Interferon beta-1a in children with multiple sclerosis is well tolerated

Pediatric Multiple Sclerosis: A Systematic Exploration of Effectiveness in Current and Emerging Therapeutics

BACKGROUND

Pediatric-onset multiple sclerosis (POMS) is a rare but severe neurological condition that poses unique challenges in terms of diagnosis and treatment. With the increasing number of therapeutic options emerging in recent years, it is essential to systematically evaluate the efficacy of current and emerging treatments in the pediatric population. This systematic review and meta-analysis aims to evaluate the efficacy of current and emerging therapeutics for pediatric multiple sclerosis, providing a comprehensive overview of their effectiveness and safety profiles.

METHODS

This systematic review was prepared using Preferred Reporting Items for Systematic Reviews and Meta-Analyses reporting guidelines. The databases searched were PubMed, Scopus, Web of Science, and Cochrane. Risk of bias was assessed using ROBINS-I and ROBINS-II. The Grading of Recommendations Assessment, Development and Evaluation (GRADE) approach was employed to evaluate the level of certainty in the evidence for each outcome. A meta-analysis was conducted using the Comprehensive Meta-Analysis software. To identify the underlying cause of high heterogeneity, a subgroup analysis was conducted. Sensitivity analysis was checked.

RESULTS

Sixty-five studies were included in this review. Fifty-two of them enrolled in meta-analysis and the rest in qualitative synthesis. The majority of outcomes showed a moderate certainty of evidence according to the GRADE framework. Results of meta-analysis demonstrated that studies using high-efficacy therapies (HETs), notably natalizumab and ocrelizumab, showed a greater decrease in annualized relapse rate (ARR) with an effect size of -2.821, compared with the studies using moderate-efficacy therapies (METs) with an effect size of -2.028. A significant reduction in Expanded Disability Status Scale following administration of HETs (notably natalizumab and rituximab) was revealed. The results of univariate meta-regression demonstrated that ARR reduction following METs was significantly correlated with treatment duration.

CONCLUSIONS

In this comprehensive review and meta-analysis assessing the effectiveness of current and new treatments for POMS, we highlight the considerable impact of HETs like natalizumab and ocrelizumab in managing this intricate condition. Our study found that HETs were significantly more effective in lowering relapse rates than METs, demonstrating a distinct benefit in treating POMS.

Scoping review of the availability and uptake of disease modifying therapies in children and adolescents with multiple sclerosis

INTRODUCTION

Approximately 10% of individuals with multiple sclerosis (MS) have pediatric-onset (<18-years-old). Pediatric-specific barriers to accessing disease modifying therapies (DMT) exist. Issues include few pediatric-based randomized controlled trials (RCT), often required for formal regulatory approval, and resultant challenges with cost/coverage. This review assessed real-world DMT uptake in pediatric-MS to better understand potential barriers.

AREAS COVERED

We performed a scoping review of observational studies examining DMTs in patients with pediatric-MS published between 07/1993 and 06/2024. PRISMA guidelines were used. Databases searched included: Cochrane Library, Ovid MEDLINE/Embase, Scopus, and Web of Science. Studies must include >10 DMT exposed pediatric-MS patients with full-text available in English. RCTs/pharmaceutical-industry funded studies were excluded. Of 2114 abstracts screened, 88 studies were included. A total of 21,591 patients (13,411 females) were included. DMTs were used in 68.7% (n = 14,833). Most studies were from Europe (53.4%), North America (22.7%), or the Middle East (10%). Regional variabilities were found in DMT uptake between continents. Only 13 (14.8%) studies included information on DMT funding source.

EXPERT OPINION

Pediatric-MS patients showed low DMT uptake with variability in DMT use based on region. Limited data was found regarding specific barriers to DMT access. Further research is needed to better understand regional barriers to access.

Therapeutic Advances in Pediatric Multiple Sclerosis

Pediatric-onset multiple sclerosis (POMS) is a chronic, immune-mediated disorder that affects the central nervous system in children and adolescents. Approximately 3-10% of MS patients have an onset that occurs before the age of 18. The vast majority of pediatric MS cases are characterized by a relapsing-remitting course with a high burden of disease activity. Pediatric MS patients were historically treated off-label with varying degrees of success. With the approval of many new therapies for adult-onset MS, alternative treatments in pediatric MS have rapidly started to emerge. In this narrative review, we will discuss therapeutic advancements in pediatric multiple sclerosis, including the seminal trials of PARADIGMS, which evaluated fingolimod use in pediatric MS patients, CONNECT (dimethyl fumarate), TERIKIDS (teriflunomide), OPERETTA I (ocrelizumab), and LEMKIDS (alemtuzumab). We will also review the safety and efficacy of different monoclonal antibodies that are commonly prescribed for multiple sclerosis. We will then examine induction versus escalation treatment strategies and conclude with discussions on treatment considerations in POMS patients.

Clinical and magnetic resonance imaging outcomes in pediatric-onset MS patients on fingolimod and ocrelizumab

BACKGROUND

Observational studies looking at clinical a++nd MRI outcomes of treatments in pediatric MS, could assess current treatment algorithms, and provide insights for designing future clinical trials.

OBJECTIVE

To describe baseline characteristics and clinical and MRI outcomes in MS patients initiating ocrelizumab and fingolimod under 18 years of age.

METHODS

MS patients seen at 12 centers of US Network of Pediatric MS were included in this study if they had clinical and MRI follow-up and started treatment with either ocrelizumab or fingolimod prior to the age of 18.

RESULTS

Eighty-seven patients initiating fingolimod and 52 initiating ocrelizumab met the inclusion criteria. Before starting fingolimod, mean annualized relapse rate was 0.43 (95 % CI: 0.29 - 0.65) and 78 % developed new T2 lesions while during treatment it was 0.12 (95 % CI: 0.08 - 1.9) and 47 % developed new T2 lesions. In the ocrelizumab group, the mean annualized relapse rate prior to initiation of treatment was 0.64 (95 % CI: 0.38-1.09) and a total of 83 % of patients developed new T2 lesions while during treatment it was 0.09 (95 % CI: 0.04-0.21) and none developed new T2 lesions.

CONCLUSION

This study highlights the importance of evaluating current treatment methods and provides insights about the agents in the ongoing phase III trial comparing fingolimod and ocrelizumab.

Demographic Features and Clinical Course of Patients With Pediatric-Onset Multiple Sclerosis on Newer Disease-Modifying Treatments

BACKGROUND

Treatment of pediatric-onset multiple sclerosis (POMS) is challenging given the lack of safety and efficacy data in the pediatric population for many of the disease-modifying treatments (DMTs) approved for use in adults with MS. Our objective was to describe the demographic features and clinical and radiologic course of patients with POMS treated with the commonly used newer DMTs within the US Network of Pediatric MS Centers (NPMSC).

