View clinical trials related to Epilepsy.
Filter by:Epilepsy is one of the most common chronic brain disorders. Up to 85% of persons living with epilepsy (PwE) live in the developing world. In sub-Saharan Africa (SSA), Rwanda has one of the highest prevalence rates (±5%). Higher prevalence in low-and middle-income countries (LMICs) can partly be attributed to differences in risk factors for epilepsy of which a great number are preventable. Expanding knowledge on risk factors and etiologies of epilepsy in Rwanda can lower the portion of preventable epilepsies and decrease the high number of Rwandan PwE. This project will focus on the investigation of risk factors and etiologies of epilepsy in urban and rural Rwanda using a nationwide approach.
According to the World Health Organization, more than 50 million people have epilepsy. Among them, nearly 80% of epileptic patients live in developing countries and 75% of them do not have access to treatment. The ketogenic diet (KD) has been shown as an effective alternative for patients with drug-resistant epilepsy. Although it has been studied by few studies in Asia, no such studies have been conducted in Vietnam. The purpose of this study was to verify the feasibility, tolerability, and efficacy of the KD in children with refractory epilepsies followed at a pediatric center in South Vietnam.
The hematologic consequences of novel Anti-seizure medications (ASMs) are rarely reported. Whether coagulation dysfunctions increase the risk of peri-operative bleeding remains controversial. The research is performed to investigated the incidence and risk factors of preoperative coagulation dysfunction in children undergoing surgery for epilepsy and their impact on surgery.
Transcutaneous vagus nerve stimulation (tVNS) has been investigated as a potential treatment for epilepsy with inconsistent results. The combination of transcranial magnetic stimulation with electromyography (TMS-EMG) and electroencephalography (TMS-EEG) allows to investigate the neuromodulatory effect of interventions such as tVNS by evaluating changes in motor evoked potentials (MEPs) and TMS-evoked potentials (TEPs). The goal of this study is to objectively evaluate the effect of tVNS on cortical excitability with TMS-EMG and TMS-EEG. These findings are expected to provide insight in the mechanism of action and help identify more optimal stimulation paradigms. In this prospective single-blind cross-over study, 15 healthy subjects will undergo active and sham tVNS during 60 minutes, using a maximum tolerated stimulation current. Single and paired pulse TMS will be delivered over the right-sided motor hotspot to evaluate MEPs and TEPs before and after the intervention.
After the general period of positive social adjustments, epilepsy is in a high life cycle to control seizures. During seizures in epilepsy, patients' quality of life and antiepileptic life span can be seen in daily life such as daily life and daily awakenings. Reiki, which has been proven by studies in health problems such as fatigue and pain; an energy that can be unblocked or applied in a non-applicable way can benefit from a therapy that can be applied by touch or remotely, without negative effects. In the literature, reiki applied to epilepsy patients has sleep and quality of life. This thesis is planned to do research on sleep and living areas of reiki applied to epilepsy patients.
This project studies how 2-deoxy-glucose (2DG) pills are absorbed and distributed in people with epilepsy. 2DG is similar to glucose, the main energy source for the brain, but it cannot be used as energy. During seizures, neurons are at a very high metabolic state with huge glucose metabolism as glycolysis is accelerated to supply the high metabolic needs of a seizure. 2DG is taken up by cells but cannot be metabolized by the first enzyme in the glycolytic pathway, thus is stops, or "clogs up", glycolysis. Since brain metabolism is almost entirely dependent on glucose as an energy source, glycolysis is arrested and may stop seizures. It is hoped that 2DG will stop seizures by interfering with the brain's energy use. This is an open-label phase 2 study of the pharmacokinetics (PK), safety, and tolerability of 2DG administered orally to adult epilepsy patients. A 3-level 2DG dose escalation is planned in sequential cohorts of 3 subjects in each cohort with review of each cohort before proceeding to the next cohort. On the day of oral 2DG exposure, subjects will receive a single dose of 40 mg in the first cohort, a single dose of 60 mg in the second cohort, and two 60 mg doses (60 mg bid) in the third cohort. After 3 subjects have completed dosing at Dose Level 1 (40 mg/day), the safety and PK results will be reviewed. The Study Committee will determine if the next cohort should be enrolled at Dose Level 2 (60 mg/day). The same procedure will be repeated to determine if the next cohort should be enrolled at Dose Level 3 (60 mg bid = 120 mg/day). If the Study Committee determines that the most recent dose is not tolerated or that there are significant adverse events, the subsequent Dose Level will not be enrolled. A standard time-concentration curve will be constructed from the 2DG levels obtained from the PK blood draws. Parameters will be calculated for: time to maximum concentration (tmax), maximum concentration (Cmax), elimination rate, half-life (t1/2), AUC, and derived parameters. Statistical analysis will not be performed because of the small n, but this will nevertheless establish the PK profile of 2DG in people with epilepsy. The most important parameter will be the AUC which determines drug exposure.
