Seizure Tracker - Clinical Trial Finder
Clinical Trial Finder
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Featured Epilepsy Studies

The following are epilepsy studies that apply to particular groups within the Seizure Tracker™ population. Click a title to expand its details.
STARS
The STARS study is searching for people who experience prolonged epileptic seizures (i.e. lasting more than 3 minutes) to join this clinical research study. The STARS Study is testing an inhaler containing an investigational drug that has been designed to potentially stop a prolonged seizure once it has begun.

If you or the person you care for are experiencing prolonged seizures, consider participating in the STARS study.

For more study information, please contact an experienced Patient Navigator at +1 470-523-2502.
Tuberous Sclerosis Alliance
The TSC Biosample Repository stores samples of blood, DNA, and tissues from individuals affected by TSC that scientists can use in their research. The samples we collect are linked to clinical data in the TSC Natural History Database. These samples and linked clinical data help researchers conduct experiments to find biomarkers of TSC, test potential drug treatments, and determine why TSC is so different from person to person.

Implemented in 2006, the TSC Natural History Database captures clinical data to document the impact of the disease on a person’s health over his or her lifetime. More than 2,000 people with TSC are enrolled in the project across 18 U.S.-based clinical sites and the TSC Alliance. The TSC Alliance provides funding to participating clinics to perform data entry, monitors the integrity of the database, and makes data available to investigators to answer specific research questions and identify potential participants for clinical trials and studies.
Description: Study design is a Phase IIb prospective multi-center, randomized, placebo-controlled, double-blind clinical trial. The goal will be to enroll 80 infants with Tuberous Sclerosis Complex who are less than 6 months of age prior to the onset of their first seizure.
Some of the listings above may be sponsored content. All listings will pertain to some part of the Seizure Tracker™ population. Feel free to reach out to us if you think there is a research study that should be featured here.

Search Results (279)

