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 (278)

All studies below are either currently recruiting or will be soon.
Human Thalamus in Propagation of Temporal Lobe Seizures and Memory Formation
Brief Summary: The goal of the study is to examine how two key subregions of the human thalamus (ANT and PLV) are connected with other brain structures (Aim 1), how seizures involve the two thalamic subregions differently and how the map of cortico-thalamic ictal propagation matches the intrinsic connectivity maps identified in the same individuals (Aim 2), and the effect of ANT and PLV stimulations on memory formation (Aim 3).
ClinicalTrials.gov  
Quantitative Susceptibility Biomarker and Brain Structural Property for Cerebral Cavernous Malformation Related Epilepsy
Brief Summary: Cerebral cavernous malformation (CCM)-related epilepsy (CRE) impairs the quality of life in patients with CCM. Patients could not always achieve seizure freedom after surgical resection of the lesion, suggesting an inadequate treatment and evaluation of the epileptogenic zone or network. Iron deposition in cerebral cavernous malformations has been postulated to play an important role in triggering CRE. Quantitative susceptibility mapping (QSM), as an optimal in vivo imaging technique to quantify iron deposition, is employed to analyze the iron quantity in CCM patients with epilepsy and further combined with brain structural and connectome analysis, to describe the difference between CCMs with and without epilepsy. In vivo biomarkers predicting CRE risk in CCM natural history and CRE control outcome after CCM surgical resection will be further identified to improve management strategy.
ClinicalTrials.gov  
Improving Diagnostics and Care After First Seizure
Brief Summary: A first epileptic seizure is a distressing experience, often leading to a complicated and discouraging journey before an epilepsy diagnosis is confirmed. Early diagnostics can help alleviate this uncertainty. It is important to note that seizure mimics and suspected epilepsy are more frequently encountered than an actual first diagnosis of epilepsy or an epileptic seizure. Conversely, delays in diagnosing epilepsy are also common. The current evidence base on first events that may be epileptic remains limited. First seizure clinics, which provide specialized care for these cases, are becoming more common globally, but none have yet been established in Norway. There is a pressing need to assess the prevalence of first-seizure-like events in Bergen and the surrounding areas, as well as to investigate the clinical trajectory before and after an epilepsy diagnosis. EEG is the cornerstone of diagnostic testing for epilepsy after first seizure, and recent advancements have introduced artificial intelligence to enhance the accuracy of EEG-based epilepsy identification. The investigators will identify in one year around 200 hospital-handled patients who had had an episode that may be epileptic. Patient will be followed up over two years, with data abstracted from the medical record regarding seizure diagnosis, new events, new brain-related diagnoses and complications. Data will also be gathered from government databases in primary and secondary care regarding complications from seizure, new brain-related diagnoses, new brain-related medications, sickness absence and income. For children, school absence days will be collected. The investigators will identify the incidence of first seizure and new-onset epilepsy, and and which care pathways most patients with suspected first seizure go through. The investigators will study the role of early EEG to reduce diagnostic uncertainty, and compare conventional EEG interpretation with AI-assisted interpretation for diagnostic precision. The investigators will study the trajectory of anxiety, quality of life and complications with record linkage for epilepsy-relevant outcomes. A broad scope of complications will be studied, including job or school absence, driving license status, injuries in primary or secondary care, and new brain-related diagnoses. This study will gather important data to gauge potential gaps and improvements in care in early epilepsy, of relevance to patients in Bergen, Norway and the developed part of the world. Particulary novel aspects are an evaluation of the SCORE AI model for EEG analysis, and linking to a spectrum of government databases on work participation, primary care and specialty care on complications of first seizure and/or early epilepsy.
ClinicalTrials.gov  
Clinical Profile And Outcomes Of Neonatal Convulsions In The Neonatal Intensive Care Unit At Assiut University Children's Hospital
Brief Summary: Neonatal convulsions are seizures that occur during the first 28 days of a newborn's life. They are considered a medical emergency and often indicate an underlying problem in the brain, such as lack of oxygen at birth, infections, metabolic disturbances, or structural abnormalities. Many seizures in newborns are subtle and difficult to detect without careful clinical assessment. This study aims to determine how often neonatal convulsions occur among newborns admitted to the Neonatal Intensive Care Unit (NICU) at Assiut University Children Hospital. It will describe how affected newborns present clinically, identify the main causes, and evaluate the early outcomes during hospitalization. The study is designed as a prospective cohort study. Newborns aged 0-30 days who are diagnosed with neonatal convulsions will be enrolled and followed throughout their stay in the NICU. Each patient will undergo full clinical evaluation and standard laboratory and imaging investigations, including blood tests, neuroimaging, and other tests as clinically indicated. The findings of this study will provide updated local data on the incidence, causes, and outcomes of neonatal convulsions in our region. This information may help improve early diagnosis, guide appropriate treatment, and enhance the quality of neonatal care.
