observed in the pre-therapy phase. However, there was no significant reduction between pre-therapy and therapy phases in the mean size of individual lesions arising during the respective phases. CONCLUSIONS: Since size of CELs has been related to severity of tissue damage, the lack of size decrease during therapy suggested a limited therapeutic effect of IFN-beta-1b if a blood-brain barrier breakdown has occurred.

Pomeroy IM, Jordan EK, Frank JA, Matthews PM, Esiri MM. · Department of Clinical Neurology, University of Oxford, Oxford, UK. · Neurosci Lett. · Pubmed #18440142 links to  free full text

Abstract: Marmoset experimental autoimmune encephalomyelitis (EAE) has previously been shown to replicate the essential features of both white matter and grey matter lesions of MS. This study set out to investigate whether cortical atrophy occurs in marmoset EAE and whether cortical thinning is related to the presence of focal, demyelinated cortical lesions. Seventeen leucocortical lesions and 13 subpial lesions were identified in 6 EAE cases. Cortical thickness surrounding these lesions was recorded and compared with matched cortical areas from five control animals. We found a diffuse 13-21% loss of cortical thickness in all areas of EAE cortex compared with control animals but there was no additional loss seen in demyelinated versus myelinated EAE cortex. These findings could not be accounted for by effects of age, sex and disease duration. We conclude that localised cortical demyelination is not responsible for the major part of the atrophy observed and that cortical thinning is largely due to more diffuse or more remote factors. Marmoset EAE is an invaluable tool which can be used to further investigate the cause and the substrate of cortical loss in demyelinating diseases.

Manson SC, Wegner C, Filippi M, Barkhof F, Beckmann C, Ciccarelli O, De Stefano N, Enzinger C, Fazekas F, Agosta F, Gass A, Hirsch J, Johansen-Berg H, Kappos L, Korteweg T, Polman C, Mancini L, Manfredonia F, Marino S, Miller DH, Montalban X, Palace J, Rocca M, Ropele S, Rovira A, Smith S, Thompson A, Thornton J, Yousry T, Frank JA, Matthews PM. · Centre for Functional Magnetic Resonance Imaging of the Brain, University of Oxford, Oxford, UK. · Exp Brain Res. · Pubmed #18236036 links to  free full text

Abstract: Motor control demands coordinated excitation and inhibition across distributed brain neuronal networks. Recent work has suggested that multiple sclerosis (MS) may be associated with impairments of neuronal inhibition as part of more general progressive impairments of connectivity. Here, we report results from a prospective, multi-centre fMRI study designed to characterise the changes in patients relative to healthy controls during a simple cued hand movement task. This study was conducted at eight European sites using 1.5 Tesla scanners. Brain deactivation during right hand movement was assessed in 56 right-handed patients with relapsing-remitting or secondary progressive MS without clinically evident hand impairment and in 60 age-matched, healthy subjects. The MS patients showed reduced task-associated deactivation relative to healthy controls in the pre- and postcentral gyri of the ipsilateral hemisphere in the region functionally specialised for hand movement control. We hypothesise that this impairment of deactivation is related to deficits of transcallosal connectivity and GABAergic neurotransmission occurring with the progression of pathology in the MS patients. This study has substantially extended previous observations with a well-powered, multicentre study. The clinical significance of these deactivation changes is still uncertain, but the functional anatomy of the affected region suggests that they could contribute to impairments of motor control.

Chiu AW, Ehrmantraut M, Richert ND, Ikonomidou VN, Pellegrini S, McFarland HF, Frank JA, Bagnato F. · Neuroimmunology Branch, National Institute of Neurological Disorders and Stroke, NIH, Bethesda, MD 20892-1400, USA. · Clin Exp Immunol. · Pubmed #17666095 links to  free full text

Abstract: Interferon beta (IFN-beta) is among the first-line treatment options for patients with multiple sclerosis (MS). A potential caveat of therapy, however, is the development of neutralizing antibodies (NAb) and/or neutralizing activity (NA) non-antibody mediated, although debate is still ongoing as to whether NAb significantly hampers the efficacy of the drug or rather represents an immunologically irrelevant epiphenomenon. In the present study, we describe the effect of NAb on IFN-beta-1b through clinical and magnetic resonance imaging (MRI) outcome measures of five relapsing-remitting multiple sclerosis (RRMS) patients who were treated with 250 mug of subcutaneously administered IFN-beta-1b every other day and developed NAb at varying titres and times during the course of therapy. Despite the small number of NAb(+) patients, heterogeneity in MRI/clinical response to IFN-beta-1b was identified. Response to IFN-beta-1b therapy was observed in the absence or presence of NAb. Also observed was failure to IFN-beta-1b coincident with high and sustained NAb titres, but also before NAb development or in the presence of low NAb titres. Multiple MRI and NAb measurements performed within the same individual allow for a better description of the complex heterogeneous response to IFN-beta-1b with respect to NAb occurrence.

Manson SC, Palace J, Frank JA, Matthews PM. · Centre for Functional Magnetic Resonance Imaging of the Brain, University of Oxford, The John Radcliffe Hospital, Headington, Oxford, UK. · Exp Brain Res. · Pubmed #16944115 No free full text.

Abstract: Axonal injury and loss in the corpus callosum (CC) is characteristic of the pathology of multiple sclerosis (MS). Functional magnetic resonance imaging (fMRI) potentially allows neurophysiological consequences of this interhemispheric axonal loss to be defined quantitatively. Here we have used 3T fMRI to study the activation in the contralateral primary sensorimotor cortex and deactivation (mediated by transcallosal tracts) in the homologous ipsilateral region in 14 patients with MS and in 14 matched healthy controls during a simple hand-tapping task. Both healthy controls and MS patients showed similar activation in the motor cortex contralateral to the hand moved, but the patients showed a significantly smaller relative deactivation in the ipsilateral motor cortex (P = 0.002). The difference was accounted for by the sub-group of MS patients who previously had impairment of motor function of the hand tested (MS-phd). The CC of the whole patient group was significantly thinner than for the controls (P = 0.001). Atrophy of the CC was correlated with loss of deactivation for the whole patient group (r = -0.50, P = 0.035), but particularly for MS-phd (r = -0.914, P = 0.004). Interhemispheric physiological inhibition thus is impaired in patients with MS, potentially contributing to impairment of motor control. This work suggests one way in which FMRI monitoring of the transcallosal interactions in motor cortex could become a tool for evaluation of therapies that may enhance function in reversibly impaired pathways.