View clinical trials related to Drug Resistant Epilepsy.
Filter by:To evaluate the safety, tolerability and efficacy of oral administration of PTL101 (cannabidiol) for the treatment for pediatric intractable epilepsy. Study will include a 4-week observation period ,12 weeks of treatment and 2 weeks of follow up.
Effect of oral magnesium sulfate (Mg) supplementation will be studied. Children with drug resistant idiopathic epilepsy following up in Pediatric Neurology Clinic, Ain Shams University, will be randomized to either Mg add-on treatment group or anti-epileptic drugs AEDs alone. Serum magnesium, seizure control and Intelligent quotation (IQ) will be done at base line and after 6 months of treatment.
The purpose of this study is to learn if a structured yoga program can reduce anxiety, improve depression, and improve quality of life in patients with medication resistant epilepsy (MRE).
To evaluate the tolerance, acceptability and compliance of Keyo in 20 subjects aged 3 years and over, with intractable epilepsy or Glut-1 DS on a KD.
Perampanel is a non-competitive antagonist of the AMPA ( 2-amino-3-(5-méthyl-3-hydroxy-1,2-oxazol-4-yl)) propanoïc acid receptors which was approved by the European Medicines Agency as adjunctive treatment for partial-onset seizures in patients 12 years and older, in 2012. The aim of this study is to evaluate effectiveness and safety of perampanel as add-on treatment in patients with refractory epilepsy. The investigators retrospectively collected and analyzed the data of patients with refractory epilepsy who had been treated with perampanel between May of 2014 and April of 2015. In total, one hundred and ten patients were included (mean age 41 [SD = 15.2]). The mean duration of epilepsy was 25 years (SD = 14.4). The mean perampanel dose was 5.7 mg/d (SD = 2.3). The retention rate was 77% at 6 months and 61% at 12 months. After 6 months, the responder rate was 35.5%. Eight patients (7.3%) became seizure free. Adverse effects were reported in 60 patients (54.5%). Most common side effects were behaviour disturbance (22.7%), dizziness (15.5%), asthenia (11.8), somnolence (10%) and ataxia (9.1).
This is a single site, non-randomized, prospective, open-label, interventional pilot/feasibility study. Patients recruited will have medically-refractory focal neocortical epilepsy, defined on the basis of presence of focal spikes and (if available) focal seizure onsets originating from the lateral cortical surface of any lobe. All patients and referring physicians will be requested to maintain their current antiepileptic drugs throughout the study with changes after enrollment permitted only to maintain pre-enrollment drug levels, or if clinically necessary. The primary outcome measure will be the change in seizure frequency (seizures/week) as compared to baseline. Patients with medically-refractory neocortical epilepsy will receive cathodal tDCS administered to the seizure focus for 10 sessions over a 2-week period with the allowance of make-up sessions in week three. Subjects will be evaluated at baseline, during the stimulation sessions, and 8 weeks after the completion of the tDCS visits
One third of children with epilepsy have seizures that are medically intractable. Uncontrolled seizures pose a variety of risks to children, including higher rates of mortality, developmental delay and cognitive impairment. Epilepsy surgery is not a feasible option for most children with refractory epilepsy. The ketogenic diet and the modified Atkins diet have been shown to be effective alternative treatments in children with refractory epilepsy. However, these need parents to be educated, and understand complex instructions of weighing foods and diet preparation. Therefore, children with parents with low levels of literacy and poor socioeconomic status have not been able to benefit from these therapies. Also, the paucity of trained dieticians and limited availability of labeled foods in resource-constraint settings has made these dietary therapies even more inaccessible. This study aimed to to develop a simple-to-administer variation of the modified Atkins diet for use in children with refractory epilepsy and to evaluate the efficacy and tolerability of this simplified modified Atkins diet in children with refractory epilepsy in a randomized controlled open-label trial.
The modified Atkins diet is a non-pharmacologic therapy for intractable childhood epilepsy that was designed to be a less restrictive alternative to the traditional ketogenic diet. This diet is started on an outpatient basis without a fast, allows unlimited protein and fat, and does not restrict calories or fluids. Modified Atkins diet is of special importance in resource constraint settings with paucity of trained dieticians. However, there is paucity published data on the use of the modified Atkins diet in refractory epilepsy in young children. This study aims to evaluate the efficacy and tolerability of the modified Atkins diet in refractory epilepsy in young children.
Electroencephalography (EEG) with very high spatial resolution (HR-EEG, 256 electrodes) allow for better analysis of local and global activity of the cerebral cortex, as compared with conventional EEG. Since January 2012, the Neurology Department of CHU Rennes is the first clinical service in France equipped with such a system. Applied to HR-EEG recordings, brain connectivity methods are likely to provide essential information (in the form of "connectivity graphs") on cortical networks, either dysfunctional or not, involved in the generation of interictal paroxysms (like spikes or spike-waves) and during seizures. So far, many methods have been proposed (see for a review: Wendling et al., 2009; Wendling et al., 2010). However, since each method is highly sensitive to the type of model that is assumed for the underlying relationship between distinct brain regions (Ansari-Asl et al., 2006), none of them has yet demonstrated its effectiveness.
The purpose of this observational registry is to evaluate the long-term effectiveness, safety and performance of market-released Medtronic Neuromodulation products for Deep Brain Stimulation (DBS) for the treatment of refractory epilepsy. In addition, healthcare resource use and patient reported outcomes, such as health related quality of life will be assessed.