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Seizure clinical trials

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NCT ID: NCT05746624 Recruiting - Ischemic Stroke Clinical Trials

Procedural Motor Memory in Long COVID-19

Start date: November 15, 2021
Phase: N/A
Study type: Interventional

Background: Most people who get COVID-19 seem to recover with no long-term effects. However, some people who recover from acute COVID-19 infections report lingering symptoms. This is called long COVID. Many people with long COVID report symptoms related to the nervous system; these can include problems with fatigue, speech, and memory. Objective: To test motor memory in people with long COVID, compared to healthy volunteers. Eligibility: People aged 18 to 90 years who are also enrolled in study protocol 000089. Healthy adults are also needed. Design: Participants will be screened by telephone. They will confirm they are able to type without discomfort using their nondominant hand. They will confirm they have access to a computer connected to the internet. All study tasks will be done online. Participants will complete 2 tasks in 2 days. Participants will be sent a link to a website. The website will give them instructions. They will place the fingers of their nondominant hand over 4 numbers on the keyboard and type a sequence (eg, 4-1-3-2-4). They will type this sequence as often as they can in 10 seconds. Then they will rest for 10 seconds before repeating the task. They will repeat this pattern for 15 minutes. After they finish the typing task, participants will take a 10-minute questionnaire. They will answer questions about their experiences with COVID-19 and memory issues; they will say which hand they use for tasks such as brushing their teeth or throwing a ball. Participants will get a notice to repeat the typing task 22 hours after they finish the first one. They should complete the second task within 28 hours....

NCT ID: NCT05500638 Completed - Epilepsy Clinical Trials

Effect of VR-ESMEPP on Parents' Seizure Management

VR-ESMEPP
Start date: August 6, 2018
Phase: N/A
Study type: Interventional

Objective: This study aims to evaluate the knowledge, skills, and motivation of parents regarding management of epileptic seizures, by developing a "Virtual Reality Based Seizure Management Education Program for Parents (VR-ESMEPP). Method: This study is a double-blinded, pretest-posttest, observational randomized controlled study. The administration stage of the study was conducted between September 2018-February 2020 with parents of 91 children who were diagnosed with epilepsy and were being followed in the Pediatric Neurology Outpatient Department of Akdeniz University Hospital. The parents were distributed into groups with simple randomization (VR Group n=45-Control Group n=46). During the preparation stage of the study, data collection tools "Management-of-Epileptic Seizure-Training-Program-Prepared-with-Virtual-Reality-Technology" and "Patient Scenario Regarding Secondary Generalized Tonic-Clonic Epileptic Scenario with Aura" were prepared and integrated into the virtual reality glasses. In the administration stage, the intervention group was administered the pretest, then the training program, and a posttest immediately following the training. The participants were monitored on the 15th day. For the control group, a pretest, routine outpatient clinical practices, and a posttest were carried out; and the participants were monitored on day 15. In both groups, data were obtained with data collection tools that were integrated into the virtual reality glasses. An approval from the Ethics Committee of Akdeniz University, a written permission from the Akdeniz University Hospital, and informed consent from the parents were obtained to conduct the study.

NCT ID: NCT02926703 Completed - Syncope Clinical Trials

Lactate Compared to Creatine Kinase as Diagnostic Marker in Generalized Epileptic Seizure

Start date: November 2015
Phase: N/A
Study type: Observational

The investigators compared the feasibility of serum creatine kinase and serum lactate concentration as diagnostic markers to distinguish between generalized tonic-clonic seizures (GTCS) and syncopes in clinical settings that require fast-action treatment, such as in the emergency departments.

NCT ID: NCT02883712 Terminated - Seizure Clinical Trials

Study of Predictors of Response to Anti Epilepsy in Epilepsy

RESISTANT
Start date: May 21, 2013
Phase:
Study type: Observational

Pharmacoresistant epilepsy remains around 30% despite the development of 25 anti epileptic drugs. Of course, this can be explained by pharmacoresistant epileptic brain diseases, as exemplified by some genetic diseases. However, the lack of specific guidelines for the choice of the anti epileptic drugs (apart from generalized and partial epilepsy) and the very large number of drugs with different and sometimes complex metabolism are challenges for neurologists. Among the 30 % of pharmacoresistant epilepsy, there is a part related to pharmacokinetic drawbacks that could be overcome with a more rigorous approach (i.e. dosage and pharmacogenetics tools). Moreover, the new anti epileptic drugs have metabolism more unrelated with the cytochrome P450 and less generalised adverse events. However, their metabolism could be more complexe (i.e. the less known Uridine 5'-diphospho-glucuronyltransferase (UGT) pathway) and bring more insidious neurological adverse events (i.e. depression, anxiety exacerbation, cognitive disorders worsening) which could largely impede the observance and the quality of life even if the number of seizure is reduced or not. The goal is to determine the predictive and the modulating factors of pharmacoresistance with a global analysis (i.e. whatever the anti epileptic drugs) and with a specific analysis (drug by drug) from a cohort of 1000 patients.

