Active clinical trials for "Epilepsy"

The overall goal of this study is to elucidate how emotion network dynamics relate to the behavioral, autonomic, and experiential changes that accompany emotions and to investigate how emotion network dysfunction relates to affective symptoms. Affective symptoms are a common feature of neuropsychiatric disorders that reflect dysfunction in a distributed brain network that supports emotion. How aberrant functioning in a single emotion network underlies a wide range of affective symptoms, such as depression and anxiety, is not well understood. Anchored by the anterior cingulate cortex and ventral anterior insula, the emotion network responds to numerous affective stimuli. The recording of neural activity directly from the cortical surface from individuals is a promising approach since intracranial electroencephalography (iEEG) can provide direct estimates of neuronal populations to map the spatiotemporal dynamics of the emotion network at a millisecond level resolution. This study will exam how activity within emotion network hubs changes during emotions and how emotion network properties make some individuals more vulnerable to affective symptoms than others. A multidisciplinary approach is critical for understanding the dynamic brain network to advance neuroanatomical models of emotions and for guiding the development of novel treatments for affective symptoms.

Previously, scholars called the seizures secondary to autoimmune encephalitis（AE） "autoimmune related epilepsy", but the seizures secondary to AE are usually controlled after the improvement of encephalitis, which does not meet the "persistent" characteristics of epilepsy. Only a subset of patients with seizures lasting several years require long-term Antiseizure medications (ASM). In 2020, the International Coalition against Epilepsy classified it as "acute symptomatic seizure secondary to AE". ASSAE) and autoimmune-associated epilepsy (AAE) . The former is caused by AE, which has clinical manifestations of AE at the same time as epileptic seizures at the beginning or recurrence. The proportion and type of epileptic seizures are different due to different causes, and epileptic seizures are also controlled after the disease is controlled. The latter is that after adequate immunotherapy, there are still persistent seizures, and there is no obvious evidence of inflammatory activity, this type of patient application ASM and immunotherapy is not effective. Secondly, with the deepening of AE research, gradually found that some AAE can still be ASMs cure, such as carbamazepine, ocasepine, lakaosamine. On the one hand, it works by influencing cellular and humoral immune responses. On the other hand, effectiveness of sodium channel blockers in focal epilepsy. Lacosamide is a slow sodium channel blocker that belongs to the third generation of ASM. It has a short half-life and can be quickly increased to an effective dose with a low incidence of adverse reactions. Therefore, the investigators chose to add oral antiepileptic therapy with lacosamide in AAE populations to observe efficacy and safety.

The objective of this study is to use high-frequency brain signals (HFBS) to localize functional brain areas and to characterize HFBS epilepsy, migraine and other brain disorders. We hope to build the world's first high-frequency MEG/MEG/ECoG/SEEG database for the developing brain. HFBS include high-gamma activation/oscillations, high-frequency oscillations (HFOs), ripples, fast ripples, and very high frequency oscillations (VHFOs) in the brain. To reach the goals, we have developed several new MEG/EEG methods: (1) accumulated spectrogram; (2) accumulated source imaging; (3)frequency encoded source imaging; (4) multi-frequency analysis; (5)artificial intelligence detection of HFOs; (6) Neural network analysis (Graph Theory); and (7) others (e.g. ICA, virtual sensors).

This research is being done to evaluate the short term and long term effects of ketogenic diets on measures of cardiovascular health. Such measures include cholesterol levels, blood pressure, weight, and thickening of the blood vessel wall over time. Adults aged 18 or older who are already on a ketogenic diet for at least 12 months or who are interested in beginning on the modified Atkins diet may join.

Pilot studies in healthy volunteers and in patients with epilepsy to assess the potential efficacy and safety of different dosages of vinpocetine in improving cognition.

To test whether measures of cortical excitability derived from motor cortex transcranial magnetic stimulation (TMS) in patients with traumatic brain injury reflect heightened excitability relative to healthy controls and whether such measures can be used to distinguish patients with post-traumatic epilepsy from patients with head trauma but no epilepsy

The goal of this observational study is to learn about the impact of the diabetes drug glibenclamide (glyburide) on neurodevelopment in individuals with iDEND (developmental delay, epilepsy and neonatal diabetes) due to the V59M mutation in the KCNJ11 gene. The main question it aims to answer is whether initiating sulphonylurea (SU) therapy in the first 6 months of life results in better neurodevelopmental outcomes in affected individuals, in comparison to starting therapy later than 6 months of age. Participants will undergo a neurodevelopmental assessment comprising parental and teacher completion of standardised questionnaires, and where possible face to face neuropsychological testing. Researchers will compare the outcomes of these standardised tests in the individuals who started SU therapy <6 months of age in comparison to those who started >6 months of age.

A prospective prevalence study recorded that up to 50% of adult patients with newly diagnosed epilepsy had at least one cognitive impairment before initiation of antiepileptic drug (AED). Multiple factors exist and interact in the same patient. Cognitive impairments may affect psychiatric (loss of self-esteem, anxiety, depression) and social status (e.g., vocational aptitude, educational). These factors in turn influence cognitive abilities in a triangular and bidirectional relationship. In addition, the type of epilepsy, development in childhood or cerebral ageing, antiepileptic treatments (AED, surgery) and etiology also have an impact on cognitive performances. The burden of these factors differs from patient to another and must be determined individually. Longitudinal follow-up seems to be crucial because it will allow us to highlight the change in the cognitive profile of newly diagnosed patients over time. The main objective is to compare the prevalence of cognitive impairment in patients with newly diagnosed epilepsy prior to the initiation of AED with healthy subjects matched on age, sex, manual laterality and socio-educational level. But also to compare the longitudinal evolution of the cognitive profile of patients with healthy controls (0 to 10 years) to determine, among the age of onset seizures, their etiology, the syndrome, the sex, the socio-educational level and the cognitive reserve, which one are related to the severity of cognitive disorders.

Multicentre cross-sectional study with prospective recruitment comparing the detection rate of lesions on brain MRI without and with quantitative volumetry and T1 relaxometry information during the management of children with suspected focal epilepsy.

The aim of the study is to use multiparametric cardiac MRI to identify any abnormalities in myocardial structure and function in patients with epilepsy. A two-stage study design is planned as part of the study: In the acute setting, cardiac MRI will be performed in patients before and after a tonic-clonic seizure and compared intraindividually. In this study arm, potential acute seizure-induced myocardial damage will be detected. In the chronic setting, cardiac MRI will be performed in patients with known chronic epilepsy during the seizure-free interval to detect potential chronic myocardial damage (myocardial fibrosis) and compared with a control population. Within the group of epilepsy patients, possible associations with various epilepsy-specific characteristics (e.g., form, cause, onset, duration, and severity of epilepsy) will be investigated.