View clinical trials related to Drug Resistant Epilepsy.
Filter by:The main objective of MAPCOG_SEEG is to create a database including brain recordings of cognition performed in clinical routine in patients during the pre-surgical SEEG assessment. This aims to be able to propose the first atlas of human cognition with a high temporal and spatial resolution.
Gliomas are primitive brain tumors frequently associated with epilepsy. In a significant number of these patients epilepsy is resistant to antiepileptic drugs. There are currently no recommendations for the management of these drug-resistant epilepsies associated with glioma. In addition, few studies have addressed the subject and no treatment appears to be superior to others in the literature for this indication. In addition, many antiepileptic drugs pose problems of tolerance or interaction with chemotherapy in these patients. Fundamental studies on glioma-associated epilepsies have shown that there is a major dysregulation of glutamatergic systems involved in epileptogenesis and tumor growth. Targeting this glutamatergic system seems particularly interesting from a physiopathological point of view. Perampanel is a recent antiepileptic treatment with a novel mode of action targeting AMPA glutamate receptors. It has been shown to be effective in patients with drug-resistant epilepsies. He has demonstrated his tolerance in these patients. He has obtained a marketing authorization and is therefore used in routine epileptology without serious problems of tolerance being reported. It is neither an inducer nor an enzyme inhibitor, avoiding the problems of interaction with chemotherapy and is used in a daily dose facilitating compliance. Therefore, there may be specific antiepileptic efficacy of perampanel in patients with glioma. Nevertheless, the only current data is limited to a retrospective study of 12 patients. The objective of this protocol is to evaluate the efficacy and safety of perampanel in patients with glioma with drug-resistant epilepsy. a prospective randomized study with two parallel arms: antiepileptic combination therapy with perampanel and antiepileptic combination therapy without perampanel (free choice of the practitioner). The main criterion of judgment will be the decrease of the monthly frequency of crisis. Secondary endpoints will assess tolerance, efficacy on responder rate (at least 50% decrease in seizure frequency), seizure severity (secondary generalization, loss of consciousness), and quality. patients' lives (quality of life questionnaires, side effects and anxiety / depression). The duration of participation per patient will be 23 weeks (6 weeks of baseline, 5 weeks of titration and 12 weeks of maintenance). The recruitment period will be 3 years. Investigators plan to recruit 120 patients. In the context of no recommendation in the management of these patients, superior efficacy of perampanel compared with other antiepileptic drugs is expected. This would allow targeted treatment in this population and confirm the tolerance of this treatment in these patients.
This study will investigate whether a Vagal Nerve Stimulator (VNS) causes measurable desynchronization and reduces epileptiform activity, such as spikes and seizures, in electrocorticograms (ECOGs) recorded by a Responsive Neurostimulator (RNS) in patients who have both devices implanted. Specific aims of the study: 1. Evaluate the change in frequency of epileptiform discharges during active VNS stimulation compared to interstimulation baseline periods 2. Evaluate the change in frequency of seizures during active VNS stimulation compared to interstimulation baseline periods 3. Evaluate the change in the number of RNS activations during active VNS stimulation compared to interstimulation baseline periods 4. Evaluate the change in synchronization of background ECoG (electrocorticogram) during VNS stimulation compared to interstimulation baseline periods.
This is an open-label randomized controlled tria testing if an improvement in cardiovascular fitness can improve quality of Life and reduce seizure frequency in patients with refractory epilepsy.. Before the intervention each subject will undergo an evaluation of baseline cardiovascular fitness. Patients will be randomized into two groups One group will listen to a relaxation tape 5 days per week for 6 months and the other group will receive a ergometric cycle and perform a predetermined level of exercise per day , 5 days per week for 6 months. Randomization will be conducted an external randomization center based on a sequence of random numbers. Changes in concomitant antiepileptic drugs (AED) treatment during the study will be minimized, and restricted to AED changes deemed to be necessary to address AED-related toxicity. Medical examination; body weight; fitness test, including ECG and BP measurements, seizure frequency; adverse effects (unstructured interview); details of concomitant concomitant treatment, mood assessment by using the Hospital Anxiety and Depression Scale-Anxiety (HADS); health related quality of life (RAND-36), E4-data downloading, will be done at baseline and after 6 months Primary endpoint: Proportion of patients with at least 50% seizure reduction Secondary endpoints: Median percent reduction in seizure frequency, HADS score, RAND-36 score, fitness score; adverse events, changes in concomitant AED treatment, E4 data .