METHODS

This is an analysis of prospectively collected data from patients who initiated treatment before age 18 with the DMTs listed below at the 12 regional pediatric MS referral centers participating in the NPMSC.

RESULTS

One hundred sixty-eight patients on dimethyl fumarate, 96 on fingolimod, 151 on natalizumab, 166 on rituximab, and 37 on ocrelizumab met criteria for analysis. Mean age at DMT initiation ranged from 15.2 to 16.5 years. Disease duration at the time of initiation of index DMT ranged from 1.1 to 1.6 years with treatment duration of 0.9-2.0 years. Mean annualized relapse rate (ARR) in the year prior to initiating index DMT ranged from 0.4 to 1.0. Mean ARR while on index DMT ranged from 0.05 to 0.20. New T2 and enhancing lesions occurred in 75%-88% and 55%-73% of the patients, respectively, during the year prior to initiating index DMT. After initiating index DMT, new T2 and enhancing lesions occurred in 0%-46% and 11%-34% patients, respectively. Rates of NEDA-2 (no evidence of disease activity) ranged from 76% to 91% at 6 months of treatment with index DMTs and 66% to 84% at 12 months of treatment with index DMTs.

CONCLUSIONS

Though limited by relatively short treatment duration with the index DMTs, our data suggest clinical and MRI benefit, as well as high rates of NEDA-2, in a large number of POMS patients, which can be used to guide future studies in this population.

Pediatric Acquired Demyelinating Disorders

PURPOSE OF REVIEW

This article reviews the clinical presentation, diagnostic evaluation, treatment, and prognosis of the most common monophasic and relapsing acquired demyelinating disorders presenting in childhood.

RECENT FINDINGS

Our understanding of neuroimmune disorders of the central nervous system is rapidly expanding. Several clinical and paraclinical factors help to inform the diagnosis and ultimately the suspicion for a monophasic versus relapsing course, including the age of the patient (prepubertal versus postpubertal), presence or absence of clinical encephalopathy, identification of serum autoantibodies (eg, myelin oligodendrocyte glycoprotein [MOG] and aquaporin-4), presence of intrathecally unique oligoclonal bands, and location/extent of radiologic abnormalities. Collaborative international research efforts have facilitated understanding of the safety and efficacy of currently available immunotherapies in children with acquired demyelinating disorders, particularly multiple sclerosis.

SUMMARY

Although many of the demyelinating disorders presented in this article can affect children and adults across the age spectrum, the clinical and radiologic phenotypes, treatment considerations, and long-term prognoses are often distinct in children.

Improving pediatric multiple sclerosis interventional phase III study design: a meta-analysis

Background:

To support innovative trial designs in a regulatory setting for pediatric-onset multiple sclerosis (MS), the study aimed to perform a systematic literature review and meta-analysis of relapse rates with interferon β (IFN β), fingolimod, and natalizumab and thereby demonstrate potential benefits of Bayesian and non-inferiority designs in this population.

Methods:

We conducted a literature search in MEDLINE and EMBASE from inception until 17 June 2020 of all studies reporting annualized relapse rates (ARR) in IFN β-, fingolimod-, or natalizumab-treated patients with pediatric-onset relapsing–remitting MS. These interventions were chosen because the literature was mainly available for these treatments, and they are currently used for the treatment of pediatric MS. Two researchers independently extracted data and assessed study quality using the Cochrane Effective Practice and Organization of Care – Quality Assessment Tool. The meta-analysis estimates were obtained by Bayesian random effects model. Data were summarized as ARR point estimates and 95% credible intervals.

Results:

We found 19 articles, including 2 randomized controlled trials. The baseline ARR reported was between 1.4 and 3.7. The meta-analysis-based ARR was significantly higher in IFN β-treated patients (0.69, 95% credible interval: 0.51–0.91) versus fingolimod (0.11, 0.04–0.27) and natalizumab (0.17, 0.09–0.31). Based on the meta-analysis results, an appropriate non-inferiority margin versus fingolimod could be in the range of 2.29–2.67 and for natalizumab 1.72–2.29 on the ARR ratio scale. A Bayesian design, which uses historical information for a fingolimod or natalizumab control arm, could reduce the sample size of a new trial by 18 or 14 patients, respectively.

Conclusion:

This meta-analysis provides evidence that relapse rates are considerably higher with IFNs versus fingolimod or natalizumab. The results support the use of innovative Bayesian or non-inferiority designs to avoid exposing patients to less effective comparators in trials and bringing new medications to patients more efficiently.

Real-World Effectiveness of Initial Disease-Modifying Therapies in Pediatric Multiple Sclerosis

OBJECTIVE

To assess real-world effectiveness of initial treatment with newer compared to injectable disease-modifying therapies (DMTs) on disease activity in pediatric multiple sclerosis (MS) and clinically isolated syndrome (CIS).

METHODS

This is a cohort study of children with MS/CIS followed at 12 clinics in the US Network of Pediatric MS Centers, who received initial therapy with newer (fingolimod, dimethyl fumarate, teriflunomide, natalizumab, rituximab, ocrelizumab) or injectable (interferon-β, glatiramer acetate) DMTs. Propensity scores (PSs) were computed, including preidentified confounders. Relapse rate while on initial DMT was modeled with negative binomial regression, adjusted for PS-quintile. Time to new/enlarging T2-hyperintense and gadolinium-enhancing lesions on brain magnetic resonance imaging were modeled with midpoint survival analyses, adjusted for PS-quintile.

RESULTS

A total of 741 children began therapy before 18 years, 197 with newer and 544 with injectable DMTs. Those started on newer DMTs were older (15.2 vs injectable 14.4 years, p = 0.001) and less likely to have a monofocal presentation. In PS-quintile-adjusted analysis, those on newer DMTs had a lower relapse rate than those on injectables (rate ratio = 0.45, 95% confidence interval (CI) = 0.29-0.70, p < 0.001; rate difference = 0.27, 95% CI = 0.14-0.40, p = 0.004). One would need to treat with newer rather than injectable DMTs for 3.7 person-years to prevent 1 relapse. Those started on newer DMTs had a lower rate of new/enlarging T2 (hazard ratio [HR] = 0.51, 95% CI = 0.36-0.72, p < 0.001) and gadolinium-enhancing lesions (HR = 0.38, 95% CI = 0.23-0.63, p < 0.001) than those on injectables.

INTERPRETATION

Initial treatment of pediatric MS/CIS with newer DMTs led to better disease activity control compared to injectables, supporting greater effectiveness of newer therapies. Long-term safety data for newer DMTs are required. ANN NEUROL 2020 ANN NEUROL 2020;88:42-55.

