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Active clinical trials for "Malformations of Cortical Development"

Results 1-10 of 11

Fenfluramine for the Treatment of Different Types of Developmental and Epileptic Encephalopathies:...

Refractory EpilepsySYNGAP1 Encephalopathy4 more

This study is a pilot non-controlled clinical trial with adjunctive fenfluramine for the treatment of five different types of developmental and epileptic encephalopathies (DEEs) focused on epileptic and "non-epileptic outcomes": SYNGAP1 and STXBP1 encephalopathies, inv-dup(15) encephalopathy, multifocal or bilateral malformations of cortical development, and continuous spikes and waves during sleep. The main goal is to assess changes in seizure frequency comparing before and after treatment with fenfluramine in five specific types of developmental and epileptic encephalopathies (DEEs). Secondary objectives of this study are the analysis of changes in seizure intensity and duration, and "non-epileptic outcomes" such as variations in cognitive activity, level of alertness, impulsivity/self-control, gait stability and other alterations that might be detected during the interview and physical examination.

Recruiting35 enrollment criteria

Mos-FED (Mosaicism in Focal Epilepsy Cortical Dysplasia Tissue)

Focal Cortical DysplasiaEpilepsy

Focal cortical dysplasia (FCD) is a malformation of brain development, the most common cause of drug-resistant epilepsy and often caused by mutations in mammalian target of rapamycin (mTOR) pathway genes. Patients with FCD develop drug-resistant seizures. This study will look at FCD tissue removed during epilepsy surgery and aims to detect mutations in mTOR pathway genes in brain cells. Secondly, the investigators will establish if evidence of mutations found in brain cells can also be detected as circulating free DNA (cfDNA) in blood. By looking at which genes are made into proteins in individual cells found in epilepsy surgical tissue (single cell expression profiling),the investigators will attempt to identify new genetic targets in FCD. The main outcome will be finding new causes of epilepsy with FCD and the development of new diagnostic and screening tools.

Recruiting9 enrollment criteria

Genetic and Electrophysiologic Study in Focal Drug-resistant Epilepsies

Refractory Focal EpilepsyFocal Cortical Dysplasia3 more

Brain somatic mutations in genes belonging to the mTOR signaling pathway are a frequent cause of cortical malformations, including focal cortical dysplasia or hemimegalencephaly. The present study aims to search for brain somatic mutations in paired blood-brain samples and perform functional validation in children with drug-resistant focal epilepsy

Recruiting6 enrollment criteria

Evaluating Dietary Intervention Before surgicaL Treatment for Epilepsy

Cortical Dysplasia

The investigators are undertaking the first European Randomised Controlled Trial (RCT) for epilepsy surgery in children with FCD type II, to prospectively evaluate the role of the KD prior to surgery in improving seizure outcome. The investigators will evaluate the role of KD as a disease-modifying treatment to achieve seizure control and improve neurodevelopment and quality of life. Children age 3 - 15 years with pharmacoresistant epilepsy believed to be the result of focal cortical dysplasia type II, considered to be surgically treatable, will be randomised to either receive 6m treatment presurgery with a ketogenic diet, or to proceed direct to surgery (no pretreatment). Primary outcome will be the time to achieve a period of 6 months of seizure freedom from the date of randomisation. Tissue resected at surgery will also be evaluated with regard to the degree of any methylation of DNA.

Terminated8 enrollment criteria

A Study Investigating the Anti-epileptic Efficacy of Afinitor (Everolimus) in Patients With Refractory...

Epilepsy and Focal Cortical Dysplasia II

This is a prospective, randomized, double-blind, placebo-controlled cross over study designed to evaluate the efficacy and safety of everolimus (trough 5-15 ng/mL) given as adjunctive therapy in patients with focal cortical dysplasia type II who already failed more than two antiepileptic drugs and surgery. This study will assess the impact of everolimus to placebo on seizure frequency in focal cortical dysplasia type II. The number of patients who experience seizure reduction of 50% or more will be counted during last 4 weeks of each core phase.

Completed20 enrollment criteria

A Pilot Study To Evaluate The Effects of Everolimus on Brain mTOR Activity and Cortical Hyperexcitability...

