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Active clinical trials for "Epilepsies, Partial"

Results 191-200 of 222

Drug Use Investigation Of Gabapentin

EpilepsiesPartial

The objective of the this surveillance is to collect information about 1)adverse drug reactions not expected from the LPD (unknown adverse drug reactions), 2) the incidence of adverse drug reactions in this surveillance, and 3) factors considered to affect the safety and/or efficacy of this drug.

Completed2 enrollment criteria

Serotonin Receptors in Seizure Disorders

Partial Epilepsy

Patients in this study will undergo PET scans (a type of nuclear imaging test) to look for abnormalities in certain brain proteins associated with seizures. Studies in animals have shown that serotonin-a chemical messenger produced by the body-attaches to proteins on brain cells called 5HT1A receptors and changes them in some way that may help control seizures. There is little information on these changes, however. A new compound that is highly sensitive to 5HT1A, will be used in PET imaging to measure the level of activity of these receptors and try to detect abnormalities. Changes in receptor activity may help determine where in the brain the seizures are originating. Additional PET scans will be done to measure the amount of blood flow to the brain and the rate at which the brain uses glucose-a sugar that is the brain's main fuel. Blood flow measurement is used to calculate the distribution of serotonin receptors, and glucose use helps determine how seizures affect brain function. The information gained from the study will be used to try to help guide the patient's therapy and determine if surgery might be beneficial in controlling the patient's seizures.

Completed16 enrollment criteria

The Human Epilepsy Project

Focal Epilepsy

HEP is a five-year, prospective, observational study whose primary goal is to identify clinical characteristics and biomarkers predictive of disease outcome, progression, and treatment response in participants with newly treated focal epilepsy.

Completed24 enrollment criteria

Depression, Stress and Vulnerability Factors in Drug Resistant Focal Epilepsies

Depression and Epilepsy

Psychiatric disturbances, notably depression, occur frequently as co-morbid conditions with epilepsy. A complex, probably bidirectional relationship between epilepsy and depression has been postulated. Both epilepsy and depression also interact with stressful life events, but only some patients develop these disorders after a stressful event, indicating the possibility of a "vulnerable" population. Animal and human studies have looked at the role of brain derived neurotrophic factor (BDNF) in this context. Low serum and/or CSF levels of BDNF are associated with higher incidence of depression, and thus indicate the vulnerable population. Animal studies of BDNF have looked specifically at the relation between epilepsy and depression using a novel "double hit" design. After chronic stress exposure, measurement of BDNF levels allowed identification of 2 sub-groups: a vulnerable population and non-vulnerable population. A "second hit" of kainic acid induced status epilepticus (SE) was then applied to both the vulnerable and non-vulnerable populations. Only the vulnerable population exposed to SE developed a depression-like profile. In a proof of concept approach we propose studying the relation between epilepsy, depression, anxiety and stressful life events, using serum BDNF levels in patients with pharmacoresistant epilepsy. Evaluation of epilepsy type and co-morbid psychiatric profile will be performed in 150 subjects. By comparing BDNF levels for different epilepsy subgroups to BDNF levels for healthy subjects and for depressed subjects without epilepsy, we hope to identify whether risk of co-morbid depression and/or anxiety in epilepsy may be predicted using BDNF levels. In addition, in a subgroup of 25 patients, we propose a pilot study in which cortisol and C-reactive protein will be measured in addition to BDNF.

Unknown status4 enrollment criteria

Post-Authorization Safety Study to Assess the Safety of Vimpat as add-on Therapy in Patients With...

EpilepsiesPartial

SP942 is a non-interventional post-authorization safety study (PASS) to evaluate the long-term safety and tolerability of Vimpat® (Lacosamide, LCM) as add-on treatment in patients with Epilepsy 16 years and older with partial-onset seizures who are uncontrolled on current therapy. Using reported adverse events, the incidence of certain cardiovascular and psychiatric events will be evaluated.

Completed4 enrollment criteria

ZEDEBAC: Zebinix Effects in Dependency of Baseline Conditions

Focal Epilepsy

This is a non interventional prospective study. Centers will enroll adult participants with partial onset seizures with or without secondary generalisation for whom the clinician has decided to initiate eslicarbazepine acetate (ESL) as an adjunctive therapy or monotherapy prior to the decision to take part in this study. Participants to be enrolled into the study will receive ESL either as an adjunctive therapy to one baseline antiepileptic drug (AED) or to at least two baseline AEDs or as monotherapy. Participants will be seen at baseline and at a follow-up visit after approximately 6 months to assess retention, efficacy, tolerability, quality of life (optional), and cognitive performances (optional).

