Multiple Sclerosis Research Articles

Altered miR-10a gene expression in peripheral blood mononuclear cells correlates with frequency of T regulatory cells and cytokine profile in multiple sclerosis patients

A critical component in triggering and progressing autoimmune multiple sclerosis (MS) is the deregulation of immune responses, including dysfunction of T regulatory cells (Tregs), critical participants in the pathogenetic context of inflammation. It has been found that miRNAs have a crucial role in the induction of MS because dysregulation of miRNAs can result in defects in immunological tolerance. In this investigation, we examined the miR-10a contribution to MS disorder by comparing the altered expression of miR-10a in peripheral blood mononuclear cells (PBMCs) of 40 MS patients to 40 healthy controls. Additionally, we examined Tregs’ frequency in MS patients in compare with healthy controls. We evaluated the secreted levels of anti-inflammatory cytokines, such as IL-10 and TGF-B, in the serum of MS patients and their expression level in healthy controls’ and patients’ peripheral blood mononuclear cells (PBMCs). Then, we assessed the correlation between miR-10a expression with Treg frequency and levels of anti-inflammatory cytokines in serum. PBMCs from MS patients had downregulated expression of miR-10a, and a substantial correlation was found between this expression and a reduction in Treg cells’ frequency and the secreted anti-inflammatory cytokines associated with Tregs’ diminished functionality. In summary, our research demonstrated a strong correlation between Tregs’ frequency, lower levels of cytokines linked to Treg function, and lower expression of miR-10a in PBMCs. So, the alteration of miR-10a can be utilized as a probable therapeutic target for the prevention and management of MS disorder. However, further examination is requisite before this strategy become practical for use in the clinical setting

Drug Repurposing and Screening for Multiple Sclerosis Targeting Microglia and Macrophages.

Microglia/macrophages (MG/Mφ) play a central role in the pathogenesis of multiple sclerosis (MS). However, the intricacies of the immunomodulatory microenvironment in MS, particularly the heterogeneity and regulatory mechanisms of MG/Mφ subpopulations, remain elusive. The commonly used treatment options for MS have several drawbacks, such as significant side effects and uncertain efficacy. The exploration of developing new drugs targeting MG/Mφ for the treatment of MS remains to be investigated. We identified three distinct subpopulations of MG/Mφ, among which MG/Mφ_3 significantly increased as the experimental autoimmune encephalomyelitis (EAE) progressed. Ifenprodil and RO-25-6981 demonstrated notable inhibition of inflammatory factor expression, accompanied by reduced cytotoxicity. The interaction modes of these compounds with the common binding pocket in the GluN1b-GluN2B amino terminal domain heterodimer were elucidated. Virtual docking, based on the N-methyl-D-aspartate (NMDA) receptor, showed that homo-skeleton compounds of ifenprodil potentially exhibit low binding free energy with the receptor, including eliprodil and volinanserin. In vitro cell models corroborated the effective inhibition of inflammatory factor expression and minimal cytotoxicity of eliprodil and volinanserin. CoMFA (standard error of estimate = 0.378, R2 = 0.928, F values = 241.255, Prob. of R2 = 0) and topomer CoMFA (q2 = 0.553, q2 stderr = 0.77, intercept = - 1.48, r2 = 0.908, r2 stderr = 0.35) were established based on the inhibitors of NMDA receptor. The contour maps of CoMFA and topomer CoMFA models give structural information to improve the inhibitory function. This study underscores the involvement of MG/Mφ in inflammatory pathways during MS progression and offers promising compound candidates for MS therapy targeting MG/Mφ.

The role of alemtuzumab in the development of secondary autoimmunity in multiple Sclerosis: a systematic review

