View clinical trials related to Status Epilepticus.
Filter by:The purpose of the study is to assess the efficacy and safety of targeting tDCS stimulation for treatment of Refractory status epilepticus
This study examines the use of an AI-powered virtual assistant for quickly identifying and handling neurological emergencies, particularly in places with limited medical resources. The research aimed to check if this AI tool is safe and accurate enough to move on to more advanced testing stages. In a first-of-its-kind trial, the virtual assistant was tested with patients having urgent neurological issues. Neurologists first reviewed the AI's recommendations using clinical records and then assessed its performance directly with patients. The findings were as follows: neurologists agreed with the AI's decisions nearly all the time, and the AI outperformed earlier versions of Chat GPT in every tested aspect. Patients and doctors found the AI to be highly effective, rating it as excellent or very good in most cases. This suggests the AI could significantly enhance how quickly and accurately neurological emergencies are dealt with, although further trials are needed before it can be widely used.
This is a stepped-wedge cluster randomized effectiveness-implementation hybrid study aimed at determining the effect of dissemination of a QI bundle on the time to treatment of SE among hospitalized, non-critically ill children. The primary study endpoint is to decrease the time from the SE diagnosis to treatment with the first dose of a benzodiazepine (BZD) as measured during hospitalization, which will decrease chances of morbidity and mortality.
1. Determine the impact of cardiac injury on clinical profile, cardiac evaluation and outcome in patients hospitalized with convulsive status epilepticus (CSE). 2. Analyze the frequency of cardiac rhythm and conduction abnormalities related to seizures and determine risk factors and associated clinical characteristics. 3. Analyse ECG abnormalities and changes in HR in epileptic seizures since such disturbances might be a factor in SUDEP 4. Assessment of levels of cardiac enzymes in patients with status epilepticus
Status epilepticus (SE) is a common life-threatening neurological emergency in which prolonged or multiple closely spaced seizures can result in long-term impairments. SE remains associated with considerable mortality and morbidity, with little progress over the last three decades. The proportion of patients who die in the hospital is about 20% overall and 40% in patients with refractory SE. Morbidity is more difficult to evaluate, as adverse effects of SE are often difficult to differentiate from those attributed to the cause of SE. Our experience suggests that nearly 50% of patients may experience long-term functional impairments. The precise description of the consequences of these functional impairments and their impact on quality of life after SE requiring intensive care management has been little studied. Indeed, if cognitive, physical and mental impairments are now identified in the populations of patients who required intensive care under the term postresuscitation syndrome (PICS), neuronal lesions consecutive to the SE itselfor to its cause could be responsible for these different functional alterations. Thus, the following have been described: (i) cognitive disorders in the areas of attention, executive functions and verbal fluency, visual and working memory disorders, but also spatio-temporal disorders; (ii) physical disorders such as the so-called post-resuscitation polyneuromyopathy; and (iii) mental disorders such as anxiety disorders, depressive states or those related to post-traumatic stress. Assessment and characterization of patient-reported outcomes is essential to complement the holistic assessment of clinically relevant outcomes from the patient's perspective. The POSEIDON study was a cross-sectional collection of PROs and HR-QOL components, and associated with patient functional outcomes, in those who required ICU management for status epilepticus. We propose here to continue the description of potential alterations after a subsequent ME, namely a longitudinal study (POSEIDON 2) which will also include the evaluation of patient-reported experience (PREMS) and the measurement of family burden.
