Active clinical trials for "Epilepsy"

A lot of effort has already been put into the development of smaller, wearable and more user-friendly devices to monitor seizures in patients with epilepsy. The investigators hypothesize that a wearable EEG ( in combination with additional non-EEG biosignals (motion, ECG, EMG, respiration, temperature,...) derived from Byteflies Sensor Dot and new medical patches (Plug 'n Patch system), will be able to objectively detect epileptic seizures and monitor sleep in the hospital and home environment for specific types of childhood epilepsy. The accuracy of seizure detection and sleep monitoring by the wearable miniature EEG device in combination with other (autonomic) biosignals (full PnP system) will be compared with the golden standard video-EEG and seizure and sleep diaries filled-out by the participants.

This a multi-center study to examine whether supplementation with omega 3 fatty acids will reduce seizure frequency in patients with epilepsy .

Background: Epilepsy affects about 1 percent of the U.S. population. Most people with epilepsy respond well to medicine, but some do not. Researchers want people who have diagnosed or suspected epilepsy to participate in ongoing studies. They want to learn more about clinical care for epilepsy. They want fellows and residents to learn more about the care of people with epilepsy. Objectives: To learn more about seizures and find ways to best treat people with drug-resistant epilepsy. Eligibility: Adults and children ages 8 years and older with diagnosed or suspected epilepsy Design: Participants will be screened with: Physical exam Medical history Questionnaires Participants will have many visits. They may be admitted to the hospital for several weeks. Their medication might be stopped or changed. Participants will have many tests: Blood and urine tests EEG: Wires attached to the head with paste record brain waves. This may be videotaped. Thinking and memory tests MRI: Participants lie on a table that slides in and out of a tube. They perform simple tasks in the tube. MEG: Participants lie on a table and place their head in a helmet to record brain waves. PET scan: Participants lie on a table that slides into a machine. A small amount of radioactive dye is injected into their arm with an IV. For the IV, a small tube is inserted into the arm with a needle. Participants will stay enrolled in this study if they join other epilepsy-related studies. They may be contacted at intervals for follow-up. Their participation will end if they have not been seen clinically for their epilepsy for 3 years.

Brain somatic mutations in genes belonging to the mTOR signaling pathway are a frequent cause of cortical malformations, including focal cortical dysplasia or hemimegalencephaly. The present study aims to search for brain somatic mutations in paired blood-brain samples and perform functional validation in children with drug-resistant focal epilepsy

Electrical source imaging is part of the presurgical evaluation of patients with drug-resistant focal epilepsy. The software packages that will be used in this study have Declaration of Conformity within the European Economic Area (CE mark) for this specific medical use. In spite of being part of the clinical standard, the evidence for the accuracy and clinical utility of these methods are derived from several smaller-scale and retrospective studies. The PROMAESIS study will provide solid evidence of the accuracy and clinical utility of automated ESI.

Breath and sweat samples will be collected from people who have been admitted to hospital after a potential seizure and analysed by the team. The researchers then hope to identify a pattern of small molecules that can distinguish seizures from other events, and perhaps determine the severity of the seizure.

Overall, this observational cohort study aims too: Implement rapid trio WGS for all children presenting to our health systems with epilepsy onset under 12 months of age. Utilize electronic healthcare records and research databases to unite phenotypic and genomic data and to create a "virtual" registry across all institutions that will promote ongoing discovery. Assess the impact of early genetic diagnosis on epilepsy, developmental, and health economic outcomes through formal longitudinal assessments of all children enrolled.

The goal of this observational study is to learn more about phenotypic, genetic, biochemical, neurophysiological and radiological patterns in epilepsy. Participants will be asked to consent to use of clinical and paraclinical data (obtained during standard care) for research, and will be asked to donate blood samples at their routine clinic visits.

Study the mechanisms underlying action recognition and execution

Epilepsy is a neurological condition that afflicts 1% of the world population. 30% of patients become drug-resistant to classic antiepileptic treatment and only a small percentage, 5%, can undergo a neurosurgical resection of epileptic focus and recover almost completely from symptoms. To date, an imbalance between inhibitory and excitatory neurotransmission has been well accepted as the main root cause of epilepsy. A better understanding of the molecular mechanisms of this can lead to developing new therapeutic strategies. The investigators of the project want to describe the functional alteration of GABA- A receptor, the main actor of inhibitory neurotransmission in the central nervous system and characterize its subunit composition in the epileptic foci of patients with temporal lobe epilepsy. The authors, also, want to modulate, by means of selective neuroactive molecules, the function of this receptor to increase the inhibitory tone in the epileptic brain.