View clinical trials related to Epilepsy.
Filter by:The study will investigate whether a novel method to accurately count epileptic seizures, using a CE-marked minimally-invasive ultra long-term subcutaneous electroencephalography (EEG) solution (UNEEG™ SubQ , including 24/7 EEG SubQ), (i) is more accurate than a participant-reported seizure diary; (ii) is feasible and acceptable to participants and clinicians; (iii) reduces impacts of epilepsy and improves quality-of-life; and (iv) provides gains to the healthcare system when rolled-out into the National Health Service (NHS). 33 participants with drug-resistant epilepsy will be implanted with the UNEEG™ SubQ device and will collect data for six months. Annotated seizures from the EEG data will be sent weekly to the treating clinicians, who will communicate with the participants on a monthly basis, and will be free to make any management changes.
The acute and chronic effects of VNS stimulation on various on the autonomic nervous, cardiovascular, immune, and metabolic systems will be compared from noninvasive and minimally invasive physiological recordings and blood draws at various time points throughout the study. These interventions and assessments will be performed in individuals 18 years of age and older who are implanted with a VNS device, which consists of patients who have been diagnosed with drug resistant epilepsy or major depressive disorder. The REVEAL study is not a treatment study; its primary objective is to scientifically investigate the contributing roles of efferent versus afferent vagus nerve modulation of multiple peripheral organs and their dependence on stimulation parameters, in which participants are those who have been implanted with a VNS device be receive standard of care treatment for their epilepsy or depressive disorder.
Epilepsy, one of the most common neurological disorders in childhood, is a chronic brain disease characterized by neurobiological, psychological and cognitive effects. Neuropeptide-Y (NPY) and neural growth factor (NGF) play a role in different pathological processes seen in epileptogenesis. Neuron-specific enolase (NSE), a quantitative indicator of brain damage, has been shown to exhibit elevated serum levels in individuals with epilepsy and is associated with cognitive functions. It is reported that the glymphatic system, which is associated with epileptic seizures, is a treatment method that can prevent cognitive impairment by preventing the accumulation of toxic waste proteins. Inspiratory muscle training, one of the respiratory physiotherapy techniques, is used as supportive treatment in patients with weak respiratory muscle strength. Weakness in respiratory muscle strength has also been detected in the epilepsy group in which the glymphatic system is affected. 40 children with epilepsy who meet the inclusion criteria and volunteer to participate in the study will participate. Children with epilepsy will be divided into two groups: experimental group (n = 20) and control group (n = 20) using the block randomization method. The experimental group will be given Inspiratory Muscle Training (IMT) with the Threshold device for 30 minutes every day for 8 weeks after routine medication use. The control group will be followed only with routine medication use. Demographic information of all participants will be recorded. Respiratory function will be evaluated with a portable spirometer device, respiratory muscle strength will be evaluated with a portable electronic mouth pressure measurement device, and cognitive performance will be evaluated with the Serial Digit Learning Test (SDLT). Biochemical analyses; Serum levels of neuron specific enolase (NSE), neuropeptide-Y (NPY) and neural growth factor (NGF) will be determined with an ELISA kit set. The glymphatic system will be evaluated with Diffusion Tensor Imaging Analysis Across the Perivascular Space (DTI-ALPS). In both groups, the initial evaluations will be repeated after 8 weeks. This research project was planned to prevent the development of seizures and improve biochemical parameters, glymphatic system dysfunction and cognitive functions with inspiratory muscle training in pediatric epilepsy patients.
The purpose of this study is to determine whether BHV-7000 is effective in the treatment of refractory focal epilepsy.
Epilepsy is among the diseases that cause loss of neurological abilities regardless of any trauma. Reflexology is one of the complementary therapies based on activating the body's self-healing power through special hand techniques applied to the feet. It is known that there are positive changes in seizure frequency, fatigue, stress and sleep quality in epilepsy patients after reflexology. This study will be conducted to determine the effect of reflexology on seizure frequency, fatigue, stress and sleep quality in epilepsy patients.
The main aim of this study is to evaluate the contribution of fast-ripples (FR) information on the neurosurgery management of patients with drug-refractory epilepsy investigated by Stereo-ElectroEncephaloGraphy (SEEG), as measured by freedom from disabling seizures one-year post-surgery. 220 patients (for whom 4-6 usual clinical macro-electrodes will be replaced by hybrid micro-macro electrodes and for whom fast-ripples will be assessed) distributed over 5 centres and 220 control patients(who will undergo an SEEG with the usual electrodes and for whom fast-ripples will not be assessed) distributed over 6 centres. This is a controlled, non-randomized, parallel plan, prospective, multicentre exploratory study.
This study is being done to find out if a smartphone app can identify absence seizures. Children who have a history of absence seizures, as well as children without any seizure history, will be testing out the app. If participating the child will be guided through hyperventilation, an activity that asks the child to take quick, deep breaths. The app will record video of the child's face and sounds they make during hyperventilation. Hyperventilation is a safe and established technique frequently used during EEG (electroencephalogram) to encourage seizure occurrence. The App will be used during a regularly scheduled EEG.
Background: Pyrimidine and purine metabolism disorders (DPPMs) affect how the body metabolizes chemicals called pyrimidines and purines. DPPMs can cause dysfunctions throughout the body, especially in the brain, blood, kidneys, and immune system. People with DPPMs might have no symptoms, mild symptoms, or they may have severe, chronic symptoms, that can be fatal. DPPMs are not well understood, and researchers want to learn more about what causes them and how to treat them. Objective: To learn more about factors that affect DPPMs by comparing test results from affected, uaffected family members, and healthy people. Eligibility: Three types of participants are needed: people aged 1 month and older with DPPMs; their family members who do not have DPPMs; and healthy volunteers. Design: Participants with DPPMs will come to the clinic once a year; some may be asked to come more often. At each visit, all affected participants will have a physical exam and give samples of blood, urine, saliva, and stool. Depending on their symptoms, they may also have other procedures, such as: Swabs of their skin and inside the mouth. Tests of their heart, kidney, brain, and nerve function. Questionnaires about what they eat. Dental exams, and exams of their hearing and vision. Tests of their learning ability. Monitoring of their physical activity. Imaging scans. Photographs of their face and body. These tests may be spread over up to 7 days. Affected participants may remain in the study indefinitely if they wish to. Healthy volunteers and family members will have 1 study visit. They will have a physical exam and may be asked to give blood, urine, saliva, and stool samples.
The goal of this clinical trial is to learn about the application of domestic PET/MR in major brain diseases. The main questions it aims to answer are: - Overcome the bottleneck of early accurate diagnosis and treatment in major brain diseases clinical practice. - Promote the clinical application of domestic PET/MR, enhance international competitiveness. Participants will have a PET/MR scan of the brain.
Overall, this observational cohort study aims too: 1. Implement rapid trio WGS for all children presenting to our health systems with epilepsy onset under 12 months of age. 2. 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. 3. Assess the impact of early genetic diagnosis on epilepsy, developmental, and health economic outcomes through formal longitudinal assessments of all children enrolled.