View clinical trials related to Seizures.
Filter by:This is a Phase 2 double-blind, randomized, placebo-controlled study to assess the safety and efficacy of ICV delivery of CT-010 via an implantable pump and a cranial port and dual lumen catheter (CIC) in subjects with focal seizures, with temporal lobe onset with or without secondary generalization. Up to 70 subjects will be enrolled. Eligible subjects will be randomized in a 1:1 ratio to either CT-010 or placebo treatment. Up to 20 clinical centers will be enrolled.
The occurrence of isolated or recurring epileptic seizures accounts for an important use of the healthcare system. Typically, epileptic patient will consult ten times a year a physician (specialist or familial doctor) and will justify 24 diagnostic procedures or additional examinations. Moreover, epileptic seizures are associated with frequent use of emergency departments. From the first emergency call received by the Emergency medical assistance service (SAMU), the actual management of the patient having epileptic seizure includes the eventual transfer to the paramedical team then within an emergency unit. However in some cases, emergency allocation may be avoided as 70% of patients recover their baseline condition upon admission. The main objective of this study is to describe the management of the adult population suffering from suspected seizure by the emergency structures. For 3 consecutive days, all patients with suspected epileptic seizures (diagnosed by the SAMU, paramedics and emergency unit) will be enrolled in the study. Data of medical care management and information from patients or witnesses will be collected on a questionnaire by the physicians of the SAMU, paramedics and emergency unit. Then, the anonymized questionnaires will be sent to RESUVAL (Emergency Network of the Rhone Valley) to ensure data entry and statistical analysis. By identifying the factors leading the SAMU to transfer a patient with suspected epileptic seizure to an emergency unit, this study will provide a more appropriate procedure to prevent unnecessary emergency admissions. It will also gain more insights into the patient outcomes, such as complementary medication, brain examination or referral to a neurologist.
Effect of GABA on ADHD and seizures in Children with epilepsy.
This Stage II randomized, controlled, longitudinal trial seeks to assess the acceptability, feasibility, and effects of a driving decision aid use among geriatric patients and providers. This multi-site trial will (1) test the driving decision aid (DDA) in improving decision making and quality (knowledge, decision conflict, values concordance and behavior intent); and (2) determine its effects on specific subpopulations of older drivers (stratified for cognitive function, decisional capacity, and attitudinally readiness for a mobility transition). The overarching hypotheses are that the DDA will help older adults make high-quality decisions, which will mitigate the negative psychosocial impacts of driving reduction, and that optimal DDA use will target certain populations and settings.
Perampanel is a drug used to treat patients with epilepsy/seizures. This study is designed to determine how much perampanel actually crosses the blood brain barrier into the cerebral spinal fluid when the drug is taken.
In this study, the investigator aims to perform cortical stereo electroencephalogram (sEEG) recordings during simultaneous anterior nucleus of the thalamus (ANT) recording and stimulation to better understand the following: 1) how the ANT is involved in various seizure types; 2) which cortical regions are modulated by established ANT stimulation patterns; and 3) how novel ANT stimulation patterns modify epileptogenic cortical activity. Together, this knowledge will advance ANT deep brain stimulation (DBS) therapy by providing a physiologic basis for patient selection for ANT DBS, while identifying brain signals and stimulation patterns that can be used to develop novel methods for ANT DBS. Up to 15 adult patients (18 and older) who present to Duke Neurosurgery for routine seizure localization using sEEG will be asked to enroll in this pilot study of ANT recording and stimulation. In the course of surgical epilepsy treatment, patients routinely undergo surgical placement of sEEG electrodes for the purposes of seizure localization. During this procedure, 2 additional leads will be placed in the ANT. These patients remain hospitalized for 7-14 days after sEEG placement, during which time their seizure medications are tapered. Concurrent video monitoring is performed while continuous neural recordings are made through the sEEG electrodes. Additionally, continuous recordings will be performed through the electrodes placed in the thalamus. Periodically, standard intermittent high-frequency stimulation (130 Hz, 90-ms pulse width, and 2 mA intensity) will be performed with a 60-s on and a 300-s off cycle after surgery. These standard ANT stimulation parameters are employed clinically. Data will include the sEEG recordings marked for ANT stimulation, any side effects, medications, past medical history (PMH), and tests/procedures during the hospital stay. Risks involved are as described for the standard depth electrode surgery with the addition of the possible side effects from the stimulation which include sensations of numbness and tingling, and possibly increased seizure activity.
A dose randomized, double-blind, placebo controlled, single and multiple dosing, dose-escalation phase I clinical trial to investigate the safety, tolerability and pharmacokinetic characteristics of Zebinix (Eslicarbazepine acetate) after oral administration in healthy Korean and Caucasian adult subjects
The purpose of this study is to compare the efficacy and side effects magnetic seizure therapy (MST) and electroconvulsive therapy (ECT) in Bipolar Depression (MST-BpD) and Treatment Resistant Depression (MST-TRD).
Cerebral cavernous malformation (CCM)-related epilepsy (CRE) impairs the quality of life in patients with CCM. Patients could not always achieve seizure freedom after surgical resection of the lesion, suggesting an inadequate treatment and evaluation of the epileptogenic zone or network. Iron deposition in cerebral cavernous malformations has been postulated to play an important role in triggering CRE. Quantitative susceptibility mapping (QSM), as an optimal in vivo imaging technique to quantify iron deposition, is employed to analyze the iron quantity in CCM patients with epilepsy and further combined with brain structural and connectome analysis, to describe the difference between CCMs with and without epilepsy. In vivo biomarkers predicting CRE risk in CCM natural history and CRE control outcome after CCM surgical resection will be further identified to improve management strategy.
Protocol Summary Population - Target population is 10 adults (18 to 75 years of age) with a diagnosis of treatment-resistant epilepsy with at least 20 seizures per year, and whose seizure onset recorded from scalp EEG is localized to a brain region accessible by the subcutaneous EEG electrodes Number of sites - Three sites; King's College Hospital NHS Foundation Trust, University College London Hospital NHS Foundation Trust, St George's University Hospital NHS Foundation Trust Study design - This study is an observational, non-randomised, non-interventional study. It is not intended as a device trial. It is not intended to assess the device performance, rather the usefulness of bio-signals in seizure prediction and in detecting seizure-associated phenomena. There will be no change to usual care as a result of taking part. A subcutaneous EEG device will be implanted under local anaesthesia to record continuous EEG and a non-invasive wrist-worn sensor will be used to acquire non-EEG bio-signals (eg. heart activity and rate, movements, muscle activity, electrodermal activity, body temperature) Objectives - The association will be investigated between non-invasive measurable variables related to stress and sleep, semi-invasive subcutaneous EEG phenomena, and the occurrence of seizures. The predictive value of change in non-invasive variables semi-invasive subcutaneous EEG phenomena for the occurrence of seizures will be assessed. Study Duration - Up to one year for each patient. Participants may be approached during or after this study to participate in related studies. Funding - This study receives funding from the Epilepsy Foundation of America, Innovative Medicines Institute (IMI) and UNEEG medical A/S.