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.
Pulvinar Stimulation in Epilepsy: a Pilot Study
Brief Summary: Deep brain stimulation (DBS) is one of the neuromodulation techniques that can be indicated in patients suffering from refractory epilepsies, especially when an open resection has failed or is not indicated, and vagal nerve stimulation (VNS) demonstrated no efficacy. Benefits such as reduction of seizure frequency have been shown for thalamic stimulation of the anterior thalamic nucleus (ANT), however it has limited efficacy and non-optimal neurocognitive outcome, making the search for other targets crucial in this context. We propose a novel target for DBS stimulation in drug-resistant epilepsy namely the medial pulvinar thalamic nucleus (PuM). This target has been chosen based on previous retrospective studies demonstrating that PuM is involved during focal seizures and in loss of consciousness and seizure termination. PuM stimulation also showed potential encouraging results based on the feasibility and safetu studies recently published. The main objective is to obtain a significant percentage of seizure reduction after 12 months of PuM stimulation compared to baseline period. Quality of life and the relationship with psychiatric and cognitive comorbidities will also be assessed.
ClinicalTrials.gov  
Ketamine for the Treatment of Refractory Status Epilepticus
Brief Summary: This pilot feasibility study aims to examine how the timing of ketamine introduction as a third-line anti-seizure medication infusion relates to seizure cessation in patients with refractory status epilepticus (RSE).
ClinicalTrials.gov  
A Study to Investigate LP352 in Children and Adults With Developmental and Epileptic Encephalopathy (DEE)
Brief Summary: This (DEEp OLE Study) is a multicentre, open-label study to investigate the long-term safety, efficacy, tolerability, and pharmacokinetics (PK) of LP352 in the treatment of seizures in children and adults with DEE who completed Study LP352-301 or LP352-302. The study consists of 3 main phases: Screening, Titration period and Maintenance period, followed by a Taper period and Follow-Up. The total duration of the study will be approximately 14 months.
ClinicalTrials.gov  
Exogenous Ketone Esters for Refractory Status Epileptics
Brief Summary: This study aims to investigate the efficacy of add-on exogenous ketone esters for the treatment of children with refractory generalized convulsive status epilepticus
ClinicalTrials.gov  
Criteria for Advanced Prosthetic Foot Prescription
Brief Summary: The purpose of this study is to develop criteria for prosthetic foot prescription for Veterans and Service Members with transtibial limb loss. The objectives are to: 1) Determine the appropriate functional outcome tests and measures to support the prescription of a type of Energy Storing and Returning (ESR) non-articulating, articulating or active plantarflexion prosthetic ankle-foot for a Veteran or Service Member with transtibial limb loss. 2) Correlate patient goals and subjective measures with objective data to determine the appropriate prosthetic ankle-foot category that will facilitate the greatest overall function to the user. 3) Develop criteria for the appropriate prescription of non-articulating ESR, articulating ESR, and active plantar flexion ESR ankle-foot units.
ClinicalTrials.gov  
A Basket Clinical Study to Assess Glycerol Tributyrate in Patients With Mitochondrial Encephalopathy, Lactic Acidosis, Stroke-like Episodes (MELAS) or Leber's Hereditary Optic Neuropathy-Plus (LHON-Plus)
Brief Summary: This is a parallel arm non-randomized dose-escalation, open-label basket exploratory phase 1 clinical trial where Mitochondrial encephalopathy, lactic acidosis, stroke-like episodes (MELAS) and Leber's hereditary optic neuropathy-Plus (LHON-Plus) participants will undergo simultaneous enrollment in two disease-based arms and receive daily oral doses of glycerol tributyrate to assess its safety and potential for efficacy using clinical, biochemical, and molecular evidence. This study will utilize a two-month baseline lead-in phase to establish and document the clinical baseline for each participant in both arms in order to compare the molecular and clinical parameters. This is clinically relevant in light of the high clinical heterogeneity among subjects affected by the same mitochondrial disease (MELAS or LHON-Plus). For ethical concerns prompted by the lack of treatment for these two intractable and progressive mitochondrial diseases, there will not be a placebo control group. Thus, each participant will act as their own control and receive oral doses of glycerol tributyrate, eliminating the need for a placebo. Considering the high clinical heterogeneity among participants affected by MELAS or LHON-Plus and some clinical divergence between MELAS and LHON-Plus, this strategy is beneficial to every enrolled participants, as each will receive the investigational drug, glycerol tributyrate. In addition, this approach will determine the subject-specific maximal optimized dose in a personalized medicine-based approach. After approval of the IRB protocol from the Institutional Review Board Data and signed consent form from all participants, this investigational basket clinical trial has three phases spanning over 20 months: * A baseline lead-in phase (2 months) to collect participant-specific baseline for clinical, biochemical, molecular and metabolic biomarkers that will be monitored throughout the subsequent dose-escalation and clinical phases. * A dose-escalation phase (6 months) to determine the participant-specific maximum tolerated dose (MTD) during which participant-specific clinical and biochemical biomarkers are collected every month. * A clinical phase at a fixed subject-specific MTD dose (12 months) to collect participant-specific clinical, biochemical, molecular and metabolic biomarkers and to perform three scheduled skin biopsies: at the outset, mid-point, and the end of this clinucal phase. We have planned for a 12-month-long clinical phase at a fixed participant-specific MTD considering the absence of reliable predictors that makes idiosyncratic disease-specific symptoms for MELAS and LHON-Plus impossible to forecast among participant for assessing the potential efficacy of glycerol tributyrate by monitoring clinical symptoms specific for each disease. During the 12-month-long time-frame, disease-specific clinical symptoms will be collected as preliminary evidence of efficacy of glycerol tributyrate using disease-specific biomarkers. Finally, discharge procedure during which the clinical investigator will record non-serious adverse events or serious adverse events for 7 or 30 days, respectively, after the last day of study participation.
ClinicalTrials.gov  
OASIS: RetrOspective Analysis on EEGs for Identifying Seizure Susceptibility in paediatrIcs Using biomarkerS
Brief Summary: The goal of this retrospective study is to validate a set of computational biomarkers (BioEP) for seizure susceptibility on retrospective routinely collected non-contributory EEGs in paediatric participants with epilepsy. The main objectives are: Primary: To validate a set of computational biomarkers (BioEP) for seizure susceptibility on retrospective routinely collected non-contributory EEGs in paediatric participants with epilepsy. Secondary: To examine whether the use of BioEP could support a more efficient patient pathway to diagnosis (thus adding economic value), by reducing time to final diagnosis and/or the number of clinical appointments needed
ClinicalTrials.gov  
Evaluation of the Epilepsy-related Quality of Life, Seizure-related Accidents and Validation of the Mjn-SERAS Solution in the Normalised Patient Environment with Real-World Data
Brief Summary: The study will be prospective, multicentre, postmarketing clinical study, with a controlled and randomized design, to perform the analysis of 130 subjects with a clinical diagnosis of epilepsy, patients whose clinical semiology of their epilepsy is considered to be of interest for the validation in the day-to-day life a medical device (mjn-SERAS), which has already been validated and certified in Europe with CE mark Class IIa. This new validation will take place in the participant's normalised environment, in individuals between 12 and 65 years of age, of both sexes with a diagnosis of drug-resistant epilepsy to determine the impact in quality of life of the mjn-SERAS on the early detection of epileptic seizures and the generation of a pre-seizure alert with a time window of a minimum of 1 minute.
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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