View clinical trials related to Epilepsy in Children.
Filter by:Background. Following a childhood diagnosis of epilepsy, children and their families encounter significant concerns about the disease trajectory, side effects of anti-seizure medications, and long-term prognosis. The multitude of uncertainties can cause significant anxiety in the family, often within the context of limited supports and resources. Epilepsy education can help address these concerns, mitigating the development of anxiety, ultimately leading to better patient-, family- and system-level outcomes. Globally, the MEEP is the only mobile application providing education, monitoring of symptoms, and tracking of medical appointments. The original MEEP was developed, tested, and integrated into practice in Turkey; the investigators will now evaluate the efficacy of an English and French version of the MEEP for families of children with epilepsy in Canada. A two-group, single-center, randomized controlled intervention trial with 1:1 allocation ratio will be conducted in the Pediatric Neurology Clinic of the Montreal Children's Hospital. Seventy-two caregivers of children with epilepsy (intervention=36, control= 36), aged 1-17 years and treated at the study site will be eligible. Family Introduction Form, Epilepsy Information Scale for Parents and Parental Anxiety Scale for Seizures will be used to collect data at baseline and 3 weeks post-delivery of the 7-week intervention. The MEEP consists of 2 parts. The first part entails the delivery of the educational content of the MEEP, and the second part consists of a "Parental Monitoring Section." Comparator. The control group will continue to benefit from the standard educational services provided by the study site.
The aim of this study is to examine the effect of the education given to nursing students with the Jigsaw technique and traditional method on their knowledge and attitudes about childhood epileptic seizure management.
This randomised controlled study evaluates the effect of a training programme based on the Health Promotion Model developed for parents of children diagnosed with epilepsy on parents' level of knowledge about epilepsy, parents' general self-efficacy level, parents' health promoting and protective behaviours and the number of hospital admissions of their children. The hypothesis of this study is that education has an effect on these.
Inborn Errors of metabolism comprise a large number of rare conditions with a collective incidence of around 1/2000 newborns. Many disorders are treatable provided that a correct diagnosis can be established in time, and for many diseases novel therapies are being developed. Without treatment, many of the conditions result in early death or severe irreversible handicaps. The Centre for Inherited Metabolic Diseases, CMMS at Karolinska university hospital, is an integrated expert center where clinical specialists work closely together with experts in laboratory medicine, combining clinical genetics, clinical chemistry, pediatrics, neurology, and endocrinology. The center serves the whole Swedish population with diagnostics and expert advice on IEM and has a broad arsenal of biochemical investigations designed to detect defects in intermediary metabolism.
This study aims to evaluate the efficacy of a ketogenic diet in treating pediatric intractable epilepsy and to explore its relationship with changes in inflammatory markers. The investigators plan to recruit 59 participants with intractable epilepsy, 39 of whom will receive a combination of ketogenic diet and conventional antiepileptic drugs, while 20 will receive only conventional drugs. The study will assess the impact of the ketogenic diet on epilepsy control and inflammatory markers, hoping to discover new treatment strategies.
This study was planned as a randomized controlled experimental study with a pretest-posttest design to determine the effect of parental supervision and video-guided progressive relaxation exercise (PRE) and music recital on sleep, quality of life and emotional states in children with epilepsy aged 9-16 years. The main questions it aims to answer are as follows: According to the evaluation of children with epilepsy, does the progressive relaxation exercise applied to children have an effect on sleep, quality of life and emotional states? According to the evaluation of children with epilepsy, does music recital applied to children have an effect on sleep quality of life and emotional states? The study consisted of 45 children (15 children in the progressive relaxation exercise group, 15 children in the music recital group and 15 children in the control group). Ethics committee approval, permission from the institutions and informed consent of the children were obtained for the conduct of the study. A value of p<0.05 was considered statistically significant in data analysis.
This study investigates the usefulness of high resolution electrical source imaging (HR-ESI) in the setting of presurgical evaluation of drug-resistant focal epilepsy in children. This method is based on an estimation of the intra-cerebral source that produces a signal recorded by scalp electrodes by solving the inverse problem, taking into account attenuation factors resulting from particular conductivity properties of the cerebral, peri-cerebral and cranial tissues. Electrical sources are then fused on structural magnetic resonance imaging (MRI). Scalp EEG recorded using 64 to 256 electrodes refers to as high resolution EEG (HR-EEG), leading to HR-ESI. Studies based on small population of children or on mixt population of children and adults showed that HR-ESI has accuracy values, i.e. percentage of true positives (electrical source localized in the brain area resected and success of surgery) and true negatives (electrical source localized outside the brain area resected and failure of surgery) among the total population, ranging from 50 to 80%. Discrepancies between studies could be explained by the limited number of patients included or by the mixture of pediatric and adult data. Another limitation of previously published studies is that the spatial pattern of dipole source distribution was not taken into account to determine prediction accuracy of ESI. Studies using magnetoencephalography (MEG) to perform magnetic source imaging (MSI) suggest that the spatial pattern of dipole source distribution needs to be considered, a spatially-restricted dipole distribution being associated with better post-surgical outcome when resected. To tackle these issues, the investigators aim to conduct the first large prospective multicentric study in children with focal epilepsy candidates to surgery to assess prediction accuracy of ESI based on the finding of tight clusters of dipoles. This is original as this pattern (tight versus loose cluster of dipoles) has been studied by several researchers using MEG but not using HR-EEG. The investigators make the hypothesis that HR-EEG will allow to identity good candidates for epilepsy surgery and thus to offer this underutilized treatment in more children with better post-surgical outcome. Among the secondary objectives, the investigators will address methodological issues related to the resolution of the inverse problem (methods using distributed sources models versus methods based on equivalent dipole estimation), the potential added value to model high-frequency oscillations (HFO), and the investigators will assess the cost-utility of the HR-ESI procedure.
Currently, mapping the epileptogenic zone is based on a comprehensive preoperative assessment involving clinical, imaging and electrophysiological examinations. To reduce the need for invasive stereoelectroencephalography (SEEG) explorations, electrophysiological and imaging methods have been developed, such as resting-state functional MRI (fMRI) coupled with electroencephalogram and arterial spin-labeling perfusion MRI (ASL-MRI). It has been published that these new methods enable precise delineation of the epileptogenic zone and better preparation for surgery. The aim is to determine whether, in children with focal lesional epilepsy, the combination of ASL-MRI-EEG and resting-state fMRI-EEG enables precise identification of the epileptogenic zone to be defined by SEEG, the current reference examination.
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.
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.