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Showing 1-20 of 59 trials
NCT06388707
This will be a prospective, open-label, single-arm, multi-center, pilot study to evaluate the safety, tolerability, and preliminary efficacy of low-intensity focused ultrasound (LIFU) neuromodulation using NaviFUS System in patients with drug-resistant unilateral or bilateral temporal lobe epilepsy (DR-TLE).
NCT06015672
This study aims to investigate the impact of accelerated transcranial magnetic stimulation (TMS) on brain function and behavior in patients with focal hand dystonia. Previous research demonstrated that individualized TMS improved dystonic behavior after one session. Building on this, the current study administers four TMS sessions in a day, with assessments conducted in four weeks, twelve weeks, and 20 weeks after each session. The research involves 8 in-person and 6 virtual visits focused on functional MRI brain scans and writing behavior analysis. The potential risk of seizures from TMS is mitigated through careful screening, adhering to safety guidelines. The study's main benefit is enhancing dystonic behavior and deepening the understanding of brain changes caused by TMS in focal hand dystonia, paving the way for further advancements in clinical therapy for this condition.
NCT07219407
This is a clinical research study for an investigational drug called RAP-219 in patients with Refractory Focal Epilepsy. This study is being conducted to determine RAP-219 Long- term safety and open-label antiseizure activity in patients with Refractory Focal Epilepsy.
NCT03268824
Focal epilepsy is associated with widespread alterations in structural brain connectivity, often present at the disease onset and related to learning disabilities. Whether ongoing seizure activity contributes to network pathology is a matter of debate. This study intends to measure the impact of seizures on structural connectivity on a local and on a global level. In children examined with intracerebral electrodes to evaluate whether a surgical cure can be proposed, we combine intracerebral stereotactic electroencephalography (EEG) recordings with diffusion weighted imaging of white matter fibers. On the local level, the study will quantify the number of deficient connections in the seizure onset zone. On a global level, the study will compare the white matter fibers of the left and right hemisphere to probe whether physiological language lateralization is preserved.
NCT07309133
The goal of this clinical trial is to learn whether local field potential (LFP) signals recorded from the globus pallidus interna (GPi) using the Medtronic Percept™ deep brain stimulation (DBS) device can help optimize DBS programming for people with dystonia. The study will also explore whether LFP patterns can serve as a biomarker of disease activity and predict treatment response. The main questions it aims to answer are: Do LFP peaks in the alpha-theta range reliably correlate with dystonia severity and clinical characteristics? Can LFP-based programming achieve similar or better clinical outcomes compared to traditional programming methods? How do LFP profiles change with stimulation and other treatments such as botulinum toxin or oral medications? Researchers will compare two programming approaches: Traditional programming based on clinical assessment and imaging. LFP-guided programming based on the site and characteristics of LFP peaks Participants will: Undergo DBS surgery for dystonia as part of standard clinical care. Attend regular follow-up visits for DBS programming and outcome assessments. Complete clinical rating scales for dystonia severity, quality of life, cognition, and mood. Take part in neurophysiological assessments, including surface EMG, EEG, and reaction time tasks. Have LFP recordings collected using the Medtronic Percept™ device during clinic visits and, where possible, at home using device sensing features. This study will help determine whether LFP analysis can shorten the time to optimal DBS settings and improve outcomes for people with dystonia.
NCT05505500
Researchers from the University of Michigan and Northwestern University are studying people's experiences with swelling caused by Nephrotic Syndrome. Interviews with patients (child and adult) and parents of young children will be conducted. The information collected from the interviews will be used to develop a survey to use when testing new medications for Nephrotic Syndrome. Please consider participating in a 1-hour long interview with the Prepare-NS research study to discuss children and adults experiences with swelling.
NCT04340362
This study will evaluate the efficacy, safety and pharmacokinetics (PK) of VX-147 in participants with apolipoprotein L1 (APOL1)-mediated focal segmental glomerulosclerosis (FSGS).
NCT03949972
In a monocentric, later multicentric prospective approach the FOrMe registry (The German Focal Segmental Glomerulosclerosis and Minimal Change Disease Registry) aims to generate a longitudinal cohort of 150 pediatric cases of idiopathic nephrotic syndrome and 350 adult cases of biopsy-proven Minimal Change Disease (MCD) or Focal and Segmental Glomerular Sclerosis (FSGS) over 10 years. The registry will provide a repository for biomaterials such as blood samples, DNA, urine, feces, and tissue biopsies that will be accessible to collaborators to facilitate future research on pathogenesis, diagnostics, and treatment.
NCT04983888
The purpose of this study is to evaluate the safety and efficacy of Obinutuzumab in inducing complete or partial remission of proteinuria.
NCT05738226
The goal of this clinical trial is to validate a wearable seizure monitoring device, EpiCare@Home, as an objective seizure monitoring tool for people with focal onset epileptic seizures. The device continuously records brain, cardiorespiratory, and physical activity data. The study aims to 1) collect benchmark data for seizure detection algorithm development and validation, and 2) evaluate the performance of the device in clinical and at home workflows. Participants will wear the device during a routine Epilepsy Monitoring Unit (EMU) admission. Additionally, they can continue wearing the device at home after the EMU admission.