A study in the use of the Narcotrend depth of anaesthesia monitor to record a) seizures, and b) monitor a level of sedation referred to as 'burst suppression', in sedated patients in the adult and paediatric intensive care. Studies have shown that patients in coma on the intensive care unit may have subclinical in addition to clinical seizures. Subclinical seizures are seizures that do not show any outward signs and may go undetected. The current gold standard of recording seizures in the intensive care unit is by non-invasive, continuous monitoring of the electrical activity of the brain by electroencephalography (cEEG) using cerebral function analysing monitor (CFAM). This is recorded with simultaneous video recording and is performed by Clinical Neurophysiology departments. There has been a steady increase in demand for this service over recent years. Additionally, CFAM / cEEG is labour intensive and expensive. If trends continue, the proportion of hospitals offering CFAM / cEEG will continue to rise, creating increased demand for specialist staff, of which there are a finite number. Depth of anaesthesia monitors are used by anaesthetists to assess the level of anaesthesia in sedated patients using specialised, automated EEG analysis and are now recommended by NICE (DG6) to tailor anaesthetic dose to individual patients. This study aims to investigate the utility of the Narcotrend depth of anaesthesia monitor to monitor for seizures and burst suppression on the adult and paediatric intensive care unit. These monitors are cheaper and more widely available with the scope to be used at every bed space requiring neuro observation on the intensive care unit. The study aims to recruit all patients who are referred for CFAM / cEEG monitoring at Nottingham University Hospitals (NUH) Trust over a 12 month period. These patients will undergo simultaneous recording using CFAM / cEEG and depth of anaesthesia monitoring.
Status epilepticus is the second most common neurologic emergency in children. Morbidity and mortality are considerable; thus, timely termination of convulsive status epilepticus is the primary goal of management to avoid these risks Our objective was to compare the efficacy of phenytoin and Levetiracetam in status epilepticus in children. This study was done in the pediatric emergency department of Children Hospital Faisalabad. A total of 70 patients were randomly allocated to one of the groups by a computer-generated random number table according to their admission in an emergency. Children in group A were given levetiracetam. Children in group B were given I/V phenytoin. For both groups if seizures recurred after the first loading dose an additional 10mg/kg of the same drug was given over 10 minutes. The patients were monitored to see whether there was any recurrence of seizure activity in the subsequent 24 hours. Seizure control was defined as the absence of seizure within 24 hours after the initial loading of the drug.
The investigators propose a prospective study of 20 control subjects and 180 consecutive patients with possible non-convulsive status epilepticus (NCSE). The investigators will obtain three functional images of the brain: 1. Fluorodeoxyglucose positron emission tomography (FDG-PET) 2. Perfusion (and structural) magnetic resonance (MR) images 3. Computed tomography (CT) perfusion. Brain hypermetabolism/hyperperfusion is a strong argument to confirm a diagnosis of non-convulsive status epilepticus. The aim is to determine which of the three functional imaging techniques is the most sensitive and easy to obtain in the detection of hypermetabolism/hyperperfusion. The investigators will determine which EEG patterns are associated with hypermetabolism/perfusion. The investigators will further study and describe the management with antiseizure medication and outcome of the group with possible non-convulsive status epilepticus WITH hypermetabolism/hyperperfusion versus the group with possible non-convulsive status epilpticus WITHOUT hypermetabolism/hyperperfusion. The investigators will make recommendations for an imaging protocol in possible NCSE for widespread use. The aim is to offer guidelines to incorporate imaging in the diagnosis, management and prognosis of NCSE in patients with the ictal-interictal continuum.
Status epilepticus, or recurrent seizures without return to baseline, is a neurologic emergency. Refractory status epilepticus occurs when seizures are resistant to multiple first line anti-seizure medications. The ability to quickly stop seizures is paramount. Transcranial direct current simulation is a non-invasive, easily administered therapy that can potentially help reduce seizure burden. The goal of this feasibility study is to assess the ability of the study site to enroll patients admitted with refractory seizures or those with abnormal brain wave patterns to take part in a study looking to use transcranial direct current stimulation as an adjunctive treatment. The main questions it aims to answer are: - What is the recruitment capability of the study site? - How well can the study site adhere to study protocol? - Are there any adverse effects of using the transcranial direct current stimulation device? - How do patients' brain wave studies respond to the stimulation? Participants will be asked to consider joining the study. Once joined, researchers will randomly assign participants to compare transcranial stimulation versus sham stimulation to see if this will affect the participant's brain wave patterns.
RESTORE is a randomized clinical trial investigating the safety and feasibility of using EEG treatment targets (burst suppression vs. seizure suppression) for post-cardiac arrest refractory status epilepticus treatment.