View clinical trials related to Epilepsy.
Filter by:The objective is to understand how amygdala activation affects other medial temporal lobe structures to prioritize long-term memories. The project is relevant to disorders of memory and to disorders involving affect and memory, including traumatic brain injury and post-traumatic stress disorder.
The aim of the study is to use multiparametric cardiac MRI to identify any abnormalities in myocardial structure and function in patients with epilepsy. A two-stage study design is planned as part of the study: 1. In the acute setting, cardiac MRI will be performed in patients before and after a tonic-clonic seizure and compared intraindividually. In this study arm, potential acute seizure-induced myocardial damage will be detected. 2. In the chronic setting, cardiac MRI will be performed in patients with known chronic epilepsy during the seizure-free interval to detect potential chronic myocardial damage (myocardial fibrosis) and compared with a control population. Within the group of epilepsy patients, possible associations with various epilepsy-specific characteristics (e.g., form, cause, onset, duration, and severity of epilepsy) will be investigated.
Ketamine is a medication that came into clinical practice in the 1960's. Ketamine is used as an anesthetic and to provide pain relief. Recently, Ketamine was approved to treat drug resistant depression using subanesthetic doses. In the hospital setting, intravenous anesthetic dosages are used to treat unrelenting seizures known as status epilepticus in comatose patients. Ketamine in subanesthetic doses has not been tried as a treatment for medication resistant seizures in the outpatient setting. This study would like to examine the effectiveness of subanesthetic ketamine in outpatients who suffer from drug resistant epilepsy.
Temporal lobe epilepsy (TLE) is a chronically neurological disease characterized by progressive seizures. TLE is the most frequent subtype of refractory focal epilepsy in adults. Epilepsy surgery has proven to be very efficient in TLE and superior to medical therapy in two randomized controlled trials. According to the previous experience, the investigators use functional anterior temporal lobectomy (FATL) via minicraniotomy for TLE. To date, this minimally invasive open surgery has been not reported. The investigators here present a protocol of a prospective trail which for the first time evaluates the outcomes of this new surgical therapy for TLE.
A prospective non-invasive data/image collection for evaluation of the performance of the Advanced Scanners 3D scanner during brain surgery. The primary objective is to evaluate the performance of the scanner in determining the brain surface shape over multiple time points during craniotomies (surgical opening into the skull), and present those shapes in full color, with high resolution in all three coordinates of 3D space. A secondary objective is to use the measurements to determine brain shift as a function of time.
Patients with cryptogenic focal epilepsy (unknown cause) represent about the 30% of the entire population of epilepsy patients. Among them, about 30% are drug-resistant. The implementation of of high-field magnetic resonance imaging resolution, the new Next Generation Sequencing techniques,and innovative non-invasive neurophysiological methods (Electroencephalogram-Functional magnetic resonance imaging and High Density-Electroencephalogram) could provide a superior identification of the epileptogenic zone and therefore an increased access to epilepsy surgery. Despite this, patients with cryptogenic epilepsy require more frequently invasive methods of presurgical study and they have more unfavorable results than patients with lesions detectable on magnetic resonance imaging. Within this context, the study is aimed at integrating the neurophysiological, radiological, neuropsychological and genetic aspects of patients with focal cryptogenic epilepsy in order to evaluate their surgical eligibility,sparing invasive methods.
To evaluate the safety and efficacy of using NaviFUS™ system in patients with drug resistant epilepsy
This project will test the accuracy of a novel diffusion-weighted magnetic resonance imaging (DWMRI) approach using a deep convolutional neural network (DCNN) to predict an optimal resection margin for pediatric epilepsy surgery objectively. Its primary goal is to minimize surgical risk probability (i.e., functional deficit) and maximize surgical benefit probability (i.e., seizure freedom) by precisely localizing eloquent white matter pathways in children and adolescents with drug-resistant focal epilepsy. This new imaging approach, which will acquire a DWMRI scan before pediatric epilepsy surgery in about 10 minutes without contrast administration (and also without sedation even in young children), can be readily applied to improve preoperative benefit-risk evaluation for pediatric epilepsy surgery in the future. The investigators will also study how the advanced DWMRI-DCNN connectome approach can detect complex signs of brain neuronal reorganization that help improve neurological and cognitive outcomes following pediatric epilepsy surgery. This new imaging approach could benefit targeted interventions in the future to minimize neurocognitive deficits in affected children. All enrolled subjects will undergo advanced brain MRI and neurocognitive evaluation to achieve these goals. The findings of this project will not guide any clinical decision-making or clinical intervention until the studied approach is thoroughly validated.
The purpose of this study is to determine how effective a 6-week exercise program is for improving memory compared to a no-intervention control group, investigate the brain changes that may be responsible for memory improvements, and determine if the memory benefits and brain changes are retained 6 weeks after completing the exercise intervention in people with Idiopathic generalized epilepsy (IGE).
To conduct a retrospective multicenter cohort study to define surgical benchmark values for best achievable outcomes following surgery for mesial temporal lobe epilepsy. Established benchmark serve as reference values for the evaluation of future surgical strategies and approaches.