EpilepsyTuberous Sclerosis Complex1 more

The purpose of this study is to measure if the drug called Everolimus effects mTOR signaling (an electrical activity signal in the brain) in patients with Tuberous Sclerosis Complex (TSC) and Focal Cortical Dysplasia (FCD) with treatment resistant epilepsy (TRE) who will be undergoing brain surgery. One group of patients will be treated with Everolimus, and another will not. Researchers will determine if there is a difference in mTOR signaling between the patients who were treated with Everolimus and those who were not. Previous studies have suggested that Everolimus may reduce seizure activity in TSC patients by decreasing mTOR signaling. Since patients with FCD may also have excess mTOR signaling brain activity, Everolimus may also reduce seizure activity in these patients. The drug Everolimus is approved by the Food and Drug Administration to treat specific types of breast, pancreatic, and kidney cancer, a kidney tumor called an angiomyolipoma (common in patients with TSC), and TSC patients who have a brain tumor called a subependymal giant cell astrocytoma (SEGA). However, in this research it is considered to be an investigational since it is not approved for reduction in mTOR signaling and a decrease in seizure frequency. Researchers believe that Everolimus may be useful in reducing something called cortical hyperexcitability, which is the excess brain activity that can contribute to seizures.

Completed17 enrollment criteria

Normative Brain Volume Profiles From Multicenter Fetal MRI

Cortical Development MalformationMultiparametric Magnetic Resonnance Imaging3 more

Fetal brain MRI is an essential diagnostic tool to inform parents about the prognosis of abnormalities detected on routine ultrasound. Recent work has shown that brain MRI measurements at the antenatal stage are predictive of the child's postnatal development. However, this work remains limited to basic research, in part because of the lack of normative curves of brain tissue volume evolution from fetal MRI acquired in clinical routine. This project aims to fill this gap. For this purpose, the project will exploit fetal MRI scans acquired in 4 French hospitals (Marseille, Nice, Montpellier and Paris): MRI scans without abnormalities will be centralized for analysis, and families who have undergone these scans will be contacted to evaluate the development of their children after birth. Normative curves will be established by applying a set of treatments developed by the laboratory in Marseille collaborating in the project. Ultimately, these curves will help to clarify the diagnosis of fetuses by providing a quantitative characterization of the normality of brain measurements.

Not yet recruiting13 enrollment criteria

Biomarkers for Tuberous Sclerosis Complex (BioTuScCom)

Hypomelanotic MaculesFacial Angiofibroma7 more

International, multicenter, observational, longitudinal study to identify biomarker/s for Tuberous Sclerosis Complex and to explore the clinical robustness, specificity, and long´-term variability of these biomarker/s

Terminated6 enrollment criteria

Use of a Tonometer to Identify Epileptogenic Lesions During Pediatric Epilepsy Surgery

EpilepsyFocal Cortical Dysplasia9 more

Refractory epilepsy, meaning epilepsy that no longer responds to medication, is a common neurosurgical indication in children. In such cases, surgery is the treatment of choice. Complete resection of affected brain tissue is associated with highest probability of seizure freedom. However, epileptogenic brain tissue is visually identical to normal brain tissue, complicating complete resection. Modern investigative methods are of limited use. An important subjective assessment during surgery is that affected brain tissue feels stiffer, however there is presently no way to determine this without committing to resecting the affected area. It is hypothesized that intra-operative use of a tonometer (Diaton) will identify abnormal brain tissue stiffness in affected brain relative to normal brain. This will help identify stiffer brain regions without having to resect them. The objective is to determine if intra-operative use of a tonometer to measure brain tissue stiffness will offer additional precision in identifying epileptogenic lesions. In participants with refractory epilepsy, various locations on the cerebral cortex will be identified using standard pre-operative investigations like magnetic resonance imagin (MRI) and positron emission tomography (PET). These are areas of presumed normal and abnormal brain where the tonometer will be used during surgery to measure brain tissue stiffness. Brain tissue stiffness measurements will then be compared with results of routine pre-operative and intra-operative tests. Such comparisons will help determine if and to what extent intra-operative brain tissue stiffness measurements correlate with other tests and help identify epileptogenic brain tissue. 24 participants have already undergone intra-operative brain tonometry. Results in these participants are encouraging: abnormally high brain tissue stiffness measurements have consistently been identified and significantly associated with abnormal brain tissue. If the tonometer adequately identifies epileptogenic brain tissue through brain tissue stiffness measurements, it is possible that resection of identified tissue could lead to better post-operative outcomes, lowering seizure recurrences and neurological deficits.

Withdrawn3 enrollment criteria

Determining the Extent of Diffusion Tensor Abnormalities in Focal Cortical Dysplasia

Focal Cortical DysplasiaEpilepsy

Focal cortical dysplasia (FCD) is a common finding in epilepsy surgery in pediatric patients. Children with intractable epilepsy would have extensive tests to identify the cause of epilepsy; this includes MR brain, video EEG and magnetoencephalography (MEG). The white matter next to FCD is frequently found to be abnormal on pathology. Diffusion tensor imaging (DTI) can be used to study the abnormal white matter and the area that often extends beyond the area that is visible.

Completed2 enrollment criteria
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