VNS Nerve Stimulation in Epilepsy through Lifespan

Vagus nerve stimulation (VNS) has emerged as a significant therapeutic intervention for individuals with drug-resistant epilepsy (DRE) throughout their lifespan. DRE is a debilitating condition characterized by recurrent seizures that do not respond to traditional antiepileptic drugs, imposing substantial physical, cognitive, and emotional burdens on patients. VNS involves the implantation of a device that delivers electrical impulses to the vagus nerve, a major nerve connecting the brain to various organs. The mechanism of action is complex and not yet fully understood, but VNS has been found to modulate abnormal electrical activity in the brain, reducing the frequency and severity of seizures. This non-pharmacological approach offers a valuable alternative for patients who have exhausted conventional treatment options, improves their quality of life, and provides hope for seizure control. Importantly, VNS has demonstrated efficacy across different age groups, from children to adults, making it suitable for lifelong management of DRE. Furthermore, long-term studies have shown sustained benefits and safety of VNS, with potential positive effects on cognitive function and mood regulation. As a result, VNS represents a promising adjunctive therapy that can significantly impact the lives of individuals with drug-resistant epilepsy, offering them renewed hope and the potential for a better future

Epilepsy and Acute Respiratory Syndrome – Related Coronavirus 2 (SARS-CoV-2): Are people with epilepsy at risk?

In February 2020, the pandemic disease designated COVID-19, caused by Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) has shown to be able to cause severe illness in some patients. Recent studies have hypothesized that the SARS-CoV-2 exploits the angiotensin-converting enzyme 2 (ACE2) receptor to gain entry inside the cells and so reach the central nervous system1. Amid this context, we have about 50 million people with epilepsy taking antiseizure drugs (ASDs) and or other medications (eg.: steroids, Cannabidiol, etc.) that are at risk to be infected by SARS-CoV-2 virus. So, we did an extensive review in the literature searching for recent studies that had explored the effects of the role of SARS-CoV-2 infection and epilepsy. We did not find evidence of poor outcomes between epilepsy and COVID-19. Regarding ASDs, we have found that enzyme inducers and inhibitors can have significant interactions with drugs that have been used to treat COVID-19 such as antiretrovirals, antibiotics, and antimalarial drugs. In contrast, others have fewer or no interactions with them as such as benzodiazepines, Lamotrigine, Levetiracetam, Topiramate, Perampanel, and so on. Besides that, the management of seizures in epileptic patients and status epilepticus should not be different from the usual protocol. However, the acknowledgment of these potential drug interactions could help in the right choice of ASDs, and also be aware of potential risk drug combinations and the importance in some cases of close monitoring of serum levels and adverse events

Ketogenic Diet and Epilepsy: What We Know So Far

The Ketogenic Diet (KD) is a modality of treatment used since the 1920s as a treatment for intractable epilepsy. It has been proposed as a dietary treatment that would produce similar benefits to fasting, which is already recorded in the Hippocratic collection. The KD has a high fat content (90%) and low protein and carbohydrate. Evidence shows that KD and its variants are a good alternative for non-surgical pharmacoresistant patients with epilepsy of any age, taking into account that the type of diet should be designed individually and that less-restrictive and more-palatable diets are usually better options for adults and adolescents. This review discusses the KD, including the possible mechanisms of action, applicability, side effects, and evidence for its efficacy, and for the more-palatable diets such as the Modified Atkins Diet (MAD) and the Low Glycemic Index Diet (LGID) in children and adults

Neurological implications of SARS-CoV-2 infection: review of literature

The infection caused by the new coronavirus had its first case described in December 2019, in Wuhan, China, and reached a pandemic status in March 2020. Since then, knowledge about the different aspects of this infection has evolved, as well as increased reports concerning related neurological manifestations. Thus, the neurologist assumes a fundamental role in the care of these patients, who may have a clinical phenotype that goes beyond respiratory aspects. In the present study, we highlight the data available in the literature so far regarding the main neurological implications related to COVID-19 infection, in addition to calling attention for some aspects related to patients with previous neurological diseases who contract this infection

Neuromodulation in refractory epilepsy: Brazilian specialists consensus

ABSTRACT Epilepsy is a potentially devastating brain disorder characterized by a predisposition to spontaneous epileptic seizures. In patients with medically refractory epilepsy, new non-pharmacological therapeutic approaches may be considered. In this scenario, palliative surgery such as vagus nerve stimulation (VNS) or deep brain stimulation (DBS) may be indicated in a subset of patients. In this paper we make recommendations for the use of VNS and DBS in patients in Brazil with refractory epilepsy

Vagus nerve stimulation therapy in people with drug-resistant epilepsy (CORE-VNS): rationale and design of a real-world post-market comprehensive outcomes registry

Introduction The Vagus Nerve Stimulation Therapy System (VNS Therapy) is an adjunctive neuromodulatory therapy that can be efficacious in reducing the frequency and severity of seizures in people with drug-resistant epilepsy (DRE). CORE-VNS aims to examine the long-term safety and clinical outcomes of VNS in people with DRE.Methods and analysis The CORE-VNS study is an international, multicentre, prospective, observational, all-comers, post-market registry. People with DRE receiving VNS Therapy for the first time as well as people being reimplanted with VNS Therapy are eligible. Participants have a baseline visit (prior to device implant). They will be followed for a minimum of 36 months and a maximum of 60 months after implant. Analysis endpoints include seizure frequency (average number of events per month), seizure severity (individual-rated categorical outcome including very mild, mild, moderate, severe or very severe) as well as non-seizure outcomes such as adverse events, use of antiseizure medications, use of other non-pharmacological therapies, quality of life, validated measures of quality of sleep (Pittsburgh Sleep Quality Index or Children’s Sleep Habit Questionnaire) and healthcare resource utilisation. While the CORE-VNS registry was not expressly designed to test hypotheses, subgroup analyses and exploratory analysis that require hypothesis testing will be conducted across propensity score matched treatment groups, where possible based on sampling.Ethics and dissemination The CORE-VNS registry has already enrolled 823 participants from 61 centres across 15 countries. Once complete, CORE-VNS will represent one of the largest real-world clinical data sets to allow a more comprehensive understanding of the management of DRE with adjunctive VNS. Manuscripts derived from this database will shed important new light on the characteristics of people receiving VNS Therapy; the practical use of VNS across different countries, and factors influencing long-term response.Trail registration number NCT03529045