A Review of Available Treatments, Clinical Evidence, and Guidelines for Diagnosis and Treatment of Pediatric Multiple Sclerosis in the United States

Pediatric multiple sclerosis is associated with challenges in prompt diagnosis and uncertainty regarding optimal treatment. This review aimed to identify treatment guidelines or consensus statements for pediatric patients with multiple sclerosis, US Food and Drug Administration (FDA)-approved treatment options for pediatric multiple sclerosis, and any randomized controlled trials and observational studies examining available pharmacologic treatments in the pediatric multiple sclerosis population. Literature searches were performed in MEDLINE (1946-2016), EMBASE (1974-2016), and the Cochrane Central Register of Controlled Trials to identify treatment guidelines or consensus statements, pediatric multiple sclerosis treatment approvals, and randomized controlled trials and observation studies that examine the safety and effectiveness of available disease-modifying therapies. Only 3 consensus statements provided recommendations for pharmacologic treatments for children, all 3 published before the most recent revisions of the pediatric multiple sclerosis diagnostic guidelines. Despite the changes to the clinical landscape of pediatric multiple sclerosis with the introduction of diagnostic guidelines, fingolimod is the only FDA-approved treatment for pediatric multiple sclerosis in the United States. The effectiveness and safety of other disease-modifying therapies suggested by consensus statements have been reported in relatively small prospective and retrospective observational studies. Clinical evidence from a recently completed randomized controlled trial and future global registries can inform treatment decisions for the pediatric multiple sclerosis population.

Clinical trials of disease-modifying agents in pediatric MS: Opportunities, challenges, and recommendations from the IPMSSG

Objective

The impetus for this consensus discussion was to recommend clinical trial designs that can deliver high-quality data for effective therapies for pediatric patients, in a reasonable timeframe, with a key focus on short- and long-term safety.

Methods

The International Pediatric Multiple Sclerosis Study Group convened a meeting of experts to review the advances in the understanding of pediatric-onset multiple sclerosis (MS) and the advent of clinical trials for this population.

Results

In the last few years, convincing evidence has emerged that the biological processes involved in MS are largely shared across the age span. As such, treatments proven efficacious for the care of adults with MS have a biological rationale for use in pediatric MS given the relapsing-remitting course at onset and high relapse frequency. There are also ethical considerations on conducting clinical trials in this age group including the use of placebo owing to highly active disease. It is imperative to reconsider study design and implementation based on what information is needed. Are studies needed for efficacy or should safety be the primary goal? Further, there have been major recruitment challenges in recently completed and ongoing pediatric MS trials. Phase 3 trials for every newly approved therapy for adult MS in the pediatric MS population are simply not feasible.

Conclusions

A primary goal is to ensure high-quality evidence-based treatment for children and adolescents with MS, which will improve our understanding of the safety of these agents and remove regulatory or insurance-based limitations in access to treatment.

Use of newer disease-modifying therapies in pediatric multiple sclerosis in the US

OBJECTIVE

To characterize the use and safety of newer disease-modifying therapies (DMTs) in children with multiple sclerosis (MS) and clinically isolated syndrome (CIS) treated under 18 years of age.

METHODS

This is a cohort study including children with MS or CIS followed at 12 outpatient practices participating in the US Network of Pediatric MS Centers. DMT use, including duration, dose, and side effects, was analyzed. Newer DMTs were defined as agents receiving Food and Drug Administration approval or with increased use in adult MS after 2005.

RESULTS

As of July 2017, 1,019 pediatric patients with MS (n = 748) or CIS (n = 271) were enrolled (65% female, mean onset 13.0 ± 3.9 years, mean follow-up 3.5 ± 3.1 years, median 1.6 visits per year). Of these, 78% (n = 587) with MS and 11% (n = 31) with CIS received DMT before 18 years of age. This consisted of at least one newer DMT in 42%, including dimethyl fumarate (n = 102), natalizumab (n = 101), rituximab (n = 57), fingolimod (n = 37), daclizumab (n = 5), and teriflunomide (n = 3). Among 17%, the initial DMT prescribed was a newer agent (36 dimethyl fumarate, 30 natalizumab, 22 rituximab, 14 fingolimod, 2 teriflunomide). Over the last 10 years, the use of newer agents has increased, particularly in those ≥12 years and to lesser extent in those <12 years. The short-term side effect profiles of newer DMTs did not differ from those reported in adults.

CONCLUSION

Newer DMTs are often used in pediatric MS, and have similar short-term safety, tolerability, and side effect profiles as in adults. These findings may help inform pediatric MS management.

Long-term follow-up of pediatric MS patients starting treatment with injectable first-line agents: A multicentre, Italian, retrospective, observational study

Background:

Few data are available on very long-term follow-up of pediatric multiple sclerosis (MS) patients treated with disease modifying treatments (DMTs).

Objectives:

To present a long-term follow-up of a cohort of Pediatric-MS patients starting injectable first-line agents.

Methods:

Data regarding treatments, annualized relapse rate (ARR), Expanded Disability Status Scale (EDSS) score, and serious adverse event were collected. Baseline characteristics were tested in multivariate analysis to identify predictors of disease evolution.

Results:

In total, 97 patients were followed for 12.5 ± 3.3 years. They started therapy at 13.9 ± 2.1 years, 88 with interferons and 9 with copaxone. During the whole follow-up, 82 patients changed therapy, switching to immunosuppressors/second-line treatment in 58% of cases. Compared to pre-treatment phase, the ARR was significantly reduced during the first treatment (from 3.2 ± 2.6 to 0.7 ± 1.5, p < 0.001), and it remained low during the whole follow-up (0.3 ± 0.2, p < 0.001). At last observation, 40% had disability worsening, but EDSS score remained <4 in 89%. One patient died at age of 23 years due to MS. One case of natalizumab-related progressive multifocal encephalopathy (PML) was recorded. Starting therapy before 12 years of age resulted in a better course of disease in multivariate analysis.

Conclusion:

Pediatric-MS patients benefited from interferons/copaxone, but the majority had to switch to more powerful drugs. Starting therapy before 12 years of age could lead to a more favorable outcome.

Pediatric Multiple Sclerosis: Genes, Environment, and a Comprehensive Therapeutic Approach

BACKGROUND

Pediatric multiple sclerosis is an increasingly recognized and studied disorder that accounts for 3% to 10% of all patients with multiple sclerosis. The risk for pediatric multiple sclerosis is thought to reflect a complex interplay between environmental and genetic risk factors.

