View clinical trials related to Epilepsy.
Filter by:In this study, participants will receive unilateral Deep Brain Stimulation (DBS) for treatment of epilepsy, with network-based stimulation targets specifically defined using a stereo-electro-encephalographic evaluation and chronic recordings using the Medtronic Perceptâ„¢ primary cell (PC) Neurostimulator DBS System with BrainSenseâ„¢ Technology. The hypothesis is that, compared to no stimulation or to standard duty cycle high frequency stimulation, epilepsy neuromodulation using low frequency stimulation and informed by network architecture in patients with epilepsy that arises in a hippocampus that also subserves memory - epilepsy in a precious hippocampus (EPH) - will result in a significant decrease in seizure frequency and severity, paralleled by a decrease in EEG spike counts and improved memory function.
Tryptase, TLR4, and anti-NR2A antibodies were measured in serum, cerebrospinal fluid, and subjects and other markers to assess their relevance to disease activity, aiming to find new therapeutic targets,Timely intervention to improve the prognosis of SLE and improve the quality of life of patients with SLE.
Nelli is a video-based non-EEG physiological seizure monitoring system. This study is a blinded comparison of Nelli's identified events to gold-standard video EEG review in at-rest pediatric subjects with suspected motor seizures.
The goal of this study is to learn about the effects of scopolamine (an anticholinergic drug) on areas of the brain involved in memory, and changes it may have on brain activity. The investigators will do this by testing epileptic patients who are already undergoing intracranial surgery for seizure monitoring, and measuring the activity from the brain areas being assessed. The main questions it aims to answer are 1) whether scopolamine changes memory activity solely at encoding (the time when the person perceives and determines to remember an item or event) as has previously been found, or if it also can selectively impact retrieval (when the item or event which has been processed is recalled or remembered), and 2) what the nature of the brain activity changes is. Participants will complete two treatment arms. One of these will be with the drug, and the other will be with a saline solution, so that the participants are unaware which session the actual drug has been received. Patients will complete a verbal and/or spatial task each of the two days. An anesthesiologist will administer either the drug or the saline at a critical point which addresses both of the research questions. Researchers will compare the brain activity between the two treatment arms to determine what brain activity changes, and at what time point during memory formation.
The aim of the present study to investigate whether - Opening of KATP channels causes migraine pain by activation of meningeal nociceptors and ascending trigeminal nociceptive pathways. - Opening of KATP channels causes migraine aura by induction of CSD.
This is a randomized effectiveness/implementation trial comparing a 24-week neurology-based collaborative care intervention to usual neurology care among 60 adults with epilepsy.
Mozart's Sonata for two pianos in D major (K448) has been found to reduce the presence of abnormalities in the electroencephalograms of patients with epilepsy. We will examine the long term effects of listening to the K448 sonata on seizure frequency and cognitive functioning in children with drug resistant epilepsy allocated to either a study group or a control group. Patients' parents will complete a seizure diary for the whole study period, during which antiepileptic drug therapy of the child will remain unchanged. Baseline neuropsychological testing will be performed and a seizure diary will be kept for 3 months. The study group will listen to K448 for 8 continuous minutes every day for 2 months, while those in the control group will listen to control music for the same amount of time. Neuropsychological testing will be repeated at the end of the study period and any change from baseline examined. Seizure frequency during periods of exposure to music will be compared to baseline in both groups. Feedback questionnaires and parent focus groups will be used to gather information around the practicalities of exposure to music, potential problems and suggestions for how future studies might be improved.
Animal and human studies have brought up evidence supporting Gut microbial disbalance, namely dysbiosis, as a causative factor of epilepsy, especially the refractory form. thus, probiotics might constitute a safe, low-cost, and effective supplementary therapy in patients with DRE. The Lactobacillus population is probiotic bacteria that have a beneficial role in epilepsy. Lactobacillus can influence brain function through the modulation of GABA, as shown in rodent models. Moreover, it has been demonstrated in animal models of epilepsy and in human epileptic patients that probiotic treatment aimed at restoring gut microbiota equilibrium has beneficial effects on epileptic symptoms by increasing GABA in animals and the levels of Bifidobacteria and Lactobacillus in humans.
The deep brain stimulation is surgical technique used for the Parkinson's disease, essential tremor, dystonia, epilepsy, and psychiatric diseases. A pulse generator or battery (implanted pulse generator, IPG) is a need for replacement every few years. In general, electric cautery(BOVIE), which is commonly used in surgery, cannot be used when the deep brain stimulation machine is inserted, so conventional tools such as scissors and knives are used for replacement surgery. However, in the process, damage to the machine may be inflicted by knives, scissors, etc., and in the worst case, the machine may be unusable, resulting in financial and human consumption. Plasma Blade is currently used for tissue incision and coagulation in Korea, and is the only insurance-recognized tool in Korea for the replacement surgery of a cardiovascular implantable electronic device (CIED). The deep brain stimulation machine has a structure very similar to that of the heart electronics. In addition, the plasma blade was used to replace the deep brain stimulation machine overseas.The safety is reported in the surgery, so the plasma blade deep brain stimulation machine has been replaced in Korea. The investigators would like to check the safety and effectiveness for use in surgery.
The purpose of the RaRE-TS study is to determine safety, tolerability and efficacy of rapamycin versus placebo in a drug resistant epilepsy associated with tuberous sclerosis complex (TSC).