BackgroundSecondary autoimmune disease (SAID) in the context of alemtuzumab treatment is one of the main safety concerns that may arise following administration in people with multiple sclerosis (pwMS). Contributing factors underlying this adverse event are not well understood. The purpose of this systematic review was to appraise the literature investigating the role of alemtuzumab in the development of SAID in pwMS following treatment and identify potential biomarkers/ risk factors that may be predictive of onset of this manifestation.MethodsRelevant publications were retrieved from PubMed, Embase, and Web of Science using a three-pronged search strategy containing the following keywords: “multiple sclerosis”; “alemtuzumab”; and “autoimmunity”. Studies that fulfilled the specified eligibility criteria and investigated SAID development after alemtuzumab in pwMS were included in the final analysis.Results19 papers were included in the final review. Approximately, 47.92% of pwMS treated with alemtuzumab experienced SAID. A variety of biomarkers and risk factors were noted in the development of SAID, with a focus on immunological changes, including: increased homeostatic proliferation and T cell cycling, along with consistently elevated baseline serum IL-21 levels and thyroid autoantibodies. There was no significant association between known human leukocyte antigen (HLA) risk alleles, lymphocyte profile or dynamics and SAID development.ConclusionsWhile the mechanism underlying SAID following alemtuzumab is not fully understood, potential biomarkers and risk factors that may assist in elucidating mechanisms underlying this phenomenon have been documented in several independent studies. Following immunodepletion from alemtuzumab, an IL-21 driven increase in homeostatic proliferation and T cell cycling may disrupt tolerance mechanisms leading to an increase in the propensity toward alemtuzumab-induced autoimmunity. Further research is necessary to clarify the physiological changes after alemtuzumab therapy that trigger SAID in pwMS.

Senolytic treatment diminishes microglia and decreases severity of experimental autoimmune encephalomyelitis

BackgroundThe role of senescence in disease contexts is complex, however there is considerable evidence that depletion of senescent cells improves outcomes in a variety of contexts particularly related to aging, cognition, and neurodegeneration. Much research has shown previously that inflammation can promote cellular senescence. Microglia are a central nervous system innate immune cell that undergo senescence with aging and during neurodegeneration. The contribution of senescent microglia to multiple sclerosis, an inflammatory neurodegenerative disease, is not clear, but microglia are strongly implicated in chronic active lesion pathology, tissue injury, and disease progression. Drugs that could specifically eliminate dysregulated microglia in multiple sclerosis are therefore of great interest to the field.ResultsA single-cell analysis of brain tissue from mice subjected to experimental autoimmune encephalomyelitis (EAE), a mouse model of CNS inflammation that models aspects of multiple sclerosis (MS), identified microglia with a strong transcriptional signature of senescence including the presence of BCL2-family gene transcripts. Microglia expressing Bcl2l1 had higher expression of pro-inflammatory and senescence associated genes than their Bcl2l1 negative counterparts in EAE, suggesting they may exacerbate inflammation. Notably, in human single-nucleus sequencing from MS, BCL2L1 positive microglia were enriched in lesions with active inflammatory pathology, and likewise demonstrated increased expression of immune genes suggesting they may be proinflammatory and contribute to disease processes in chronic active lesions. Employing a small molecule BCL2-family inhibitor, Navitoclax (ABT-263), significantly reduced the presence of microglia and macrophages in the EAE spinal cord, suggesting that these cells can be targeted by senolytic treatment. ABT-263 treatment had a profound effect on EAE mice: decreasing motor symptom severity, improving visual acuity, promoting neuronal survival, and decreasing white matter inflammation.ConclusionThese results support the hypothesis that microglia and macrophages exhibit transcriptional features of cellular senescence in EAE and MS, and that microglia expressing Bcl2l1 demonstrate a proinflammatory signature that may exacerbate inflammation resulting in negative outcomes in neuroinflammatory disease. Depleting microglia and macrophages using a senolytic results in robust improvement in EAE disease severity, including across measures of neurodegeneration, inflammation, and demyelination, and may therefore represent a novel strategy to address disease progression in multiple sclerosis.

Demyelination and impaired oligodendrogenesis in the corpus callosum following lead exposure.