MAIN FINDINGS

Environmental exposures, including sunlight (ultraviolet radiation, vitamin D levels), infections (Epstein-Barr virus), passive smoking, and obesity, have been identified as potential risk factors in youth. Genetic predisposition contributes to the risk of multiple sclerosis, and the major histocompatibility complex on chromosome 6 makes the single largest contribution to susceptibility to multiple sclerosis. With the use of large-scale genome-wide association studies, other non-major histocompatibility complex alleles have been identified as independent risk factors for the disease. The bridge between environment and genes likely lies in the study of epigenetic processes, which are environmentally-influenced mechanisms through which gene expression may be modified.

CONCLUSIONS

This article will review these topics to provide a framework for discussion of a comprehensive approach to counseling and ultimately treating the pediatric patient with multiple sclerosis.

Clinical features in very early-onset demyelinating disease with anti-MOG antibody

BACKGROUND

The clinical features of patients with very early-onset acquired demyelinating syndrome (ADS) with the anti-myelin oligodendrocyte glycoprotein (MOG) antibody are unknown. We investigated the clinical characteristics and described detailed treatment of weekly intramuscular interferon β-1a (IFNβ-1a) in children aged <4years with ADS and the anti-MOG antibody.

METHODS

We conducted a retrospective chart review of patients with anti-MOG positivity who were diagnosed as having multiple sclerosis (MS) at <4years of age.

RESULTS

Subjects comprised 2 boys and 2 girls. Initial symptoms included ataxia, facial paresis, status epilepticus, and encephalopathy. Abnormal lesions on magnetic resonance imaging scans were often detected in the brainstem and cerebellum as well as the cerebrum. All patients started receiving IFNβ-1a at age 3.1-3.5years. The initial doses ranged from 3 to 6μg, which were 1/10-1/5 doses, respectively, for adults. During 0.6-4.3years of IFNβ-1a administration, all patients had flu-like symptoms, and 1 patient had an increased liver enzyme level. Although 1 patient discontinued IFNβ-1a therapy because of frequent relapses, no patient discontinued therapy due to severe adverse events.

CONCLUSIONS

This case series adds novel information regarding the clinical features of children <4years old with ADS and the anti-MOG antibody.

Multiple sclerosis in children

The onset of multiple sclerosis (MS) in childhood and adolescence is being increasingly recognized. Relative to MS in adults, little is known about the diagnostic evaluation, clinical course, outcome, and management of MS in children. To remedy some of these deficiencies, pediatric MS clinics have been created in several countries to provide specialized care to, and to study, affected children. Research is currently underway to investigate the pathobiologic features of childhood-onset MS, to study the mechanisms of myelin inflammation and repair, to evaluate patient outcomes collaboratively between the different clinics, and to increase knowledge of pediatric MS for children living with the disease. It is hoped that, through an understanding of the earliest aspects of the MS disease process, critical insights will be gained about the genesis of MS.

Serum autoantibodies to myelin peptides distinguish acute disseminated encephalomyelitis from relapsing-remitting multiple sclerosis

BACKGROUND AND OBJECTIVE

Acute disseminated encephalomyelitis (ADEM) and relapsing-remitting multiple sclerosis (RRMS) share overlapping clinical, radiologic and laboratory features at onset. Because autoantibodies may contribute to the pathogenesis of both diseases, we sought to identify autoantibody biomarkers that are capable of distinguishing them.

METHODS

We used custom antigen arrays to profile anti-myelin-peptide autoantibodies in sera derived from individuals with pediatric ADEM (n = 15), pediatric multiple sclerosis (Ped MS; n = 11) and adult MS (n = 15). Using isotype-specific secondary antibodies, we profiled both IgG and IgM reactivities. We used Statistical Analysis of Microarrays software to confirm the differences in autoantibody reactivity profiles between ADEM and MS samples. We used Prediction Analysis of Microarrays software to generate and validate prediction algorithms, based on the autoantibody reactivity profiles.

RESULTS

ADEM was characterized by IgG autoantibodies targeting epitopes derived from myelin basic protein, proteolipid protein, myelin-associated oligodendrocyte basic glycoprotein, and alpha-B-crystallin. In contrast, MS was characterized by IgM autoantibodies targeting myelin basic protein, proteolipid protein, myelin-associated oligodendrocyte basic glycoprotein and oligodendrocyte-specific protein. We generated and validated prediction algorithms that distinguish ADEM serum (sensitivity 62-86%; specificity 56-79%) from MS serum (sensitivity 40-87%; specificity 62-86%) on the basis of combined IgG and IgM anti-myelin autoantibody reactivity to a small number of myelin peptides.

CONCLUSIONS

Combined profiles of serum IgG and IgM autoantibodies identified myelin antigens that may be useful for distinguishing MS from ADEM. Further studies are required to establish clinical utility. Further biological assays are required to delineate the pathogenic potential of these antibodies.

Disease-modifying therapy of pediatric multiple sclerosis

Multiple sclerosis (MS) is increasingly recognized in children and adolescents. Improved awareness, access to care, and subspecialty training in pediatric MS has allowed for better access to treatment. Children with MS present with an overwhelmingly relapsing form of the disease and have more frequent relapses than their adult counterparts during the early phases of disease. Cognitive deficits are prominent in pediatric MS, as opposed to locomotor disability. Beta interferons and glatiramer acetate are frequently used off-label drugs. Additional second-line therapies have occasionally been used in treatment failures. No randomized clinical trials have been performed to date in pediatric MS; however, recent legislation necessitates pediatric studies for new agents, which will allow for better defined pharmacokinetic, dosing, and efficacy data to guide the treating neurologist.

Natalizumab use in pediatric patients with relapsing-remitting multiple sclerosis

BACKGROUND

Not all pediatric patients with relapsing-remitting multiple sclerosis (MS) may respond to traditional disease-modifying therapies. Natalizumab has been shown to be effective but is currently only approved in adults.

OBJECTIVE

To analyze the safety and efficacy of natalizumab in patients under 18 years of age diagnosed with MS.

METHOD

Data for pediatric patients with MS treated with natalizumab in a compassionate use setting were retrospectively collected and analyzed.

RESULTS

Valid data were obtained for nine patients under 18 years from seven different centers (mean age, 15 years 4 months [range 9.8-17.7]; 5 were boys). Patients received a median of 17 infusions of natalizumab (range, 2-31) and eight received at least 12 infusions. For these 8 patients, the median score on the Expanded Disability Status Scale decreased from 3.0 to 1.0 and the median annualized relapse rate decreased from 3.0 to 0. After 12 months, no patients reported gadolinium-enhancing lesions compared to seven at baseline. Four post-baseline adverse events occurred and one patient discontinued due to hypersensitivity reaction.

CONCLUSION

Natalizumab is a highly effective treatment as a second-line option in pediatric patients. In as far as the limited numbers allowed comparisons, the safety and efficacy of natalizumab in children was in line with the experience published in adult populations.

