Multiple sclerosis and epilepsy: much more than a coincidence

Epileptic Seizures As the Sole Presentation of a Radiologically Isolated Syndrome: A Case Report and Review of the Literature

Multiple sclerosis (MS) is the most prevalent long-term inflammatory condition affecting the central nervous system in adults. However, seizures are rarely described as the first presentation of MS or as a sole manifestation of radiologically isolated syndrome (RIS) or clinically isolated syndrome (CIS). The diagnosis of MS typically requires clinical evidence of neurological deficits and supportive radiological findings; however, RIS is characterized by incidental magnetic resonance imaging (MRI) findings suggestive of MS in the absence of clinical symptoms. The management of RIS remains a subject of ongoing debate. Although the majority of individuals with RIS remain clinically asymptomatic, the presence of radiological lesions suggests a potential risk for progression to clinically definite MS. The decision to initiate disease-modifying therapies (DMTs) in RIS is influenced by factors such as lesion burden, lesion characteristics, and patient risk factors for conversion to MS. The association between RIS and epilepsy is not well established, and the timing of initiating long-term treatment in such cases remains uncertain. In cases where seizures occur in the context of RIS or CIS, it is important to balance the treatment of epilepsy with the careful monitoring of disease progression. While antiepileptic drugs (AEDs) may be necessary to control seizures, early initiation of DMTs may be considered to prevent further neurological damage and clinical exacerbations, particularly in patients with high-risk features on MRI. We report the case of a 29-year-old woman with no previous medical history who presented with an inaugural generalized tonic-clonic seizure with numerous MS-like demyelinating lesions in the supratentorial, brainstem and medullary areas and the presence of cerebrospinal fluid-specific oligoclonal bands. The AEDs were started after the second occurrence of seizures, raising the question of the mean time to start long-term treatment in MS/RIS/CIS disease.

Coexistence of epilepsy or seizure and multiple sclerosis; review of the literature with a single center experience

OBJECTIVES

There is evidence that the inflammatory demyelinating disorder in Multiple Sclerosis (MS) is associated with acute seizures and epilepsy. Additionally, the likelihood of developing epilepsy increases with neurodegeneration. This study aims to reveal the clinical and radiological features of MS-epilepsy/seizure coexistence.

METHODS

Among all patients diagnosed with MS that we followed in our center between April 2002 and July 2023, patients with a single seizure history or diagnosed with epilepsy (MS-seizure/epilepsy) were randomized 1:1 in terms of age and gender with MS patients without a diagnosis of epilepsy or seizures. Clinical (comorbidities, annualized relapse rate, disability, seizures during attacks, initial diagnosis, disease duration, disease-modifying therapies (DMTs), refractory epilepsy, anti-seizure drugs), electroencephalography (EEG) and MRI (lesion localization and new lesion(s)) data were retrospectively evaluated.

RESULTS

The mean EDSS was 4.07±2.81. 29.4 % of patients had progressive MS (n = 10). Refractory epilepsy was 52.9 % (n = 18), and SE history was 14.7 % (n = 5). Pathology was detected in 69.7 % (n = 23) of patients in the EEG. The most common slow wave activation was detected in 51.5 % (n = 17). Refractory epilepsy was more common in cases under 45 and patients with lesions in thalamic localization. Lesions in the temporal and thalamic regions and cerebral atrophy were more common in the MS-seizure/epilepsy group.

CONCLUSION

Patients with demyelinating lesions in the temporal and thalamic regions should be questioned more carefully for epilepsy, and an EEG should be performed in case of clinical suspicion. Since thalamus lesions are more common in patients with refractory epilepsy, anti-seizure treatment strategies should be applied more carefully. The presence of atrophy on MRI confirms the link between neurodegeneration processes and the development of epilepsy.

Clinical characteristics, course and prognosis of Multiple Sclerosis patients with epilepsy. A case control study: MS and epilepsy

BACKGROUND AND PURPOSE

Although more common than in the general population, seizures are an atypical manifestation of multiple sclerosis (MS) and their pathophysiology is not well understood. This study aims to examine the prevalence, clinical characteristics, brain imaging findings and course of epilepsy, presenting in patients with MS.

METHODS

Observational retrospective study of MS patients evaluated at a single MS reference center in Buenos Aires, Argentina, between 2011 and 2022, focusing on those who developed epilepsy (EMS). Clinical, demographic, and prognostic factors were evaluated and compared to a control group of non-epileptic MS patients (NEMS). To analyze specific epilepsy characteristics, a second control group of patients with non-lesional focal epilepsy (FNLE) was also included.

RESULTS

Twenty-five patients (18 women), were diagnosed with epilepsy, corresponding to a prevalence of 1.95%. Comparison of brain imaging characteristics between EMS and NEMS patients showed brain atrophy (32% vs 6.1%, p<0.01), as well as cortical (26% vs 4%, p=0.03) and juxtacortical lesions (84% vs 55%, p=0.05), were more frequent in EMS patients. However, after multivariate analysis, cortical atrophy was the only variable linked to a significant increase in risk of epilepsy (OR 24, 95%CI=2.3-200, p<0.01). No significant differences in clinical characteristics, disease activity, disability levels, response to disease modified treatment (DMT) or lack of DMT efficacy were observed between MS patients with or without epilepsy. Most patients received anti-seizure medication (ASM), and seizure control was better in EMS than in FNLE patients (92% vs 58%, p=0.022) with no differences found in drug resistance. We did not find predictors of seizure recurrence in the population studied.