The corpus callosum is an oligodendrocyte-enriched brain region, replenished by newborn oligodendrocytes from oligodendrocyte progenitor cells (OPCs) in subventricular zone (SVZ). Lead (Pb) exposure has been associated with multiple sclerosis, a disease characterized by the loss of oligodendrocytes. This study aimed to investigate the effects of Pb exposure on oligodendrogenesis in SVZ and myelination in the corpus callosum. Adult female mice were used for a disproportionately higher prevalence of multiple sclerosis in females. Acute Pb exposure (one ip-injection of 27 mg Pb/kg as PbAc2 24 hr before sampling) caused mild Pb accumulation in the corpus callosum. Ex vivo assay using isolated SVZ tissues collected from acute Pb-exposed brains showed a diminished oligodendrogenesis in SVZ-derived neurospheres compared with controls. In vivo subchronic Pb exposure (13.5 mg Pb/kg by daily oral gavage 4wk) revealed significantly decreased newborn BrdU+/MBP+ oligodendrocytes in the corpus callosum, suggesting demyelination. Mechanistic investigations indicated decreased Rictor in SVZ OPCs, defective self-defense pathways, and reactive gliosis in the corpus callosum. Given the interwined pathologies between multiple sclerosis and Alzheimer's disease, the effect of Pb on myelination was evaluated in AD-modeled APP/PS1 mice. Myelin MRI on mice following chronic exposure (1,000 ppm Pb in drinking water as PbAc2 for 20wk) revealed a profound demyelination in the corpus callosum compared with controls. Immunostaining of the choroid plexus showed diminished signaling molecule (Klotho, OTX2) expressions in Pb-treated animals. These observations suggest that Pb caused demyelination in the corpus callosum, likely by disrupting oligodendrogenesis from SVZ OPCs. Pb-induced demyelination represents a crucial pathogenic pathway in Pb neurotoxicity, including multiple sclerosis.

A qualitative study on the experiences of autologous haematopoietic stem cell transplant for Multiple Sclerosis

AimAutologous haematopoietic stem cell transplant (HSCT) is an effective treatment for people with highly-active relapsing multiple sclerosis (MS), who are not adequately responding to disease-modifying therapies. To date, research has predominantly focused on disease-specific outcome measures. There is a lack of research exploring patient experiences of this complex treatment. The study aims to explore the experience of considering and receiving HSCT treatment for MS. MethodsSemi-structured interviews were conducted online with 12 adults with MS who had undergone HSCT treatment. Interview topics covered the experience of deciding on the treatment, the HSCT process itself, and the patient-reported outcomes following HSCT. Interviews were audio-recorded and transcribed verbatim. A thematic analysis approach was employed. ResultsThree main themes were identified: (1) Balancing hope and fear explores the decision-making experience when considering HSCT as a treatment; (2) Distinct emotional experience, highlights the unique challenges faced on all stages of the treatment journey; and (3) Adjusting to outcomes, explores how participants make sense of the aftermath of the treatment, including managing the ongoing uncertainty of MS and complications arising from HSCT. DiscussionHSCT is a complex treatment, both physically and psychologically for pwMS. A comprehensive and holistic care pathway is required to support people with MS at all stages of the treatment process, to ensure patient-centred planning and care.

Diagnostic MRI Score to Differentiate Susac Syndrome from Primary Angiitis of the Central Nervous System and Multiple Sclerosis.

Susac syndrome (SuS), multiple sclerosis (MS), and primary angiitis of the central nervous system (PACNS) present diagnostic challenges due to overlapping clinical features. We aimed to enhance diagnostic precision by developing the SPAMS (SuS, PACNS, MS) score, a practical radiological tool. This multicenter study included 99 patients (43 SuS, 37 MS, 19 PACNS) from South American countries. Relevant MRI features were identified through an elastic-net model determined key variables. The SPAMS score assigned 2 points for snowball lesions, 1 point for spokes-like lesions, or if there are more than 4 lesions in the corpus callosum, corpus callosum involvement, or cerebellar involvement. It subtracted 1 point if gadolinium-enhancing lesions or 4 points if Dawson's fingers are present. Bootstrapping validated the optimal cutoff at 2 points, exhibiting a diagnostic performance of area under the curve = 0.931, sensitivity = 88%, specificity = 89%, positive predictive value = 88%, negative predictive value = 89%, and accuracy = 88%. When specific MRI findings coexisted, the SPAMS score differentiated SuS from MS and PACNS. Access to MRI and standard protocol sequences makes it a valuable tool for timely diagnosis and treatment, potentially preventing disability progression and severe clinical outcomes. ANN NEUROL 2024;96:846-854.

Smouldering-Associated Worsening in Multiple Sclerosis: An International Consensus Statement on Definition, Biology, Clinical Implications, and Future Directions.