All studies below are either currently recruiting or will be soon.
Seizure Identification on the Intensive Care Unit (ICU)
Brief Summary: The aim of this project is to assess the ability of different groups of National Heath Service (NHS) professionals to correctly identify clinical seizures, and distinguish them from other movements commonly seen in the ICU environment, when shown digital video recordings only. Patients on the ICU are at risk of having seizures, however also commonly make other movements, including shivering, jerking, tics and tremors. An Electroencephalogram (EEG) records the brain wave activity and can help distinguish epileptic seizures from other movements. In a study by Bendadis et al (2010), 52 video-EEGs were reviewed containing "possible seizures" on the ICU. They found only 27% recorded actual epileptic events, with the other 73% having a range of other movements. Malone et al (2009) studied accuracy of diagnosis of 20 video recordings of clinical episodes on the neonatal unit, comparing different staff groups. They found no significant difference between Doctors and Nurses in correctly identifying seizures, however found that accuracy of diagnosis was generally poor. Clinical scientists are currently expanding their roles and responsibilities across Neurophysiology, including giving consultant-level advice on EEG investigations. EEG recordings on the ICU are often obscured by excessive, unavoidable electrical/movement artefacts caused by equipment such ventilators and pumps, and patient factors such as position, breathing artefact and suctioning. These make the EEG difficult to interpret (Boggs 2021). Assessing the clinical signs and symptoms which we may see in ICU patients, in the absence of interpretable EEG, is an essential skill. This study aims to assess Clinical Scientists skills at clinical interpretation, in comparison with other staff groups in the ICU setting. Staff will be asked to watch video clips of events captured in the ICU, and tell us whether they think they are seizures or not, and explain their thought process behind the decision.
ClinicalTrials.gov  
Connectivity and Neural Signatures of Consciousness in Unresponsive States
Brief Summary: The CONSCIUS study is a prospective, interventional study including patients with acute brain injury and impaired consciousness implanted with intracranial electrodes. The aim of the study is to investigate seizures and thalamocortical neural dynamics underlying behavioral unresponsiveness.
ClinicalTrials.gov  
Transcranial Electric Stimulation Therapy (TEST) for Treatment Resistant Depression (TRD)
Brief Summary: Background: People with TRD are often helped by electroconvulsive therapy (ECT). But ECT can affect memory and thinking. Researchers want to study a treatment called TEST that uses less electricity. Objective: To study the safety and feasibility of TEST and assess its antidepressant effects. Eligibility: Adults aged 25-64 with major depression that has not been relieved by current treatments. Design: Participants will be admitted to the NIH Clinical Center for 5 18 weeks over 2 3 treatment phases. Their medications may be adjusted. Participants will be interviewed about their depression, side effects, and other treatments they are receiving. They will complete questionnaires. They will give blood and urine samples. Their brain waves and heart rhythm will be recorded. They will take tests of memory, attention, mental functioning, and thinking. Participants will have magnetic resonance imaging (MRI) scans of the head and brain. They will lie on a table that slides in and out of the scanner. Pictures of brain chemicals will also be taken. They may complete tasks during the MRI. Participants will receive TEST and/or sham treatments. They may receive optional ECT. An intravenous catheter will be placed in an arm vein to receive general anesthesia. Two electrodes will be placed on the front of their head. An electric current will be passed from the ECT machine through the electrodes. For sham treatments, they will not receive the electric current. Their breathing, heart rate, brain function, blood pressure, and body movements will be measured. Participants will have 7 follow-up visits over 6 months. Visits can be done via telehealth. Participation will last for up to 42 weeks.
ClinicalTrials.gov  
Low Amplitude Pulse Seizure Therapy Versus Standard Ultra-Brief Right Unilateral Electroconvulsive Therapy
Brief Summary: This protocol proposes an initial randomized clinical trial that includes all patients with suicidal ideation (SI) at baseline, and with SI as the primary outcome measure to examine whether Right Unilateral Low-Amplitude Pulse - Seizure Therapy (RUL LAP-ST) treatment has more magnitude and rate of remission of SI as conventional pulse amplitude Right Unilateral Electroconvulsive Therapy (RUL ECT) (based on our prior secondary analysis). Our central hypothesis is that RUL LAP-ST has significantly less cognitive/memory side effects (no memory side effects were noted in our prior studies for 500mA and 600mA) and thus is more favorable in terms of side effects compared to RUL conventional pulse amplitude ECT, while maintaining better anti-suicidal effect.
ClinicalTrials.gov  
Genotype, Phenotype, and Disease Progression of Developmental Epileptic Encephalopathy With Onset Before 2 Years of Age
Brief Summary: According to estimates by the World Health Organization in 2019, more than 50 million people around the world have epilepsy. Nearly 80% of patients with epilepsy live in developing countries. Among them, children under 2 years old are the group with the highest incidence of epilepsy, and at the same time, the most dangerous epilepsy groups are also likely to start at these ages. World medical literature on epileptic encephalopathy and early-onset development before 2 years of age records that 71% of children have severe intellectual disability and 60% of children show signs of autism spectrum disorder, of which Children with epileptic and developmental encephalopathy due to genetic causes are at higher risk of developing neurodevelopmental disorders than children with epileptic and developmental encephalopathy due to other causes. However, in Vietnam, there is no research on this topic. The question is what are the phenotypes, genotypes, and progression after 2 years of follow-up of Vietnamese children with epileptic and developmental encephalopathy with onset before 2 years of age?
ClinicalTrials.gov  
Effect of Febrile Convulsion Training on Anxiety and Knowledge
Brief Summary: The research will be conducted to determine the effect of the training given to parents/caregivers on their knowledge, attitudes, practices and anxiety towards preventing febrile seizures in children. The research will be carried out as a randomised controlled experimental design in the Pediatric Emergency Department of Zeynep Kamil Women's and Children's Diseases Training and Research Hospital between October 2024 and October 2025.
ClinicalTrials.gov  
ADH1 and ADH2 Disease Monitoring Study (DMS)
Brief Summary: A global, multi-center, Disease Monitoring Study (DMS) in participants with Autosomal Dominant Hypocalcemia Type 1 (ADH1) or Autosomal Dominant Hypocalcemia Type 2 (ADH2) designed to characterize ADH1 and ADH2 disease presentation and progression through retrospective (past) and longitudinal prospective (over time into the future) data collection.
ClinicalTrials.gov  
Clinical Trial of Vormatrigine in Adult Patients With Epilepsy
Brief Summary: Open Label Extension Clinical Trial of Vormatrigine in Adult Patients with Epilepsy
ClinicalTrials.gov  
Why Participate in Clinical Trials?
  • The treatments for seizures will not improve without patients participating in research.
  • Clinical trials help us understand if a promising new medication or device is safe.
  • Participating in a research study may give you access to a therapy not available to others with epilepsy.
  • Clinical trials not only research medication, they can also focus on disease prevention and quality of life.
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