View clinical trials related to Epilepsy.
Filter by:Deep brain stimulation (DBS) has been established as therapy for severe forms of Parkinson's disease and other indications. A common target for stimulation is the subthalamic nucleus (STN). Nevertheless, there is no agreement on the mechanisms how DBS leads to clinical improvement. The project aims to describe the variability of target coordinates in the patient group and to relate it to clinical outcome as documented in standardized questionaires. - Trial with surgical intervention
The purpose of this observational study is to broaden the knowledge of the known safety and efficacy profile of Keppra® (Levetiracetam) oral solution in epileptic infants younger than 12 months when treated according to routine clinical practice. Their data will be collected until they reach the age of 13 months.
The purpose of this study is to collect continuous observational data during a clinical Epilepsy Monitoring Unit evaluation.
We will observe epileptic patients who already have electrodes implanted on the brain and are receiving high-level brain stimulation for clinical purposes while testing their motor and language function. We propose to do a limited, low-level brain stimulation to show that the signatures of local activity in the target area change as an effect of brain stimulation. The goal of this study is to understand the feasibility of a novel recurrent brain-computer interface that could eventually promote targeted functional recovery in subjects who have had a brain injury.
The ASK CHILDREN study is intended to aid in future development of various neurologic devices (i.e. neuroprostheses). The ASK CHILDREN study seeks to use study information obtained to identify more efficient strategies in the evaluation and review of neuroprostheses regulated by the Agency.
The purpose of this study is to examine the safety of USL255 as adjunctive therapy in patients with refractory partial onset-seizures.
Sleepiness and fatigue are the most common complaints of people with epilepsy and can have a negative impact on quality of life. Though unproven, these problems are often blamed on anti-seizure medications. The purpose of this study is to investigate the impact of the anti-seizure medication Lacosamide (Vimpat®) on sleep and wakefulness in adults with focal (partial onset) seizures. Focal epilepsy, also called partial epilepsy, is a disorder characterized by seizures arising from a localized network of neurons in the brain. Focal seizures usually begin a sensation or involuntary movement of a part of the body, an unusual feeling, or a disturbance in hearing, smell, vision, or consciousness. The study is open to adults 18 and older with focal seizures. Participation involves a physical exam, sleep testing at the Sleep Center, blood tests, completion of study questionnaires/diaries, and a random assignment to either take the study drug or placebo (often called a "look alike" or "sugar pill") for 5 to 8 weeks. There are 5 study visits. Participants will receive compensation for time spent in the study. If you would like more information on this study please contact the Cleveland Clinic Sleep Center: Dr. Nancy Foldvary-Schaefer: 216-445-2990 Monica Bruton: 216-444-6718
The aim of the study is to prove the feasibility and safety of transcutaneous, electrical stimulation of the vagus nerve in patients with difficult-to-treat forms of epilepsy.
Primary Objective: Null hypothesis: A 24-week trial of adjunctive Lacosamide does not produce a decline in cognitive, mood or quality of life measures. To determine the cognitive and behavioral side effects of lacosamide in patients with partial epilepsy and follow them for a period of 24 weeks using a neuropsychological test battery drawing on tests commonly used and designed to maximize sensitivity to drug effects. Secondary Objectives: To determine if any significant changes in cognitive, mood or quality of life measures are dependent upon changes in seizure severity, neurotoxicity, adverse events, or Lacosamide dosage.
The purpose of this study is to investigate the relationship between the side effects of valproate sodium in the treatment of epilepsy in Han Chinese and the genetic polymorphisms of drug metabolizing enzymes and pharmacokinetics of valproate sodium.