Despite therapeutic suppression of relapses, multiple sclerosis (MS) patients often experience subtle deterioration, which extends beyond the definition of "progression independent of relapsing activity." We propose the concept of smouldering-associated-worsening (SAW), encompassing physical and cognitive symptoms, resulting from smouldering pathological processes, which remain unmet therapeutic targets. We provide a consensus-based framework of possible pathological substrates and manifestations of smouldering MS, and we discuss clinical, radiological, and serum/cerebrospinal fluid biomarkers for potentially monitoring SAW. Finally, we share considerations for optimizing disease surveillance and implications for clinical trials to promote the integration of smouldering MS into routine practice and future research efforts. ANN NEUROL 2024;96:826-845.

The effect of cognitive rehabilitation on motor function and balance in individuals with multiple sclerosis: a systematic review.

Balance and motor functions are associated with a complex sensory-cognitive-motor system that is not reliant on a single component. In people with Multiple Sclerosis (pwMS), deficits in cognitive domains may cause abnormal gait and balance disorders. Therefore, the impact of cognitive rehabilitation (CR) on motor and balance functions in pwMS was investigated. Following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines, the review was registered in the Prospero system. A systematic search was conducted in PubMed, Web of Science, Scopus, and Cochrane Library until April 2024. Articles meeting the eligibility criteria were assessed and included in the review, those that evaluated the impact of CR on balance and motor functions. Bias in the studies was assessed by using the Risk of Bias-2 tool for randomized controlled trials. The articles' evidence level was evaluated using the Modified Bakker Scale. After searching four databases, eight studies were included in the review, comprising a total of 668 participants. The bias risks of the studies were categorized as low in two studies, unclear in five studies, and high in one study. The evidence levels of the studies showed high levels of evidence for balance and motor skills. This review suggests that CR may have a positive impact on motor and balance performance in pwMS, underscoring the relationship between cognition and motor function. Further research is required to enhance this evidence base, particularly given the limited number of studies in this area.

Implementing an unlearning approach to combat counter-knowledge in multiple sclerosis

ABSTRACT In the social domain, the term counter-knowledge has been used to refer to misinformation, gossip, rumours, and conspiracy theories that masquerade as knowledge. An individual’s assimilation of such counter-knowledge can lead to inappropriate individual behaviours and organisational decision-making. This study proposes a framework for investigating the relationship between counter-knowledge and learning myopia at the individual level in the healthcare domain, focusing on Multiple Sclerosis (MS). Given that those suffering from MS can experience symptoms leading to both a slowing down of information processing and a limited capacity. It is argued that these symptoms are likely to lead to exacerbating other symptoms, such as anxiety and depression. In addition to investigating how social counter-knowledge results in individual counter-knowledge, the research proposes a framework for understanding the challenges of implementing machine unlearning approaches, and a set of strategies to disrupt this linkage is also proposed.

Vitamin D and Cardiovascular Outcomes in Multiple Sclerosis

Background: Vitamin D (25(OH)D) deficiency is linked to increased cardiovascular disease (CVD) risk in the general population, but its implications for people with multiple sclerosis (pwMS) remain unexplored. This study aimed to evaluate the association of 25(OH)D with long-term CVD outcomes in pwMS and the impact of vitamin D supplementation. Methods: This observational cohort study analysed anonymised medical records from 70 healthcare organisations following pwMS for 5-years (2019-2024). PwMS and deficient or inadequate 25(OH)D levels were 1:1 propensity-score matched with pwMS and adequate 25(OH)D levels, for demographics, comorbidities, and cardiovascular care. Cox proportional hazard models analysed the incidence of all-cause mortality, stroke, acute myocardial infarction, heart failure, angina, atrial fibrillation/flutter, and a composite measure of major adverse cardiovascular events (MACE). Propensity-matched pwMS who had deficient or inadequate 25(OH)D levels taking cholecalciferol were compared to pwMS and adequate 25(OH)D levels (not taking supplementation). Results: Amongst 74,372 pwMS, 9% had deficient 25(OH)D levels, 18% inadequate, and 73% adequate. Deficient, or inadequate 25(OH)D levels were associated with an increased rate of MACE (HR, 1.32 [95%CI: 1.19, 1.46], HR, 1.29 [95%CI: 1.20, 1.40], respectively) compared to those with adequate levels. Cholecalciferol supplementation in pwMS and deficient or inadequate 25(OH)D levels did not alleviate the higher CVD rate (HR, 1.39 [95%CI: 1.21,1.60], HR, 1.31 [95%CI: 1.17, 1.47], respectively) in comparison to those with adequate 25(OH)D levels taking no vitamin D supplementation. Conclusions: Deficient or inadequate 25(OH)D levels in pwMS were associated with an increased rate of MACE, which may not be mitigated by vitamin D supplementation.

