View clinical trials related to Seizures.
Filter by:To evaluate the efficacy of oral melatonin compared to oral diazepam for prevention of recurrent simple febrile seizures.
This is a randomized, double-blind, parallel-group, Phase 3 study to evaluate the efficacy of the administration of phenobarbital Sodium Injection, United States Pharmacopeia, (USP), in participants who have suffered from a clinical seizure. As neonatal seizures can have long-term adverse effects, including death, placebo-controlled studies are not appropriate for this population. This study is designed to show phenobarbital is effective at preventing subsequent seizures by demonstrating greater efficacy at the higher (40 mg/kg) dose compared to the lower dose (20 mg/kg). It is important to note that, although phenobarbital is not approved for the treatment of neonatal seizures, it is commonly used for this indication and is considered the first-line therapy in the US and by the World Health Organization. The minimum recommended dose of phenobarbital used to treat neonatal seizures is 20 mg/kg. Therefore, the lower dose of phenobarbital used in this study is considered an "effective" dose for the treatment of neonatal seizures. The design of this study allows for assessment of the minimum recommended dose with the maximum recommended dose to show the increased efficacy of the high dose in various measures of reduction in seizures.
Epilepsy is one of the most common and frequently encountered neurological conditions that impose a huge burden on the healthcare systems. Despite the abundance of antiepileptic drugs (AEDs) available, 30% of people continue to have seizures even after long-term therapy of 6-8 years. This group of people requires a more aggressive treatment since monotherapy, the first choice scheme, is not sufficient to control seizure and its complications, multiple drug therapy or polytherapy often results in the culmination of unwanted effects. The need for an add-on AEDs with a good safety profile is of utmost importance.The beneficial effects of melatonin on sleep, its wide safety window, and its ability to cross the blood-brain barrier have the potential to improve the quality of life in seizure patients. Various animal studies have suggested that melatonin receptors are the potential targets for anticonvulsant drug development. In animal studies, melatonin was found to suppress generalized seizure and seizure susceptibility and it also has neuroprotection and synapse modulating properties. Some clinical trials mostly on paediatric population also found that melatonin can improve the clinical outcome in epilepsy. Therefore, we have planned to conduct a randomized, add-on placebo-controlled clinical trial on the effect of melatonin on seizure outcome, neuronal damage and quality of life in adult patients with generalized seizure.
Severe acute alcohol withdrawal syndrome is a potentially life-threatening condition characterized by agitation, confusion, abnormal heart rhythms and seizures. Typically, clinicians treat the symptoms of alcohol withdrawal with a class of medications known as benzodiazepines (e.g., Valium). These medications have a short duration of activity and require repeated administration, often every hour or less, to reduce the symptoms of alcohol withdrawal. Many patients suffer complications related to inadequate treatment of alcohol withdrawal (e.g., abnormal heart rhythms, aspiration, seizures) resulting in admission to an intensive care unit and prolonged hospital stay, all of which increase healthcare costs. Although alcohol withdrawal is common, especially among disadvantaged (e.g., homeless) patients, limited funding is available to advance the care of patients suffering from alcohol withdrawal. A safe and effective treatment for severe alcohol withdrawal would benefit patients and our healthcare system. Phenobarbital is an inexpensive, commonly available medication that is typically used to treat seizures. A key advantage of phenobarbital is that its calming effect lasts for a long period of time and it can be given as a 'one-time-dose' intravenously, so that it both prevents and treats withdrawal symptoms and reduces the need for repeated benzodiazepines. Through better symptom control, phenobarbital is expected to reduce the costs and complications of alcohol withdrawal. At present, physicians rarely use phenobarbital for this purpose, and additional research is needed for this medication to become part of routine care in clinical practice. The PHENOMANAL pilot trial will assess safety and whether clinicians can administer a single dose of phenobarbital intravenously, in addition to benzodiazepines, compared to benzodiazepines alone for treating patients with severe alcohol withdrawal. This information will inform the design of a larger clinical trial. For patients, the PHENOMANAL trial has the potential to revolutionize how patients suffering from severe alcohol withdrawal are treated. For society and the healthcare system, phenobarbital is expected to reduce the complications and costs associated with severe alcohol withdrawal.