ClinicalTrials.gov  
Evaluating the Clinical Effectiveness of a Community-based Hearing Aid Fitting Service Delivery Model Facilitated by Community Healthcare Workers (CHWs) Providing Smartphone-based In-situ and Pre-set Hearing Aid Fittings in Low- and Middle-income Communities (LMICs)
Brief Summary: The purpose of this study is to advance hearing care in low- and middle-income countries (LMICs) through the rigorous evaluation and optimization of innovative interventions and technologies. This study encompasses the following key aim: This study aims to establish the effectiveness of community-based hearing aid fittings facilitated by community healthcare workers (CHWs) using mobile health (mHealth) technologies in low- and middle-income communities (LMICs). The primary goal is to determine the efficacy of CHW-facilitated smartphone-based in-situ hearing aid (HA) fittings (a proprietary fitting based on the NAL-NL2 algorithm) and pre-set HAs fittings compared to minimal amplification through a single-blind randomized controlled trial (RCT). By comparing self-reported benefits between the experimental and control groups, this aim seeks to demonstrate the superiority of the CHW-facilitated smartphone-based and pre-set hearing aid fittings compared to minimal amplification.
ClinicalTrials.gov  
A Dose Escalation Study of Levetiracetam in the Treatment of Neonatal Seizures
Brief Summary: The main purpose of this study is to determine the maximum safe tolerated dose of LEV in the treatment of neonatal seizures. Our hypothesis is that optimal dosing of Levetiracetam (LEV) to treat neonatal seizures is significantly greater than 60mg/kg. This study will be an open label dose-escalation, preliminary safety and efficacy study. There will be a randomized control treatment component. Infants recognized as having neonatal seizures or as being at risk of developing seizures will be recruited and started on continuous video EEG monitoring (CEEG). Eligibility will be confirmed and consent will be obtained. In the first 2 phases of the study, neurologists will identify neonates with mild-moderate seizure burden (less than 8 minutes cumulative seizure activity per hour), appropriate for study with LEV, and exclude patients with higher seizure burden where treatment with PHB is more appropriate. Phase 3 of the dose escalation will only proceed if additional efficacy of LEV has been demonstrated in phases 1 and 2. In Phase 3 we will recruit neonates with seizures of greater severity up to 30 minute seizure burden/hour. This will make the final results of study more generalizable. If seizures are confirmed, enrolled subjects will receive 60mg/kg of LEV. Subjects whose seizures persist or recur 15 minutes after the first infusion is complete, subjects will then be randomized in the dose escalation study. Patients in the dose escalation study will be randomly assigned to receive either higher dose LEV or treatment with the control drug PHB in a 3:1 allocation ratio, stratified by site. Funding Source- FDA OOPD
ClinicalTrials.gov  
Impact of an Information Sheet Given to Parents After an Initial Consultation for a Simple Febrile Seizure at Strasbourg University Hospital
Brief Summary: Simple febrile seizures (SFS) are a very common phenomenon (2-5% of children), mostly without serious consequences for the child or their development, but extremely anxiety-provoking for parents, who develop a "fear of fever" for fear of a recurrence, and request numerous additional tests, not justified according to current guidelines, after a first episode of SFS. Educating parents about these fever-related crises and fever management, and standardizing the information provided through an explanatory sheet implemented at the SAUP in July 2023, would help reduce consultations for recurrent simple febrile crises, as well as early consultations for isolated fever (reflecting parental anxiety caused by these crises).
ClinicalTrials.gov  
ADIE-FS - Aligning Dimensions of Interoceptive Experience in Patients With Functional Seizures
Brief Summary: Functional seizures are common and harmful. They look like epileptic seizures but are not caused by the excess electrical discharges in the brain that arise in epilepsy. Our understanding of the mechanisms that give rise to functional seizures is limited, and for this reason the development of novel treatments for functional seizures is also limited. Recent research by our and other groups has shown that interoception may play an important role in the development of functional seizures. Interoception refers to the process by which the nervous system senses, interprets and integrates information from inside the body. Research has shown that altered interoception is linked to functional seizures. We have shown that patients with functional seizures have a reduced ability to accurately identify signals from within their bodies, such as their heartbeats. The worse their ability, the greater their seizure severity and higher their levels of other unwanted symptoms. In separate research other groups have shown that interoceptive training, that is actively training an individual to better recognise signals from their body, can reduce levels of anxiety and the levels of unwanted symptoms. In this study we therefore plan to explore the feasibility of interoceptive training in patients with functional seizures.
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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