View clinical trials related to Epilepsy.
Filter by:This observational natural history study will follow individuals with MEHMO (Mental disability, Epileptic seizure, Hypopituitarism/Hypogenitalism, Microcephaly, Obesity) syndrome or an eIF2-pathway related disorder, who have symptoms such as intellectual delay, seizures, abnormal hormone and blood sugar levels, and decreased motor skills. No current treatment for these conditions is available. A major impediment to the testing of potential therapeutic interventions is the lack of well-defined outcome measures. This protocol seeks to identify biochemical and clinical markers to monitor disease progression, and better understand the natural history of these conditions. Any person diagnosed with MEHMO syndrome or related conditions, who can travel to the NIH Clinical Center can participate in this study. The study involves: - General health assessment and evaluation - Imaging studies - Laboratory tests - Collection of blood, urine, spinal fluid, skin biopsy.
This Anchillary project uses a refined technique of ultrasound-guided microneurography of the human cervical vagus nerve, an approach developed by Professor Vaughan Macefield and used safely to-date in 44 prior study participants. The overall goal of this project is to build upon prior data obtained using this approach by undertaking a detailed neurophysiological investigation of the human vagus nerve and to identify the nerve fibers activated during vagal nerve stimulation (VNS) in participants with implanted VNS devices in response to different stimulation parameters. In addition to providing data in unprecedented detail into the physiology of the human vagus nerve, this project will investigate different stimulus intensities, durations and frequencies that differentially excite myelinated and unmyelinated nerve fibers. These results will inform the CSP and guide future development of novel neural interfaces for VNS for various clinical applications.
The objective of the prospective monocentric pilot trial is to investigate the influence of intermittent fasting with or without a once-daily intake with medium chain triglycerides (MCTs) on the frequency of seizures in patients with therapy-refractory epilepsy. The effects of 12 weeks intermittent fasting according to the 16:8 method (IF 16:8) are compared to 12 weeks intermittent fasting with additional intake of exogenous MCTs (IF MCT 16:8) in a within-subject-crossover-design in 28 patients with drug-resistant epilepsy.
The investigators propose a behavioral experiment with SEEG recording and stimulation, to both confirm the role of a brain region known as the anterior insula in identifying surprise, and disambiguate between competing principles behind adaptation: optimizing and satisficing. Optimizers continue to learn and adapt if performance can be improved, while satisficers are satisfied with a good enough performance and will cease adapting once that is reached. To study surprise signals in the anterior insula, a brain structure where these signals have been very prominent, the investigators will employ an experiment with subjects who are under SEEG (stereoelectroencephalogram) recording, that is, recording from electrodes which have been surgically implanted in the brain. These recordings will be done as patients perform a task where they try to anticipate the movements of a target on a line in two different learning environments (conditions). The experimenters will then determine whether these signals reflect surprise relative to past engagement with the environment, or surprise that reveals that the agent no longer feels in control because uncertainty is not in line with the reference model. If evidence is consistent with the former, adaptation reflects traditional reinforcement and aims at optimizing behavior. If evidence instead is consistent with the latter, behavior is guided by a prior model (a reference model) and behavior is satisficing. An fMRI study by d'Acremont and Bossaerts provides initial evidence that activation in the anterior insula supports the satisficing hypothesis, however it lacks the temporal granularity to completely rule out optimizing. In the current project, the investigators propose to use the higher time resolution of SEEG recordings to confirm these findings and reject the optimizing hypothesis. Additionally, stimulations of the anterior insula during a subset of trials will be used to determine whether insular activation following surprise signals and preceding changes in behavior (learning) is merely correlational or in fact causal. Stimulation will allow us to determine to what extent the subjects' sense of control and subsequent behavior can be influenced in accordance with surprise-based modeling of behavior. The cohort for this study will be patients with drug-resistant, focal epilepsy and who are hospitalized at the Hôpitaux Universitaires de Genève (HUG) for pre-surgical evaluation of their epilepsy using SEEG. The protocol will run in parallel with the patients' clinical procedures.
To evaluate the performance of automatic stimulation mode of a new rechargeable implantable vagus nerve stimulation system for drug-refractory epilepsy
The goal of this clinical trial is to learn if new educational program prior to epilepsy surgery can either decrease the risk of cognitive decline after surgery or be a help to those patients who experience a decline after undergoing epilepsy surgery. Participants will participate in 2 individual virtual sessions and 4 virtual group sessions over the course of 5-6 weeks prior to their epilepsy surgery. They will asked to fill out online surveys and questionnaires at various times throughout the study, up to 12 months after their surgery. To see if the educational program works, researchers will compare those participating in the educational program with those that are receiving the standard epilepsy care prior to surgery.
The purpose of this study is to compare organization of normal brain function as detected using Functional magnetic resonance imaging (fMRI) in normal subjects as opposed to patients with epilepsy or brain tumors, to ascribe precise anatomic labels (including Brodmann Areas) and functional significance to each region involved in cognitive processes as detected by cortical stimulation mapping (CSM) in patients with implanted subdural electrodes (SDE) or depth (sEEG) electrodes, to describe the locations of these regions in Talairach space, for a population of patients without overt structural abnormalities in these regions, to generate a spatial probability map of locations of cortical regions "essential" for these processes, to compare the loci of "crucial" language, visual, motor and cognitive sites as determined by CSM with the loci determined by a battery of tasks using fMRI for each individual and to use these data in patients undergoing intracranial electro-corticographyto determine the loci of essential, involved and uninvolved brain areas, and use sophisticated mathematical analyses of these intracranial recordings to study information flow between these areas.
According to the random number table, all patients were divided into short-term treatment group, long-term treatment group and non-intervention stroke control group according to the proportion of (1:1:1) epilepsy disease modifier idebenone. Patients in the short-term treatment group will take idebenone for a total course of 14 days (acute period) after stroke, and patients in the long-term treatment group will take idebenone for a total course of 3 months after stroke.
Participants will perform Mini-Mental State Examination (MMSE), Montreal Cognitive Assessment (MoCA), Clinical Dementia Rating (CDR), Alzheimer's disease assessment scale-cognitive section (ADAS-Cog), Hamilton Anxiety Scale (HAMA) and Hamilton Depression Rating Scale (HAMD) evaluation. The patients will be randomly divided into two groups, treated with lacosamide and levetiracetam respectively, and maintained for 6 months. Researchers will compare the lacosamide group with the levetiracetam group to see if the improvement of cognitive function in the two groups.
This study has been planned to compare the efficacy and tolerability of topiramate, a commonly used second line agent, with modified Atkins diet in children with epileptic spasms refractory to hormonal treatment, in a randomized open label study.