1. Design an educational quality improvement program to assess the most effective educational approach on caregiver seizure RM application. The investigators hypothesize that this educational program will improve caregiver comfort, knowledge of emergent seizure care, and time to medication application. Specifically, the aims include: 1. Create an educational video reviewing RM administration 2. Develop and validate a simulation training model/mannequin for rectal diazepam administration 3. Expand training to other seizure RMs (e.g. intranasal midazolam, buccal lorazepam) and transition the most effective educational model back to the clinics/bedside to standardize caregiver teaching throughout the department/hospital
The investigators aim to identify the frequency with which an elective brain MRI yields and etiologic diagnosis to explain its indication. The protocol includes children undergoing elective brain MRI with anesthesia prior to their third birthday.
The objective of this Compassionate Use Program (CUP) is to provide continued access to Lacosamide (LCM) for monotherapy use for patients who were receiving LCM in SP0993 and SP0994 at the time of study unblinding and close of SP0994, and who benefited from the treatment per investigator assessment.
The "North Carolina Clinical Genomic Evaluation by Next-gen Exome Sequencing, 2 (NCGENES 2)" study is part of a larger consortium project investigating the clinical utility, or net benefit of an intervention on patient and family well-being as well as diagnostic efficacy, management planning, and medical outcomes. A clinical trial will be implemented to compare (1) first-line exome sequencing to usual care and (2) participant pre-visit preparation to no pre-visit preparation. The study will use a randomized controlled design, with 2x2 factorial design, coupled with patient-reported outcomes and comprehensive clinical data collection addressing key outcomes, to determine the net impact of diagnostic results and secondary findings.
This study is designed as a prospective, non-randomized, observational, multicenter clinical trial. The primary aim of this study is to observe if the use of the rapid responds electroencephalography (EEG) system impacts physician decision making. Secondary aims include exploring the safety and performance information of the Ceribell EEG system compared to conventional EEG system. The study will recruit physicians (Faculty physicians and Trainees) at up to five institutions and examine the impact of rapid response EEG when providing care to patients in whom EEG recording has been ordered for clinical reasons.
Electroencephalography (EEG) records electric activity of the brain using electrodes placed on the scalp. EEG is an important tool in the diagnostic work-up of patients with epilepsy. Specific types of sharp EEG discharges (epileptiform discharges) are associated with patients with epilepsy. The International Federation of Clinical Neurophysiology (IFCN) has recently published a set of six operational criteria for identifying epileptiform discharges. At least four criteria need to be present in order to classify a discharge as epileptiform. These criteria are largely based on expert opinion and have not been validated yet. It is not clear what the sensitivity and specificity of these criteria are, and which combination of these criteria are optimal. Each criterion is based on visual assessment. However, it is not known what the inter-rater agreement of these criteria are. EEG is traditionally inspected in sensor space, i.e. in the recording channels. Advances in signal analysis made possible reconstructing the electric currents in the regions of the brain generating them, and displaying the signals in the source space, instead of the sensor space. The objectives of this study are: to determine the inter-rater agreement of the IFCN criteria by visual analysis in sensor space, to determine the combination of criteria with the best accuracy (sensitivity and specificity) and assess the accuracy of evaluating the discharges in source space. The raters will analyze EEG recordings from 100 patients, from two groups: consecutive patients with epilepsy and consecutive patients with non-epileptic paroxysmal episodes. EEG was recorded during long-term video-EEG monitoring. As reference standard, the investigators used the evaluation of the patients´ habitual clinical episode. The performance of the criteria in sensor-space and the analysis in source space will be compared with the unrestricted expert scorings.