View clinical trials related to Epilepsy.
Filter by:The aim of the proposed research is to compare the diagnostic accuracy of a portable wireless electroencephalography (EEG) device (Biosignal Micro-EEG) to standard EEG in identifying abnormal EEG patterns (mainly non-convulsive seizure and non-convulsive status epilepticus) in emergency department (ED) patients with altered mental status. Comparing the the accuracy of EEG recordings and interpretations of Micro-EEG to those of standard EEG will allow the investigators to assess the utility of this novel device in the ED patients with altered mental status. The unique qualities of Micro-EEG device could potentially facilitate easier access to EEG test in all ED patients. This study will also provide valid information regarding the prevalence of non-convulsive seizure in ED patients with altered mental status.The gold standard for diagnosing non-convulsive seizure would be standard EEG. All study participants will undergo electroencephalography using the two devices (standard EEG and micro-EEG) and a combination of standard electrodes and Electro-Cap in a randomized order: 1. Standard EEG with standard EEG electrodes, 2. Micro-EEG with standard EEG electrodes, and 3. Micro-EEG with Electro-Cap electrodes.
The purpose of this proposed research is to identify individuals in southeastern Arizona aged 65 years and older who have new onset seizures (or newly diagnosed epilepsy) and monitor them for at least two years. In doing so the investigators will be able to describe the public health burden of this condition and to identify factors that predict clinical outcomes and health care needs in this population, using quantitative, administrative, and qualitative data. The aims of this proposed research are 1) to determine the two-year incidence of newly diagnosed epilepsy in the target population, 2) describe health care resource utilization of the target population using Medicare data, 3) validate the use of Medicare beneficiary data to estimate incidence of epilepsy, and 4) describe the burden of this condition in different ethnic groups.
This is a Phase 3, open label, long term follow-up (LTFU), multicenter, noncomparative, and single arm study of brivaracetam (BRV).
The purpose of this Phase III study is to assess the long-term safety, tolerability and efficacy of flexibly dosed retigabine Immediate Release (IR) as adjunctive therapy in adult subjects with partial-onset seizures. In addition, those subjects who successfully completed 20 weeks of adjunctive treatment with retigabine IR in the parent study, RGB113905, and who were thought to have benefitted from treatment will be provided continued access to retigabine IR.
In clinical practice language impairment is frequently reported in association with nocturnal epileptiform activity. There is a spectrum of epileptic conditions that are characterized by nocturnal epileptiform activity. From mild to severe this spectrum involves: Rolandic epilepsy (RE), nocturnal frontal lobe epilepsy (NFLE), Landau-Kleffner syndrome (LKS) and electrical status epilepticus during slow wave sleep (ESES). The exact characteristic of the relationship between nocturnal epileptiform activity and language impairment is yet to be explored. The investigators suggest that nocturnal epileptiform EEG discharges and nocturnal epileptic seizures during development will cause diseased neuronal networks that involve language. The diseased neuronal networks are less efficient compared with normal neuronal networks. Objective: Identification of a diseased neuronal network characteristic in children with nocturnal epileptiform activity, which can explain language impairment in these children. For this the investigators will use functional magnetic resonance imaging (MRI) to analyse brain activity and diffusion weighted MRI to investigate white matter connectivity.
observational, non-interventional study in 120 patients with drug-resistant partial epilepsy, comprising two phases: a 3-month retrospective and a 6-month prospective. As control group, 120 patients with controlled partial epilepsy will be enrolled. The objective of the study is to describe the burden of illness in this epileptic population both in terms of costs and of quality of life. Costs and quality of life will be also compared between the two populations.
This is an open-label, single centre, repeat dose, up- titration study in healthy male and female subjects to assess the pharmacokinetic (PK) performance of five prototypes of ezogabine modified release tablet formulations. The study will consist of a screening period, a treatment phase (consisting of a titration phase, bioavailability phase and food effect phase) and a post-treatment follow-up visit. The study duration from screening to follow up will be approximately 7 weeks. No study procedures will start before informed consent is obtained. Subjects will remain in the clinical unit for the duration of the treatment period (35 days). Subjects will receive repeat doses of ezogabine for up to 34 days starting at a dose of 100 mg IR TID (300mg TDD) with a standard meal (to be consumed 30 min prior to dosing) for Days 1-3, on days 4-6 subjects will receive 150mg IR TID (450mg TDD). On Day 7 through to the end of the study subjects will receive ezogabine (Mr or IR) at a dose of 600mgTDD. On Day 7 subjects will enter into a 6-way cross over period to investigate the 5 MR formulations being tested (each at 300mg BID) and the single IR formulation (at 200mg TID). Subjects will receive each formulaition for 4 days and blood samples for pharmacokinetic analysis will be collected up to 24 hours post dose on each 4th day (PK days). On Day 31 subjects will enter into a food effect phase to investigate the 5 MR formulations being tested (each at 600mg QD). Subjects in this period will have a PK day on Day 33 (following a standard breakfast), and on Day 34 (following a high fat breakfast) to investigate a food effect on the PK profile of ezogabine.
The purpose of this study is to confirm cardiac-based seizure detection in Cyberonics Model 106 VNS Therapy System.
Elderly persons with dementia are at risk for seizures, however, traditional anticonvulsants are poorly tolerated in this population. Our goal is to examine Levetiracetam (Keppra) in elderly dementia patients with seizures. While it has been established that Keppra controls seizures in this age group, it is important to demonstrate that treatment with Keppra would not affect cognitive abilities in this large population of patients . As this population is already cognitively impaired, the best choice of anticonvulsant would be one that does not further compromise their cognitive abilities. Keppra is an excellent anticonvulsant agent in the elderly for a variety of reasons, including safety, favorable side effect profile, lack of interaction with other drugs, and efficacy. Our retrospective pilot data suggests that cognition is not negatively affected by Keppra. The current prospective study will assess the cognitive abilities of persons with cognitive impairment at baseline and at weeks 4 and 12. The overall objective is to determine the cognitive tolerability of Keppra for seizures in elderly cognitively impaired patients.
In Oslo University Hospital, department of complex epilepsy, offer ketogenic diet to treat children with medically intractable epilepsy. From 2009 we added modified Atkins diet as a treatment option for children up to 18 years. We now initiate an open, prospective, randomized and controlled study with the aim to test the efficacy of treatment with modified Atkins diet in adults with focal and generalized epilepsy diagnoses, in order to evaluate whether this treatment should be offered to patients on a permanent basis.