CONCLUSION

We observed a lower prevalence of epilepsy in this group of MS patients, compared to other reported cohorts. Although epilepsy seems to have a benign course in MS patients, cortical atrophy appears to be an important contributor to the development of secondary epilepsy in MS patients. Further investigations will be necessary to identify risk factors or biomarkers predicting increased epilepsy risk in MS.

Assessment of bidirectional relationships between multiple sclerosis and epilepsy: A two-sample Mendelian randomization study

BACKGROUND AND OBJECTIVE

Epidemiological studies indicate that multiple sclerosis (MS) is associated with epilepsy. However, the causality and directionality of this association remain under-elucidated. This study aimed to reveal the causality between MS and epilepsy.

METHODS

A two-sample Mendelian randomization (MR) analysis was performed by using summarized statistics derived from large genome-wide association studies of MS and epilepsy. We used the inverse variance weighted method as the primary approach, and then four other MR methods to bidirectionally evaluate the causality of the association between MS and epilepsy. Additional sensitivity analyses were performed to measure the robustness of the findings.

RESULTS

Genetically predicted MS was positively correlated with developing all epilepsy [odds ratio (OR) = 1.027 (1.003-1.051), P  =  0.028] and generalized epilepsy [OR = 1.050 (1.008-1.094), P = 0.019]. In the reverse MR analysis, all epilepsy [OR = 1.310 (1.112-1.543), P = 0.001], generalized epilepsy [OR = 1.173 (1.010-1.363), P = 0.037], and focal epilepsy [OR = 1.264 (1.069-1.494), P  =  0.006] elevated the risk of developing MS. The result remained robust and congruous across all sensitivity analyses conducted.

CONCLUSIONS

MS is potentially associated with a higher risk of developing epilepsy. Furthermore, epilepsy may be a causal determinant of MS risk. These findings may further the understanding of the interaction of the two conditions.

ThalaMS: New Evidence Linking Epilepsy, Multiple Sclerosis, and the Thalamus

Modulation of Pacemaker Channel Function in a Model of Thalamocortical Hyperexcitability by Demyelination and Cytokines

Chaudhary R, Albrecht S, Datunashvili M, Cerina M, Lüttjohann A, Han Y, Narayanan V, Chetkovich DM, Ruck T, Kuhlmann T, Pape HC, Meuth SG, Zobeiri M, Budde T. Cerebral Cortex. 2022 Jan 25;bhab491. doi:10.1093/cercor/bhab491.

A consensus is yet to be reached regarding the exact prevalence of epileptic seizures or epilepsy in multiple sclerosis (MS). In addition, the underlying pathophysiological basis of the reciprocal interaction among neuroinflammation, demyelination, and epilepsy remains unclear. Therefore, a better understanding of cellular and network mechanisms linking these pathologies is needed. Cuprizone-induced general demyelination in rodents is a valuable model for studying MS pathologies. Here, we studied the relationship among epileptic activity, loss of myelin, and pro-inflammatory cytokines by inducing acute, generalized demyelination in a genetic mouse model of human absence epilepsy, C3H/HeJ mice. Both cellular and network mechanisms were studied using in vivo and in vitro electrophysiological techniques. We found that acute, generalized demyelination in C3H/HeJ mice resulted in a lower number of spike-wave discharges, increased cortical theta oscillations, and reduction of slow rhythmic intrathalamic burst activity. In addition, generalized demyelination resulted in a significant reduction in the amplitude of the hyperpolarization-activated inward current (Ih) in thalamic relay cells, which was accompanied by lower surface expression of hyperpolarization-activated, cyclic nucleotide-gated channels, and the phosphorylated form of TRIP8b (pS237-TRIP8b). We suggest that demyelination-related changes in thalamic Ih may be one of the factors defining the prevalence of seizures in MS.

Bioinformatic analysis identifies potential key genes of epilepsy

Background

Epilepsy is one of the most common brain disorders worldwide. It is usually hard to be identified properly, and a third of patients are drug-resistant. Genes related to the progression and prognosis of epilepsy are particularly needed to be identified.

Methods

In our study, we downloaded the Gene Expression Omnibus (GEO) microarray expression profiling dataset GSE143272. Differentially expressed genes (DEGs) with a fold change (FC) >1.2 and a P-value <0.05 were identified by GEO2R and grouped in male, female and overlapping DEGs. Functional enrichment analysis and Protein-Protein Interaction (PPI) network analysis were performed.

Results

In total, 183 DEGs overlapped (77 ups and 106 downs), 302 DEGs (185 ups and 117 downs) in the male dataset, and 750 DEGs (464 ups and 286 downs) in the female dataset were obtained from the GSE143272 dataset. These DEGs were markedly enriched under various Gene Ontology (GO) terms and Kyoto Encyclopedia of Genes and Genomes (KEGG) terms. 16 following hub genes were identified based on PPI network analysis: ADCY7, C3AR1, DEGS1, CXCL1 in male-specific DEGs, TOLLIP, ORM1, ELANE, QPCT in female-specific DEGs and FCAR, CD3G, CLEC12A, MOSPD2, CD3D, ALDH3B1, GPR97, PLAUR in overlapping DEGs.

Conclusion

This discovery-driven study may be useful to provide a novel insight into the diagnosis and treatment of epilepsy. However, more experiments are needed in the future to study the functional roles of these genes in epilepsy.