View clinical trials related to Epilepsy.
Filter by:Obtain baseline clinical outcome data (Stage 1) upon which to base a subsequent study (Stage 2) of the Model 106 VNS implantable pulse generator
The modified Atkins diet (MAD) has been shown to be effective in treating children and adults with medically resistant seizures. A recent study in children showed that the use of KetoCal® once per day in addition to the MAD appeared to be beneficial when used during the first month. The investigators hypothesize that including a daily KetoCal® liquid tetrapak with one meal during the initial month of the MAD will produce urinary ketosis in more adult patients than the MAD alone and will lead to greater seizure reduction.
This project looks at the time course of lactic acid rise (if any) after seizures. Salivary and capillary lactic acid are tested. This type of measurement may be useful in signalling the occurrence or recent history of a seizure.
The investigators are developing a questionnaire that can quickly measure the impact that epilepsy has on a person's life. This questionnaire will be useful in following whether the impact of epilepsy increases, decreases or stays the same over time. The results also may point out areas that would benefit from discussion or attention in visits with your doctor.
The purpose of this trial is to evaluate the safety and tolerability of long-term administration of Lacosamide at doses up to 400 mg/day in Japanese and Chinese adults with Epilepsy who have completed the Treatment and Transition Period of EP0008 [NCT01710657]
The objective of this study is to characterize the effects of a single-dose of retigabine on cortical excitability in healthy subjects, as quantified by means of TMS.
Epilepsy requires long-term drug treatment and is frequently associated with other clinical conditions. Combinations of antiepileptic drugs and other compounds are fairly common and increase with age. Adverse drug reactions and drug interactions are expected and may affect compliance, particularly in patients not receiving adequate information. Primary objective of the study is to verify if a comprehensive and standardized educational plan is followed by a significant reduction of the number of adult patients with epilepsy and comorbidity presenting clinically relevant adverse treatment effects. Secondary objectives include effects on number of adverse treatment events, health-related quality of life (HRQOL), direct medical costs, and patient's compliance. The study is a randomized, controlled, open-label, pragmatic trial. Included are consecutive adult outpatients with 1+ concurrent clinical conditions on chronic treatment and at least one clinically relevant treatment-related adverse event and/or clinically relevant drug interaction. Eligible patients will be randomized to receive a comprehensive and standardized educational plan (experimental arm) or to usual care, ie management of adverse event/drug interaction as done in clinical practice (control arm). The experimental plan consists in discussing with patient and caregiver the cause and nature of adverse event/drug interaction, the tolerability profile of each drug, the clinical manifestations associated with current drug interaction(s), contraindications of potentially interfering over-the-counter drugs, indications and benefits of suggested treatment changes, and withdrawal of potentially interfering, contraindicated or ineffective drugs. All patients will be seen at one, three and six months after admission. Expected results: The number of patients free from clinically relevant adverse treatment events and/or drug interactions in each treatment arm at end of study is expected to be higher in patients assigned to comprehensive and standardized educational plan compared to usual care (primary outcome). Patients on the experimental plan are also expected to be more commonly free from relevant adverse events and/or drug interactions at each intermediate visit, to present a lower number of adverse treatment events, to imply lower costs for medical contacts, hospital admissions, and drugs, to present better HRQOL scores, and to present less weekly treatment omissions.
This research is being done to observe the safety, tolerability, side effects, and effectiveness of the ketogenic diet in people with continuous seizures (status epilepticus) being treated in a neurointensive care unit.
Restricting dietary lysine intake in infants from age 3 months or less with confirmed diagnosis of pyridoxine-dependent epilepsy due to Antiquitin (ATQ) deficiency will: reduce the accumulation of neurotoxic substratesα-aminoadipicsemialdehydeandits cyclic equivalent 1-piperideine-6-carboxylate;and will improve overall neurodevelopmental outcome at 3 years of age by acting as an effective intervention into the complex pathophysiology of the condition.
Background: - Some people with epilepsy have an epileptic focus, a small part of the brain that is the starting point of the seizure. This focus is like an irritant or an inflammation, and helps cause the seizure. People with epilepsy that affects the temporal lobe of the brain often have an epileptic focus. Researchers want to look at the epileptic focus by using a drug that attaches to a protein associated with inflammation. An imaging study with the drug will show how much inflammation is in the area of the brain where the seizures start. The drug, called [11C]DPA-713, will be tested for its effectiveness in people with temporal lobe epilepsy. Its effects will be compared with imaging studies given to healthy volunteers. Objectives: - To see if [11C]DPA-713 can show the inflammation in the epileptic focus of seizures. Eligibility: - Individuals at least 18 years of age who have temporal lobe epilepsy. - Healthy volunteers at least 18 years of age. Design: - Participants will have three outpatient visits to the National Institutes of Health Clinical Center. The visits will last from 2 to 5 hours. - Participants will be screened with a physical exam, neurological exam, and medical history. Blood samples will be collected before the start of the study. - Participants will have a positron emission tomography (PET) scan. This scan will be used to look at brain chemistry and function. The study drug will be given during the scan to see how well it shows points of inflammation in the brain. Some participants will provide additional blood samples during the PET scan. - Participants will also have a magnetic resonance imaging (MRI) scan. This scan will look at the structure of the brain.