This study consist of define anatomo-functional reorganization (plasticity) profiles for the mentioned cognitive functions, before surgery (chronic plasticity induced by the epileptogenic zone) in patients with drug-resistant epilepsy. For that, patients will have 2 MRI examinations, one before surgery and the second, between 3 and 8 months after surgery.
This study evaluates to what extend electrical source imaging (ESI) provides nonredundant information in the evaluation of epilepsy surgery candidates. Epilepsy surgery normally requires an extensive multimodal workup to identify the epileptic focus. This workup includes Magnetic Resonance Imaging (MRI), electroencephalography (EEG) without source imaging, video monitoring and when needed Positron Emission Tomography (PET), Magnetoencephalography (MEG), Single Photon Emission Computed Tomography (SPECT) and invasive EEG recordings using implanted electrodes. ESI estimates the location of the epileptic source with a high sensitivity and specificity using inverse source estimation methods on non-invasive EEG recordings. This study aims to investigate the clinical utility of ESI using low-density (LD, 25 channels) and high-density (HD, 256 channels) EEG. Clinical utility is defined in this study as the proportion of patients in whom the patient management plan was changed, based on the results of ESI. Should ESI be added to the routine work-up of epilepsy surgery candidates.
Multicenter global post-market registry of subjects diagnosed with drug resistant epilepsy and treated with the VNS Therapy System.
Almost all patients with epilepsy living in the region of Paris have vitamin D deficiency, which is severe in 1/3 of the cases. The impact of this deficiency on epilepsy is unknown, despite the suggested benefits of vitamin D therapy including better seizure control and improvement of comorbidities (fatigue, anxiety, depression) in drug-resistant patients. Recommendations for vitamin D supplementation based on the serum level in the general population cannot be applied to patients with epilepsy due to interference of antiepileptic drugs in the vitamin D metabolism. Animal models, mechanisms of action studies and ecological information provide objective data for a direct antiepileptic effect of vitamin D. Human studies seem to confirm the antiepileptic effect of vitamin D but there are no controlled studies on large populations. The investigators aim to assess prospectively the effect of the treatment of vitamin D deficiency providing a high level of evidence. The investigators propose a multicentre placebo controlled randomized double-blind study, testing vitamin D supplementation against placebo in 400 drug-resistant patients to assess the short-term (3 months) and long-term (1 year) benefits on epilepsy. The investigators hypothesize that the treatment of vitamin D deficiency will result in significant reduction of seizure frequency, and improvement of comorbid symptoms as well as quality of life. The impact on the care of patients is important because better epilepsy control allows reduction of the antiepileptic drugs and side effects. This again is a key for the recovery of social and professional activities, and reduction of costs related to the disease.
Drug resistant epilepsy constitutes about one third of all children diagnosed with epilepsy. Although ketogenic diet is being used for drug resistant epilepsy for almost hundred years, its restrictiveness and adverse effects interferes with its compliance. So less restrictive alternatives like Low Glycemic Index Therapy diet is gradually becoming more popular and its effectiveness is well established. Still the restrictiveness of such monotonous diets is one of the most significant issues for long term maintenance of children on dietary therapy. In this study, we are planning to compare the efficacy of daily and intermittent Low Glycemic Index therapy Diet in children aged 1-15 years with drug resistant epilepsy in a open labelled randomized controlled non-inferiority trial. The children in intermittent LGIT arm will receive the dietary therapy for five days of each week, alternating with a liberal diet on the rest of the two days of the week.
This is a two-part study that aims to determine the reliability and safety of the use of the Hövding inflatable helmet in seizures, as evidenced by the deployment of the helmet during seizures, and qualitative patient reporting.