NCT ID: NCT02694094 Enrolling by invitation - Epilepsy Clinical Trials

Impact of Ketogenic Diets on Cardiovascular Health in Adults With Epilepsy

Start date: March 2016
Phase:
Study type: Observational

This research is being done to evaluate the short term and long term effects of ketogenic diets on measures of cardiovascular health. Such measures include cholesterol levels, blood pressure, weight, and thickening of the blood vessel wall over time. Adults aged 18 or older who are already on a ketogenic diet for at least 12 months or who are interested in beginning on the modified Atkins diet may join.

NCT ID: NCT02503878 Terminated - Seizure Clinical Trials

Sedline 4 Channel Electroencephalogram (EEG) Monitoring During Suppression of Unilateral Hemispheric Function (Wada Test

Start date: December 2014
Phase: N/A
Study type: Observational

Masimo Sedline brain function monitors are sensors (stickers) placed on a the forehead to monitor levels of "sedation" based on a bilateral 4-channel electroencephalogram (EEG). The purpose of this study is to observe the effectiveness of the Sedline monitor to detect the unilateral hemispheric EEG changes seen in Wada testing

NCT ID: NCT02426047 Completed - Epilepsy Clinical Trials

Medium Chain Triglycerides as an Adjunct to the Modified Atkins Diet for Women With Catamenial Epilepsy

Start date: March 2015
Phase: N/A
Study type: Interventional

The modified Atkins diet (MAD) has been shown to be effective in treating intractable epilepsy. Approximately 55% of the patients started on the diet are women of childbearing age and women with epilepsy often have a pattern of seizures that correlates with their menstrual cycle, called catamenial epilepsy. The investigators have observed that despite an overall reduction in seizure frequency, some women on the MAD continue to have breakthrough seizures in a catamenial pattern. The investigators hypothesize that women with a history of intractable epilepsy who have been on the modified Atkins diet for at least 3 months and have a catamenial seizure pattern will tolerate and be compliant with the addition of a daily amount of betaquik® (a liquid emulsion of medium chain triglycerides) for a 10 day time interval starting 2 days prior to and encompassing the primary catamenial pattern.

NCT ID: NCT02383745 Completed - Status Epilepticus Clinical Trials

EEG in In-hospital Patients With Seizure or Altered Mental State

Start date: December 1, 2014
Phase:
Study type: Observational

In Kuopio University Department of Clinical Neurophysiology there have been designed a fast EEG electrode, that is suitable for acute emergency use. It is easy to set up, records high quality EEG and can detect the most important EEG abnormalities comparable to conventional EEG. This study will address the clinical use of acute EEG with fast electrode set in in-hospital patients who have been consulted by Medical Emergency Team because of seizure or altered mental state of uncertain etiology. Patients are going to be treated in ICU and EEG monitoring will continue for 24 hours.

NCT ID: NCT02334722 Completed - Brain Cancer Clinical Trials

1 Week Versus 6 Weeks of Levetiracetam in Surgical Brain Tumor Patients

Start date: August 5, 2015
Phase: Phase 4
Study type: Interventional

The purpose of this study is to see if there are any differences in patient reported neurotoxicity between patients who receive Levetiracetam tablets for one week after surgery to remove a brain tumor versus those who receive Levetiracetam tablets for six weeks after surgery. Specifically, we will see if one group has less side effects than the other, and whether or not one group has more seizures than the other.

NCT ID: NCT01982812 Completed - Epilepsy Clinical Trials

A Dose-Escalation, Safety and Feasibility Study of Enteral LVT for Seizure Control in Pediatric CM

Start date: January 2014
Phase: Phase 2
Study type: Interventional

Pediatric cerebral malaria (CM) affects more than 3 million children each year killing ~20% and leaving one third of survivors with long term neurologic and psychiatric sequelae. Seizures occur commonly with CM and are associated with an increased risk of death and neuropsychiatric disabilities. In this Malawi-based, dose- escalation, safety and feasibility study of enteral levetiracetam in pediatric CM, the investigators will lay the groundwork for future efficacy studies aimed at improving seizure control and ultimately decreasing the neurologic morbidity of pediatric CM.