View clinical trials related to Epilepsy.
Filter by:This is an observational study of medical marijuana manufactured and dispensed by Ilera and given as standard treatment for a variety of approved serious medical conditions as defined by individual state law. All patients who are receiving one of the four formulations (Dream, Soothe, Shine and Ease) of medical marijuana will be provided a study flyer and asked to contact the study team via phone or email. Once the study team confirms eligibility, the study team will meet the subject face-to-face most likely at their dispensary (or other mutually agreeable location) and obtain informed consent, and assent when appropriate. Initial baseline demographic information, medical history and medication inventory will be completed. Also, since it is possible that the Investigators will enroll subjects across the region, Investigators anticipate the need to seek consent over the phone for many patients. This will be done via Skype, Go to Meeting, Facetime or similar platforms so that the Investigators can have a face to face interaction with the potential subjects. Regardless of where this discussion takes place (i.e., in person or via the web), all reasonable safeguards to ensure patient privacy will be taken. Patients or their legally authorized representative (LAR) will be given sufficient (i.e., up to several hours/days) to make a decision to participate in this study. Study staff will fax or email the consent form for their signature and no study procedures will begin until the signed consent form is received by the study team. The subjects or their LARs will be instructed on obtaining the blood samples. Blood draws will be completed in the subjects' home after one of their standard doses is taken.
The purpose of this study is to find out if there is a benefit to using the MyREADY Transition[TM] BBD App for brain-based disabilities, compared to not using it. To do this, some of the participants in this study will use the MyREADY Transition[TM] BBD App and others will not use the App. Everyone will continue to get the same care they have been getting (their usual care). The study team wants to see how youth will use the MyREADY Transition[TM] BBD App as they are getting ready to leave the children's hospital or children's treatment centre. And, they want to see if it will help youth to be knowledgeable about their own health. The study team hopes to see youth taking steps to develop the skills so they become better managers of their health. For example, this would include knowing about their medication or knowing when to ask for help from parents/caregivers and health care providers.
A prospective, open, randomized, pilot clinical trial which aims the assessment of quality of life (QOL) in epilepsy outpatients equipped with a wrist-worn biosensor that provides measures of electrodermal activity and accelerometry. These measures are used to automatically detect epileptic seizures that are transmitted to a mobile phone-based system for alerts and recording.
The purpose of this study is to examine whether a low dose of CBD+THC will decrease the frequency of convulsive seizures in adults with drug-resistant epilepsy, when used in addition to standard anti-epileptic drugs (AEDs). This study will also study the genes associated with epilepsy and whether different epileptic syndromes respond to treatment with CBD+THC.
Epilepsy is a frequent group of diseases, affecting 1% of the general population with a higher incidence in children. Anti-epileptic drugs are used as part of the drug treatment. Even if children with epilepsy have its own characteristics, as in adults, the choice of an anti-epileptic treatment is also based on the benefit-risk balance. The purpose of the treatment should not only be the seizure control. The occurence of side effects is a major factor to be taken into account. In the special populatIon of children with resistant epilepsy (20 to 30% of epilepsy), the treatment goal is not any more to be seizure free but to achieve the lowest possible frequency of seizures with the lowest level of side effects. When assessing the benefit-risk balance of antiepileptic treatment, it is important to keep in mind that the child is a developing human being whose main activity is learning. Special attention should be paid to minimize treatments with excessive cognitive consequences. Be particularly wary of combination therapies (combinations of several antiepileptic treatments). Indeed, it is well established that they are more harmful than monotherapy. It is also important to avoid the use of drugs with too strong a cognitive effect. Some molecules such as phenobarbital or topiramate have been the subject of a few studies that have established their deleterious effect on the cognitive level. Among antiepileptics, benzodiazepines are sometimes used as disease-modifying therapy. In France, clobazam is the clonazepam have a Marketing Authorization for children. However, there is no study to determine whether these molecules have cognitive consequences. In order to have more data to better establish the risk-benefit balance of benzodiazepines in the treatment of children with epilepsy, the investigators wish to conduct work to evaluate the cognitive consequences of benzodiazepines in children treated for epilepsy.
The purpose of this pilot study is to measure adherence and quality of life in adults with intractable epilepsy following the Modified Atkins Diet (MAD) with Betaquik, a ready-to-use medium chain triglyceride (MCT) emulsion, as an adjunct to the MAD.
The purpose of the study is to evaluate the efficacy, safety and tolerability of the 3 selected dose regimens of padsevonil (PSL) administered concomitantly with up to 3 anti-epileptic drugs (AEDs) compared with placebo for treatment of observable focal-onset seizures in subjects with drug-resistant epilepsy.
Investigate myelin alterations in patients with neurosurgical diseases
The primary purpose of the study is to assess pharmacodynamic (PD) activity of E2082 as measured by suppression of epileptic photoparoxysmal response (PPR) in the participant's most sensitive eye condition in participants with photosensitive epilepsy, compared to placebo.
Epileptic seizures arise from neuronal defects that often alter the capacity of the brain to process sensory information. During absence seizures, a frequent epileptic syndrome in children, the normal conscious and perceptual processes are temporarily interrupted. This is the result of abnormal synchronized neural activities in the thalamo-cortical loops, leading to bilateral spike-and-wave discharges (SWDs) in the cortical electroencephalograms (EEGs). The brain mechanisms underlying the lack of sensory experience during absence seizures are disputed. Based on preliminary data, the investigators hypothesize that the alternation of 'spike' and 'wave' patterns during seizure could cause a time-to-time inconstancy in cortical responsiveness, preventing conscious perception. Using a real-time closed-loop stimulation system, the investigators will research how the S- and W-patterns specifically alter the sensory-evoked responses in the EEG. During a standard EEG, visual stimulations will be applied between and during absence seizures to test the hypothesis that repeated sensory stimuli, applied with an appropriate timing relative to the seizure-related oscillatory cycle, could negatively interfere with the regenerative network mechanisms involved in the occurrence of SWDs. The completion of this project should permit to unveil a new neuronal mechanism supporting the lack of conscious experience during absences and pave the way for new clinical non-invasive strategies to interrupt ongoing seizure activity.