View clinical trials related to Epilepsy.
Filter by:This study will improve access of Veterans with epilepsy living in rural areas to the most important diagnostic procedure for the care of patients with epilepsy: the routine electroencephalogram (EEG). The investigators will test a new method for recording EEG which uses a novel dry electrode system headset that does not require an EEG technologist to operate. The headset integrates the EEG electrodes and amplifier into a compact system which is easily placed on the head. This approach could make it possible for a nurse or nurse assistant with minimal training to record an EEG in a rural community based outpatient clinic (CBOC) as part of an epilepsy telemedicine outreach program along with clinical interviews. The investigators will compare performance of this dry electrode system to standard EEG when it is used by EEG technologists in three VA medical centers. This project has the potential to improve access of Veterans to the EEG procedure and decrease cost to the Veterans Health Care System.
The ketogenic diet (KD) represents an effective and safe non-drug treatment for drug-resistant epilepsy in pediatric and adult age based on normocaloric, hyperlipidic (80-90% of the daily energy), normoproteic and hypoglucidic dietary regimen. Adherence to treatment with KD is often difficult in the long term, for the patient and for caregivers, especially in adolescence. There are no tools in the literature other than monitoring ketonemia to measure adherence to the diet. A quality tool, validated by experts, on a large population, would allow for a more solid assessment of adherence to treatment, facilitating clinicians in the interpretation of efficacy results and in implementing an early intervention to adjust the therapy.
The purpose of this study is to determine whether diazepam reduces the frequency of seizures in GAD65 antibody associated epilepsy.
The individualized drug delivery system of levetiracetam based on population pharmacokinetics and quantitative pharmacology model in patients with epilepsy complicated by diabetic kidney disease was established. To clarify the clinical feasibility of model-based individualized drug administration scheme.
This will be a behavioural intervention with no investigational medicinal product. The intervention will be a mobile messaging service that sends short messaging service (SMS) as texts or graphics to people with epilepsy to remind them to take their medication and to refill their prescription and educational messages to share important messages tackling stigma and tips to improve quality of life. The investigators will also engage peripheral health facilities where people with epilepsy (PWE) participating in the study go for ASM refills, in collaboration with the respective county departments of health, to maintain adequate supply of anti-seizure medications through: i. ongoing capacity building studies in Kilifi such as the mental health Gap Action Programme-Intervention Guide (mhGAP-IG) training which is empowering primary healthcare providers at peripheral health facilities to identify and manage epilepsy and other mental health disorders. ii. supporting healthcare providers at peripheral facilities through in person visits, if the COVID-19 situation, permits or by telephone or standard message reminders to restock their ASM supply. The participants in the no-intervention group will receive "placebo" health messages not related to epilepsy such as use of bednets. The SMS reminders will be sent at a frequency that will be agreed upon during pre-study engagements with potential participants, whether daily, weekly, or monthly. The participants will be able to respond to these texts to report on their health status and any adverse events. To evaluate whether SMS reminders improve adherence, we will use: i. Self-reporting adherence scales- the Morisky Medication Adherence Scale (MMAS-8) ii. Measurement of ASM plasma levels at 12 months from baseline.
The primary objective for this study is to evaluate the long-term safety and tolerability of NBI-827104 in pediatric participants with epileptic encephalopathy with continuous spike-and-wave during sleep (EECSWS).
This study will utilize computerized algorithms in combination with real-time intracranial neurophysiological and neurochemical recordings and microstimulation to measure cognitive and affective behavior in humans. Questionnaires or simple behavioral tasks (game-like tasks on a computer or an iPad) may also be given to additionally characterize subjects on related cognitive or affective components. Importantly, for the purposes of understanding the function of the human brain, neural activity can be recorded and probed (i.e. microstimulation) while subjects are performing the same computerized cognitive and affective tasks. These surgeries allow for the in vivo examination of human neurophysiology and are a rare opportunity for such research. In addition to computerized testing, the investigators plan to characterize subjects' behavior on related cognitive or affective components. Some neuropsychological questionnaires, many of which are administered for clinical reasons (listed below under study population), may also be given to patients and healthy control subjects. All patients undergoing epilepsy surgery (the population from which subjects will be selected) undergo a standard clinical neuropsychological battery to assess aspects of cognitive function. This is a regular aspect of their clinical assessment carried out prior to consideration for study inclusion. All participants are selected uniformly because they are undergoing surgery for subdural electrode implantation. No particular ethnic group or population is targeted by or excluded from the study. Those to be considered for inclusion in the proposed study performing more than 2 standard deviations below the mean on any aspect of cognitive functioning as determined by standard preoperative neuropsychological testing will be excluded from the study. No additional neuropsychological testing will be necessary as part of the study itself.
Therapeutic thermocoagulation will be carried out in patients with drug-resistant focal epilepsy in cases where an epileptogenic zone is found and proven according to stereo-electroencephalography (SEEG) data.
Extension study to evaluate how safe and tolerable the drug NBI-921352 is when used as adjunctive therapy in participants with SCN8A developmental and epileptic encephalopathy syndrome (SCN8A-DEE).
The overall goal of this study is to elucidate how emotion network dynamics relate to the behavioral, autonomic, and experiential changes that accompany emotions and to investigate how emotion network dysfunction relates to affective symptoms. Affective symptoms are a common feature of neuropsychiatric disorders that reflect dysfunction in a distributed brain network that supports emotion. How aberrant functioning in a single emotion network underlies a wide range of affective symptoms, such as depression and anxiety, is not well understood. Anchored by the anterior cingulate cortex and ventral anterior insula, the emotion network responds to numerous affective stimuli. The recording of neural activity directly from the cortical surface from individuals is a promising approach since intracranial electroencephalography (iEEG) can provide direct estimates of neuronal populations to map the spatiotemporal dynamics of the emotion network at a millisecond level resolution. This study will exam how activity within emotion network hubs changes during emotions and how emotion network properties make some individuals more vulnerable to affective symptoms than others. A multidisciplinary approach is critical for understanding the dynamic brain network to advance neuroanatomical models of emotions and for guiding the development of novel treatments for affective symptoms.