Observational study of gadolinium-enhancing lesions in MRI in patients with multiple sclerosis from the Spanish Mediterranean coast: seasonal variability and relationship with climatic factors

IntroductionEnvironmental factors appear to play an important role in the development and course of Multiple Sclerosis (MS). Seasonal variability in disease activity has been described and it is postulated that it may vary according to geographical area. The aim of this study is to analyse the monthly distribution of activity observed on Magnetic Resonance Imaging (MRI) and to look for a possible relationship with climate in patients with relapsing remitting MS. Material and methodsRetrospective observational study, carried out in the population of one hospital on the Spanish Mediterranean coast. A total of 238 MRI scans of 51 patients were evaluated. Climatological data were obtained from the Spanish State Meteorological Agency from 2012 to 2016. Activity was defined as contrast-enhancing lesions. ResultsThe distribution of gadolinium-enhancing lesions was found to be non-uniform across months (p=0.008). Visual inspection suggests higher activity in July and August. Regarding weather, tropical nights (defined as days with a minimum temperature above 20°C) were associated with increased risk of MRI activity (OR=1.06, p=0.001). ConclusionThese findings suggest a non-uniform monthly distribution of gadolinium-enhancing lesions and an association between warmer nights and increased MRI activity, pointing to a potential impact of environmental factors on multiple sclerosis activity in neuroimaging.

Patient-reported disability progression outcomes among patients with multiple sclerosis: Results of an outcomes-based agreement.

Outcomes-based agreements (OBAs) are agreements between payers and manufacturers in which payment for medications is tied to patient outcomes. These contracts aim to measure the value of prescription medications on predefined clinical indicators in real-world patient populations. OBAs are gaining traction in the United States as the health care industry shifts from volume-based to value-based care. Multiple sclerosis (MS) is an appealing therapeutic area for OBAs because of its prevalence, high cost of medications, and multiple effective therapeutic options. To describe findings from an OBA that was prospectively conducted in a large regional health system for patients with MS taking interferon β-1a or dimethyl fumarate. In this prospective real-world analysis, commercial or health insurance exchange members were included based on the parameters of the OBA. Disability progression was assessed using a patient-reported outcome, patient-determined disease steps (PDDS). In the OBA, members aged 18 years or older with an MS diagnosis were included in the contract. A baseline score was collected for eligible members, with follow-up scores occurring between a 90-day and 180-day postbaseline score. If a follow-up score was greater than the baseline score, a subsequent PDDS score was collected between 90-days and 120-days to determine if the PDDS score remained elevated, indicating that the member had disability progression. During the contract period, 410 patients were eligible for PDDS collection, with 241 and 169 patients in the dimethyl fumarate and interferon β-1a cohorts, respectively. There were 162 patients who were lost to follow-up, and 64 patients who were ineligible per contract parameters. Of the remaining 184 eligible patients (107 on dimethyl fumarate and 77 on interferon β-1a), 21 (11%) patients had confirmed disability progression (6 on dimethyl fumarate [5.6%] and 15 on interferon β-1a [19.5%]). Our findings suggest that meaningful patient-reported outcomes, such as disability progression, can be operationalized in an innovative OBA.