The management of pediatric multiple sclerosis

Prevention of disability through disease-modifying therapies has been a source of significant attention among clinicians treating children and adolescents with multiple sclerosis (MS). In this article, we will review currently available literature on therapies and the management of pediatric-onset multiple sclerosis, with specific discussion of therapies for acute exacerbations and disease-modifying therapies that may prevent relapses and slow disease progression, and will include a brief discussion of future directions in symptomatic interventions for cognitive decline, fatigue, and depression in children and adolescents with multiple sclerosis. Our article will focus specifically on children and adolescents with relapsing-remitting multiple sclerosis, as 99% of cases of pediatric-onset multiple sclerosis are relapsing-remitting multiple sclerosis.

First-line disease-modifying therapies in paediatric multiple sclerosis: a comprehensive overview

Paediatric multiple sclerosis (MS) is defined as the onset of MS before the age of 18 years. Immunomodulatory disease-modifying therapies (i.e. the interferons [IFNs] and glatiramer acetate) are considered first-line treatments in adult patients with MS, but they are largely understudied in the paediatric population. IFNβ is a type 1 IFN produced by fibroblasts. The therapeutic effect achieved by IFNβ in MS is believed to be the result of a variety of mechanisms, including the inhibition of T-cell proliferation and a shift in cytokine production. There are currently two forms of recombinant IFNβ used therapeutically for MS: IFNβ-1a and IFNβ-1b. Two formulations of IFNβ-1a exist, one administered as an intramuscular injection once weekly and the other by subcutaneous injection three times per week. Only one type of IFNβ-1b product is on the market, a subcutaneous injection administered every other day. Pharmacokinetic studies of these agents in children do not exist and available data are primarily from studies in healthy adults. It does not appear that the various formulations differ significantly in terms of bioavailability or efficacy in adults. The toxicity profiles of the interferon formulations are similar, with the most common adverse effects in children including flu-like symptoms, injection site reactions and transient elevations in liver enzymes. Glatiramer acetate is a mixture of synthetic polypeptide chains consisting of four different amino acids. Glatiramer acetate appears to mimic the antigenic properties of myelin basic protein (MBP), and by doing so, alters T-cell activation in the periphery. Glatiramer acetate is administered as a once-daily subcutaneous injection. Similar to the IFNβ formulations, there are no pharmacokinetic studies of this agent in children. The most common adverse effects include injection site reactions and transient chest tightness. Fingolimod, a sphingosine 1-phosphate receptor modulator, is a new disease-modifying therapy that was approved by the US FDA in 2010 for the first-line treatment of relapsing forms of MS in adults. However, due to a lack of information and clinical data on this agent in the paediatric population, it is not included in this discussion. Dose-finding studies of the IFNs and glatiramer acetate in the paediatric population are limited. Dosing recommendations are largely based on tolerability studies, with most children and adolescents tolerating the full adult doses. Clinical studies of IFNs in children have not been objectively designed to establish the efficacy of these therapies, and evidence is limited to that of observational trials and retrospective case reports. However, the largest cohort (130 cases) of paediatric MS patients studied to date reported a reduction in annual relapse rate with all three of the different IFNβ formulations and glatiramer acetate after a follow-up period of more than 4 years. Treatment with one of the first-line agents should be offered to any patient after the occurrence of a second demyelinating episode. The efficacy of the four first-line disease-modifying agents is considered to be relatively equivalent, and the choice of agent should be determined on an individual patient basis, taking into account potential adverse effects and patient preferences. Current data suggest that the IFNs and glatiramer acetate are safe and effective therapies in paediatric patients with MS. However, further studies evaluating the pharmacokinetics, appropriate dosing and comparisons of efficacy among these agents are needed to determine the most appropriate and evidence-based treatment decisions in this population.

Pediatric multiple sclerosis

Multiple sclerosis (MS) onset in childhood occurs in a small proportion of individuals with the disease, although the precise incidence of pediatric MS is unknown. It may be difficult to distinguish the initial attack of pediatric MS from acute disseminated encephalomyelitis, particularly in very young children. Environmental and genetic factors that appear to increase the risk of pediatric MS include prior infection with Epstein-Barr virus, exposure to cigarette smoke, and HLA-DRB1*15 haplotype. Children may have more posterior fossa involvement at onset and a higher relapse rate than adults with MS. Although time to disability may be longer than in adults, pediatric MS is associated with an earlier age of disability. Off-label use of standard disease-modifying therapies for adult MS is common, although data regarding the efficacy and safety for these medications are limited.

Management of children with multiple sclerosis

Pediatric onset multiple sclerosis (MS) may be seen in 2-5% of patients with MS. It is characterized by high disease burden. As such, early treatment with preventative therapies should be considered. Although randomized controlled trials have not been conducted on therapies for pediatric MS, there is a growing body of literature suggesting safety of first-line agents approved for use in adult MS, including interferons and glatiramer acetate. The use of second-line therapies, such as natalizumab, cyclophosphamide, and mitoxantrone has been described in a small number of pediatric MS cases. These case series suggest benefit of these agents after limited follow-up. Little information on long-term effects of therapies such as cyclophosphamide, mitoxantrone, or natalizumab is available for this population, although concerns of increased risk for opportunistic infections (progressive multifocal leukoencephalopathy with natalizumab) and secondary hematologic cancers (with mitoxantrone) exist. Finally, although fatigue, motor, cognitive, and psychosocial difficulties are common in this population, no trials have been conducted on pharmacologic or non-pharmacologic interventions for the management of these problems. Therapies for spasticity, including baclofen (including the baclofen pump), diazepam, and botulinum toxin have been evaluated in children with cerebral palsy and may be used safely in children. Psychiatric intervention is often necessary for affective disorders. Interventions for fatigue have not been studied, although evidence in the adult MS literature suggests possible benefit of exercise and modafinil. This article provides a practical guide to the diagnosis and treatment of multiple sclerosis in pediatric patients.

Consensus statement: evaluation of new and existing therapeutics for pediatric multiple sclerosis

New therapies are being evaluated by clinical trials and, if efficacious, introduced for the treatment of adult MS. The role of these new and existing agents in the management of pediatric MS has yet to be defined. Pediatric investigation plans are now required by the Food and Drug Administration and European Medicines Agency for approval of new biological agents, providing an important opportunity to gather much-needed data for clinicians caring for children and adolescents with MS. However, challenges include the small number of patients, and the need for efficient yet comprehensive study designs incorporating factors necessary to inform the clinical care of children with MS. The elected Steering committee of the International Pediatric MS Study Group (IPMSSG) conducted a structured review of existing data on the disease-modifying therapies in pediatric MS and developed a consensus statement, which was further modified by the IPMSSG general membership, using an online survey tool. Fifty-one IPMSSG members from 21 countries responded to the survey, and 50 approved the final statement. Consensus recommendations regarding use of existing first- and second-line therapies, as well as a proposed definition for inadequate treatment response, are presented. Recommendations for the use and evaluation of emerging therapies (currently in phase III clinical trials or recently approved for adult MS) are discussed. The IPMSSG endorses the inclusion of pediatric MS patients in trials evaluating appropriate new and emerging therapies. Mechanisms for conducting high-impact, multicenter studies, including long-term follow-up in pediatric MS, are required to ensure that all MS patients, irrespective of age, benefit from advances in MS therapeutics.