Completed8 enrollment criteria

Brain Maturation in Children With Localization Related Epilepsy

Benign Childhood Epilepsy With Centro-temporal Spikes (BCECTS)Focal Cryptogenic Epilepsy of Childhood1 more

This project intends to investigate children with idiopathic and cryptogenic localization related epilepsies, using a longitudinal assessment of structural and functional MRI data, in relation to neuropsychological evaluation. The rationale is primarily based on: 1) the frequent observation of selective cognitive dysfunctions in such children, the pathophysiology of which remains largely uncertain; 2) the recent major advances in the MRI investigation of brain maturation showing striking age and region dependant patterns. The primary hypothesis is that some children with localization related epilepsies suffer from altered maturation in the epileptic brain regions, and that this abnormal maturation affects their cognitive abilities. 100 children with localization related epilepsies and 100 matched controls will be prospectively enrolled during the first two years of the disease (for patients) and benefit from a comprehensive phenotypic and neuropsychological evaluation once a year for 5 years. The brain maturation of these children will be longitudinally assessed using structural and functional MRI, and correlated with neuropsychological data. Investigators hope to demonstrate that children with localization related epilepsies and cognitive dysfunctions suffer from an abnormal brain maturation in regions underlying the epileptic activity and the altered cognitive processes. The finding could partly bridge the gap between these two abnormalities and help better understand their interaction and respective dynamic. Once validated, the study of regional brain maturation in children with epilepsy might be further used as a reliable surrogate marker or predictor of associated cognitive dysfunction.

Completed10 enrollment criteria

MRI in Autosomal Dominant Partial Epilepsy With Auditory Features

EpilepsiesPartial

This study will examine the possible structural and functional abnormalities in patients with an inherited form of epilepsy. It will use magnetic resonance imaging (MRI). Uncontrolled epilepsy is a serious neurological problem with major harmful medical, social, and psychological effects, as well as greater mortality compared with the general population. The cost per year in the United States is at least $12.5 billion. There have been advances in diagnosing the disease, but the cause cannot be determined in many cases. Recently, several seizure syndromes found in families have been described. One syndrome of particular interest involves the lateral temporal lobe of the brain and often includes auditory features. Patients with that kind of syndrome may hear monotonous unformed sounds, but sometimes they may hear complex sounds, such as a song. Patients are eligible for this study if they have a specific form of familial epilepsy that is being studied at Columbia University in New York. Family members without seizures are eligible as well. All the patients in the study will be evaluated at Columbia before participating. Healthy volunteers aged 18 to 55 also may be eligible for this study. Participants will undergo a medical history and physical examination. During the study, they may have three or four sessions of MRI. During the MRI, patients will lie still on a table that can slide in and out of a metal cylinder surrounded by a strong magnetic field. Scanning time varies from 20 minutes to 3 hours, with most scans lasting between 45 and 90 minutes. Patients may be asked to lie still for up to 60 minutes at a time. As the scanner takes pictures, there will be loud knocking noises, and the patients will wear earplugs to muffle the sound. Patients will be able to communicate with the MRI staff at all times during the scan and may ask to be moved out of the machine at any time. Some scans may be done in a 3 Tesla scanner. It is the latest advance in MRI, with a stronger magnetic field than in the more common 1.5 Tesla scanner. Functional MRI (fMRI) is done while patients are performing tasks, such as moving a limb or speaking. Patients will have an opportunity to practice such tasks before entering the scanner. The fMRI will take about 1 hour. ...

Completed11 enrollment criteria

Transcranial Magnetic Stimulation for the Treatment of Poorly Controlled Partial Epilepsy

Partial EpilepsySeizures

Transcranial Magnetic Stimulation (TMS) is a non-invasive technique that can be used to stimulate brain activity and gather information about brain function. It is very useful when studying the areas of the brain related to motor activity (motor cortex, corticospinal tract, and corpus callosum). Epilepsy is a condition associated with seizures as a result of an over excitable cerebral cortex. Despite the introduction of several new antiepileptic medications, less than half of the patients diagnosed with partial epilepsy are well controlled. However, studies have shown that non-invasive stimulation of the brain can decrease the excitability of the cerebral cortex. Researchers are interested in the potential therapeutic effects of TMS on patients with epilepsy that have responded poorly to standard medication. This study will use TMS to decrease the excitability of the areas of the brain responsible for seizures.

Completed14 enrollment criteria

Brain P-gp and Inflammation in People With Epilepsy

EpilepsiesPartial

Background: The brain is protected by a barrier that keeps toxins in the blood from reaching the brain. However, this barrier can also keep useful medications from reaching the brain. P-glycoprotein (P-gp) is a brain protein that is part of the blood-brain barrier. The level of P-gp is higher in people with epilepsy than in people without epilepsy. These different levels of P-gp may explain why some people have seizures that do not respond well to medications. Researchers want to see if P-gp can affect the response to epilepsy medications. Epilepsy may also be associated with brain inflammation. Researchers also want to look at the part of the brain affected by epilepsy to see if inflammation is present. Objectives: To see if P-gp can affect the response to epilepsy medications. To see if inflammation is present in the part of the brain affected by epilepsy. Eligibility: <TAB>Individuals between 18 and 60 years of age who have temporal lobe epilepsy. We plan to study some patients whose seizures are well controlled by drugs, and some whose seizures are not controlled. <TAB> Healthy volunteers between 18 and 60 years of age. Design: This study requires four or five visits to the NIH Clinical Center over the course of a year. The visits will be outpatient visits and will last from 2 to 5 hours. Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. All participants will have two positron emission tomography (PET) scans. The scans will take place during different visits. Different drugs will be used in each scan. One drug will be used to temporarily block the effect of P-gp in the brain. The other drug will show areas of inflammation in the brain. Participants with epilepsy will have a third PET scan. This scan will also look at P-gp activity in the brain. However, it will not use the drug that blocks the effect of P-gp. All participants will also have one magnetic resonance imaging scan. This scan will help show brain function.

Completed35 enrollment criteria
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