Effect of Telerehabilitation-Based Motor Imagery Training on Pain and Related Factors in People with Multiple Sclerosis: Randomized Controlled Pilot Trial

ObjectivesTo investigate the effect of telerehabilitation-based graded motor imagery (MI,GMI) training on pain and pain-related factors in people with multiple sclerosis (MS). DesignRandomized controlled, assessor-blind pilot trial with repeated measure design. SettingNeurology outpatient clinic. ParticipantsThirty-two people with MS were randomly allocated to intervention (n=16) and control (n=16) groups. InterventionsDuring 8-week GMI training period, the first 2-weeks involved implicit MI training while 6-weeks explicit MI training were conducted. Main OutcomeThe primary outcome was the general pain intensity over the past two days, assessed with Visual Analogue Scale, with a minimum clinically important difference (MCID) of 23 mm. Secondary outcomes included general pain and specific body parts' pain intensity over the past seven days, neuropathic pain intensity, MI ability, fatigue, depression, anxiety, quality of life, sleep quality, daytime sleepiness and cognitive functions scores. Assessments were conducted at baseline, at weeks 8 (post-treatment) and 12 (follow-up). ResultsThe intervention group demonstrated a significant reduction in pain intensity over the past two days compared to control group (p<0.05). Furthermore, at the 8-week assessment, the intervention group surpassed the MCID in pain intensity over the past 2 and 7 days (p<0.05), whereas no significant change was observed in the control group (p>0.05). Significant effects were observed post-treatment on general pain over the past seven days, neuropathic pain, MI ability, fatigue, depression, quality of life, processing speed, and visuospatial memory within intervention group compared to control group (p<0.05). However, the impact on anxiety, sleep quality, daytime sleepiness, and verbal memory between groups were not significant (p>0.05). ConclusionTelerehabilitation-based GMI training stands out as viable for management of chronic pain and pain-related psychosocial symptoms for people with MS.

Exploring sleep-related disorders in patients with multiple sclerosis: A questionnaire-based approach

ABSTRACT Background: Multiple sclerosis (MS) is considered the most prevalent neurological disorder in young adults with many patients manifesting sleep-related disorders (SRD) due to its pathomechanisms. This is subsequently reflected in patients’ quality of life and physical activities. Material and Methods: This is a cross-sectional study at a tertiary care center. Patients diagnosed with MS were enrolled, and assessment of their sleep patterns and related disorders were measured using pre-validated scales. A questionnaire consisting of 38 items was used, and the obtained data were analyzed using RStudio software. Results: A total of 260 patients participated in the study. Most participants were aged 31–40 (n = 112) with a mean age of 36.49 ± 8.41 (age range: 18–56 years). The most used medications were rituximab (27%) and ocrelizumab (25%). Shapiro–Wilk Test was significant (P = 0.04) and just below the significance level of α = 0.05, suggesting potential significant deviation in the distribution of age. Logistic regression model was applied, and the female probability of sleeping more than six hours was 3.60 times the probability of sleeping six hours or less. Conclusion: Sleep quality is multifaceted and requires intensive investigation in patients with chronic disorders including MS. In this study, several novel data have been presented in a population that has very little literature data.

Non‐invasive Assessment of Cerebral Hemodynamics Using Resting‐State Functional Magnetic Resonance Imaging in Multiple Sclerosis and Age‐Related White Matter Lesions

ABSTRACTPerfusion changes in white matter (WM) lesions and normal‐appearing brain regions play an important pathophysiological role in multiple sclerosis (MS). However, most perfusion imaging methods require exogenous contrast agents, the repeated use of which is discouraged. Using resting‐state functional MRI (rs‐fMRI), we aimed to investigate differences in perfusion between white matter lesions and normal‐appearing brain regions in MS and healthy participants. A total of 41 MS patients and 41 age‐ and sex‐matched healthy participants received rs‐fMRI, from which measures of cerebral hemodynamics and oxygenation were extracted and compared across brain regions and study groups using within‐ and between‐group nonparametric tests, linear mixed models, and robust multiple linear regression. We found longer blood arrival times and lower blood volumes in lesions than in normal‐appearing WM. Higher blood volumes were found in MS patients' deep WM lesions compared to healthy participants, and blood arrival time was more delayed in MS patients' deep WM lesions than in healthy participants. Delayed blood arrival time in the cortical grey matter was associated with greater cognitive impairment in MS patients. Perfusion imaging using rs‐fMRI is useful for WM lesion characterization. rs‐fMRI‐based blood arrival times and volumes are associated with cognitive function.

