View clinical trials related to Epilepsies, Partial.
Filter by:The purpose of this study is to assess the efficacy, safety, pharmacokinetics, and pharmacodynamics of satralizumab in participants with anti-N-methyl-D-aspartic acid receptor (NMDAR) and anti-leucine-rich glioma-inactivated 1 (LGI1) encephalitis.
This project is a multicenter prospective study. By retrieving outpatient medical records and collecting clinical data of epilepsy patients, the efficacy and safety of single-drug perampanel in patients with focal epilepsy were analyzed.
The ENACT trial is designed to evaluate the efficacy and safety of ENX-101 administered adjunctively to current therapy in reducing seizure frequency in patients diagnosed with focal (partial onset) epilepsy and treated with 1 to 4 antiseizure medications yet still experiencing seizures.
This is a monocentric, open-label clinical study, presenting a retrospective part and a prospective part, studying the data of patients with drug-resistant focal epilepsies and treated with the combination of stiripentol (Diacomit®) and Carbamazepine.
Ιn the present study (BIOEPI), the following three hypotheses will be investigated: 1. The proposed TMS-EEG / EMG protocol (which includes software for calculating the cerebral cortex stimulation threshold) in combination with advanced signal analysis and data mining methods will allow the detection of the effect of antiepileptic drugs (AED) with different mechanisms of action (lacosamide & brivaracetam) in the Central Nervous System under healthy and pathological conditions (Epilepsy). 2. AED-induced changes in selected TMS-EEG / EMG features predict the clinical response of individual epileptic patients to AED. 3. AED-induced changes in selected TMS-EEG / EMG features may predict cognitive side effects.
To assess the magnitude and duration of reduction in RNS recorded Detections and Long Episodes following intranasal administration of Valtoco®. All participants will have been implanted and treated with an RNS system for clinical purposes and regularly upload Detection and Long Episode data on a regular basis as part of regular clinical treatment. Participants will come to the clinic and be administered a single dose of Valtoco® via nasal spray. RNS recorded Detections and Long Episodes before and after Valtoco® administration will be compared. This is a pilot study, so all outcomes are exploratory.
Therapeutic thermocoagulation will be carried out in patients with drug-resistant focal epilepsy in cases where an epileptogenic zone is found and proven according to stereo-electroencephalography (SEEG) data.
Laser Induced Interstitial Thermal Therapy (LITT) is a "minimally invasive" procedure that uses the heat generated by a laser light (65°) to destroy brain lesions by coagulation leading to lesion necrosis under real-time MRI monitoring. The laser optical fiber is implanted into the lesion using stereotaxy. This technique, which can be performed under local anesthesia and on an outpatient basis, proved its efficacy and safety in the treatment of brain metastases for the first time in the world in 2006 (A. Carpentier et al, 2008, 2011). Since then, more than 5,000 patients have been treated in the USA, including for epileptogenic lesions (FDA device and CE cleared). Our goal is to evaluate LITT on lesions with drug-resistant epilepsy for which surgical resection is impossible. No therapeutic trial evaluating LITT in this indication has been performed to date. It is therefore necessary to study its feasibility and tolerance.
The most prevalent neurological disorder with also immense burden of disease, epilepsy, is in over 30 percent of patients difficult to treat. The ideal treatment regime would give complete control of disease in an early stage, not only for patient well-being, but also to prevent the onset of persistent pathologic epileptic networks in the brain. The first step in treatment is the trial, and error, of multiple anti-epileptic drugs (AEDs), while invasive brain stimulation (BS) techniques with network modulating properties are saved as a last resort. The investigators hypothesize that pharmacotherapeutic treatment of epilepsy can be more successful after "priming" (preparing) the brain using BS as a short-term neuromodulation treatment. The limitation of testing this hypothesis is the invasive aspect of the most used classic vagal nerve stimulation (VNS) treatment for epilepsy, but the recent development of transcutaneous vagal nerve stimulation (tVNS) offered a possibility to combine chemical and electrical modulation in an earlier stage of disease, which is not tested before. The investigators want to determine the priming effect on the epileptic brain of tVNS, to make it more susceptible to add-on treatment with Brivaracetam (BRV), an AED. In addition, the investigators aim to visualize these changes in the brain because of priming, possibly altered network-organisation.
Multicentre cross-sectional study with prospective recruitment comparing the detection rate of lesions on brain MRI without and with quantitative volumetry and T1 relaxometry information during the management of children with suspected focal epilepsy.