NCT03428009
The purpose of this study is to (1) investigate the effect of known dystonia-causing mutations on brain structure and function, to (2) identify structural brain changes that differ between clinical phenotypes of dystonia, and to (3) collect DNA, detailed family history, and clinical phenotypes from patients with idiopathic dystonia with the goal of identifying new dystonia-related genes. Investigators will be recruiting both healthy control subjects and subjects with any form of dystonia. For this study there will be a maximum of two study visit involving a clinical assessment, collection of medical and family history, task training session, an MRI using the learned tasks, and finally a blood draw for genetic analysis. In total, these visits will take 3-5 hours. If the dystonia subjects receive botulinum toxin injections for treatment, the participants and their matched controls will be asked to come for a second visit.
NCT05015868
Patients with cryptogenic focal epilepsy (unknown cause) represent about the 30% of the entire population of epilepsy patients. Among them, about 30% are drug-resistant. The implementation of of high-field magnetic resonance imaging resolution, the new Next Generation Sequencing techniques,and innovative non-invasive neurophysiological methods (Electroencephalogram-Functional magnetic resonance imaging and High Density-Electroencephalogram) could provide a superior identification of the epileptogenic zone and therefore an increased access to epilepsy surgery. Despite this, patients with cryptogenic epilepsy require more frequently invasive methods of presurgical study and they have more unfavorable results than patients with lesions detectable on magnetic resonance imaging. Within this context, the study is aimed at integrating the neurophysiological, radiological, neuropsychological and genetic aspects of patients with focal cryptogenic epilepsy in order to evaluate their surgical eligibility,sparing invasive methods.
NCT06466135
This is an adaptive prospective, multi-center, randomized, double-blind, placebo-controlled study to evaluate the safety, efficacy, pharmacokinetics, and pharmacodynamics of WAL0921 in subjects with glomerular kidney disease and proteinuria, including diabetic nephropathy and rare glomerular kidney diseases (primary focal segmental glomerulosclerosis \[FSGS\], treatment-resistant minimal change disease \[TR MCD\], primary immunoglobulin A nephropathy \[IgAN\], and primary membranous nephropathy \[PMN\]). Subjects in this study will be randomized to receive the investigational drug WAL0921 or placebo as an intravenous infusion once every 2 weeks for 7 total infusions. All subjects will be followed for 24 weeks after their last infusion.
NCT05032105
The purpose of this study is to evaluate the feasibility, safety, and effects on anxiety of high intensity focused ultrasound ablation (FUSA) in patients suffering from treatment-refractory focal epilepsy and anxiety. FUSA is a non-invasive neurosurgical procedure that uses ultrasound waves, sent directly through the scalp and skull, to precisely target small abnormal areas of the brain. For this study, the targeted area of the brain is the anterior nucleus of the thalamus. This brain region may cause seizures and may also be involved in anxiety. The study will test if FUSA is safe and tolerated, and if it reduces anxiety and brain response to threat in patients with anxiety receiving the procedure for partial-onset epilepsy that is resistant to medications.
NCT04457687
The primary purpose of this study is to provide continued access of lorcaserin to participants with Dravet syndrome and other refractory epilepsies.
NCT01313260
Surgery may be an effective therapy for refractory focal epilepsies with a clear delineated focus but surgical benefits are less clear for patients with a poorly defined focus such as non lesional refractory partial epilepsies. SEEG is considered the criterion standard to localize the epileptogenic zone (EZ) but the procedure is risky with a limited spatial sampling. The development of non-invasive neuroimaging alternatives is thus an important goal to improve EZ delineation and optimize SEEG procedures. The main hypothesis of this research project is the existence of a network organization specific for each patient which allows the generation and propagation of epileptic activities. The investigators wish to explore this network using diffusion tensor MRI to study structural connectivity and MEG/FMRI to study functional connectivity. The investigators will apply tools from the theories of complex networks and dynamical systems to characterize the network organization of epileptic process. The investigators aimed to identify and localize differences in connectivity parameters between individual patients and a control group of healthy volunteers.
NCT05605756
The purpose of this research is to determine whether BOTOX injections will reduce seizure frequency and severity. We chose to test its effects on epilepsy because epilepsy and migraine have common features so, are often treated with common drugs.
NCT06638827
The goal of this clinical trial is to examine the overall efficiency of Bilateral Thoracoscopic Sympathectomy on the permanent reduction of Primary focal hyperhidrosis of predilective parts of the body, palms, armpits, face, and soles.
NCT05419180
This is a monocentric, open-label clinical study, presenting a retrospective part and a prospective part, studying the data of patients with drug-resistant focal epilepsies and treated with the combination of stiripentol (Diacomit®) and Carbamazepine.
NCT03054961
The purpose of this pilot study is to describe the relationship of regional cerebral oximetry and cytoximetry, measured using near-infrared spectroscopy, with seizure activity in the periictal period in children with epilepsy.