Current therapeutic options in pediatric multiple sclerosis

OPINION STATEMENT

Therapies for relapsing-remitting pediatric multiple sclerosis (MS) are aimed at preventing relapses (disease modifying therapies), treating acute attacks, and managing disabling cognitive and physical symptoms. Initial disease modifying therapy to prevent relapses should use one of four first-line injectable therapies that are approved for adult relapsing-remitting MS: interferon beta 1a IM, interferon beta 1a SC, interferon beta 1b SC, or glatiramer acetate. If breakthrough disease occurs or the medication is poorly tolerated, the next step should be to try one of the other first-line therapies. If the first-line therapies have been exhausted, second-line therapies such as natalizumab, cyclophosphamide, or mitoxantrone may be considered. One must use caution when choosing these potent therapies, as secondary effects may include serious infection or malignancy. Phase III studies in adult MS have been published on two oral agents, fingolimod and cladribine, and fingolimod has received FDA approval for use in relapsing-remitting MS in adults. These drugs have not been evaluated in the pediatric MS population, nor have any of three other oral agents now in phase III development: laquinimod, BG-12, and teriflunomide. Acute relapses can be treated with pulse methylprednisolone at a dosage of 20 to 30 mg/kg per day (maximum 1 g per day) for 3 to 5 days. If this is ineffective, intravenous immunoglobulin (2 g/kg divided over 2-5 days) or plasmapheresis may be considered. Neuropsychological, physical therapy, and occupational therapy screening should be performed on patients with pediatric MS. Interventions focusing on visual motor integration may be particularly useful in this group Spasticity may be treated with symptomatic therapies, but one must be aware of potential adverse effects of agents such as baclofen and diazepam. Headache, fatigue, anxiety, and depression are frequently seen, and patients may need a psychiatry consultation and counseling.

Disease progression in pediatric multiple sclerosis: disparities between physical and neurocognitive outcomes

Growing information regarding the neurocognitive burden of pediatric multiple sclerosis (MS) has become available in recent years. Whereas natural history studies suggest a longer time to irreversible disability in the pediatric population with MS than in the adult MS population, increasing knowledge suggests a relatively rapid accrual of cognitive deficits in this young population. This article will explore this paradox, taking into account studies that have focused on neuroimaging, cognition and outcomes in pediatric MS.

Paediatric UK demyelinating disease longitudinal study (PUDDLS)

Background

There is evidence that at least 5% of Multiple sclerosis (MS) cases manifest in childhood. Children with MS present with a demyelinating episode involving single or multiple symptoms prior to developing a second event (usually within two years) to then meet criteria for diagnosis. There is evidence from adult cohorts that the incidence and sex ratios of MS are changing and that children of immigrants have a higher risk for developing MS. A paediatric population should reflect the vanguard of such changes and may reflect trends yet to be observed in adult cohorts. Studying a paediatric population from the first demyelinating event will allow us to test these hypotheses, and may offer further valuable insights into the genetic and environmental interactions in the pathogenesis of MS.

Methods/Design

The Paediatric UK Demyelinating Disease Longitudinal Study (PUDDLS) is a prospective longitudinal observational study which aims to determine the natural history, predictors and outcomes of childhood CNS inflammatory demyelinating diseases. PUDDLS will involve centres in the UK, and will establish a cohort of children affected with a first CNS inflammatory demyelinating event for long-term follow up by recruiting for approximately 5 years. PUDDLS will also establish a biological sample archive (CSF, serum, and DNA), allowing future hypothesis driven research. For example, the future discovery of a biomarker will allow validation within this dataset for the evaluation of novel biomarkers. Patients will also be requested to consent to be contacted in the future. A secondary aim is to collaborate internationally with the International Paediatric Multiple Sclerosis Study Group when future collaborative studies are proposed, whilst sharing a minimal anonymised dataset. PUDDLS is the second of two jointly funded studies. The first (UCID-SS) is an epidemiological surveillance study that already received ethical approvals, and started on the 1st September 2009. There is no direct patient involvement, and UCID-SS aims to determine the UK and Ireland incidence of CNS inflammatory demyelinating disorders in children under 16 years.

Discussion

A paediatric population should reflect the vanguard of MS epidemiological changes and may reflect trends yet to be observed in adult MS cohorts. The restricted window between clinical expression of disease and exposure to environmental factors in children offers a unique research opportunity. Studying a paediatric population from the first demyelinating event will allow us to investigate the changing epidemiology of MS, and may offer further valuable insights into the genetic and environmental interactions in the pathogenesis of MS.

Clinical and pharmacological aspects of inflammatory demyelinating diseases in childhood: an update

Inflammatory demyelinating diseases comprise a spectrum of disorders affecting the myelin of the central and peripheral nervous system. These diseases can usually be differentiated on the basis of clinical, radiological, laboratory and pathological findings.

Recent studies have contributed to current awareness that inflammatory demyelinating diseases are not restricted to the adult age group, but are more common in pediatric age than previously believed. Some of pediatric inflammatory demyelinating diseases carry an unfavorable long-term prognosis but appropriate treatments can improve the outcome. The possibility of physical and cognitive disability resulting from these diseases, highlights the urgent need for therapeutic strategies for neurorehabilitation, neuroregeneration, and neurorepair.

This review discusses characteristics of primary demyelinating diseases more frequently observed in childhood, focusing on epidemiology, clinical aspects and treatments.

Therapies for multiple sclerosis: considerations in the pediatric patient

Current and emerging therapies for multiple sclerosis (MS) offer promise for improved disease control and long-term clinical outcome. To date, these therapies have been evaluated solely in the context of adult MS. However, onset of MS in children is being increasingly recognized, and recent studies have identified a significant impact of MS onset during childhood on cognitive and physical functioning. Optimization of pediatric MS care requires that promising new therapies be made available to children and adolescents, but also that safety and tolerability and potential influence of therapies on the developing immune and neural networks of pediatric patients be closely considered. We propose care algorithms illustrating models for therapy that detail careful monitoring of pediatric patients with MS, provide definitions for inadequate treatment response and treatment escalation, and foster multinational collaboration in future therapeutic trials.