Dreaming is a sleep-associated cognitive process whose neural substrates and functions remain poorly understood. In healthy subjects, the frequency of dream recall is influenced by several factors such as age, gender, interest in dreams and sleep quality. The content of dreams mainly depends on waking life experiences, especially when they are recent and have a strong emotional content. The function of dreams remains debated but it is widely accepted that dreams play a role in emotional regulation. Modifications in dreams are observed in several neurological diseases and sleep disorders, due to the modifications of sleep related to these diseases, as well as to associated disturbances in cognitive functioning and to the impact on such diseases on waking life. Epilepsy is a neurological condition characterized by a predisposition to seizures resulting from excessive and synchronized abnormal brain activity; it is associated with numerous co-morbidities including sleep and cognitive disorders, which are present in nearly one in two patients. However, the influence of epilepsy on sleep-related cognitive processes is poorly understood. It is suspected that nocturnal epileptic activity disturbs sleep-related memory consolidation processes, but the consequences of epilepsy on dreams have been little investigated. The study of the determinants (epilepsy syndrome, location of the epileptic focus, presence of sleep-related seizures, certain anti-epileptic treatments, alteration of the quality of sleep) of dream characteristics in this context could lead to a better understanding of the dreams physiology, the interactions between epilepsy and sleep, as well as the cognitive and emotional functioning related to sleep in epilepsy. It could also determine whether dream characteristics can provide information on the epilepsy syndrome and on the presence of nocturnal seizures, and thus constitute a diagnostic tool. In this cross-sectional observational study, we aim to identify determinants of dream recall in relation to epilepsy by administering a simple and brief questionnaire on sleep and dreams, to all consecutive patients seen in epileptology consultation during 12 months. Our objectives are 1. To determine whether the presence of sleep-related seizures influences the frequency of dream recall in patients with epilepsy 2. To describe the characteristics of dreams in epilepsy, the influence of epilepsy on dreams and to characterize the determinants of dream recall frequency in patients with epilepsy We hypothesize that the presence of seizures during sleep will be associated with poorer sleep quality, increased frequency of dream recall, and that we will observe the inclusion of epilepsy symptoms in dream content, particularly in subjects who are aware of their nocturnal seizures and are awakened by them.
The aim of this study is to examine the effect of Self-acupressure application on fatigue and sleep quality in epilepsy patients.
Study NPT 2042 CL 101 is a first in human (FIH) study to evaluate the safety and pharmacokinetics (PK) of single and repeated ascending doses of NPT 2042 in healthy adult male and female subjects.
Objective: This study aims to evaluate the knowledge, skills, and motivation of parents regarding management of epileptic seizures, by developing a "Virtual Reality Based Seizure Management Education Program for Parents (VR-ESMEPP). Method: This study is a double-blinded, pretest-posttest, observational randomized controlled study. The administration stage of the study was conducted between September 2018-February 2020 with parents of 91 children who were diagnosed with epilepsy and were being followed in the Pediatric Neurology Outpatient Department of Akdeniz University Hospital. The parents were distributed into groups with simple randomization (VR Group n=45-Control Group n=46). During the preparation stage of the study, data collection tools "Management-of-Epileptic Seizure-Training-Program-Prepared-with-Virtual-Reality-Technology" and "Patient Scenario Regarding Secondary Generalized Tonic-Clonic Epileptic Scenario with Aura" were prepared and integrated into the virtual reality glasses. In the administration stage, the intervention group was administered the pretest, then the training program, and a posttest immediately following the training. The participants were monitored on the 15th day. For the control group, a pretest, routine outpatient clinical practices, and a posttest were carried out; and the participants were monitored on day 15. In both groups, data were obtained with data collection tools that were integrated into the virtual reality glasses. An approval from the Ethics Committee of Akdeniz University, a written permission from the Akdeniz University Hospital, and informed consent from the parents were obtained to conduct the study.