View clinical trials related to Epilepsy.
Filter by:Epilepsy is a complex and chronic neurological disorder whose definition is not limited to seizures and also includes social, psychological, and cognitive consequences associated with this frequent condition. Despite good knowledge of the burden of cognitive deficits and psychosocial difficulties in epilepsy, there have been few attempts to address these issues through rehabilitation programs. The Rehabilitation of Cognition and Psychosocial well-being - A Better Life with Epilepsy (ReCaP-ABLE) study will consist of the creation and implementation of a psychological intervention in a randomized waitlist-controlled trial within a sample of adults with epilepsy. The trial is designed to provide novel evidence regarding 1) the effectiveness of a psychological-cognitive intervention in improving quality of life, objective and subjective cognitive functioning as well as reducing mental health symptomatology, 2) the target epilepsy population for which cognitive and psychosocial rehabilitation is most effective, and 3) the transfer effects of such an intervention. This interdisciplinary trial involving neurology and psychology specialists is set to guide evidence-based treatment for cognitive and psychological comorbidities that are prevalent in epilepsy but receive insufficient attention in clinical settings.
The purpose of this project is to conduct a trial to assess whether patients that receive a tablet-based waiting room priority communication tool (the "Epilepsy Visit Planner") have improved outcomes compared to patients that do not receive the tool. The project's hypotheses are: - Patients that receive the Epilepsy Visit Planner will have improved patient-provider communication compared to the non-planner group. - Patients that receive the Epilepsy Visit Planner will have improved quality of life scores. - The Epilepsy Visit Planner will score highly on process measures of feasibility and acceptability, demonstrating suitability for future larger scale study. Additionally, there is a related survey project that is not part of the clinical trial and will not be included in this registration information.
The present study is a 13 months pre-market open-label, prospective study for confirmation of continuous performance and safety of UNEEG EpiSight solution in subjects with uncontrolled epilepsy (indicated for EEG monitoring with the Implant) in which seizures are detectable in an area of the Implant. The surgical procedure, device satisfaction, and effectiveness of the UNEEG EpiSight solution will also be evaluated during the clinical investigation.
The major goals of the study are to 1) characterize hippocampal activity in patients with mild cognitive impairment (MCI) due to Alzheimer's disease (AD) and AD who have suspected hippocampal epileptic activity based on scalp EEG recordings from IRB # 21-001603; 2) study the efficacy of brivaracetam to suppress epileptic activity and pathological high frequency oscilations (pHFOs) during hippocampal depth electrode and scalp EEG in patients with MCI and AD; and 3) investigate the effects of brivaracetam on cognition in an open-label pilot study.
The role of human microbiota in neurological disorders via the "microbiota-gut-brain axis" is recently gaining increased attention due to the knowledge that gut microorganisms are involved in multiple gut and brain functions and metabolic pathways. The hypothesis of the present investigation is that changes of gut microbiota and their metabolic products may be a mechanism of the effectiveness of ketogenic diet in epilepsy. The aim of the present study is to investigate the changes of gut microbiota induced by the ketogenic diet and if certain populations of microorganisms are associated with better seizure control in epileptic children. This is a non-interventional study that will include epileptic children 2-18 years old eligible for ketogenic diet. The gut microbiome of participants will be examined in stools before and three months after the implementation of an olive oil- based ketogenic diet therapy. One of the participants' parents will also be included providing fecal sample for the examination of gut microbiome.
This is a study of patients with catamenial epilepsy. Catamenial epilepsies are defined as epileptic seizures during the menstrual cycle. Today, there are no recommendations and no care pathway for these patients. The aim of this study is to assess the number of patients reporting a link between the occurrence of their epileptic seizures and their menstrual cycle.
Evaluate the safety, tolerability, and preliminary efficacy of GD-iEXo-002 nasal drops in the treatment of focal refractory epilepsy
The effect of sulthiame on EEG has been studied in epilepsy syndromes of childhood with sleep activation by comparing sleep EEG obtained at baseline and after 4 weeks of treatment. The aim of the study is to know if an effect is still identifiable after 2 weeks of treatment by performing sleep EEG recordings after 2 and 4 weeks of treatment, respectively.
Epilepsy is one of the most common serious chronic brain disorders of childhood. The causes of epilepsy include :acquired brain damage, altered metabolic states, inborn brain malformations, and genetic causes. At present, antiepileptic drugs (AEDs) are the first line therapy for resistant epilepsy (RE) , and the second line is surgery , and vagus nerve stimulation . Sodium valproate (SV) is a first line anti epileptic drug that can be applied to various seizure types in children . SV has anticonvulsant activity through regulation of neuronal pathways . It has a molecular structure similar to neurotransmitter γ aminobutyric acid (GABA) resulting in GABA synergism , A serious adverse effect of the valproic acid (VPA) : is its effect on liver function with resultant drug-induced hepatotoxicity, hyperammonemia . Lamotrigine (LTG) is a second generation AED . LTG belongs to the sodium channel blocking class of antiseizure medications (ASMs). Lamortigine side effects include severe rash, fever, lymphadenopathy, hepatic dysfunction, blood disorder,and disseminated intravascular coagulation and Stevens-Johnson syndrome (SJS) . the aim : Evaluation of the efficacy and safety of adding lamotrigine to sodium valproate in epileptic children not responding to SV alone for 6 months. Moreover, the investigators will evaluate the effects of this addition ,appearance of side effects,laboratory evaluation and EEG changes 50 epileptic patients receive SV for 6 months without complete remission for participants, the investigators will add lamotrigine for 6 months.
Speech and communication disorders often result in aberrant control of the timing of speech production, such as making improper stops at places where they should not be. During normal speech, the ability to stop when necessary is important for maintaining turn-taking in a smooth conversation. Existing studies have largely investigated neural circuits that support the preparation and generation of speech sounds. It is believed that activity in the prefrontal and premotor cortical areas facilitates high-level speech control and activity in the ventral part of the sensorimotor cortex controls the articulator (e.g. lip, jaw, tongue) movements. However, little is known about the neural mechanism controlling a sudden and voluntary stop of speech. Traditional view attributes this to a disengagement of motor signals while recent evidence suggested there may be an inhibitory control mechanism. This gap in knowledge limits our understanding of disorders like stuttering and aphasia, where deficits in speech timing control are among the common symptoms. The overall goal of this study is to determine how the brain controls the stopping of ongoing speech production to deepen our understanding of speech and communication in normal and impaired conditions.