Meeting Review: The management of multiple sclerosis in children: a European view

About 3—5% of all patients with multiple sclerosis experience the onset of their disease under the age of 16. A significant proportion of paediatric multiple sclerosis patients develop significant cognitive disturbances and persistent physical disability. The high relapse rate and the morbidity in the paediatric multiple sclerosis population has triggered the use of disease-modifying therapies that have been shown to reduce relapse rate, disease progression and cognitive decline in adult patients with multiple sclerosis. Hard evidence for the right treatment and its appropriate timing is scarce in paediatric multiple sclerosis. Nevertheless, expertise in this field has grown thanks to recent open-label trials and experience generated in specialized centres. In spring 2009, a first meeting was held in Rotterdam with clinicians from 11 European countries (one from Canada) that are all active in the management of paediatric multiple sclerosis. One of the aims was to generate a common view on the management of paediatric multiple sclerosis patients. The result of this meeting is presented here to help standardize treatment and to support clinicians with less experience in this field.

Diagnosis and treatment of multiple sclerosis in pediatric and adolescent patients: current status and future therapies

Pediatric-onset multiple sclerosis (MS) comprises approximately 3%-5% of cases of MS in North America. Recent years have seen significant advances in the diagnosis and treatment of this condition, including the introduction of proposed diagnostic criteria for pediatric demyelinating disorders, and a growing body of knowledge regarding treatment options. This article reviews current approaches to the diagnosis and management of pediatric MS.

Therapeutic strategies in childhood multiple sclerosis

Multiple sclerosis (MS) in children and adolescents accounts for 3-10% of the whole MS population, and is characterized by a relapsing course in almost all cases. The frequency of relapses is higher than in adult onset MS, at least in the first years of evolution. The objective of treatment is to speed the recovery after a relapse, to prevent the occurrence of relapses, and to prevent disease progression and neurodegeneration. The use of drugs for MS in children and adolescents has not been studied in clinical trials, so their use is mainly based on results from trials in adults and from observational studies. There is a consensus to treat acute relapses with intravenous high-dose corticosteroids. The possibility of preventing relapses and disease progression is based on the use of immunomodulatory agents. Interferon-beta (IFNB) and glatiramer acetate (GA) have been demonstrated to be safe and well tolerated in pediatric MS patients, and also to reduce relapse rate and disease progression. Cyclophosphamide and natalizumab could be offered as second-line treatment in patients with a poor response to IFNB or GA. New oral and injectable drugs will be available in the near future: if safe and well tolerated in the long-term follow up of adults with MS, they could be tested in the pediatric MS population.

Management of multiple sclerosis in adolescents - current treatment options and related adherence issues

Multiple sclerosis (MS) is a progressive inflammatory demyelinating disorder of the central nervous system that is increasingly recognized in children and adolescents. This realization comes with additional concerns about existing therapeutic options and the impact of the disease on health-related outcomes of adolescents with MS. This five-part review provides an update on management strategies relevant to the pediatric MS population. The first section gives an overview on the epidemiology and natural history of early onset MS. The second section outlines currently available MS treatments, including medications during acute relapses and long-term immunomodulatory therapies. The third section highlights adherence issues pertaining to MS, including the challenges uniquely faced by adolescents. The fourth section provides a summary of research into quality of life and psychosocial consequences of pediatric onset MS. Attention is drawn to the grief experience of affected adolescents and the importance of peer relationships. Finally, the family resilience framework is presented as a conceptual model to facilitate optimal adaptation of adolescents with MS. Healthcare professionals can promote resilience and treatment adherence by ensuring that these individuals and their families are sufficiently informed about available MS treatments, providing instrumental support for managing potential medication side effects, and addressing age-appropriate developmental needs.

Pediatric multiple sclerosis

BACKGROUND

Pediatric multiple sclerosis (MS), once considered a rare childhood illness, has been increasingly identified as an important childhood acquired neurologic disease requiring early recognition and intervention.

SUMMARY

We present a comprehensive review of the current terminology of acquired central nervous system demyelination in children, pertinent investigations, including magnetic resonance imaging and cerebrospinal fluid cerebrospinal fluid studies, and an approach to the differential diagnosis of pediatric onset MS. In addition, the recent studies exploring the epidemiology and pathobiology will be discussed. Finally, we present an algorithm for the treatment of episodes of demyelination along with chronic immunomodulatory therapeutic options in this patient population.

CONCLUSIONS

Although some similarities exist to adult onset MS, MS onset during childhood and adolescence presents unique diagnostic challenges and requires specialized multidisciplinary care for optimal management. National and international collaborative studies are underway to aid in the understanding of the early and ongoing pathogenesis of MS.

Therapy of multiple sclerosis in children and adolescents

BACKGROUND

Paediatric multiple sclerosis accounts for up to 10% of all MS cases. The initial course of the disease is relapsing-remitting in most children, with a relapse rate generally higher than that observed in adult patients. There is published experience on the use of first-line disease modifying therapies in children with MS. However, about 1/3 of paediatric MS cases do not respond to IFN-beta or glatiramer acetate and continue to develop relapses and disease progression. These patients could be proposed to a second-line treatment.

METHODS

A comprehensive review of the published literature related to pharmacologic treatment of MS in adults and paediatric patients was performed. The recent literature has been extracted for new evidence from controlled trials in adult patients, and open treatment studies and reported expert opinion in paediatric patients.

RESULTS

No disease modifying drug has been approved for the treatment of children and adolescents with MS, although the currently available first-line therapies for adults seem to be safe and well tolerated in this population. Further studies are required to assess the safety and efficacy of second-line treatments in children with MS.

CONCLUSION

The present article constitutes an update of the existing publications regarding treatment of acute events of CNS demyelination in children and adolescents as well as considerations for the use of immunomodulatory therapies.

Pediatric multiple sclerosis

Pediatric multiple sclerosis (MS) represents a particular MS subgroup with unique diagnostic challenges and many unanswered questions. Due to the narrow window of environmental exposures and clinical disease expression, children with MS may represent a particularly important group to study to gain a better understanding of MS pathogenesis. Acute disseminated encephalomyelitis (ADEM) is more common in children than in adults, often making the differential diagnosis of MS, particularly a clinically isolated syndrome, quite difficult. Although both disorders represent acute inflammatory disorders of the central nervous system and have overlapping symptoms, ADEM is typically (not always) self-limiting. The presence of encephalopathy is much more characteristic of ADEM and may help in distinguishing between the two. Young children (under ten years old) with MS differ the most from adults. They have a lower frequency of oligoclonal bands in their cerebrospinal fluid and are less likely to have discrete lesions on MRI. Problems of cognitive dysfunction and psychosocial adjustment have particularly serious implications in both children and teenagers with MS. Increased awareness of these difficulties and interventions are needed. While clinical research on therapies to alter the disease course is limited, the available data fortunately suggests that disease-modifying therapy is well tolerated and likely to be effective. Ultimately, multinational research studies are necessary to advance our knowledge of the causes, symptoms, and treatment of pediatric MS and such collaborations are currently underway.