Fear of Relapse Scale: Spanish version and psychometric characteristics in a sample of patients with Relapsing-Remitting multiple sclerosis

IntroductionRelapses are a hallmark of multiple sclerosis, being a characteristic feature of relapsing-remitting multiple sclerosis (RRMS). The occurrence of a relapse constitutes a source of significant discomfort that impacts all domains of daily life of patients with multiple sclerosis (PwMS). In this study we first explored the psychometric properties of the Spanish version of the Fear of Relapse Scale (FoR) in a sample of patients with RRMS. Besides, we explored the relationship between the Fear of Relapse Scale with fatigue and cognitive perceived deficits in our PwMS sample. MethodsAn online cross-sectional survey was conducted on 173 MS patients from 12 Spanish-speaking countries (Argentina, Mexico, Uruguay, Dominican Republic, Spain, Cuba, Colombia, Guatemala, Chile, Paraguay, Peru, and El Salvador). Confirmatory factor analysis (CFA) was performed to assess the factor structure of the scale. Multiple linear regression was used to evaluate the effects of health self-perception, fatigue, and perceived cognitive deficits over fear of relapse. ResultsThe three-factor model in the CFA yielded a good model fit (χ2/df = 2.25, P < .001, RMSEA = .078, CFI = .91). McDonalds’ Omega of the FoR (Spanish version) was .91. There was a statistically significant inverse correlation between FoR and health self-perception, and a positive correlation between FoR, fatigue, and perceived cognitive deficits. Finally, level of fatigue was a predictor of fear of relapse. ConclusionsThe Spanish version of the Fear of Relapse Scale is a valid and reliable instrument to explore the experience of fear of relapse in patients with RRMS.

Enhanced Neuroprotection in Experiment Multiple Sclerosis through Combined Rosiglitazone and Probiotic-Loaded Solid Lipid Nanoparticles: Modulation of Cellular Signaling Pathways.

Multiple sclerosis (MS) is a persistent autoimmune condition characterized by inflammation and neurodegeneration. The current efficacy of treatments is limited, which has generated interest in developing neuroprotective strategies. Solid lipid nanoparticles (SLNs) and probiotics are potential drug delivery vehicles for targeting the CNS (Central nervous system), regulating immune responses, and supporting neuroprotection in neurological conditions. The study investigates how SLNs containing RSG (rosiglitazone) and probiotics can protect the nervous system in cases of MS. We administered toxin EtBr (Ethidium bromide) from day 1 to day 7, later followed by the treatment from day 8 to day 35. During this time interval, various behavioural parameters have been performed. Further, after 35th day, blood plasma of animals was collected to study complete CBC profiling and animals were sacrificed. Then, biochemical and molecular studies, gross morphology of brain sectioning, histopathological evaluation and estimation of fatty acid content in fecal matter were performed. RSG shows neuroprotective effects by blocking the STAT-3 and mTOR signaling pathways and increasing the production of PPAR-gamma. GW9662, a PPAR-gamma antagonist given at a dose of 2 mg/kg (i.p), was utilized to evaluate the role of PPAR-gamma and to compare the efficacy of RSG and probiotic-loaded SLNs in potentially providing neuroprotection. The relationship between RSG and the STAT-3, mTOR, and PPAR-gamma pathways in MS was confirmed and validated using in-silico analysis. RSG and probiotic-loaded SLNs modulate the complete blood profiling of rats and improve the symptoms of MS. We assessed the diagnostic capabilities of different biological samples such as cerebrospinal fluid, blood plasma, and brain homogenates (specifically from the hippocampus, striatum, cortex, and midbrain) to analyze neurochemical changes linked to neurobehavioral changes in the progression of MS. The study showed that combining RSG and probiotics in an experimental medication form improved symptoms of MS more effectively than using RSG alone. This improvement is likely due to changes in STAT-3, mTOR, and PPAR-gamma signaling pathways.