Effectiveness of early beta interferon on the first attack after confirmed multiple sclerosis: a comparative cohort study

BACKGROUND

In the absence of randomized controlled trials to support therapeutic decisions in pediatric MS (multiple sclerosis), comparative observational studies based on the real practice of physicians are important tools.

AIM

To assess the effectiveness of beta interferon (ssIFN) in preventing the first attack and severe disability after confirmed MS diagnosis in a pediatric cohort.

METHODS

A cohort of 197 relapsing-remitting pediatric MS patients was studied (1990-2005). Patients were followed from MS diagnosis until the first subsequent attack or severe disability occurrence (DSS score of >or=4) or were censored. The Cox model, with time-dependent ssIFN exposure to account for the varying times of starting this treatment, was used to estimate the effect of ssIFN on the risk of this attack or severe disability, adjusting for potential confounding factors.

RESULTS

During cohort follow-up (mean 5.5 years), 70.5% of the 197 children had a first attack (80% within the first 2 years) and 24 started ssIFN (mean delay 3.6 months; mean duration 17.1 months). The use of ssIFN was associated with a significant reduction in the rate of the first attack during the first year of treatment (hazard ratio: 0.31, 95% confidence interval: 0.13-0.72) as well as the first 2 years (0.40, 0.20-0.83). This effect was less significant over the entire follow-up of up to 4 years of treatment (0.57, 0.30-1.10). The use of ssIFN suggests a reduction on the occurrence of severe disability, although not statistically significant (HR 0.78; 95% CI: 0.25-2.42).

CONCLUSIONS

The use of ssIFN, given after the diagnosis of MS, significantly reduces the risk of relapse during the first 2 years.

Interferon-beta treatment for multiple sclerosis

Multiple sclerosis (MS) is the leading nontraumatic cause of neurologic disability in young adults. Interferon-beta, approved for use in 1993, was the first treatment to modify the course and prognosis of the disease and remains a mainstay of MS treatment. Numerous large-scale clinical trials in early, active patient populations have established the clinical efficacy of interferon-beta in reducing relapses and delaying disability progression. Although its mechanism of action remains incompletely understood, a reduction in active lesions seen on magnetic resonance imaging implies primary anti-inflammatory properties, a mechanism supported by basic immunologic research. Variation in individual patient responsiveness to interferon-beta may be due to disease variability or differential induction of interferon-stimulated genes. The magnitude of the therapeutic effect appears to be similar among products, but the optimal dose, route, and frequency of administration of the drug remain uncertain.

Childhood multiple sclerosis and related disorders

Multiple sclerosis (MS) in children and adolescents is increasingly recognized worldwide. Demyelinating disorders of the central nervous system may overlap considerably in their clinical presentation and radiological appearance. Therefore an exact categorization might be challenging and might not be readily attainable. Rigorous radiological and laboratory investigations and longitudinal follow up of the patient are needed in order to establish the diagnosis of a chronic demyelinating disorder especially in children. However, in the past few years many advances have been achieved in the field of pediatric MS and other white matter disease such as establishing diagnostic criteria, consensus definitions proposed for pediatric multiple sclerosis and related disorders and advances in treating such disorders. A wealth of knowledge regarding childhood MS have been established with vast speed and greater familiarity with the diagnosis and treatment options should lead to better care of children with such disorders. This review will present the important advances in childhood multiple sclerosis and related disorders that were achieved in the last few years.

Multiple sclerosis in children: clinical diagnosis, therapeutic strategies, and future directions

The onset of multiple sclerosis (MS) in childhood poses diagnostic and therapeutic challenges, particularly if the symptoms of the first demyelinating event resemble acute disseminated encephalomyelitis (ADEM). MRI is an invaluable diagnostic tool but it lacks the specificity to distinguish ADEM from the first attack of MS. Advanced MRI techniques might have the required specificity to reveal whether the loss of integrity in non-lesional tissue occurs as a fundamental feature of MS. Although the onset of MS in childhood typically predicts a favourable short-term prognosis, some children are severely disabled, either physically or cognitively, and more than 50% are predicted to enter the secondary-progressive phase of the disease by the age of 30 years. Immunomodulatory therapies for MS and their safe application in children can improve long-term prognosis. Genetic and environmental factors, such as viral infection, might be uniquely amenable to study in paediatric patients with MS. Understanding the immunological consequences of these putative exposures will shed light on the early pathological changes in MS.

Clinical features and viral serologies in children with multiple sclerosis: a multinational observational study

BACKGROUND

The full spectrum of clinical manifestations and outcome, and the potential importance of regional or demographic features or viral triggers in paediatric multiple sclerosis (MS), has yet to be fully characterised. Our aim was to determine some of these characteristics in children with MS.

METHODS

137 children with MS and 96 control participants matched by age and geographical region were recruited in a multinational study. They underwent structured clinical-demographic interviews, review of academic performance, physical examination, disability assessment (MS patients only), and standardised assays for IgG antibodies directed against Epstein-Barr virus, cytomegalovirus, parvovirus B19, varicella zoster virus, and herpes simplex virus.

FINDINGS

MS was relapsing-remitting at diagnosis in 136 (99%) children. The first MS attack resembled acute disseminated encephalomyelitis (ADEM) in 22 (16%) of the children, most under 10 years old (mean age 7.4 [SD 4.2] years). Children with ADEM-like presentations were significantly younger than were children with polyfocal (11.2 [4.5] years; p<0.0001) or monofocal (12.0 [3.8] years; p=0.0005) presentations. Permanent physical disability (EDSS>or=4.0) developed within 5 years in 15 (13%) of the 120 children for whom EDSS score was available. 23 (17%) had impaired academic performance, which was associated with increasing disease duration (p=0.02). Over 108 (86%) of the children with MS, irrespective of geographical residence, were seropositive for remote EBV infection, compared with only 61 (64%) of matched controls (p=0.025, adjusted for multiple comparisons). Children with MS did not differ from controls in seroprevalence of the other childhood viruses studied, nor with respect to month of birth, sibling number, sibling rank, or exposure to young siblings.

INTERPRETATION

Paediatric MS is a relapsing-remitting disease, with presenting features that vary by age at onset. MS in children might be associated with exposure to EBV, suggesting a possible role for EBV in MS pathobiology.