Multiple Sclerosis Disease-Modifying Therapy Use in the Department of Veteran Affairs and Medicare: A Comparative Analysis

BackgroundHigh-cost disease-modifying therapies (DMT) for multiple sclerosis (MS) have created affordability challenges for people with MS (PwMS) and payers. The Department of Veterans Affairs (VA) is the largest integrated healthcare system in the US and uses a variety of approaches to manage utilization and cost of MS DMT. The objective of this paper is to compare national utilization trends in the VA to the US Medicare program, another large federal public healthcare program. MethodsCounts of PwMS prescribed DMT from 2012 to 2021 in the VA and Medicare programs were used to estimate changes utilization over this period. For each DMT, we estimated the proportion of all DMT users treated in each year. Trends in utilization were compared to identify differences in how these systems manage DMT use. We compared demographics and DMT use between PwMS in the VA to previously published estimates from a Medicare cohort of PwMS. ResultsDMT use in PwMS was comparable in VA and Medicare programs (65.9% vs 69.7%). In younger (<50 years) PwMS, DMT use was more prevalent in the VA compared to Medicare (85.8% vs 76.9%). Between 2012 and 2021, the proportion of patients on DMT using a lower-efficacy agent (interferon beta and glatiramer) declined in both the VA (90% to 32%) and Medicare (81% to 38%). Oral DMT use (primarily fumarates and sphingosine 1-phosphate [S1P] modulators) increased to a similar degree such that by 2021, 39% of patients in both systems were receiving oral DMT. Use of high-efficacy B cell depleting DMT (ocrelizumab, ofatumumab, and rituximab) was consistently higher in the VA than in Medicare. Despite the approval of generic glatiramer and dimethyl fumarate in 2015 and 2020 respectively, 49% of glatiramer and 58% of fumarate utilization in the Medicare program continued to be for a branded product in 2021. ConclusionsGreater DMT use among younger PwMS along with more frequent use of high-efficacy B cell depleting DMT in VA has the potential to reduce disability and attendant healthcare system costs. Generic DMT adoption in the Medicare program was lower than might be expected. Future studies should evaluate the relationship between DMT utilization, costs, and health outcomes in these populations.

CSF Parvalbumin Levels at Multiple Sclerosis Diagnosis Predict Future Worse Cognition, Physical Disability, Fatigue, and Gray Matter Damage.

Cognitive impairment (CI) in multiple sclerosis (MS) is frequent and determined by a complex interplay between inflammatory and neurodegenerative processes. We aimed to investigate whether CSF parvalbumin (PVALB), measured at the time of diagnosis, may have a prognostic role in patients with MS. In this cohort study, CSF analysis of PVALB and Nf-L levels was performed on all patients at diagnosis (T0) and combined with physical, cognitive, and MRI assessment after an average of 4 years of follow-up (T4) from diagnosis. Cognitive performance was evaluated with a comprehensive neuropsychologic battery: both global (cognitively normal, CN, mildly CI, mCI, and severely CI, sCI) and domain cognitive status (normal/impaired in memory, attention/information processing speed, and executive functions) were considered. Cortical thickness and gray matter volume data were acquired using 3T MRI scanner. A total of 72 patients with MS were included. At diagnosis, PVALB levels were higher in those patients who showed a worsening physical disability after 4 years of follow-up (p = 0.011). CSF PVALB levels were higher in sCI patients than in CN (p = 0.033). Moreover, higher PVALB levels significantly correlated with worse global cognitive (p = 0.024) and memory functioning (p = 0.044). A preliminary clinical threshold for PVALB levels at diagnosis was proposed (2.57 ng/mL), which maximizes the risk of showing CI (in particular, sCI) at follow-up, with a sensitivity of 91% (specificity 30%). No significant results were found for these associations with Nf-L. In addition, patients with higher levels of PVALB at diagnosis showed higher cognitive (p = 0.024) and global fatigue (p = 0.043) at follow-up. Finally, higher PVALB levels also correlated significantly with more pronounced CTh/volume at T4 in the inferior frontal gyrus (p = 0.044), postcentral gyrus (p = 0.025), frontal pole (p = 0.042), transverse temporal gyrus (p = 0.008), and cerebellar cortex (p = 0.041) and higher atrophy (change T0-T4) in the right thalamus (p = 0.038), pericalcarine cortex (p = 0.009), lingual gyrus (p = 0.045), and medial frontal gyrus (p = 0.028). The significant association found between parvalbumin levels in the CSF at diagnosis and cognitive, clinical, and neuroradiologic worsening after 4 years of follow-up support the idea that parvalbumin, in addition to Nf-L, might represent a new potential prognostic biomarker, reflecting MS neurodegenerative processes occurring since early disease stages.